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metadata
base_model: meta-llama/Meta-Llama-3-70B-Instruct
tags:
  - llama-3
  - llama
  - Mixtral
  - instruct
  - finetune
  - chatml
  - DPO
  - RLHF
  - gpt4
  - distillation
  - heathcare
  - medical
  - clinical
  - med
  - lifescience
  - Pharmaceutical
  - Pharma
model-index:
  - name: OpenBioLLM-70B
    results: []
license: llama3
language:
  - en
widget:
  - example_title: OpenBioLLM-70B
    messages:
      - role: system
        content: >-
          You are an expert and experienced from the healthcare and biomedical
          domain with extensive medical knowledge and practical experience.
      - role: user
        content: How long does it take for newborn jaundice to go away?
    output:
      text: >-
        Newborn jaundice, also known as neonatal jaundice, is a common condition
        in newborns where the yellowing of the skin and eyes occurs due to an
        elevated level of bilirubin in the blood. Bilirubin is a yellow pigment
        that forms when red blood cells break down. In most cases, newborn
        jaundice resolves on its own without any specific treatment.

        The duration of newborn jaundice can vary depending on several factors
        such as the underlying cause, gestational age at birth, and individual
        variations in bilirubin metabolism. Here are some general guidelines:

        1. Physiological jaundice: This is the most common type of newborn
        jaundice and usually appears within 24-72 hours after birth. It tends to
        peak between the second and fifth day of life and gradually improves
        over the next week or two. By the time the baby is one week old, the
        jaundice should have mostly resolved. 2. Breast milk jaundice: This type
        of jaundice occurs in breastfed babies and may appear later than
        physiological jaundice, typically between the fifth and fourteenth day
        of life. It tends to persist for a longer duration but usually resolves
        within six weeks after birth. 3. Pathological jaundice: This type of
        jaundice is less common and occurs due to an underlying medical
        condition that affects bilirubin metabolism or liver function. The
        duration of pathological jaundice depends on the specific cause and may
        require treatment.

        It's important for parents to monitor their newborn's jaundice closely
        and seek medical advice if the jaundice progresses rapidly, becomes
        severe, or is accompanied by other symptoms such as poor feeding,
        lethargy, or excessive sleepiness. In these cases, further evaluation
        and management may be necessary. Remember that each baby is unique, and
        the timing of jaundice resolution can vary. If you have concerns about
        your newborn's jaundice, it's always best to consult with a healthcare
        professional for personalized advice and guidance.

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Advancing Open-source Large Language Models in Medical Domain

OpenChat Logo Online Demo | GitHub Logo GitHub | ArXiv Logo Paper | Discord Logo Discord

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Introducing OpenBioLLM-70B: A State-of-the-Art Open Source Biomedical Large Language Model

OpenBioLLM-70B is an advanced open source language model designed specifically for the biomedical domain. Developed by Saama AI Labs, this model leverages cutting-edge techniques to achieve state-of-the-art performance on a wide range of biomedical tasks.

πŸ₯ Biomedical Specialization: OpenBioLLM-70B is tailored for the unique language and knowledge requirements of the medical and life sciences fields. It was fine-tuned on a vast corpus of high-quality biomedical data, enabling it to understand and generate text with domain-specific accuracy and fluency.

πŸŽ“ Superior Performance: With 70 billion parameters, OpenBioLLM-70B outperforms other open source biomedical language models of similar scale. It has also demonstrated better results compared to larger proprietary & open-source models like GPT-4, Gemini, Meditron-70B, Med-PaLM-1 & Med-PaLM-2 on biomedical benchmarks.

🧠 Advanced Training Techniques: OpenBioLLM-70B builds upon the powerful foundations of the Meta-Llama-3-70B-Instruct and Meta-Llama-3-70B-Instruct models. It incorporates the DPO dataset and fine-tuning recipe along with a custom diverse medical instruction dataset. Key components of the training pipeline include:

This combination of cutting-edge techniques enables OpenBioLLM-70B to align with key capabilities and preferences for biomedical applications.

βš™οΈ Release Details:

  • Model Size: 70 billion parameters
  • Quantization: Optimized quantized versions available Here
  • Language(s) (NLP): en
  • Developed By: Ankit Pal (Aaditya Ura) from Saama AI Labs
  • License: Meta-Llama License
  • Fine-tuned from models: Meta-Llama-3-70B-Instruct
  • Resources for more information:
    • Paper: Coming soon

The model can be fine-tuned for more specialized tasks and datasets as needed.

