CH34:LABORATORY DIAGNOSIS PREPARD BY: Basel Auda PRESENTED TO: Dr.Abdelraouf El Manamma 23-11-2008 Islamic University Gaza.

Slides:



Advertisements
Similar presentations
Serological tests (Antigen antibody interactions)
Advertisements

Foundations in Microbiology Seventh Edition
Measurement of Immune function:. Detect antigens and / or antibodies. Immunological tests rely upon: ability of antibodies to aggregate particulate antigens.
Clinical Microbiology and Immunology 1 36 Copyright © McGraw-Hill Global Education Holdings, LLC. Permission required for reproduction or display.
Foundations in Microbiology Sixth Edition Chapter 17 Diagnosing Infections Lecture PowerPoint to accompany Talaro Copyright © The McGraw-Hill Companies,
Immune Testing.
Serological reactions in Microbiology Tatyana Ivakhnyuk The Department of Infectious Diseases and Epidemiology with Course of Microbiology, Virology and.
in-vitro Ag-Ab reactions. Any foreign substances which when introduced into an animal, can stimulate a specific immune response, in the form of production.
Measurement of Immune function:. Immunological tests rely upon: Ability of antibodies to aggregate particulate antigens (agglutination) Or to precipitate.
© 2004 Wadsworth – Thomson Learning Immunology Tutorial Introduction & Course outline By: Moh’d J. Al Khatatneh.
Virus Quantification & Neutralization
Diagnostic Microbiology and Immunology
Medical Technology Department, Faculty of Science, Islamic University-Gaza MB M ICRO B IOLOGY Dr. Abdelraouf A. Elmanama Ph. D Microbiology 2008 Chapter.
Microbiology B.E Pruitt & Jane J. Stein AN INTRODUCTION TORTORA FUNKE CASE Chapter 18 Practical Applications of Immunology.
CELL CULTURE AND DIAGNOSTIC VIROLOGY. Since the discovery by Enders (1949) that polioviruses could be cultured tissue, cell culture has become a very.
Clinical Microbiology Growth Dependent ID Anaerobes Selective Media Differential Media Antimicrobial Drug Sensitivity.
Introduction to the Viruses: General properties of viruses: 1-They are very small in size, from  m. 2-They contain one kind of nucleic acid (RNA.
MEANS OF viral infection DIAGNOSIS
Antigens & Antibodies: reactions, detection, and applications.
Application of immunological tests
Lab-3 By: Dr.Malak El-Hazmi Assistant Professor & Consultant Virologist College of Medicine & KKUH.
Antigen antibody reactions
Done by: Bilal M. Marwa, Abdullah Al-Harby. From the slides of: Dr. Jad AlRab.
 Study of the immune system  How the body protects itself against foreign, potentially disease-causing microorganisms  Three main functions:  To recognize.
Immunological testing
Laboratory diagnosis of infectious and non infectious diseases The methods employed in the laboratory for diagnosing infectious (bacterial, viral, fungal,
Clinical Microbiology Growth Dependent ID Selective Media Differential Media Enrichment Culture Transport Media Blood Agar Chocolate Agar.
Laboratory Diagnosis of Virus Infections
Laboratory Diagnosis of Viral Infection
Virology practice Dr. Y. Hamadt Allah Elhaj Ass. Prof. medical microbiology.
Branches of Microbiology Bacteriology Virology Mycology Parasitology Immunology Recombinant DNA technology.
LABORATORY DIAGNOSIS OF VIRAL INFECTIONS. In developing countries, virological specimens will need to be transferred from district laboratories to regional.
© 2013 Pearson Education, Inc. Chapter 18: Practical Applications of Immunology $100 $200 $300 $400 $500 $100$100$100 $200 $300 $400 $500 VaccinationVaccines.
Lab Diagnosis of Viruses Dr Syed Suhail Ahmed College of Medicine Qassim University.
Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings PowerPoint ® Lecture Slide Presentation prepared by Christine L. Case Microbiology.
LAB. DIAGNOSIS OF VIRUSES 5 methods are used for diagnosis in the virology laboratory: 1.Direct microscopy 2.Cultivation of viruses 3.Serology 4. Detection.
Antigen antibody reaction. Virus neutralization Virus Neutralization Tests 1. Hemagglutination inhibition test Hemagglutination inhibition test is widely.
professor in microbiology
Lecturer: David. * Reverse transcription PCR * Used to detect RNA levels * RNA is converted to cDNA by reverse transcriptase * Then it is amplified.
Copyright © The McGraw-Hill Companies. Permission required for reproduction or display. 1 Antigen-Antibody Reactions in Vitro serology –branch of medical.
Complement Fixation Test
Antigens, Antibodies and Their Interactions
Clinical Virology: Part One Introduction MLAB 2434 – Microbiology Keri Brophy-Martinez.
ELISA Enzyme-linked Immunosorbant Assay Detects the presence of minutes quantities of either an antibody or an antigen Important diagnostic tool in many.
Lecture 3 serology ANTIGEN -ANTIBODY INTERACTIONS (2)
Lecture 4 clinical practice Laboratory techniques in virology Dr. dalia galal.
Diagnostic immunology
 Direct  Indirect  Direct: -Microscopy -Culture -Antigen -Nucleic acid  Indirect: -Specific antibody (Serology)
© 2004 Wadsworth – Thomson Learning Chapter 19 Diagnostic Immunology.
Diagnosis of viral infections
DIAGNOSTIC MICROBIOLOGY VIRUSES & PARASITES
Foundations in Microbiology Seventh Edition
THE LABORATORY DIAGNOSIS OF VIRAL INFECTIONS
Ch.12 Immunology Applications
Haemagglutination assay
Antibody-Antigen Reactions
Principles of Laboratory Diagnosis of Infectious Diseases
LAB. DIAGNOSIS OF VIRUSES
الرحيم الرحمن الله بسم.
Laboratory Diagnosis of Infectious Diseases
Plaque Forming Unit (PFU)
By Prof. Abeer Abd El Fattah Elsayed
Growing Viruses Viruses must be grown in living cells
Laboratory Diagnosis of Viral Infection
Diagnosing Infections
Viral Diseases How To Diagnose By: Dr. Amr. Viral Diseases How To Diagnose By: Dr. Amr.
“He who has a why to live can bear almost any how.”
Immunological testing
VIRAL IMMUNOLOGY Prepared by : Mustafa Flaifel Presented to : Prof. Joma’a Shakhanbeh.
Measurement of Immune function:
Presentation transcript:

CH34:LABORATORY DIAGNOSIS PREPARD BY: Basel Auda PRESENTED TO: Dr.Abdelraouf El Manamma Islamic University Gaza

Introduction  There are five approaches to the diagnosis of viral infection:  (1) identification of the virus in cell culture  (2) microscopic identification directly in the specimen  (3) serologic procedures to detect a rise in antibody titer or the presence of IgM antibody  (4) detection of viral antigens in blood or body fluids  (5) detection of viral nucleic acids in blood or the patient's cells

Identification in Cell Culture The growth of viruses requires cell cultures, because viruses replicate only in living cells. Because many viruses are inactivated at room temperature, it is important to inoculate the specimen into the cell culture as soon as possible; brief transport or storage at 4°C is acceptable Virus growth in cell culture frequently produces a characteristic cytopathic effect (CPE) that can provide a presumptive identification. CPE is a change in the appearance of the virus-infected cells. This change can be in such features as size, shape, and the fusion of cells to form multinucleated giant cells (syncytia). CPE is usually a manifestation of virus-infected cells that are dying or dead. The time taken for the CPE to appear and the type of cell in which the virus produces the CPE are important clues in the presumptive identification.

Cont. If the virus does not produce a CPE, its presence can be detected by several other techniques: Hemadsorption, i.e., attachment of erythrocytes to the surface of virus- infected cells. This technique is limited to viruses with a hemagglutinin protein on their envelope, such as mumps, parainfluenza, and influenza viruses. Interference with the formation of a CPE by a second virus. For example, rubella virus, which does not cause a CPE, can be detected by interference with the formation of a CPE by certain enteroviruses such as echovirus or coxsackievirus. A decrease in acid production by infected, dying cells. This can be detected visually by a color change in the phenol red (a pH indicator) in the culture medium. The indicator remains red (alkaline) in the presence of virus-infected cells but turns yellow in the presence of metabolizing normal cells as a result of the acid produced. This

definitive identification  A definitive identification of the virus grown in cell culture is made by using known antibody in one of several tests. Complement fixation, hemagglutination inhibition, and neutralization of the CPE are the most frequently used tests.  Other procedures such as fluorescent antibody, radioimmunoassay, enzyme-linked immunosorbent assay (ELISA), and immunoelectron microscopy are also used in special instances.

Complement Fixation  If the antigen (the unknown virus in the culture fluid) and the known antibody are homologous, complement will be fixed to the antigen–antibody complex. This makes it unavailable to lyse the "indicator" system, which is composed of sensitized red blood cells.

