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managing-specimen-integrity

评估标本的适宜性和拒收标准,并记录分析前的质量文档。在评估标本质量、记录拒收原因或管理分析前错误时使用。

person作者: jakexiaohubgithub
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Managing Specimen Integrity

Evaluates specimen adequacy and rejection criteria with pre-analytical quality documentation.

Why This Skill Exists

Pre-analytical errors account for 46-68% of all laboratory errors, and specimen integrity failures are the leading cause. A hemolyzed potassium specimen, a clotted coagulation tube, an unlabeled surgical specimen, or an improperly transported microbiology culture can each produce misleading results that drive incorrect clinical decisions. The economic cost is substantial: recollection disrupts clinical workflows, delays diagnosis, and in some cases (neonatal, oncology, difficult-access patients) recollection may be impossible or harmful.

CLIA 42 CFR 493.1242 requires laboratories to establish specimen submission and handling instructions and define criteria for specimen rejection. CAP accreditation (GEN.40490-40530 series) mandates documented acceptance/rejection criteria, specimen labeling requirements (two patient identifiers), and processes for managing non-conforming specimens. The Joint Commission patient safety goals reinforce two-identifier specimen labeling. This skill provides a systematic framework for evaluating specimen integrity and managing pre-analytical quality.

Checkpoint A: Pre-Draft Intake (Mandatory)

  1. Specimen type — Blood (tube type), urine, tissue, body fluid, swab, or other? Default: blood specimen.
  2. Test(s) ordered — What analytes are requested? Different tests have different integrity requirements. Default: comprehensive metabolic panel.
  3. Issue identified — Hemolysis, lipemia, icterus, clotting, underfill, mislabel, wrong tube, delayed transport, temperature excursion, or other? Default: hemolysis.
  4. Patient context — Difficult draw (neonatal, dialysis, oncology), repeated collection issue, stat/urgent request? Default: routine adult.
  5. Collection site — Was the specimen drawn from an IV line, port, or direct venipuncture? Default: direct venipuncture.
  6. Time since collection — How long has the specimen been in transit or storage? Default: < 2 hours.
  7. Recollection feasibility — Can a new specimen be obtained without significant burden? Default: yes.

Documents to Request

  • Specimen requisition form with two identifiers
  • Collection time and collector identity
  • Transport conditions (temperature, time in transit)
  • Tube type and anticoagulant verification
  • Hemolysis/lipemia/icterus index from analyzer (if quantified)
  • Institutional specimen acceptance/rejection criteria policy
  • Test-specific specimen requirements (stability, tube type, volume)
  • Non-conforming specimen log

Step 1: Specimen Identification and Labeling Verification

Verify specimen labeling per CAP and Joint Commission requirements:

Minimum labeling requirements (CAP GEN.40490):

  • Two unique patient identifiers (name + DOB, name + MRN, or equivalent)
  • Date of collection
  • Time of collection (required for time-sensitive analytes)
  • Collector identification
  • Specimen source/type (for non-blood specimens)

Rejection criteria for labeling deficiencies:

| Deficiency | Action | |---|---| | No label on specimen | REJECT — no exceptions. Specimen cannot be relabeled after leaving the patient. | | One identifier only | REJECT — recollect. Two identifiers are non-negotiable per Joint Commission NPSG. | | Label on container but not on tube | REJECT — the tube itself must be labeled, not just an accompanying form. | | Discrepancy between label and requisition | HOLD — contact collector for resolution before processing. | | Illegible label | HOLD — contact collector for verification; reject if unresolvable. |

Exception: Surgical pathology and cytology specimens may have a reconciliation process per CAP ANP.11700, but the two-identifier requirement still applies.

Step 2: Specimen Condition Assessment

Evaluate the physical condition of the specimen:

Hemolysis Index (Chemistry Analyzers)

| H-Index | Hemolysis Level | Affected Analytes | Action | |---|---|---|---| | H < 50 | None/slight | None significantly | Process normally | | H 50-100 | Mild | Potassium (+), LDH (+), AST (+), iron (+) | Report with comment for mildly affected analytes | | H 100-200 | Moderate | K, LDH, AST, iron, total bilirubin, phosphorus | Reject affected analytes; report unaffected | | H > 200 | Gross | Most chemistry analytes affected | Reject specimen; recollect |

Lipemia Index

| L-Index | Lipemia Level | Affected Analytes | Action | |---|---|---|---| | L < 150 | None/slight | None significantly | Process normally | | L 150-300 | Moderate | Electrolytes (pseudohyponatremia), some enzymes | Report with comment | | L > 300 | Gross | Many analytes affected by light scattering | Ultracentrifuge or reject |

Icterus Index

| I-Index | Icterus Level | Affected Analytes | Action | |---|---|---|---| | I < 20 | None/slight | None significantly | Process normally | | I 20-40 | Moderate | Creatinine (Jaffe method), some enzymatic assays | Report with comment | | I > 40 | Marked | Multiple analytes affected | Report with interference note |

Step 3: Tube Type and Volume Verification

Confirm correct tube type and adequate fill volume:

Common tube types and requirements:

| Tube Color (Cap) | Additive | Tests | Minimum Fill | |---|---|---|---| | Light blue (citrate) | 3.2% sodium citrate | PT, PTT, fibrinogen, coag factors | 90% fill (9:1 blood:citrate ratio); underfill produces falsely prolonged results | | Lavender (EDTA) | K2EDTA or K3EDTA | CBC, differential, reticulocyte, HbA1c | Minimum 0.5 mL for CBC | | Green (heparin) | Lithium heparin or sodium heparin | Stat chemistry, ammonia | Per tube manufacturer | | Gold/red (SST/no additive) | Clot activator +/- gel | Routine chemistry, serology, drug levels | Allow 30 min clotting before centrifugation | | Gray (NaF/oxalate) | Sodium fluoride/potassium oxalate | Glucose, lactate | Per tube manufacturer |

Rejection criteria for tube/volume issues:

| Issue | Action | |---|---| | Citrate tube < 90% filled | REJECT for coagulation tests. Insufficient fill alters the blood:citrate ratio. | | Clotted EDTA specimen | REJECT for CBC. Platelet count will be falsely low. | | Wrong tube type for test | REJECT — do not attempt to process. | | Specimen drawn from IV line without discard | REJECT — risk of dilution or contamination with IV fluids. |

Step 4: Stability and Transport Assessment

Evaluate whether specimen stability requirements were met:

Critical stability windows:

| Analyte/Test | Room Temp Stability | Refrigerated Stability | Special Requirements | |---|---|---|---| | Potassium | 4 hours (separate from cells) | 24 hours (after separation) | Must centrifuge within 1 hour; pseudohyperkalemia if delayed | | Glucose (no NaF) | 30 minutes | 2 hours | Glycolysis reduces glucose ~7%/hour at room temp | | Ammonia | 15 minutes on ice | 15 minutes on ice | Must be transported on ice and centrifuged immediately | | Blood gas (ABG) | 15 minutes (plastic syringe) | 30 minutes (glass syringe, ice) | Air bubbles invalidate pO2/pCO2 | | Lactic acid | 15 minutes on ice | 15 minutes on ice | Tourniquet time and fist clenching cause false elevation | | Coagulation (PT, PTT) | 4 hours at RT (uncentrifuged) | 24 hours (centrifuged, frozen) | Do not refrigerate uncentrifuged citrate tubes | | CSF cell count | 1 hour | 1 hour | WBCs lyse rapidly; process stat |

Step 5: Non-Conforming Specimen Management and Documentation

When a specimen is rejected or has quality issues, follow a structured process:

  1. Document the issue: Record the specific non-conformance (hemolysis, clot, mislabel, etc.) in the LIS.
  2. Notify the collector/ordering provider: Per institutional policy, communicate the rejection reason and recollection instructions.
  3. Partial reporting: When possible, report unaffected analytes from the specimen and reject only those analytes affected by the integrity issue. Add interpretive comments.
  4. Log the non-conformance: Enter into the non-conforming specimen tracking system for trending.
  5. Trend analysis: Review non-conformance data monthly. Identify patterns by collector, unit, specimen type, or time of day. Target QI interventions to reduce the most common and impactful errors.
  6. Education and feedback: Provide targeted education to collection staff when trends are identified. Document training and re-competency assessment.

Checkpoint B: Post-Draft Alignment (Mandatory)

  1. Was specimen labeling verified against the two-identifier requirement before any testing?
  2. Were hemolysis, lipemia, and icterus indices quantified and applied to analyte-specific rejection criteria?
  3. Was tube type confirmed as correct for all ordered tests?
  4. Were stability requirements assessed based on collection time and transport conditions?
  5. Was the non-conforming specimen documented in the tracking system with collector notification?

Quality Audit

  • [ ] Two patient identifiers verified on specimen label
  • [ ] Collection date, time, and collector identity documented
  • [ ] Hemolysis/lipemia/icterus index quantified by analyzer
  • [ ] Analyte-specific rejection thresholds applied (not blanket rejection)
  • [ ] Tube type correct for all ordered tests
  • [ ] Citrate tube fill volume verified (>= 90% for coagulation)
  • [ ] Specimen transported within stability requirements
  • [ ] Temperature-sensitive specimens transported on ice when required
  • [ ] Non-conforming specimen logged with specific rejection reason
  • [ ] Collector/provider notified of rejection with recollection instructions
  • [ ] Monthly trending of non-conformance data performed
  • [ ] QI interventions documented for identified trends
  • [ ] Institutional acceptance/rejection criteria policy current and accessible
  • [ ] Staff competency for specimen assessment documented annually

Guidelines

  • Never process an unlabeled specimen regardless of urgency — this is a non-negotiable patient safety requirement per CAP and Joint Commission
  • Quantify hemolysis, lipemia, and icterus using the analyzer's serum index system rather than visual estimation; visual assessment is unreliable and not auditable
  • Apply analyte-specific rejection thresholds rather than blanket specimen rejection; many analytes are unaffected by mild hemolysis, and rejecting the entire panel wastes clinical resources
  • For citrate tubes (coagulation testing), reject any tube less than 90% filled; the altered blood-to-citrate ratio produces unreliable PT and PTT results regardless of how "close" the fill appears
  • Separate serum/plasma from cells within 1 hour of collection for potassium and other cell-sensitive analytes; delayed separation is the most common cause of pseudohyperkalemia
  • Track non-conforming specimens by collector, unit, and specimen type; use the data for targeted quality improvement rather than punitive action
  • When recollection is impossible or poses significant patient burden (neonatal, difficult access), consult with the laboratory director about reporting with appropriate qualifiers and comments
  • Review and update institutional acceptance/rejection criteria at least annually and whenever new tests or specimen types are introduced