perform-csv-assessment
정보
이 스킬은 GxP 규제 시스템을 대상으로 GAMP 5 방법론을 사용하여 컴퓨터 시스템 밸리데이션(CSV) 평가를 수행합니다. 주요 밸리데이션 작업으로는 위험 평가, 시험 계획 수립(IQ/OQ/PQ), 추적성 매트릭스 작성 등을 처리합니다. 신규 시스템 도입 시, 기존 시스템에 중대한 변경을 가할 때, 또는 필수 재밸리데이션 주기 동안 사용하십시오.
빠른 설치
Claude Code
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문서
Perform CSV Assessment
Conduct Computer Systems Validation assessment using GAMP 5 risk-based methodology for regulated environments.
When Use
- New computerized system being introduced in GxP environment
- Existing validated system undergoing significant change
- Periodic revalidation required
- Regulatory inspection prep demands validation gap analysis
Inputs
- Required: System description (name, purpose, vendor, version)
- Required: Intended use statement and regulatory context (GxP scope)
- Required: GAMP 5 software category (1–5)
- Optional: Existing user requirements specification (URS)
- Optional: Vendor documentation (design specs, release notes, SOPs)
- Optional: Previous validation documentation
Steps
Step 1: Determine GAMP 5 Software Category
Classify the system:
| Category | Type | Example | Validation Effort |
|---|---|---|---|
| 1 | Infrastructure software | OS, firmware | Low — verify installation |
| 3 | Non-configured product | COTS as-is | Low-Medium — verify functionality |
| 4 | Configured product | LIMS with config | Medium-High — verify configuration |
| 5 | Custom application | Bespoke R/Shiny app | High — full lifecycle validation |
Got: Category clearly assigned with rationale documented. If fail: Category ambiguous? Default to higher category, document rationale.
Step 2: Write User Requirements Specification (URS)
Create URS document with numbered requirements:
# User Requirements Specification
## System: [System Name] v[Version]
## Document ID: URS-[SYS]-[NNN]
### 1. Purpose
[Intended use statement]
### 2. Functional Requirements
| ID | Requirement | Priority | Source |
|----|-------------|----------|--------|
| URS-001 | System shall calculate BMI from height and weight inputs | Must | Regulatory SOP-xxx |
| URS-002 | System shall generate audit trail entries for all data changes | Must | 21 CFR 11.10(e) |
| URS-003 | System shall export results in PDF format | Should | User request |
### 3. Non-Functional Requirements
| ID | Requirement | Priority | Source |
|----|-------------|----------|--------|
| URS-010 | System shall respond within 3 seconds for standard queries | Should | Usability |
| URS-011 | System shall restrict access via role-based authentication | Must | 21 CFR 11.10(d) |
### 4. Data Integrity Requirements
[ALCOA+ requirements: Attributable, Legible, Contemporaneous, Original, Accurate]
### 5. Regulatory Requirements
[Specific 21 CFR Part 11, EU Annex 11, or other applicable requirements]
Got: All requirements have unique IDs, priorities, traceability to source. If fail: Flag requirements without clear source or priority for stakeholder review.
Step 3: Perform Risk Assessment
Apply GAMP 5 risk-based approach using Failure Mode and Effects Analysis (FMEA):
# Risk Assessment
## Document ID: RA-[SYS]-[NNN]
| Req ID | Failure Mode | Severity (1-5) | Probability (1-5) | Detectability (1-5) | RPN | Risk Level | Mitigation |
|--------|-------------|----------------|-------------------|---------------------|-----|------------|------------|
| URS-001 | Incorrect BMI calculation | 4 | 2 | 1 | 8 | Low | OQ test case |
| URS-002 | Audit trail entries missing | 5 | 3 | 3 | 45 | High | IQ + OQ + monitoring |
| URS-011 | Unauthorized access | 5 | 2 | 2 | 20 | Medium | OQ test + periodic review |
Risk Priority Number (RPN) = Severity x Probability x Detectability.
| RPN Range | Risk Level | Testing Requirement |
|---|---|---|
| 1–12 | Low | Basic verification |
| 13–36 | Medium | Documented test case |
| 37+ | High | Full IQ/OQ/PQ with retest |
Got: Every URS requirement has corresponding risk assessment row. If fail: Escalate unassessed requirements to validation lead before proceeding.