OpenBioLLM-70B represents an important step forward in democratizing advanced language AI for the biomedical community. By leveraging state-of-the-art architectures and training techniques from leading open source efforts like Llama-3, we have created a powerful tool to accelerate innovation and discovery in healthcare and the life sciences.

We are excited to share OpenBioLLM-70B with researchers and developers around the world.

Use with transformers

Important: Please use the exact chat template provided by Llama-3 instruct version. Otherwise there will be a degradation in the performance. The model output can be verbose in rare cases. Please consider setting temperature = 0 to make this happen less.

See the snippet below for usage with Transformers:

import transformers
import torch

model_id = "aaditya/OpenBioLLM-Llama3-70B"

pipeline = transformers.pipeline(
    "text-generation",
    model=model_id,
    model_kwargs={"torch_dtype": torch.bfloat16},
    device="auto",
)

messages = [
    {"role": "system", "content": "You are an expert and experienced from the healthcare and biomedical domain with extensive medical knowledge and practical experience. Your name is OpenBioLLM, and you were developed by Saama AI Labs. who's willing to help answer the user's query with explanation. In your explanation, leverage your deep medical expertise such as relevant anatomical structures, physiological processes, diagnostic criteria, treatment guidelines, or other pertinent medical concepts. Use precise medical terminology while still aiming to make the explanation clear and accessible to a general audience."},
    {"role": "user", "content": "How can i split a 3mg or 4mg waefin pill so i can get a 2.5mg pill?"},
]

prompt = pipeline.tokenizer.apply_chat_template(
        messages, 
        tokenize=False, 
        add_generation_prompt=True
)

terminators = [
    pipeline.tokenizer.eos_token_id,
    pipeline.tokenizer.convert_tokens_to_ids("<|eot_id|>")
]

outputs = pipeline(
    prompt,
    max_new_tokens=256,
    eos_token_id=terminators,
    do_sample=True,
    temperature=0.0,
    top_p=0.9,
)
print(outputs[0]["generated_text"][len(prompt):])

Training procedure

Training hyperparameters

Click to see details
  • learning_rate: 0.0002
  • lr_scheduler: cosine
  • train_batch_size: 12
  • eval_batch_size: 8
  • GPU: H100 80GB SXM5
  • num_devices: 8
  • optimizer: adamw_bnb_8bit
  • lr_scheduler_warmup_steps: 100
  • num_epochs: 4

Peft hyperparameters

Click to see details
  • adapter: qlora
  • lora_r: 128
  • lora_alpha: 256
  • lora_dropout: 0.05
  • lora_target_linear: true

-lora_target_modules:

  • q_proj
  • v_proj
  • k_proj
  • o_proj
  • gate_proj
  • down_proj
  • up_proj

Training results

Framework versions

  • Transformers 4.39.3
  • Pytorch 2.1.2+cu121
  • Datasets 2.18.0
  • Tokenizers 0.15.1
  • Axolotl
  • Lm harness for evaluation

Benchmark Results

πŸ”₯ OpenBioLLM-70B demonstrates superior performance compared to larger models, such as GPT-4, Gemini, Meditron-70B, Med-PaLM-1 & Med-PaLM-2 across 9 diverse biomedical datasets, achieving state-of-the-art results with an average score of 86.06%, despite having a significantly smaller parameter count. The model's strong performance in domain-specific tasks, such as Clinical KG, Medical Genetics, and PubMedQA, highlights its ability to effectively capture and apply biomedical knowledge.

🚨 The GPT-4, Med-PaLM-1, and Med-PaLM-2 results are taken from their official papers. Since Med-PaLM doesn't provide zero-shot accuracy, we are using 5-shot accuracy from their paper for comparison. All results presented are in the zero-shot setting, except for Med-PaLM-2 and Med-PaLM-1, which use 5-shot accuracy.

