Clinical Laboratory Specimens and Blood Samples PDF

Summary

This document provides an overview of clinical laboratory specimens and blood samples. It covers various types of samples, collection methods, and important considerations for proper handling and analysis.

Full Transcript

Clinical Laboratory
Specimens
 Sample vs. Specimen
Sample is a small portion which is a true representative of the
larger portion of a material or body.

‘a blood sample’

Specimen is an individual instance that represents a class.

‘early specimens of the art of Picasso’

In medical field, specimen is a sample of a patient's fluid,
tissue or other material derived from the patient used for
laboratory analysis, examination or study: a urine specimen; a
tissue specimen.
 Types of Biological Samples
Blood
Urine
Cerebrospinal fluid (CSF)
Feces
Sputum
Synovial fluid
Amniotic fluid
Tissue
 Blood Sample
Blood is one of the most frequently used
sample in the clinical laboratory.
Knowledge of proper collection, preservation
and processing of specimens is essential.
A properly collected blood sample is
important to quality performance in the
laboratory.
Food intake, medication, activity (exercise)
and time of day can effect the laboratory
results for blood samples.
Blood can be collected from veins, arteries
or capillaries.
 Venous blood
Collected from superficial veins on the
body.
The most common sample type in clinical
lab.
The specimen of choice for most routine
lab tests.
Venous blood obtained by
venipuncture.
 Types of Blood Specimens
1. Serum:
– Clear pale yellow fluid (non fasting serum Plasma
cab be cloudy) separated from clotted blood
by centrifugation.
– Many chemistry test performed on serum.
2. Plasma:
– Clear or slightly hazy pale yellow fluid
separated from cells when blood is collected Centrifuge
in an anticoagulant tube centrifuged.
– Contains fibrinogen while serum don’t
because it has been used in clot formation.
3. Whole blood: Blood Clot
– Contains both cells and plasma.
Whole Blood
– Must be collected in anticoagulant tube to Serum
prevent clotting.
– Used for most hematology tests and many
point-of-care-testing, eg. glucose meters.
 Arterial Blood
Blood collected from arteries, used mainly for
analysis of blood gas or Arterial Blood Gases
(ABG):
– Partial pressure of oxygen (PaO2)
– Partial pressure of carbon dioxide (PaCO2)
– pH Arterial Blood and Venous blo
Require special training and performed by
doctors or specially trained technicians only.
Usually collected from:
– Radial artery
– Branchial artery
Heparinized syringe used in artery puncture.
The drawn blood sample must be transported
to the lab in ice as soon as possible not to lose
any of the gashouse components.
 Capillary Blood
Obtained by skin puncture with
a special lancet.
Only small blood volume
collected
Used to collect blood from
infants and emergency
situations.
Collection sites:
– Tip of a finger - Adults
– Heel or big toe- Infants
– Ear-lobe - infants
 Phlebotomy
Phlebotomy means “ to cut vein” is a procedure used to
collect blood from veins.
Two main phlebotomy procedures:
– Venipuncture; blood is collected by needle inserted into
a vein.
– Capillary puncture; blood collected by skin puncture
made with lancet or similar device.
Venipuncture is the most common method of obtaining
blood for routine laboratory analysis.
It is safe and quick way to obtain a large sample of blood.
Must be performed by trained personnel in phlebotomy
techniques; laboratory technologist, laboratory
technician, physicians and nursing staff, however,
phlebotomist have been specifically trained for this blood
collection technique.
 Patient Interaction
Phlebotomy is possibly the only patient contact
with clinical laboratory.
Blood collection personnel must project a
professional image, in terms of appearance,
positive attitude and communication skills.
Appearance:
– First impression is important for future
communication.
– Lab coat should protect underneath clothes
– Shoes should be conservative and clean
– Long hair pull back, no long nails etc.
Integrity, being sensitive to patients need and
willing to offer reassurance, dependability (able to
be relied upon).
 Patient Interaction
Communication skills
– Be good listener to the patient and use the feed back to positive
communication
– Use easily understood verbal language
– Observe patients nonverbal feeling and respond positively
Family members can help to calm the patient (especially
children) or increase anxiety, ask them to leave the room if
necessary.
Patient consent is necessary to be obtained before the
procedure.
Apply standard safety precautions and always wear PPE
(personal protective equipment) that include ; lab coat or
gowns, and gloves must be worn all the time.
Use proper hand hygiene procedure to prevent spread of
infections.
Maintain patient confidentiality
 Venipuncture Site
Major veins for venipuncture are in
the antecubital fossa; the area of the
arm in front the elbow.
– Median Cubital Vein; first
choice.
– Cephalic vein; is the second
choice.
– Basilic Vein; should not be used.
Other veins; include veins in the
back of hand and wrist; dorsal
metacarpal veins.
Leg, ankle, and foot veins sometimes
used but needs permission from the
physician due to potential medical
complications.
 Venipuncture Equipment
Venipuncture can be performed on
three basic methods:
– Evacuated tube system (ETS)
– Needle and syringe Evacuated tube system
(ETS)
– Winged infusing set (butterfly)
ETS is the preferred method
because the collected blood goes
directly into the tube minimizing
contamination.
Needle and syringe used for small,
Needle and
fragile or damaged veins. syringe
Winged infusing set (butterfly) used
in infants children hand veins and
other difficult draw situations.
Winged infusing set
(butterfly)
 Venipuncture Equipment
Tourniquet

