Background: The preanalytical phase is the most common source of laboratory errors. The goal of this descriptive study was to analyze the prevalence and type of preanalytical errors in relation to the site of sample collection (inpatient vs. outpatient) and the type of laboratory unit (hematology and coagulation vs. biochemistry). For the biochemistry unit, the data were also analyzed relative to the type of the analysis (stat vs. routine).
Methods: We retrospectively analyzed the sample and test request form error rate for a 1-year period, from January to December 2008.
Results: The frequency of the sample errors differed significantly between the emergency and routine biochemistry unit (0.69% vs. 2.14%; p<0.0001), and between inpatients and outpatients (1.12% vs. 1.36%; p=0.0006). Hemolysis was the most frequent sample error, accounting for 65% of all unsuitable specimens in the emergency biochemistry unit. The total sample error rate did not differ between hematology and coagulation vs. the biochemistry unit. The frequency of test request form errors differed significantly with respect to the sample collection site (p<0.0001), laboratory unit (p<0.0001) and type of the analysis (p<0.0001). Errors in the test request form were least frequent in the outpatient unit (2.98%) and most frequent in the routine biochemistry unit (65.94%).
Conclusions: Sample and test request form errors in our laboratory are occurring with a frequency comparable to that reported by others. Continuous educational action is needed for all stakeholders involved in laboratory testing to improve the quality of the preanalytical phase of the total testing process.
Download full-text PDF |
Source |
|---|---|
| http://dx.doi.org/10.1515/CCLM.2010.221 | DOI Listing |
Publication Analysis
Top Keywords
Similar Publications
Avoid Preanalytical Errors When Using Urine Biomarkers of Exposure.
Kidney Int Rep
January 2025
La Isla Network, Washington DC, USA.
Evaluation of pre-analytical factors impacting urine test strip and chemistry results.
Clin Chem Lab Med
January 2025
Department of Laboratory Medicine and Pathobiology, University of Toronto, Toronto, ON, Canada.
Objectives: Careful consideration of the pre-analytical process for urine examination is essential to avoid errors and support accurate results and decision-making. Our objective was to assess the impact of various pre-analytical factors on urine test strip and quantitative chemistry results, including stability, tube type, fill volume, and centrifugation.
Methods: Residual random urine specimens were identified.
Preanalytical Sedimentation Effects on Hematological Tests.
J Appl Lab Med
December 2024
HealthPartners Medical Laboratory, Pathology Lab, Bloomington, MN, United States.
Introduction: Specimens suspected of errors related to low hemoglobin or changes in hemoglobin beyond that of clinically explained variations during hospital stays are frequently redrawn under the auspices that they are contaminated. When lack of an indwelling IV eliminates contamination as a possibility, evaluation of the specimen between the time of collection and testing should occur.
Methods: As part of a quality improvement project, we investigated the impact of sedimentation on collected blood specimens not immediately transferred to their respective tubes from a syringe.
Investigating the incremental value of urine sediment reporting in emergency medicine with a Sysmex UN urinalysis system.
Adv Lab Med
December 2024
Section of Clinical Biochemistry and School of Medicine, University of Verona, Verona, Italy.
Objectives: Urinalysis is widely used and is also frequently requested in emergency situations for screening hypovolemia, urinary tract infections, diabetes, ketoacidosis and hematuria. Our aim was to evaluate the impact of reporting urinary sediment in emergency department specimens with the Sysmex UN system.
Methods: We evaluated urinalyses requested by the emergency department over a three-month period and examined red blood cell count interference, compared leukocyte esterase dipsticks to cytofluorimetric leukocyte count and nitrites to cytofluorimetric bacterial count.
Red blood cell agglutination caused by ceftriaxone and its effect on erythrocyte parameters: a case report.
Biochem Med (Zagreb)
February 2025
Department of Medical Biochemistry and Hematology, Children's Hospital Zagreb, Zagreb, Croatia.
Ceftriaxone, a widely used antibiotic, is one of the most common drugs to cause drug-induced immune hemolytic anemia. In this report, we describe the effect of ceftriaxone on red blood cell parameters (low red blood cell count, low hematocrit, and high erythrocyte index values) in two pediatric patients without clinical symptoms of hemolytic anemia. Although automated hematology analyzers have helped to detect incorrect results, a peripheral blood smear examination was necessary for recognizing the erythrocyte agglutinins caused by ceftriaxone.
View Article and Find Full Text PDFWant AI Summaries of new PubMed Abstracts delivered to your In-box?
Enter search terms and have AI summaries delivered each week - change queries or unsubscribe any time!