Panacea Journal of Medical Sciences 2020;10(2):135–138

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Panacea Journal of Medical Sciences

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Original Research Article

Study of pre analytical errors in clinical biochemistry laboratory in rural area of
Punjab

Saloni1,*, Neha Mittal2
1Dept. of Biochemistry, PGIMER Satellite Centre, Sangrur, Punjab, India
2Dept. of Microbiology, PGIMER Satellite Centre, Sangrur, Punjab, India

A R T I C L E I N F O

Article history:
Received 10-06-2020
Accepted 22-06-2020
Available online 26-08-2020

Keywords:
Pre-analytical errors
Clinical biochemistry laboratory
Quality management

A B S T R A C T

Introduction: The pre analytical phase is an important component of laboratory medicine. It includes the
time from the order of test by the clinician until the sample is ready for analysis – it can account up to 70%
of errors during the total diagnostic process.
The major 5 key components for the establishment of quality and reliability in the laboratory diagnostics
include (a) Quality laboratory process (QLPs), (b) Quality control(QC), (c) Quality Assurance/Assessment
(QA), (d) Quality Improvement (QI) and (e) Quality policy(QP).
Objectives: 1. To stratify the pre-analytical errors documented during pre analytical testing process; 2. To
formulate the possible corrective measures to be taken to minimise such errors.
Materials and Methods: A prospective study was done for a period of 6 months from 1st august 2019
to 31st Jan 2020 in Clinical Biochemistry laboratory of PGIMER satellite centre, Sangrur. All types of
pre-analytical errors were Recorded.
In our study, total blood specimens received during Aug 2019 to Jan 2020 were 2980. Out of which 284
specimens were sorted with pre analytical errors.
Results: These 284 specimens were categorised as follows:
Improper request form (n= 24); improper labelling (n=39); improper tube collection (n=51); insufficient
sample n=48); in-vitro haemolysis (n=66), sample not received(SNR) (n=56).
Conclusion: Pre-analytical errors are not inevitable and can be avoided with a diligent application of
proper quality control, proper education of phlebotomist about the errors and effective collection systems
to improve the total quality management of laboratory so as to ensure total quality patient care.

© 2020 Published by Innovative Publication. This is an open access article under the CC BY-NC license
(https://creativecommons.org/licenses/by-nc/4.0/)

1. Introduction

The pre analytical phase is an important component of
laboratory medicine. It includes the time from the order of
test by the clinician until the sample is ready for analysis – it
can account up to 70% of errors during the total diagnostic
process. 1

The major 5 key components for the establishment
of quality and reliability in the laboratory include (a)
Quality laboratory process (QLPs), (b) Quality control(QC),
(c) Quality Assurance/Assessment (QA), (d) Quality
Improvement (QI) and (e) Quality policy(QP). 2

* Corresponding author.
E-mail address: drsaloni7388@gmail.com (Saloni).

2. Objectives

1. To stratify the pre-analytical errors documented during
pre analytical testing process.

2. To formulate the possible corrective measures to be
taken to minimise such errors.

3. Materials and Methods

A prospective study was done for a period of 6 months
from 1st august 2019 to 31st Jan 2020 in Clinical laboratory
of PGIMER satellite centre, Sangrur. All types of pre-
analytical errors were recorded systematically under the
following categories:

https://doi.org/10.18231/j.pjms.2020.029
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https://doi.org/10.18231/j.pjms.2020.029
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https://creativecommons.org/licenses/by-nc/4.0/
mailto:drsaloni7388@gmail.com
https://doi.org/10.18231/j.pjms.2020.029


136 Saloni and Mittal / Panacea Journal of Medical Sciences 2020;10(2):135–138

Fig. 1:

1. Improper request forms (sample requisition).
2. Incorrect identification/Improper labelling.
3. Insufficient volume (quantity of sample collected.
4. In-vitro haemolysis.
5. Improper tube (usage for sample collection).
6. Specimen handling.

The analysis of such errors was done by calculating the
percentage and of each category.

