Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lab (1): Introduction to Clinical Laboratories

Similar presentations


Presentation on theme: "Lab (1): Introduction to Clinical Laboratories"— Presentation transcript:

1 Lab (1): Introduction to Clinical Laboratories
L. Nouf Alshareef KAU-Faculty of Science- Biochemistry department Clinical biochemistry lab (Bioc 416) 2012

2 Clinical Biochemistry Lab
Clinical labs is important in disease diagnosis, determine its severity and patient response to specific treatment Sections of clinical laboratory: 1) Hematology 2) Clinical biochemistry 3) Clinical microbiology 4) Serology ) Blood bank ) Histology and cytology Clinical Biochemistry Lab Measure the concentration of one or more substances in biological specimen of patient and compare it with reference value obtained from healthy subjects. Types of samples: Body fluids: blood, serum, plasma, urine, cerebrospinal fluid (CSF), feces other body fluids or tissues

3 How clinical biochemistical tests are performed
Automated computerized machine Manually Kits

4 BIOCHEMSTRY TESTS LFT (AST, ALT, ALP, GGT, TP, Alb, globuline, bilirubin) KFT (urea, creatinie, creatnine clearance, uric acid, Na+, K+ ) Lipid profile (cholesterol, TG, HDL, LDL) Cardiac profile (AST, LDH,CK,K+) Bone profile (ALP, minerals: Mg2+, Ca2+, phosphate) Electrolytes (Na+, K+, Cl-, Mg2+, phosphrous)

5 Lab Request Lab request or (request form), is computerize or manually filled by the doctor and send to the lab. There are different forms (multi-purpose or specific).

6

7 Laboratory Work Flow Cycle:
Three phases of laboratory testing: - test ordering, specimen collection, transport and processing - testing - results transmission, interpretation, follow-up, re-testing. Pre-analytical Analytical Post-analytical

8 Post-analytical Pre-analytical analytical

9 BLOOD COLLECTION (Phlebotomy):
Phlebotomy: blood withdraw from a vein, artery or bed capillaries for lab analysis. The phlebotomy equipments: Disposable syringes or Tourniquet Alcohol swap Blood collection tubes Gauze pads or adsorbent cotton Waste container

10

11

12 Note: minimum use of tourniquet is advised because blood constituents may be changed due to prolonged venous occlusion.

13 Vein Selection Veinpuncture procedure, using arm vein (adult).
Three veins in arm may be used: median cubital vein or, cephalic or basilic veins Median cubital vein is the best choice (why?) because it has good blood flow than cephalic and basilic which has more slowly flow venous-blood.html

14 Hand veins can be also used.
Artery blood is rarely used in special cases as when blood gases, pH, CO2, O2 and bicarbonate is requested. It is usually performed by physicians.

15 Preparation of Blood Sample
. Preparation of Blood Sample Blood contains: RBCs, WBCs and platelets Serum and plasma are prepared from whole blood by centrifugation. After centrifugation of blood, the blood separate into three layers In biochemical tests, one of three type of blood sample can be used: Whole blood ( HA1C) Serum Plasma

16 whole-blood specimens must be analyzed within limited time (why?)
Over time, cell will lyses in whole-blood which will change the conc. of some analytes as potassium, phosphate and lactate dehydrogenase Some cellular metabolic processes will continuo which will alter analytes conc. like glucose and lactate. When we use whole blood in analysis

17 Difference between Serum and plasma
Blood serum: Serum is the same as plasma except it doesn't contain clotting factors (such as fibrin) Mainly use in chemistry lab & serology. Blood plasma: Contains clotting factors So, serum and plasma all has the same contents of electrolytes, enzymes proteins, hormones except clotting factors

18 BOOLD COLLECTION TUBES

19 They are specific tubes evacuated from air called vacutainer tubes.
There are two major types of blood collection tubes: Serum separating tubes (SST): contain no anticoagulants. Plasma separating tubes (PST): contain anticoagulant or preservative.

20 Blood anticoagulants:
They are substances which prevent blood coagulation. They inhibit coagulation process by eliminating Ca2+ or by binding with thrombin. EDTA, citrate and oxalate: binds with Ca2+ Heparin: binds with thrombin Coagulation occurs in two major steps: - Prothrombin Ca Thrombin - Fibrinogen Thrombin Fibrin (Clot)

21 Choose the correct anticoagulant in blood collection is very important.
It depends on the test to be performed; anticoagulant shouldn't interfere with the substance to be analyzed (measured). False positive or false negative results may be produced if blood collected in tube contains wrong anticoagulant.

