Collection of Specimen 2024 PDF

Summary

This document covers various blood sample collection methods, including venipuncture and capillary puncture, and discusses factors affecting results. It provides information on types of specimens, procedures, precautions, and associated complications. The document is useful for medical professionals in clinical chemistry and laboratory settings.

Full Transcript

Collection of
Specimen
Definition of Terms
 Antecubital Space  located where the elbow
ends
 Arterial Blood Gas (ABG)  procedure that
involves taking blood from an artery.
 Artery – blood vessel that carries richly
oxygenated blood from the heart to the body
tissues.
 Capillaries – tiny blood vessels that connect the
smallest arteries to the smallest veins.
Definition of Terms
 Gauge
 Hematoma  loss of blood from a vessel
 Hemoconcentration – increase in the concentration
of formed elements in the blood caused by lack of
fluid in the blood.
 Hemolysis – destruction or lysis of red blood cells
 Lumen – cavity or channel within the tubular organ,
such as blood vessel.
 Phlebotomy – act of entering a vein with a needle
for the purpose of obtaining venous blood.
Definition of Terms
 Thrombosis – blood clot in a vessel.
 Tourniquet – device often a rubber band at least ½ inch
wide, that reduces flow of blood in the veins and allows the
veins become prominent.
 Vacuum Tube System/Vacutainer System – system
used for blood collection; uses a special disposable
needle, a holder, and blood collection tubes that have little
or no air.
 Vein – blood vessels that carries deoxygenated blood
from the tissues back to the heart
 Venipuncture – procedure where a needle is inserted
into a vein to obtain a venous blood sample
GENERAL PRECAUTIONS IN
COLLECTION OF BLOOD SAMPLES:
 If a fasting specimen is required, confirm
that the fasting order has been followed.
 Always read the request first to see whether
the examination is complete or incomplete,
to determine the amount of blood needed.
 Do not extract blood from patients while
they are receiving intravenous medication
because these solutions may influence the
chemical analysis.
GENERAL PRECAUTIONS IN
COLLECTION OF BLOOD SAMPLES:
 Never draw out the syringe without
removing first the tourniquet to avoid
hematoma.
 Avoid prolonged application of tourniquet to
avoid hemoconcentration.
 The blood specimen collected with
anticoagulants must be well mixed to
prevent coagulation.
TYPES OF SPECIMENS ANALYZED IN
CLINICAL CHEMISTRY
LABORATORY:
Blood
 Whole blood
 Plasma and formed elements (unclotted)
Blood
 Serum
 Liquid portion of clotted blood
 Contains albumin and globulin
 Preferred specimen in clinical chemistry
because of the following reasons:
 Certain substances like the lipemia clearing factor
(LPL) are co precipitated during clotting
 Clearer than plasma
 There is no potential interference produced by
anticoagulant
Blood
 Plasma
 Liquid portion of unclotted blood
 Contains albumin, globulin and fibrinogen
 Advantages of plasma over serum:
 There is no delay necessary in obtaining plasma by
centrifugation of the whole blood
 Usually a greater volume of plasma than serum is
obtainable from a given volume of blood.
Urine
 24-hr sample
 Random sample
 Timed sample
Other Body Fluids
 CSF (cerebrospinal fluid)
 Other specimens like ascitic fluid, peritoneal
fluid, etc
Timing of Collection
 Fasting- “nothing by mouth”
- generally 6 -14 hours
 Random
 24-Hour
 Postprandial
CLASSIFICATION OF METHODS
AS TO SAMPLE REQUIREMENTS:
 Macromethod
 Micromethod
 Ultramicromethod
 Nanoliter method
FACTORS CONTRIBUTING TO
THE VARIATION OF RESULTS:
Exercise
 Transient or immediate effects (within the hour)
 Elevated lactate
 Elevated alanine
 Elevated fatty acids
 Long lasting effects
 Increased activity of:
 AST (SGOT)
 CPK (CK)
 LDH
 ALD (Izoenzyme A)
 Long term effects
 Elevated concentration of sex hormones
 Testosterone
 Luteinizing hormone
 Sex hormone binding globulin
 Elevated concentration of steroids
Fasting
 Generally 6-14 hours
 Elevated blood glucose, potassium, and lipids