Hemagglutination Inhibition If the virus and antibody are homologous, the virus is blocked from attaching to the erythrocytes and no hemagglutination occurs. If the virus and antibody are homologous, the virus is blocked from attaching to the erythrocytes and no hemagglutination occurs. Only viruses that agglutinate red blood cells can be identified by this method.

Neutralization If the virus and antibody are homologous, the antibody bound to the surface of the virus blocks its entry into the cell. This neutralizes viral infectivity, because it prevents viral replication and subsequent CPE formation or animal infection

Fluorescent-Antibody Assay If the virus-infected cells and the fluorescein- tagged antibody are homologous, the typical apple-green color of fluorescein is seen in the cells by ultraviolet (UV) microscopy.

Radioimmunoassay If the virus and the antibody are homologous, there is less antibody remaining to bind to the known radiolabeled virus. If the virus and the antibody are homologous, there is less antibody remaining to bind to the known radiolabeled virus.

Enzyme-Linked Immunosorbent Assay In the ELISA test to identify a virus, known antibody is bound to a surface. If the virus is present in the patient's specimen, it will bind to the antibody. A sample of the antibody linked to an enzyme is added, which will attach to the bound virus. The substrate of the enzyme is added and the amount of the bound enzyme is determined In the ELISA test to identify a virus, known antibody is bound to a surface. If the virus is present in the patient's specimen, it will bind to the antibody. A sample of the antibody linked to an enzyme is added, which will attach to the bound virus. The substrate of the enzyme is added and the amount of the bound enzyme is determined

Immunoelectron Microscopy If the antibody is homologous to the virus, aggregates of virus–antibody complexes are seen in the electron microscope

Microscopic Identification Viruses can be detected and identified by direct microscopic examination of clinical specimens such as biopsy material or skin lesions. Three different procedures can be used. Light microscopy can reveal characteristic inclusion bodies or multinucleated giant cells. The Tzanck smear, which shows herpesvirus-induced multinucleated giant cells in vesicular skin lesions, is a good example. (2) UV microscopy is used for fluorescent-antibody staining of the virus in infected cells. (3) Electron microscopy detects virus particles, which can be characterized by their size and morphology. (3) Electron microscopy detects virus particles, which can be characterized by their size and morphology.

Serologic Procedures A rise in the titer of antibody to the virus can be used to diagnose current infection. Seroconversion is the term used to describe the finding of antibody to a virus (or any microbe) in a patient's serum who previously had no antibody. Stated another way, the patient's serum has converted from antibody-negative to antibody- positive.

Cont. A serum sample is obtained as soon as a viral etiology is suspected (acute-phase), and a second sample is obtained 10–14 days later (convalescent-phase). If the antibody titer in the convalescent-phase serum sample is at least fourfold higher than the titer in the acute-phase serum sample, the patient is considered to be infected If, however, the titer in the convalescent-phase serum sample is less than two folds this is not a significant rise and should not be interpreted as a sign of recent infection.

Cont. It is important to realize that an antibody titer on a single sample does not distinguish between a previous infection and a current one. The antibody titer can be determined by many of the immunologic tests mentioned above. These serologic diagnoses are usually made retrospectively, because the disease has frequently run its course by the time the results are obtaied. In certain viral diseases, the presence of IgM antibody is used to diagnose current infection. For example, the presence of IgM antibody to core antigen indicates infection by hepatitis B virus. In certain viral diseases, the presence of IgM antibody is used to diagnose current infection. For example, the presence of IgM antibody to core antigen indicates infection by hepatitis B virus. Other nonspecific serologic tests are available. For example, the heterophil antibody test (Monospot) can be used to diagnose infectious mononucleosis

Detection of Viral Antigens Viral antigens can be detected in the patient's blood or body fluids by various tests but most often by an ELISA. Tests for the p24 antigen of human immunodeficiency virus (HIV) and the surface antigen of hepatitis B virus are common examples of this approach Tests for the p24 antigen of human immunodeficiency virus (HIV) and the surface antigen of hepatitis B virus are common examples of this approach

Detection of Viral Nucleic Acids Viral nucleic acids, i.e., either the viral genome or viral mRNA, can be detected in the patient's blood or tissues with complementary DNA or RNA (cDNA or cRNA) as a probe. If only small amounts of viral nucleic acids are present in the patient, the PCR can be used to amplify the viral nucleic acids. Assays for the RNA of HIV in the patient's blood (viral load) are commonly used to monitor the course of the disease and to evaluate the

Thank you