4. Observation & Result

Types of pre analytical errors: Table 1.

5. Discussion

Pre-analytical errors have been the focus of research in past
decades. Previous studies have focused on the analytical

phase of diagnostic tests, and many quality control programs
were initiated at diagnostic labs to monitor analytical phase
errors.

However, post- and pre-analytical errors were neglected
worldwide, and currently many studies are focusing on the
importance of the pre-analytical phase to obtain accurate lab
results.

An American pathologist program conducted a study
enrolling 660 laboratories and showed that preanalytical
errors were 4.8%. 3

The College of American Pathologists, including 120
labs, concluded that misidentification is a common
laboratory error. 4

A Danish study on laboratory errors showed that 81% of
lab errors were pre-analytical, while only 10% of lab errors
were analytical. Moreover, 82.6% human errors and 4.3%
technical errors were observed



Saloni and Mittal / Panacea Journal of Medical Sciences 2020;10(2):135–138 137

Fig. 2:

Table 1: Pre analytical errors
Month Improper

request
Improper
labelling

Insufficient
sample

Improper
tube

collection

Hemolysis Sample
not

received

Errors Total OPD

August 5 (1.02) 7( 1.42) 7(1.42 ) 7(1.42 ) 13( 2.65) 10(2.04 ) 49(10 ) 490
Sept 5 (0.92 ) 6( 1.11) 8(1.48 ) 8( 1.48) 12(2.22 ) 9( 1.66) 48( 8.88) 540
Oct 4 (0.71 ) 8(1.42) 10(1.78) 12(2.14) 8(1.42) 10(1.78) 52(9.28) 560
Nov 3(0.6 ) 7(1.4) 12 (2.4) 10(2) 10(2) 8(1.6) 50(10) 499
Dec 4( 0.83) 5 (1.04) 5(1.04) 6(1.25) 14(2.91) 11(2.29) 45(9.37) 480
Jan 3(0.72 ) 6 (1.45) 6 (1.45) 8( 1.94) 9 (2.18) 8 (1.94) 40(9.73) 411
Total 24(0.8 ) 39 (1.3) 48(1.6) 51(1.71) 66(2.2) 56 (1.87) 284(9.53) 2980

There has been varied information on the error rate
within the whole lab testing procedure (0.1% to 9.3%).

Plebani and Carraro observed in their paper that the great
majority of errors result from problems in the preanalytical
or post-analytical phases. 5

In a study by Jay and colleagues, the majority of
hemolyzed samples (>95%) could be attributed to in vitro
processes resulting from incorrect sampling procedure or
transportation. 6

he rate of hemolysis in the present study (2.2%)
comparable with study conducted by Salvagno GL et al
2012 where they observed 4% in whole blood sample. 7

Hemolysis leads to the extravasation of intracellular
contents into the plasma, leading to false high values of
potassium and intracellular enzymes such as SGOT and
LDH. It also leads to a prolongated turnaround time (TAT)
due to the need for fresh samples for processing the request.

Another factor leading to rejection of blood samples in
our study was insufficient blood volume. Every analytical
process requires a fixed volume of serum/plasma for
analysis. The main reasons behind this anomaly are
ignorance of the phlebotomists, difficult sampling as
in pediatric patients, patients with chronic, debilitating
diseases, and patients on chemotherapy whose thin veins are
difficult to localize. Insufficient sample volume constituted
the most frequent cause of test rejection in the samples
collected in the OPD (0.37%).

Binita Goswami et al. collected data for 67438 routine
venous blood specimens and found 77.1% pre analytical
errors followed by post analytical15% and analytical 7.9%,
respectively. 8

It is clear from the above discussion that incorrect
phlebotomy practices are the main reason behind
preanalytical errors. The reason for incorrect phlebotomy
practice includes lack of awareness or possibly a heavy



138 Saloni and Mittal / Panacea Journal of Medical Sciences 2020;10(2):135–138

workload. This is the reason phlebotomy has been
considered a separate area of improvement for medical
technician. 9

To overcome pre - analytical errors, the following
corrective measures have been recommended: (Lippi G et
al, Sciacovellia L et al, Jo Gile T).

