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Does Albutrepenonacog alfa and Levosalbutamol interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Levosalbutamol may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Liothyronine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Liothyronine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Lisinopril interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Lisinopril may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Lithium carbonate interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. The affected drug is a narrow therapeutic index drug that undergoes renal excretion as its main elimination pathway: a change in serum concentration may significantly elevate the risk of developing drug-related adverse effects. In short, Albutrepenonacog alfa may decrease the excretion rate of Lithium carbonate which could result in a higher serum level, and the severity of the interaction is moderate.

Does Albutrepenonacog alfa and Lithium citrate interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Lithium citrate may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Lixisenatide interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Lixisenatide may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Lofexidine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Lofexidine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Lorazepam interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Lorazepam may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Lornoxicam interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Lornoxicam may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Loxoprofen interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Loxoprofen may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Lubiprostone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Lubiprostone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Macitentan interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Macitentan may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Magnesium carbonate interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Magnesium carbonate may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Magnesium chloride interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Magnesium chloride may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Magnesium hydroxide interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Magnesium hydroxide may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Magnesium trisilicate interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Magnesium trisilicate may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Mangafodipir interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Mangafodipir may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Mannitol interact?

The subject drug induces diuresis1,2, which can theoretically increase the excretion rate of the affected drug, which is eliminated by the kidneys. Additionally, it could affect renal tubular reabsorption of certain drugs. Exposure to the affected drug can be markedly reduced, leading to subtherapeutic drug levels that are unlikely to elicit an adequate clinical response. In short, Mannitol may increase the excretion rate of Albutrepenonacog alfa which could result in a lower serum level and potentially a reduction in efficacy, and the severity of the interaction is moderate.

Does Albutrepenonacog alfa and Maprotiline interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Maprotiline may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Mecamylamine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Mecamylamine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Meclofenamic acid interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Meclofenamic acid may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Medroxyprogesterone acetate interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Medroxyprogesterone acetate may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Mefenamic acid interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Mefenamic acid may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Megestrol acetate interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Megestrol acetate may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Meloxicam interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Meloxicam may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Memantine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Memantine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Menadione interact?

Antifibrinolytic agents prevent the breakdown of blood clots or thrombus. Blood coagulation factors promote the blood coagulation pathways to ultimately form the insoluble fibrin clot. Co-administration of an antifibrinolytic agent and blood coagulation factor may result in an additive thrombogenic effect and an increased risk of acquiring thrombotic disorders, such as pulmonary embolism, venous thrombosis, and arterial thrombosis. In short, Menadione may increase the thrombogenic activities of Albutrepenonacog alfa, and the severity of the interaction is major.

Does Albutrepenonacog alfa and Meperidine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Meperidine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Mepivacaine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Mepivacaine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Meropenem interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Meropenem may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Mesalazine interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Mesalazine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Metamfetamine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Metamfetamine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Metamizole interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Metamizole may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Metaxalone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Metaxalone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Metformin interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Metformin may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Methadone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Methadone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Methazolamide interact?

The subject drug induces diuresis1,2, which can theoretically increase the excretion rate of the affected drug, which is eliminated by the kidneys. Additionally, it could affect renal tubular reabsorption of certain drugs. Exposure to the affected drug can be markedly reduced, leading to subtherapeutic drug levels that are unlikely to elicit an adequate clinical response. In short, Methazolamide may increase the excretion rate of Albutrepenonacog alfa which could result in a lower serum level and potentially a reduction in efficacy, and the severity of the interaction is moderate.

Does Albutrepenonacog alfa and Methimazole interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Methimazole may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Methotrexate interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Methotrexate may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Methoxsalen interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Methoxsalen may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Methyldopa interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Methyldopa may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Methylene blue interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Methylene blue may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Methylnaltrexone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Methylnaltrexone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Methyltestosterone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Methyltestosterone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Metoclopramide interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Metoclopramide may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Metolazone interact?

The subject drug induces diuresis1,2, which can theoretically increase the excretion rate of the affected drug, which is eliminated by the kidneys. Additionally, it could affect renal tubular reabsorption of certain drugs. Exposure to the affected drug can be markedly reduced, leading to subtherapeutic drug levels that are unlikely to elicit an adequate clinical response. In short, Metolazone may increase the excretion rate of Albutrepenonacog alfa which could result in a lower serum level and potentially a reduction in efficacy, and the severity of the interaction is moderate.

Does Albutrepenonacog alfa and Metoprolol interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Metoprolol may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Metyrapone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Metyrapone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Midazolam interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Midazolam may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Migalastat interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Migalastat may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Milnacipran interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Milnacipran may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Milrinone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Milrinone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Mirabegron interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Mirabegron may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Mycophenolate mofetil interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Mycophenolate mofetil may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Mycophenolic acid interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Mycophenolic acid may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nabumetone interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Nabumetone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nadolol interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nadolol may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nadroparin interact?

Blood coagulation factors promote the blood coagulation pathways to ultimately form the insoluble fibrin clot. In contrast, fibrinolytic agents activate the fibrinolytic system by conversion of the inactive proenzyme, plasminogen into the active enzyme plasmin, that degrades fibrin to break down the insoluble clot [A38173]. Desired procoagulant effects of blood coagulation factors may be reduced with the combination use of fibrinolytic agents. In short, The therapeutic efficacy of Albutrepenonacog alfa can be decreased when used in combination with Nadroparin, and the severity of the interaction is major.