like cholesterol and neutral fats are seen in
patients not under NPO and the reverse is
true with inorganic phosphorous
 Prolonged fasting has been associated with

elevations in serum bilirubin, plasma
triglycerides, glycerol, free fatty acids and a
decrease in plasma glucose.
Diet
 Any diet immediately increases potassium
and triglycerides
 2-4 hours after fatty meal – increases ALP

activity
 High protein diet – increases urea, ammonia

and urates with no significant increase in
creatinine
 Increase turbidity or lactescence –

triglycerides level exceeds 4.6 mmol/L (4.0
g/L)
Posture or position
 Changes in position result to efflux of
filterable substances from the intravascular
space to the interstitial fluid spaces
 Non-filterable substances increase in

concentration
Tourniquet application
 One-minute application
 Prolonged application results to:
 Venous stasis
 Anaerobiasis
Tobacco smoke
 Acute effects
 Increase in plasma NEFA concentration
 Increase in plasma cathecolamines and serum
cortisol (due to nicotine) – affects the leukocyte
peripheral count
 Increase in neutrophils
 Increase in monocytes
 Increase in eosinophils
 Chronic effects
 Increase in total WBC count
 Increase in blood hemoglobin values (carboxyhemoglobin)
 Increase in mean corpuscular Volume (MCV)
Alcohol ingestion
 Increases plasma concentration of lactate,
urate, acetate and acetaldehyde
 Increases gamma glutamyl transferase

concentration
Stress (anxiety)
 Affects hormone secretion
 Results in hyperventilation leading to a

disturbance in acid-base balance in the blood
 Increases serum lactate
 Increases plasma free fatty acids