1. Skilled staff: skilled and adequate staff to maintain
collection standards, which give an extra verge of
expertise. 10

2. Phlebotomists: with proper knowledge pertaining to
phlebotomy (trained personnel)

3. Regular educational competency assessments should
be encouraged to allow (new and old personal) an
opportunity to recognize and manage errors.

4. Vacutainers: Proper knowledge regarding use of
evacuated tube system to the lab personal pertaining
to sample volume and use of anti- coagulants. 11

5. Transport: laboratory personnel guided regarding
importance of transport the specimens promptly to the
laboratory at the earliest after collection to avoid errors
related to delay.

6. Advanced Technology: Usefulness of barcode
scanners system for individual sample recognition.

6. Conclusion

Now a day, pre-eminent advances in laboratory automation,
sample collection, transport, and report dispatch leads to an
utmost improvement in laboratories performance. But still
there is long path to pace before we achieve 100% accuracy
and precision.

Pre-analytical errors are not unavoidable, but we can
minimize or eliminate it by improving laboratory testing.
Promoting quality control and systemic monitoring, will
help to improve test reliability and thus enable physicians
to have optimal clinical management for patient care.

Laboratory experts should implement continuous
internal programs not only for detection of analytical
errors but for overall quality management & improvement
in laboratories. Proper exhaustive program should be
silhouette for laboratory personnel like orientation program
regarding total quality management to attain better
laboratory testing, monitoring, reporting and performance
in terms of accuracy, precision and will eventually assists
physicians to have favourable insights in patients care.

7. Source of Funding

None.

8. Conflict of Interest

None.

References
1. Sareen R, Kapil M, Gupta GN. Preanalytical variables: Influence

on laboratory results and patient care. Int J Clinicopathol Correl.
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2. Munilakshmi U, Shashidhar KN, Susanna TY. Preanalytical variables
and its impact on total quality management of clinical biochemistry
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Res. 2018;5(3):467–72.

3. Szecsi PB, Ødum L. Error tracking in a clinical biochemistry
laboratory. Clin Chem Lab Med. 2009;47(10):1253–7.

4. Valenstein P, Meier F. Outpatient order accuracy. A College of
American Pathologists Q-Probes study of requisition order entry
accuracy in 660 institutions. Arch Pathol Lab Med;123(12):1145–50.

5. Bonini P, Plebani M, Ceriotti F, Rubboli F. Errors in Laboratory
Medicine. Clin Chem. 2002;48(5):691–8.

6. Jay DW, Provasek D. Characterization and mathematical correction
of hemolysis interference in selected Hitachi 717 assays. Clin Chem.
1993;39(9):1804–10.

7. Salvagno GL, Lippi G, Gelati M, Guidi GC. Hemolysis, lipaemia and
icterus in specimens for arterial blood gas analysis. Clin Biochem.
2012;45(4-5):372–3.

8. Goswami B, Singh B, Chawla R, Mallika V. Evaluation of errors in
a clinical laboratory: a one-year experience. Clin Chem Lab Med.
2010;48(1):63–6.

9. Fidler JR. Task analysis revisited:refining the phlebotomy technician
scope of practice and assessing longitudinal change in competencies.
Eval Health Prof. 2007;30:150–69.

10. Lippi G, Salvagno GL, Montagnana M, Franchini M, Guidi GC.
Phlebotomy issues and quality improvement in results of laboratory
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Author biography

Saloni Assistant Professor

Neha Mittal Assistant Professor

Cite this article: Saloni , Mittal N. Study of pre analytical errors in
clinical biochemistry laboratory in rural area of Punjab. Panacea J Med
Sci 2020;10(2):135-138.


	Introduction
	Objectives
	Materials and Methods
	Observation & Result
	Discussion
	Conclusion
	Source of Funding
	Conflict of Interest