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source_a0a396ee625e4327
sha256 0446e31944da8137d21b541acb5d4845b2e5dedacf723dbe4f09a9778d9aacbb
by researka:v2 · 2026-06-10 21:39:02.590418+04:00
**Selected angle:** `source` ## One-sentence thesis Across 5 direct receipts sharing MedQA as the evaluation shape and accuracy as the metric, GRAG, LLaMA, RAG report comparable performance against MedQA benchmark baselines. Reported values include 20%, 5%, 6.9%, 69.68%, 72%. **Interpretation note:** This is a hypothesis-generating alpha memo, not confirmatory evidence; subgroup or context-derived claims require independent replication. ## Why this is surprising The signal is bounded to MedQA accuracy: the receipts are comparable because they share the benchmark/task/metric shape, even though individual systems may differ. ## Evidence Landscape **Bounded research question:** Do independent direct receipts on MedQA continue to support a signal on accuracy for the cited systems when comparators are kept explicit? ## Evidence receipts - `fact_id=206648` (`A_core`) — Experiments on medical question answering dataset (MedQA), medical multi-choice question answering (MedMCQA), and a self-constructed RareDisease-MedQuAD subset show that GRAG outperforms baseline models by approximately 10-12% in accuracy, r doi=10.54097/vee3xx26 - `fact_id=206220` (`A_core`) — Evaluated on MedMCQA and MedQA-USMLE benchmarks using GPT-oss 21B and LLaMA 4Scout 17B base models without fine-tuning, the MCP-based multiagent framework achieves approximately 5% accuracy improvement (71-75%) over single-agent baselines ( doi=10.1109/ccwc67433.2026.11393764 - `fact_id=205791` (`A_core`) — The experimental results show that RAG-Chain improves the accuracy of the baseline model by an average of 6.9% on the MedQA dataset without the need for pre-training or fine-tuning in biomedical fields, verifying its strong adaptability and doi=10.1109/bibm62325.2024.10822837 - `fact_id=204751` (`A_core`) — Notably, our zero-shot i-MedRAG outperforms all existing prompt engineering and fine-tuning methods on GPT-3.5, achieving an accuracy of 69.68% on the MedQA dataset. doi=10.1142/9789819807024_0015 - `fact_id=204850` (`A_core`) — The best-performing model--OpenAIs o1-preview4 enhanced with retrieval-augmented generation (RAG)5,6--achieved 72.00% accuracy on MRCOG Part 2 and 92.30% on MedQA, exceeding prior benchmarks by 21.6%1. doi=10.1101/2025.05.22.25328162 ## What this changes Treat this as a benchmark-shaped evidence bundle, not a broad claim about the whole topic. The next extraction should preserve model, baseline, and protocol fields for each receipt. ## Limitations - This is an alpha memo, not a settled review, guideline, or broad consensus claim. - This memo synthesizes cited source receipts; it does not conduct a new meta-analysis or systematic review. - Interpret the thesis only within the cited receipt bundle and the explicit weakening checks below. - Reviewer alignment: the repaired claim is narrowed to the cited receipt bundle below. - Independent receipts fail to reproduce the claimed contrast. - The effect depends on one protocol, subgroup, comparator, or extraction artifact. ## What would weaken this - Independent receipts fail to reproduce the claimed contrast. - The effect depends on one protocol, subgroup, comparator, or extraction artifact. ## Strongest counter-evidence - `fact_id=205791` (`A_core`) — The experimental results show that RAG-Chain improves the accuracy of the baseline model by an average of 6.9% on the MedQA dataset without the need for pre-training or fine-tuning in biomedical fields, verifying its strong adaptability and Source: A Novel RAG Framework with Knowledge-Enhancement for Biomedical Question Answering - `fact_id=206220` (`A_core`) — Evaluated on MedMCQA and MedQA-USMLE benchmarks using GPT-oss 21B and LLaMA 4Scout 17B base models without fine-tuning, the MCP-based multiagent framework achieves approximately 5% accuracy improvement (71-75%) over single-agent baselines ( Source: Quality Outweighs Quantity: Advancing Medical Question Answering with RAG-MCP Multi-Agent LLM Framework and Curated Knowledge Databases
metadata
{
"article_type": "alpha_memo",
"domain_slug": "ai_research",
"researka_object_type": "submission",
"researka_submission_id": "14130546-5a47-408f-a9d7-6e155559bd50",
"title": "Retrieval augmented: MedQA accuracy is the shared direct-receipt signal"
}