Sample collection & laboratory methods for identification bacteria

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Presentation transcript:

Sample collection & laboratory methods for identification bacteria Lab . 3 L. Samira

Learning objectives At the end of the presentation, participants should understand the: Procedures, preparation, processing and transport of specimens

Successful laboratory investigations Advance planning Collection of adequate and appropriate specimens Sufficient documentation Biosafety and decontamination Correct packaging Rapid transport Choice of a laboratory that can accurately perform the tests Timely communication of results

Specimen collection: key issues Consider differential diagnoses Decide on test(s) to be conducted Decide on clinical samples to be collected to conduct these tests consultation between microbiologist, clinicians and epidemiologist

Transport medium Allows organisms (pathogens and contaminants) to survive Non-nutritive - does not allow organisms to proliferate For bacteria – i.e., Cary Blair For viruses - virus transport media (VTM)

Blood for smears Collection Capillary blood from finger prick make smear fix with methanol or other fixative Handling and transport Transport slides within 24 hours Do not refrigerate (can alter cell morphology

Blood for cultures Collection Venous blood infants: 0.5 – 2 ml children: 2 – 5 ml adults: 5 – 10 ml Requires aseptic technique Collect within 10 minutes of fever if suspect bacterial endocarditis: 3 sets of blood culture

Blood for cultures Handling and Transport Collect into bottles with infusion broth change needle to inoculate the broth prevents hemolysis Wrap tubes with absorbent cotton Travel at ambient Store at 4oC if can’t reach laboratory in 24h

Serum Collection Venous blood in sterile test tube let clot for 30 minutes at ambient temperature glass better than plastic Handling Place at 4-8oC for clot retraction for at least 1-2 hours Centrifuge at 1 500 RPM for 5-10 min separates serum from the clot

Throat swab (posterior pharyngeal swab) Hold tongue away with tongue depressor Locate areas of inflammation and exudate in posterior pharynx, tonsillar region of throat. Avoid swabbing soft palate; do not touch tongue Rub area back and forth with cotton or Dacron swab

Sputum Collection Instruct patient to take a deep breath and cough up sputum directly into a wide-mouth sterile container avoid saliva or postnasal discharge 1 ml minimum volume

Respiratory samples Handling and Transport All respiratory specimens except sputum are transported in appropriate media bacteria: Amie’s or Stuart’s transport medium Transport as quickly as possible to the laboratory to reduce overgrowth by oral flora For transit periods up to 24 hours ambient temperature for bacteria

Glass slides for microscopy Label slides individually use glass marking pencil ensure markings don’t interfere with staining process Each slide should bear: patient name unique identification number date of collection

Preparation for the Survey of Microbial Diseases Methods used to identify bacteria to the level of genus and species Phenotypic methods Morphology Physiology or biochemistry Immunologic method Serological analysis Genotypic techniques More and more often used as a sole resource for identifying bacteria.

Phenotypic Methods Microscopic morphology Macroscopic morphology Physiological/Biochemical characteristics Chemical analysis

Microscopic Morphology Cell shape and size Gram stain reaction Acid fast reaction Special structures

Macroscopic Morphology Colony appearance Speed of growth Patterns of growth

Physiological/Biochemical Characteristics Traditional mainstay of bacterial identification Diagnostic tests for determining the presence of specific enzymes and assessing nutritional and metabolic activities Examples Fermentation of sugars Capacity to metabolize complex polymers Production of gas Presence of enzymes Sensitivity to antimicrobic drugs

Cultivation of Specimen Isolation media Biochemical testing Carbohydrate fermentation (acid and/or gas) Hydrolysis of gelatin, startch, and other polymers Enzyme actions such as catalase, oxidase, and coagulase By-products of metabolism

Polymerase Chain Reaction Rapid identification of pathogens Developed for a wide variety of bacteria, viruses, protozoa, and fungi