Step 4: Define Validation Strategy (Validation Plan)
# Validation Plan
## Document ID: VP-[SYS]-[NNN]
### Scope
- System: [Name] v[Version]
- GAMP Category: [N]
- Validation approach: [Prospective / Retrospective / Concurrent]
### Qualification Stages
| Stage | Scope | Applies? | Rationale |
|-------|-------|----------|-----------|
| IQ | Installation correctness | Yes | Verify installation, dependencies, configuration |
| OQ | Operational requirements | Yes | Verify functional requirements from URS |
| PQ | Performance under real conditions | [Yes/No] | [Rationale] |
### Roles and Responsibilities
| Role | Name | Responsibility |
|------|------|---------------|
| Validation Lead | [Name] | Plan, coordinate, approve |
| Tester | [Name] | Execute test scripts |
| System Owner | [Name] | Approve for production use |
| QA | [Name] | Review and sign-off |
### Acceptance Criteria
- All critical test cases pass
- No unresolved critical or major deviations
- Traceability matrix complete
Got: Validation plan approved by all stakeholders before test execution. If fail: Don't proceed to test execution without approved validation plan.
Step 5: Create Test Protocols (IQ/OQ/PQ)
Write test scripts for each qualification stage:
# Operational Qualification Protocol
## Test Case: TC-OQ-001
## Traces to: URS-001
**Objective:** Verify BMI calculation accuracy
**Prerequisites:**
- System installed per IQ protocol
- Test data set prepared
**Test Steps:**
| Step | Action | Expected Result | Actual Result | Pass/Fail |
|------|--------|-----------------|---------------|-----------|
| 1 | Enter height=180cm, weight=75kg | BMI displayed as 23.15 | | |
| 2 | Enter height=160cm, weight=90kg | BMI displayed as 35.16 | | |
| 3 | Enter height=0, weight=75kg | Error message displayed | | |
**Tester:** _________ Date: _________
**Reviewer:** _________ Date: _________
Got: Every medium- and high-risk requirement has at least one test case. If fail: Add missing test cases before execution begins.
Step 6: Build Traceability Matrix
Create Requirements Traceability Matrix (RTM) linking every requirement through risk assessment to test cases:
# Traceability Matrix
## Document ID: TM-[SYS]-[NNN]
| URS ID | Requirement | Risk Level | Test Case(s) | Test Result | Status |
|--------|-------------|------------|--------------|-------------|--------|
| URS-001 | BMI calculation | Low | TC-OQ-001 | Pass | Verified |
| URS-002 | Audit trail | High | TC-IQ-003, TC-OQ-005 | Pass | Verified |
| URS-003 | PDF export | Low | TC-OQ-008 | Pass | Verified |
| URS-011 | Role-based access | Medium | TC-OQ-010, TC-OQ-011 | Pass | Verified |
Got: 100% of URS requirements appear in traceability matrix with linked test results. If fail: Any requirement without linked test result flagged as validation gap.
Step 7: Write Validation Summary Report
# Validation Summary Report
## Document ID: VSR-[SYS]-[NNN]
### 1. Executive Summary
[System name] v[version] has been validated in accordance with [VP document ID].
### 2. Validation Activities Performed
| Activity | Document ID | Status |
|----------|-------------|--------|
| User Requirements | URS-SYS-001 | Approved |
| Risk Assessment | RA-SYS-001 | Approved |
| Validation Plan | VP-SYS-001 | Approved |
| IQ Protocol/Report | IQ-SYS-001 | Executed — Pass |
| OQ Protocol/Report | OQ-SYS-001 | Executed — Pass |
| Traceability Matrix | TM-SYS-001 | Complete |
### 3. Deviations
| Dev ID | Description | Impact | Resolution |
|--------|-------------|--------|------------|
| DEV-001 | [Description] | [Impact assessment] | [Resolution and rationale] |
### 4. Conclusion
The system meets all user requirements as documented in [URS ID]. The validation is considered [Successful / Successful with conditions].
### 5. Approval
| Role | Name | Signature | Date |
|------|------|-----------|------|
| Validation Lead | | | |
| System Owner | | | |
| Quality Assurance | | | |
Got: Report references all validation deliverables with clear pass/fail conclusion. If fail: Deviations unresolved? Report must state "conditional" status with CAPA references.
Checks
- GAMP 5 category assigned with documented rationale
- URS has numbered requirements with priorities and traceability to source
- Risk assessment covers every URS requirement
- Validation plan approved before test execution
- Test protocols have prerequisite, step, expected result, signature fields
- Traceability matrix links every requirement to risk and test results
- Validation summary report documents all activities, deviations, conclusion
- All documents have unique document IDs and version control
Pitfalls
- Over-validation: Applying Category 5 effort to Category 3 software wastes resources. Match effort to risk.
- Missing traceability: Requirements that don't trace through to test cases are invisible gaps.
- Testing without plan: Executing tests before validation plan approved invalidates results.
- Ignoring non-functional requirements: Security, performance, data integrity requirements often overlooked.
- Static validation: Treating validation as one-time event. Changes require re-assessment.
See Also
setup-gxp-r-project— project structure for validated R environmentswrite-validation-documentation— IQ/OQ/PQ protocol and report writingimplement-audit-trail— audit trail implementation for electronic recordsvalidate-statistical-output— statistical output verification methodologyconduct-gxp-audit— auditing validated systems
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