Tourniquet: rubber band applied on the
patients arm to restrict venous blood flow to
make veins larger and easier to find.
Needle: sterile, disposable, sized by length
and gauge.
Needle length selection depends on the veins
depth and user preference.
Gauge is a number of needle diameter.
Gauge and bore are inversely related, the
larger the gauge the smaller the bore.
Gauge selected size, depend on the condition
of the vein and amount of blood required.
21 gauge is the standard size for routine
venipuncture.
Appropriate gauge size is important, if
needle too large (small gauge) will damage
the vein, if too needle too small (high gauge)
sample may be hemolyzed.
 Evacuated tube system
Has three basic components;
– Multisampling needle; allow collection of
multiple samples
Multisampling
– The tube needle end covered by a rubber Tube holder
needle
sleeve to prevent blood leakage.
– Tube holder: a plastic cylinder with small
opening for the needle and large opening
for the evacuated tube.
– Various types of evacuated tubes;
Have premeasured vacuum automatically
fill the tube.
– Vacuum loos may occur if the tube do not
stored properly, opened, dropped. Or
advance too far by the needle before the
blood flow during venipuncture.
Various types of
– Tube stoppers are color coded to identify evacuated or vacuum
the type of additive. tubes
 Syringe system
Syringe needle are available in a
wide range of gauges and lengths
For venipuncture 21-23-gauge.
They have barrel with graduated
markings and in mLs or cc (cubic
centimeter) and a plunger fits
into it.
The plunger should be slowly
pulled back to create a vacuum
that pulls blood into the barrel,
pulling the plunger so fast may
lead to sample hemolysis.
 Butterfly system
A short needle with a plastic
part resembling butterfly
wings and a length of tubing
with a luer fitting for syringe or
ETS use.
They came with various
gauges but 23-gauge is most
commonly used for
phlebotomy.
Smaller needles increased the
risk for specimen hemolysis.
 Performing a Venipuncture Using A Winged
Collection Set