22 False positive and False negative
Here are some examples: Tubes contain sodium and potassium anticoagulants are not used in measuring concentration of electrolytes; this will produce false positive result (Li, ammonia or heparin is used in electrolytes). Tubes contain Na+-oxalate anticoagulant are not used for measuring Ca2+ level; because oxalate will react with Ca+2 and precipitated as Ca2+-oxalate. EDTA and citrate are not suitable for enzymatic assays, because it binds with Ca2+ ion that is a cofactor for enzymes like alkaline phosphatase.

23 Plasma separating tubes: Lavender (EDTA)
Green (heparin) Light blue (citrate) Gray (floride oxalate) Black Serum separating tubes: Red no additives Yellow : gel - Hematology - HbA1C - Enzymes, Hormones - Electrolytes - Coagulation (PT,PTT) - Glucose - ESR

24 Order of the Draw To prevent contamination of tubes with additives from other tubes it is important to draw the tubes in a SPECIFIC order called "the order of the draw". For example, if the additive in the purple stopper tube contaminates the green stopper tube this would cause a falsely decreased calcium and increased potassium.

25 The sequence of collection of evacuated tubes in a multi-draw should be in this order:
Sterile/Blood cultures (yellow top or bottles) Royal Blue - red label for trace metal analysis Light Blue coagulation tube . Red - Non-Additive Red Gel separator tube (speckled or “tiger” top) Green (heparin) Lavender/purple top and/or pink (EDTA) Gray top (Oxalate/fluoride tube)

26 Plasma separating tubes (PST)
Top Colors Additives Principle Uses Lavender EDTA The strongest anti-coagulant Ca+2chelating agent preserve RBCs components Hematology Blood bank ABO blood group HbA1C Light blue Sodium Citrate must be completely filled and inverted immediately after filling. PT: Prothrombin Time PTT: Thromboplastin Time Green Sodium or Lithium Heparin Heparin binds acts as anti thrombin. Enzymes Hormones Electrolytes Black Ca+2 chelating agent ESR (Erythrocyte Sedimentation Rate) Gray Na- Fluoride and K- Oxalate Fluoride inhibits Glycolysis Oxalate is anti-Coagluant Glucose tests

27 Procedure of Serum preparation:
Draw blood from patient. Select vacutainer with no anticoagulant. Allow to stand for 20-30min for clot formation. Centrifuge the sample to speed separation and affect a greater packing of cells. Clot and cells will separate from clean serum and settle to the bottom of the vessel. The supernatant is the serum which can be now collected by Dropper or pipette for testing purposes or stored (-20°C to -80°C) for subsequent analysis or use.

28 Serum separating tubes (SST)
Top Colors Additives Principle Uses Red Sometimes it has gel or silicon at the bottom of tube to reduce hemolysis Enhancing the formation of blood clot Serology, Antibodies Chemistry, Hormones, Drugs Virology Blood cross matching before blood transfusion Yellow It has gel at the bottom of the tube to separate serum from the blood Serum separating from the blood through the gel in the tube Serology Chemistry Procedure of plasma preparation: - Draw blood from patient. Select vacutainer with an appropriate anticoagulant. - Mix well with anticoagulant. - Allow to stand for 10min. - Centrifuge the sample to speed separation and affect a greater packing of cells. - The supernatant is the plasma which can be now collected for testing - Purposes or stored (-20°C to -80°C) for subsequent analysis or use.

29 http://qalphaada. en. ec21

30 Sample Haemolysis Haemolysis: liberation of hemoglobin due to rupture of RBCs. Plasma or serum appears pink to red color. Haemolysis must be avoided because it interferes with the results of some investigations. Usually it is associated with elevation in K+, Ca2+, phosphate, AST, D.Bil, LDH and acid phosphatases (why?) Classified as: H+, H++ and H+++. H++ & H+++ not acceptable for any test

31 Causes of haemolysis: Sampling:
dispense of blood directly from syringe through needle, the applied pressure may cause rupture of RBCs. Storage: Refrigerate non-separated blood sample (too cold, too hot will also effects). Transportation: Mechanically due to blood sample shaking.

32 Types of samples Hemolyzed: rupture of RBCs so, HB released from RBCs
Icteric: serum appears yellow due to high bilirubin. Lipemic: serum appears milky or turbid due to high lipid.

33 Specimen rejection Specimen improperly labeled or unlabeled
Specimen improperly collected or preserved Specimen submitted without properly completed request form hemolyzd sample.

34 Sample Storage Serum or plasma is stored in: 2-4oC for 3-5 days
-20oC for long time (months)


Download ppt "Lab (1): Introduction to Clinical Laboratories"

Similar presentations


Ads by Google