Drugs
- antacids
GENERAL METHODS OF
BLOOD SAMPLE COLLECTION:
CAPILLARY PUNCTURE
 Formicromethod, ultramicromethod and
nanoliter method
 The method of choice for:
 Pediatric infant
 Geriatrics
 Adults who are:
CAPILLARY PUNCTURE/SKIN
PUNCTURE/PRICK METHOD
 Sites of puncture:
 Palmar surfaces of fingertips
 Plantar heel surface in infants
 Plantar surface of the big toe
 Earlobes
CAPILLARY PUNCTURE/SKIN
PUNCTURE/PRICK METHOD
 Sites to be avoided:
 Edematous area (swollen with fluid)
 Cyanotic areas (purplish blue in color)
 Scarred area
 Traumatized area (black and blue)
 Heavily calloused area
CAPILLARY PUNCTURE/SKIN
PUNCTURE/PRICK METHOD
 Materials and Equipments:
 70% isopropyl alcohol
 Absorbent cotton sponges/balls or swabs
 Sterile puncture instrument (lancet)
 Capillary tube
ARTERIAL
PUNCTURE/ANAEROBIC
 Generally used for the determination of blood
oxygen, carbon dioxide tension and blood pH (Blood
Gas Analysis).
 Special training is required for this procedure
 Tourniquet is not required
 After removing the needle, apply moderate pressure
with 2 x 2 sterile gauze until bleeding ceases
 Insert needle (still attached to syringe) in stopper to
prevent air from entering needle
ARTERIAL
PUNCTURE/ANAEROBIC
 Sites of puncture:
 Radial artery – most preferred site
 Femoral artery (fem tap)
 Brachial artery
 Scalp artery
 Umbilical artery
ARTERIAL
PUNCTURE/ANAEROBIC
 Materials needed:
 Syringe with gauge 21 needle with rubber cap
 Cotton (wet and dry)
 Alcohol or Iodine
 Heparin - preferred anticoagulant
 Warm towel (45ºC) – arterialization
 Iced water bath – preservative for transport
VENIPUNCTURE
 Considered to be the most commonly used
method of blood collection in Clinical
Chemistry
 Sample obtained is called venous blood
VENIPUNCTURE
 Sites of collection:
 Veins in the antecubital fossa
 Median cephalic vein –
 Cephalic vein –
 Basilic vein –
 Vein of the longitudinal sinus or sagittal sinus
 Femoral vein
 Wrist vein
 Jugular vein
 Saphenous vein
 Small saphenous vein
 Great saphenous vein
 Veins on the dorsal portion of the hand
VENIPUNCTURE
 Materials needed:
 70% alcohol
 Absorbent cotton or sterile swabs
 Tourniquet
 Syringe or Vacutainer set
SYRINGE
 Used for blood collection only
 For single draw
 Parts:
a. Bevel d. Adapter
b. Shaft e. Barrel
c. Hub f. Plunger
Advantages of venipuncture
 Large amount of blood can be obtained
 Ideal for blood chemistry determinations
 It reduces the possibility of error in resulting
from dilution with tissue juices.
Disadvantages of venipuncture
 Requires more time and skill
 Requires more equipment
 More complications may arise
 hard to do on infants, children and obese
individuals
Procedure
 Assembling equipments
 Prepare the materials that will be needed in the
procedure
 Positioning and identifying the patient
 Preparation of the needle and syringe
 Applying the tourniquet
Procedure
 Selecting the vein
 Applying the antiseptic
 Inserting the needle
Procedure
 Releasing the tourniquet
 Withdrawing the blood
 Withdrawing the needle
 Transferring the blood
 Checking the patient
wound
COMPLICATIONS OF
VENIPUNCTURE
 Immediate Local Complications
 Localized hemoconcentration or Venous
stasis
 Syncope or Fainting
 Due to sudden decrease of blood supply to
the brain
 Remedy: Let the patient lie down
COMPLICATIONS OF
VENIPUNCTURE
 Failure of blood to enter the syringe due
to:
 Excessive pull of the plunger which collapses the
vein
 Going through the vein reaching the musculature
 Very small angle of entry wherein the needle
reaches only the walls of the veins (transfixation of
the vein)
 Delayed Local Complications:
 Thrombosis of veins
 Formation of blood clots inside the lumen of the vein due
to trauma
 Thrombophlebitis
 Inflammation of the vein due to thrombus as manifested
by an inflammatory reaction on the outer skin surface
 Hematomas
 Blue or black skin discoloration commonly due to
repeated trauma or puncture of the veins
 General Delayed Complications:
 Serum Hepatitis
 AIDS
COMMON DIFFICULTIES
ENCOUNTERED DURING
COLLECTION AND PROCESSING
OF BLOOD
Hemolysis
 This must be avoided because of the following
reasons:
 Most constituents, such as SGOT, LDH, Acid Phosphatase
and Potassium are present in large amount in erythrocytes
 Invalidates determination due to color changes
 May directly interfere in a chemical determination by
inhibiting an enzyme such as lipase.
 Hemoglobin may interfere with the diazotization of bilirubin.
Hemolysis can be prevented by:

 Proper collection of blood
 Venous stasis
 Moisture
 Excessive traction
 Small lumen needles
 Air leak
 Proper transfer of blood
 Expelling of blood through the needle
 Shaking
 Separation of blood
 Freezing
 Over centrifuge
LIPEMIA OR LACTESCENSE
 This is caused by transient rise in chylomicrons
following a meal containing fat
 It causes interference with large number of chemical
analyses because of turbidity.
 It disturbs the following investigations particularly
strongly:
 Amylase
 Bilirubin
 Protein
 SGOT
 SGPT
CONCENTRATION CHANGES
 Thismay occur through dilution or
evaporation.
 The sources of the errors are:
 Use of syringe and needles rinsed in saline
solution
 Use of liquid form of anticoagulant
 Allowing the blood to stand in open container
 Centrifugation of blood specimens in open
containers.
COMPOSITION CHANGES
 Bacterial changes – such as formation of
ammonia from urea
 Enzymatic changes
 Blood gas changes
COMPOSITION CHANGES
 Extravascular interchange – this is due to
movement of substance between the cells
and plasma or serum, like K, water and
chloride.
 Changes in lipid concentration – due to
lipolysis
 Changes in phosphates – due to hydrolysis
of organic phosphate esters.
Order of Draw