Quality

Quality, in pathology, has got a lot of attention lately because there have been high profile screw-ups that lead to significant harm.^[1]

Analysis

Overview

Quality issues are examined a number of different ways, e.g. root cause analysis, failure mode and effects analysis (FMEA).

A common way to break down error analysis is:

Errors in pathology

Pre-analytical errors

Analytical errors

Post-analytical errors

Failure-potential analysis

Adapted from Ullman:^[2]

Identify potential individual failures.
Identify the consequences of those failures.
Identify how the individual failures can arise.
Identify the corrective action.

General error analysis

Pathology errors happen any time from when the lab gets the specimen until after the report is issued.

When errors happen:

Work-up problem.
- Where did it occur?
Talk to the clinician.
- If it is a critical diagnosis contact most-responsible physician immediately... if they are unreachable call physician on-call for the most-responsible physician... if the patient is out-of-town you may have to coordinate with the emergency department.
Talk to the chief of pathology.
Incident report.
Reconstruct error.
- Was it a specimen mix-up?
  - Is there another error?
Amend report(s).
Remedy source of error.

Pre-analytic errors

Container mix-up - pre-lab & in-lab.
Block mix-up.
Slide mix-up - labels wrong.
Poor quality slides (fixation, processing, staining).

Analytic errors

Interpretation wrong.
- Difficult case.
- Technical factors (quality of slides).

Post-analytic errors

Wrong case signed-out.
Filing problem.
Interpretation of report problem (poorly written, bad interpretation).

Error reduction

Various strategies can be employed:^[3]

Training of staff - on error handling.
Computer order entry.
- Avoid duplication fatigue.
- Quick correlation with several identifying features.
  - Full name, sex, date of birth -- these all appear when one opens a case.
Barcode use.
- Avoid transcription errors.
Clinical information entry required.
- Allow correlation with test.
  - The interpretation may differ if the history says "screening coloscopy" versus "large cecal mass, anemia and weight loss".

Other strategies:

Statistical process control.

Sources of error

"Human error".
- Training.
- Work flow.
Process gaps.
- Process control.
- Lack of redundancy.

Biopsy size

Very small tissue fragments are associated with a decreased diagnostic yield and an increased diagnostic uncertainty.

Immunohistochemistry

Main article: Immunohistochemistry

Work-up of suspected IHC problems:

Review controls (internal and external).
- Isolated to case vs. larger problem?
  - Discuss with lab/make other pathologists of the issue.
Repeat test - to identify the cause.

IHC process:

Ischemia time - warm ischemia, preparation of specimen.
Fixation - under, over, defective fixative, not enough fixative.
Processing prior to antibody binding, usu. heating (antigen retrieval).
Antibody-antigen binding.
Reporter molecule binding.
Counterstaining.
Interpretation.

Notes:

Problems can arise at any step.

Classification of IHC tests

IHC tests are classified in a paper by Torlakovic et al.:^[4]

Class I:
- Adjunct to histomorphology.
- Examples: CD45, S-100.
Class II:
- Considered independent of the other information in the pathology report; thus, cannot be derived from other information in the report.
- Used directly for treatment decisions.
- Examples: ER, PR, HER2.

The implication of irregularies in the different classes are different. Problems in Class II tests are potentially more severe, as there is no internal control.

References

↑ URL: http://www.attorneygeneral.jus.gov.on.ca/inquiries/goudge/index.html. Accessed on: 1 March 2011.
↑ Ullman, David G. (1997). The mechanical design process. Toronto: McGraw-Hill Companies Inc.. ISBN 0-07-065756-4.
↑ Fabbretti, G. (Jun 2010). "Risk management: correct patient and specimen identification in a surgical pathology laboratory. The experience of Infermi Hospital, Rimini, Italy.". Pathologica 102 (3): 96-101. PMID 21171512.
↑ Torlakovic, EE.; Riddell, R.; Banerjee, D.; El-Zimaity, H.; Pilavdzic, D.; Dawe, P.; Magliocco, A.; Barnes, P. et al. (Mar 2010). "Canadian Association of Pathologists-Association canadienne des pathologistes National Standards Committee/Immunohistochemistry: best practice recommendations for standardization of immunohistochemistry tests.". Am J Clin Pathol 133 (3): 354-65. doi:10.1309/AJCPDYZ1XMF4HJWK. PMID 20154273.

[1] URL: http://www.attorneygeneral.jus.gov.on.ca/inquiries/goudge/index.html. Accessed on: 1 March 2011.

[ullman-2] Ullman, David G. (1997). The mechanical design process. Toronto: McGraw-Hill Companies Inc.. ISBN 0-07-065756-4.

[pmid21171512-3] Fabbretti, G. (Jun 2010). "Risk management: correct patient and specimen identification in a surgical pathology laboratory. The experience of Infermi Hospital, Rimini, Italy.". Pathologica 102 (3): 96-101. PMID 21171512.

[pmid20154273-4] Torlakovic, EE.; Riddell, R.; Banerjee, D.; El-Zimaity, H.; Pilavdzic, D.; Dawe, P.; Magliocco, A.; Barnes, P. et al. (Mar 2010). "Canadian Association of Pathologists-Association canadienne des pathologistes National Standards Committee/Immunohistochemistry: best practice recommendations for standardization of immunohistochemistry tests.". Am J Clin Pathol 133 (3): 354-65. doi:10.1309/AJCPDYZ1XMF4HJWK. PMID 20154273.

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