(A) Attach tube holder or syringe to collection set
(B) Remove shield and insert needle into vein by grasping wings together or
holding body of device
(C) Observe “flash” of blood behind “wings”
(D) When blood collection is complete, activate safety feature while needle is still
in vein by depressing button with index finger
(E) Apply pressure to venipuncture site
(F) Confirm that needle is retracted
(G) Discard entire set into sharps disposal container
Material needed to Perform Venipuncture
Collect all the equipment needed for
the procedure and place it within
safe and easy reach on a tray or
trolley.
The required equipment are:
– Safety needle or syringe or a
winged collection set with tubing
or evacuated tube collection
system.
– Evacuated blood collecting tubes
– Alcohol swabs or sterile gauze
– Tourniquet
– Gauze or cotton
– Gloves
– Small adhesive bandage
Venipuncture Procedure Using ETS
Identify and prepare the patient
– Check that the laboratory form matches the
patient's identity (match the patient's details
with the laboratory form to ensure accurate
identification).
– Make the patient feel comfortable.
Inspect both arms to select the most suitable
puncture site with best obvious veins.
A tourniquet is applied to the arm to make the
veins more prominent or distended, should be
just tight enough to block venous return but not
restrict arterial blood flow.
 Find the Venipuncture Site
The veins most frequently used
are the median cubital vein and
cephalic vein.
The basilic vein should not be
used.
Under the basilic vein runs an
artery and a nerve so puncturing
here runs the risk of damaging
the nerve or artery and is usually
more painful.
Palpate the vein by gently
pressing the fingertip along the
vein to determine its direction
and estimate its size and depth.
 Tube Additives
Common vacuum tube additives include:
– Anticoagulants; prevent blood from clotting include;
ethylenediaminetetraacetic acid (EDTA), citrate, heparin, and
oxalate.
– Antiglycolytic agent; such as sodium fluoride to prevent blood
glucose cellular consumption by glycolysis often combined with
potassium oxalate.
– Clot activators; coagulation factors such as thrombin and
substances like glass (silica) particles or clay like diatomite that
enhance clotting.
– Thixotropic gel separator; during centrifugation the gel
separates cells from serum or plasma.
For additive optimal function if the tube should be filled to its
stated volume and mixed immediately after collection by
gentle inversion to mix the anticoagulant.
Shaking or vigorous mixing can hemolyze the sample.
Additive reliability guaranteed until the expiration date.
Common tube additives and Stopper
color codes
 Order of Tube Draw
Contaminat
Special sequence of tube ing
Test Potentially
affected
additive
collection must be followed to
Citrate Alkaline
reduce the risk of specimen Phosphatase,
contamination by Calcium and
Phosphorus
microorganisms or additives
EDTA Calcium, Alkaline
carry over that affect some Phosphatase,
tests. Creatine Kinase,
Potassium, Iron
EDTA carry over causes the and Sodium
highest problems than other Heparin Activated clotting
time
additives. Acid phosphatase
Heparin causes the lowest Partial
thromboplastin
problems because naturally Protime
present anti-coagulant. Oxalate Acid Phosphatase
Alkaline
phosphatase
Amylase
Order of tube draw
 Performing a Venipuncture Using A Syringe
(A) Cleanse puncture site, anchor
vein and insert needle.
(B) hold syringe with one hand
while pulling back on plunger
with the other hand
(C) Release tourniquet and
(D) Apply pressure to site
immediately after removing
needle