Does Albutrepenonacog alfa and Naldemedine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Naldemedine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nalmefene interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nalmefene may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Naloxone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Naloxone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Naproxen interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Naproxen may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nateglinide interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nateglinide may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nedocromil interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nedocromil may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nefazodone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nefazodone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Neomycin interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. The affected drug is a narrow therapeutic index drug that undergoes renal excretion as its main elimination pathway: a change in serum concentration may significantly elevate the risk of developing drug-related adverse effects. In short, Albutrepenonacog alfa may decrease the excretion rate of Neomycin which could result in a higher serum level, and the severity of the interaction is moderate.

Does Albutrepenonacog alfa and Netilmicin interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. The affected drug is a narrow therapeutic index drug that undergoes renal excretion as its main elimination pathway: a change in serum concentration may significantly elevate the risk of developing drug-related adverse effects. In short, Albutrepenonacog alfa may decrease the excretion rate of Netilmicin which could result in a higher serum level, and the severity of the interaction is moderate.

Does Albutrepenonacog alfa and Nicorandil interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nicorandil may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nifedipine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nifedipine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nilutamide interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nilutamide may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nimesulide interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Nimesulide may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nisoldipine interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nisoldipine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nitric Oxide interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nitric Oxide may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nitrofurantoin interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nitrofurantoin may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Nitroprusside interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Nitroprusside may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Octinoxate interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Octinoxate may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Olsalazine interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Olsalazine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Opium interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Opium may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Oseltamivir interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Oseltamivir may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Oxacillin interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Oxacillin may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Oxaprozin interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Oxaprozin may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Oxazepam interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Oxazepam may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Oxybenzone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Oxybenzone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Paliperidone interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Paliperidone may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Palonosetron interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Palonosetron may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Pamidronic acid interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Pamidronic acid may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Pantoprazole interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Pantoprazole may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Parecoxib interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Parecoxib may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Parnaparin interact?

Blood coagulation factors promote the blood coagulation pathways to ultimately form the insoluble fibrin clot. In contrast, fibrinolytic agents activate the fibrinolytic system by conversion of the inactive proenzyme, plasminogen into the active enzyme plasmin, that degrades fibrin to break down the insoluble clot [A38173]. Desired procoagulant effects of blood coagulation factors may be reduced with the combination use of fibrinolytic agents. In short, The therapeutic efficacy of Albutrepenonacog alfa can be decreased when used in combination with Parnaparin, and the severity of the interaction is major.

Does Albutrepenonacog alfa and Paromomycin interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Paromomycin may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Patent Blue interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Albutrepenonacog alfa may decrease the excretion rate of Patent Blue which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Pemetrexed interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. The affected drug is a narrow therapeutic index drug that undergoes renal excretion as its main elimination pathway: a change in serum concentration may significantly elevate the risk of developing drug-related adverse effects. In short, Albutrepenonacog alfa may decrease the excretion rate of Pemetrexed which could result in a higher serum level, and the severity of the interaction is moderate.

Does Albutrepenonacog alfa and Penbutolol interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Penbutolol may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Pentaerythritol tetranitrate interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Pentaerythritol tetranitrate may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Pentamidine interact?

The subject drug is a nephrotoxic agent that may potentially impair renal function and decrease the excretion of drugs that mainly undergo renal excretion as the principal mode of clearance, such as the affected drug. Attenuated renal excretion of the affected drug may increase drug concentrations, leading to an elevated risk for drug-related adverse effects. In short, Pentamidine may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Pentetic acid interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Albutrepenonacog alfa may decrease the excretion rate of Pentetic acid which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Pentobarbital interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Pentobarbital may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.

Does Albutrepenonacog alfa and Pentosan polysulfate interact?

Blood coagulation factors promote the blood coagulation pathways to ultimately form the insoluble fibrin clot. In contrast, fibrinolytic agents activate the fibrinolytic system by conversion of the inactive proenzyme, plasminogen into the active enzyme plasmin, that degrades fibrin to break down the insoluble clot [A38173]. Desired procoagulant effects of blood coagulation factors may be reduced with the combination use of fibrinolytic agents. In short, The therapeutic efficacy of Albutrepenonacog alfa can be decreased when used in combination with Pentosan polysulfate, and the severity of the interaction is major.

Does Albutrepenonacog alfa and Pentostatin interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. The affected drug is a narrow therapeutic index drug that undergoes renal excretion as its main elimination pathway: a change in serum concentration may significantly elevate the risk of developing drug-related adverse effects. In short, Albutrepenonacog alfa may decrease the excretion rate of Pentostatin which could result in a higher serum level, and the severity of the interaction is moderate.

Does Albutrepenonacog alfa and Pentoxifylline interact?

The renal excretion of drugs is the overall result of a combination of kidney processes that include glomerular filtration, passive diffusion, tubular secretion, and tubular reabsorption. Since two of these mechanisms - tubular secretion and reabsorption - are saturable processes , they are consequently susceptible to competition between multiple substrates excreted by the kidneys. If two or more medications that are mainly renally excreted are co-administered, they may compete for renal elimination; there is a large likelihood that one agent may "out-compete" or saturate the renal excretion mechanisms before the other concomitantly administered agent(s) are excreted. As a result, the elimination of these other concurrently administered agents may be inhibited or otherwise delayed, which could lead to increases in their serum concentrations and the risk, incidence, and/or severity of adverse effects associated with the exposure to such drugs. In short, Pentoxifylline may decrease the excretion rate of Albutrepenonacog alfa which could result in a higher serum level, and the severity of the interaction is minor.