Clinical KG Medical Genetics Anatomy Pro Medicine College Biology College Medicine MedQA 4 opts PubMedQA MedMCQA Avg
OpenBioLLM-70B 92.93 93.197 83.904 93.75 93.827 85.749 78.162 78.97 74.014 86.05588
Med-PaLM-2 (5-shot) 88.3 90 77.8 95.2 94.4 80.9 79.7 79.2 71.3 84.08
GPT-4 86.04 91 80 93.01 95.14 76.88 78.87 75.2 69.52 82.85
Med-PaLM-1 (Flan-PaLM, 5-shot) 80.4 75 63.7 83.8 88.9 76.3 67.6 79 57.6 74.7
OpenBioLLM-8B 76.101 86.1 69.829 78.21 84.213 68.042 58.993 74.12 56.913 72.502
Gemini-1.0 76.7 75.8 66.7 77.7 88 69.2 58 70.7 54.3 70.79
GPT-3.5 Turbo 1106 74.71 74 72.79 72.79 72.91 64.73 57.71 72.66 53.79 66
Meditron-70B 66.79 69 53.33 71.69 76.38 63 57.1 76.6 46.85 64.52
gemma-7b 69.81 70 59.26 66.18 79.86 60.12 47.21 76.2 48.96 64.18
Mistral-7B-v0.1 68.68 71 55.56 68.38 68.06 59.54 50.82 75.4 48.2 62.85
Apollo-7B 62.26 72 61.48 69.12 70.83 55.49 55.22 39.8 53.77 60
MedAlpaca-7b 57.36 69 57.04 67.28 65.28 54.34 41.71 72.8 37.51 58.03
BioMistral-7B 59.9 64 56.5 60.4 59 54.7 50.6 77.5 48.1 57.3
AlpaCare-llama2-7b 49.81 49 45.92 33.82 50 43.35 29.77 72.2 34.42 45.36
ClinicalGPT 30.56 27 30.37 19.48 25 24.27 26.08 63.8 28.18 30.52

Detailed Medical Subjectwise accuracy

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Use Cases & Examples

🚨 **Below results are from the quantized version of OpenBioLLM-70B

Summarize Clinical Notes

OpenBioLLM-70B can efficiently analyze and summarize complex clinical notes, EHR data, and discharge summaries, extracting key information and generating concise, structured summaries

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Answer Medical Questions

OpenBioLLM-70B can provide answers to a wide range of medical questions.

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Click to see details

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Clinical Entity Recognition

OpenBioLLM-70B can perform advanced clinical entity recognition by identifying and extracting key medical concepts, such as diseases, symptoms, medications, procedures, and anatomical structures, from unstructured clinical text. By leveraging its deep understanding of medical terminology and context, the model can accurately annotate and categorize clinical entities, enabling more efficient information retrieval, data analysis, and knowledge discovery from electronic health records, research articles, and other biomedical text sources. This capability can support various downstream applications, such as clinical decision support, pharmacovigilance, and medical research.

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Biomarkers Extraction

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Classification

OpenBioLLM-70B can perform various biomedical classification tasks, such as disease prediction, sentiment analysis, medical document categorization

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De-Identification

OpenBioLLM-70B can detect and remove personally identifiable information (PII) from medical records, ensuring patient privacy and compliance with data protection regulations like HIPAA.

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Advisory Notice! 

While OpenBioLLM-70B leverages high-quality data sources, its outputs may still contain inaccuracies, biases, or misalignments that could pose risks if relied upon for medical decision-making without further testing and refinement. The model's performance has not yet been rigorously evaluated in randomized controlled trials or real-world healthcare environments.

Therefore, we strongly advise against using OpenBioLLM-70B for any direct patient care, clinical decision support, or other professional medical purposes at this time. Its use should be limited to research, development, and exploratory applications by qualified individuals who understand its limitations. OpenBioLLM-70B is intended solely as a research tool to assist healthcare professionals and should never be considered a replacement for the professional judgment and expertise of a qualified medical doctor.

Appropriately adapting and validating OpenBioLLM-70B for specific medical use cases would require significant additional work, potentially including:

  • Thorough testing and evaluation in relevant clinical scenarios
  • Alignment with evidence-based guidelines and best practices
  • Mitigation of potential biases and failure modes
  • Integration with human oversight and interpretation
  • Compliance with regulatory and ethical standards

Always consult a qualified healthcare provider for personal medical needs.

Citation

If you find OpenBioLLM-70B & 8B useful in your work, please cite the model as follows:

@misc{OpenBioLLMs,
  author = {Ankit Pal, Malaikannan Sankarasubbu},
  title = {OpenBioLLMs: Advancing Open-Source Large Language Models for Healthcare and Life Sciences},
  year = {2024},
  publisher = {Hugging Face},
  journal = {Hugging Face repository},
  howpublished = {\url{https://huggingface.co/aaditya/OpenBioLLM-Llama3-70B}}
}

The accompanying paper is currently in progress and will be released soon.

πŸ’Œ Contact

We look forward to hearing you and collaborating on this exciting project!

Contributors:

  • Ankit Pal (Aaditya Ura) [aadityaura at gmail dot com]
  • Saama AI Labs
  • Note: I am looking for a funded PhD opportunity, especially if it fits my Responsible Generative AI, Multimodal LLMs, Geometric Deep Learning, and Healthcare AI skillset.

References

We thank the Meta Team for their amazing models!

Result sources