Using a needleless transfer
device to transfer blood from
syringe to blood collection
tube: (A) Attach transfer
device to lock of syringe; (B)
Push collecting tube into
 Troubleshooting failed
venipuncture
Common causes of blood draw failure:
– Tube position/misaligned tube in the holder;
verify tube properly seated in the holder, make
sure the needle penetrated the tube stopper reseat
if necessary.
– Loss of tube vacuum; tube may lost the vacuum
before or during the draw, change new one if
necessary.
– Improper position of the needle in the vein;
Bevel against the vein wall: remove the tube, retract
the needle slightly, rotate the bevel slightly.
Needle too deep: withdraw needle slightly to
establish blood flow, stop the draw if hematoma forms.
Troubleshooting failed venipuncture
 Troubleshooting failed
venipuncture
Needle not deep enough: this may cause slow blood flow,
gently advance the needle to establish correct flow.
Needle beside the vein: withdraw the needle slightly,
anchor the vein and redirect the needle into it. If redirection
not successful stop and choose new site.
Collapsed vein: if tube vacuum to great, syringe plunger
pulled to quickly, tourniquet too tight or close to the site,
the vein may collapse and stop blood flow.
In elderly or fragile veins the blood flow may stop after the
tourniquet release may be due to changed needle position
but not vein collapse.
Undetermined needle position: withdraw the needle
until just under the skin palpate the arm above the needle
site locate and anchor the vein and redirect the needle into
it. If the vein cannot be located discontinue the draw, its
painful and can damage nerves and puncture arteries.
 Multiple venipuncture attempts
If not possible to draw blood from the first
attempt, try aging below the first site in
the other arm.
If the second attempt unsuccessful ask
some one else to take over.
If second person unsuccessful two
attempts, give the patient a rest and try
later.
If the specimen not obtained notify the
nurse or physician.
 Pediatric venipuncture
Ideally performed with a 23 gauge
butterfly and tube holder, this
allow flexibility it the child move.
Infant and children has small
blood volume and effort must be
made to collect only the minimum
amount of blood required for
testing.
Physical restrain may be needed
for toddlers or small children to
support steady the venipuncture Seated adult
arm. restraining a toddler
 Procedural Errors Risk
Hematoma formation; rapid swelling at the
venipuncture site due blood leaking into the tissue.
Common causes:
– Small or fragile vein
– Partially inserted needle
– Needle penetrate all the way through the vein
– Needle removed before the torniquet release
– Inadequate pressure on the venipuncture site
Hematoma from
Inadvertent arterial puncture; accidently sticking venipuncture
an artery instead of a vein, arterial blood is collected.
Infection of the site of venipuncture
Nerve injury; mainly due to poor site selection or
deep needle insertion to quickly, patient movement,
excessive or lateral needle redirection,
Nerve injury may lead to excessive pain, burning or
electrical shock sensation, arm numbness, pain
radiation down the arm require immediate removal of
the needle.
 Complications
Allergies to supplies or equipment; patient can be
allergic to antiseptics e.g. iodine adhesive glue bands, latex
from gloves.
Excessive bleeding; for example in case of hemophilia
patients or patients with low platelets count.
apply pressure on the site until bleeding stops, if continue
beyond five minutes notify the physician.
Fainting (syncope); vasovagal syncope or attack may
occur suddenly, discontinue blood collection immediately.
Nausea vomiting
Pain; sever pain indicate sticking a nerve involvement.
Petechiae; appear in some individuals as tiny red spots on
the arm due to long torniquets application.
Seizures and convulsions; discontinue blood collection
immediately.
 Analytical Issues
Two conditions that may occur due to improper
phlebotomy;
Hemolysis; destruction (lysis) of red blood cells.
Greatly affect results for potassium, magnesium, enzymes
and bilirubin.
Causes:
Too small needle (higher-gauge).
Fast plunger pulling in syringe system.
Slowing of blood flow into the collection tube due to
incorrect positioning of the needle in the vein.
Vigorous sample mixing shaking.
Hemoconcentration; high blood cellular component
compared to the fluid in the sample.
Can cause falsely elevated glucose, potassium, and
cholesterol.
Causes:
 Capillary Puncture
Capillary puncture; collecting blood sample from
capillaries.
Used to collect blood when:
a) Limited sample volume e.g. in infants and pediatric patients
b) Repeated venipunctures have caused severe vein damage
c) Burns or bandaged areas- veins are not available for
venipuncture
d) For neonatal screening and molecular genetics testing
Capillary blood used in compact analyzers that require only
small quantities of blood for testing.
Compact analyzers used for point-of-care (POC) testing,
such as at the bedside, in the emergency room or in the
physician’s office laboratory (POL) to perform several tests.
Capillary blood is used to;
– Measure hemoglobin
– Perform a WBC count
– Make thick and thin blood smears
 Capillary Puncture Site
For adults and children over the age
of 2 years, the usual site for
capillary puncture is the ring
fingertip, because it is less hard.
Thumb or index finger are the most
sensitive fingers for capillary
Adults and young Children
puncture.
For newborns (0 -2 months), infants
(