peer-review
БесплатноЗапускает вложенные скриптыНе проверенStructured manuscript/grant review with checklist-based evaluation. Use when writing formal peer reviews with specific criteria methodology assessment, statisti
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Scientific Critical Evaluation and Peer Review
Overview
Peer review is a systematic process for evaluating scientific manuscripts. Assess methodology, statistics, design, reproducibility, ethics, and reporting standards. Apply this skill for manuscript and grant review across disciplines with constructive, rigorous evaluation.
When to Use This Skill
This skill should be used when:
- Conducting peer review of scientific manuscripts for journals
- Evaluating grant proposals and research applications
- Assessing methodology and experimental design rigor
- Reviewing statistical analyses and reporting standards
- Evaluating reproducibility and data availability
- Checking compliance with reporting guidelines (CONSORT, STROBE, PRISMA)
- Providing constructive feedback on scientific writing
Related Resource: The venue-templates skill provides reviewer_expectations.md with detailed guidance on what reviewers look for at different venues (Nature/Science, Cell Press, medical journals, ML conferences). Use this to calibrate your review standards to the target venue.
Visual Enhancement with Scientific Schematics
When creating documents with this skill, always consider adding scientific diagrams and schematics to enhance visual communication.
If your document does not already contain schematics or diagrams:
- Use the scientific-schematics skill to generate AI-powered publication-quality diagrams
- Simply describe your desired diagram in natural language
- Nano Banana Pro will automatically generate, review, and refine the schematic
For new documents: Scientific schematics should be generated by default to visually represent key concepts, workflows, architectures, or relationships described in the text.
How to generate schematics:
python scripts/generate_schematic.py "your diagram description" -o figures/output.png
The AI will automatically:
- Create publication-quality images with proper formatting
- Review and refine through multiple iterations
- Ensure accessibility (colorblind-friendly, high contrast)
- Save outputs in the figures/ directory
When to add schematics:
- Peer review workflow diagrams
- Evaluation criteria decision trees
- Review process flowcharts
- Methodology assessment frameworks
- Quality assessment visualizations
- Reporting guidelines compliance diagrams
- Any complex concept that benefits from visualization
For detailed guidance on creating schematics, refer to the scientific-schematics skill documentation.
Peer Review Workflow
Conduct peer review systematically through the following stages, adapting depth and focus based on the manuscript type and discipline.
Stage 1: Initial Assessment
Begin with a high-level evaluation to determine the manuscript's scope, novelty, and overall quality.
Key Questions:
- What is the central research question or hypothesis?
- What are the main findings and conclusions?
- Is the work scientifically sound and significant?
- Is the work appropriate for the intended venue?
- Are there any immediate major flaws that would preclude publication?
Output: Brief summary (2-3 sentences) capturing the manuscript's essence and initial impression.
Stage 2: Detailed Section-by-Section Review
Conduct a thorough evaluation of each manuscript section, documenting specific concerns and strengths.
Abstract and Title
- Accuracy: Does the abstract accurately reflect the study's content and conclusions?
- Clarity: Is the title specific, accurate, and informative?
- Completeness: Are key findings and methods summarized appropriately?
- Accessibility: Is the abstract comprehensible to a broad scientific audience?
Introduction
- Context: Is the background information adequate and current?
- Rationale: Is the research question clearly motivated and justified?
- Novelty: Is the work's originality and significance clearly articulated?
- Literature: Are relevant prior studies appropriately cited?
- Objectives: Are research aims/hypotheses clearly stated?
Methods
- Reproducibility: Can another researcher replicate the study from the description provided?
- Rigor: Are the methods appropriate for addressing the research questions?
- Detail: Are protocols, reagents, equipment, and parameters sufficiently described?
- Ethics: Are ethical approvals, consent, and data handling properly documented?
- Statistics: Are statistical methods appropriate, clearly described, and justified?
- Validation: Are controls, replicates, and validation approaches adequate?
Critical elements to verify:
- Sample sizes and power calculations
- Randomization and blinding procedures
- Inclusion/exclusion criteria
- Data collection protocols
- Computational methods and software versions
- Statistical tests and correction for multiple comparisons
Results
- Presentation: Are results presented logically and clearly?
- Figures/Tables: Are visualizations appropriate, clear, and properly labeled?
- Statistics: Are statistical results properly reported (effect sizes, confidence intervals, p-values)?
- Objectivity: Are results presented without over-interpretation?
- Completeness: Are all relevant results included, including negative results?
- Reproducibility: Are raw data or summary statistics provided?
Common issues to identify:
- Selective reporting of results
- Inappropriate statistical tests
- Missing error bars or measures of variability
- Over-fitting or circular analysis
- Batch effects or confounding variables
- Missing controls or validation experiments
Discussion
- Interpretation: Are conclusions supported by the data?
- Limitations: Are study limitations acknowledged and discussed?
- Context: Are findings placed appropriately within existing literature?
- Speculation: Is speculation clearly distinguished from data-supported conclusions?
- Significance: Are implications and importance clearly articulated?
- Future directions: Are next steps or unanswered questions discussed?
Red flags:
- Overstated conclusions
- Ignoring contradictory evidence
- Causal claims from correlational data
- Inadequate discussion of limitations
- Mechanistic claims without mechanistic evidence
References
- Completeness: Are key relevant papers cited?
- Currency: Are recent important studies included?
- Balance: Are contrary viewpoints appropriately cited?
- Accuracy: Are citations accurate and appropriate?
- Self-citation: Is there excessive or inappropriate self-citation?
Stage 3: Methodological and Statistical Rigor
Evaluate the technical quality and rigor of the research with particular attention to common pitfalls.
Statistical Assessment:
- Are statistical assumptions met (normality, independence, homoscedasticity)?
- Are effect sizes reported alongside p-values?
- Is multiple testing correction applied appropriately?
- Are confidence intervals provided?
- Is sample size justified with power analysis?
- Are parametric vs. non-parametric tests chosen appropriately?
- Are missing data handled properly?
- Are exploratory vs. confirmatory analyses distinguished?
Experimental Design:
- Are controls appropriate and adequate?
- Is replication sufficient (biological and technical)?
- Are potential confounders identified and controlled?
- Is randomization properly implemented?
- Are blinding procedures adequate?
- Is the experimental design optimal for the research question?
Computational/Bioinformatics:
- Are computational methods clearly described and justified?
- Are software versions and parameters documented?
- Is code made available for reproducibility?
- Are algorithms and models validated appropriately?
- Are assumptions of computational methods met?
- Is batch correction applied appropriately?
Stage 4: Reproducibility and Transparency
Assess whether the research meets modern standard
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FAQ
Что делает скилл peer-review?
Structured manuscript/grant review with checklist-based evaluation. Use when writing formal peer reviews with specific criteria methodology assessment, statistical validity, reporting standards compliance (CONSORT/STROBE), and constructive feedback. Best for actual review writing, manuscript revision. For evaluating claims/evidence quality use scientific-critical-thinking; for quantitative scoring frameworks use scholar-evaluation.
Как установить скилл peer-review?
Скопируй папку скилла в ~/.claude/skills (вкладка Claude Code выше делает это одной командой), либо поставь как плагин.
Скилл peer-review запускает скрипты?
Да, скилл несёт исполняемые скрипты. Проверь исходник перед установкой.
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