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June 26th, 2014, 10:18 AM
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Medical Microbiology Syllabus
Can you give me syllabus for BSC medical microbiology course offered by Kanpur university ?? Here I am giving you syllabus for BSC medical microbiology course offered by Kanpur university in PDF file attached with it so you can get it easily.. BSC medical microbiology syllabus : Part I Subjects Human Anatomy & Physiology General Pathology & General Microbiology Basics of Biochemistry, Instruments & Reagents Quality Control and Biostatistics B.Sc. in Medical Microbiology Part Part II Subjects Heamatology, Immunology & Blood Transfusion Systemic Bacteriology Parasitology Clinical Biochemistry Part III : Subjects Mycology & Virology Applied Microbiology Automation in Medical Microbiology General Pathology & General Microbiology Subject Code : BMM-102 Min. Hrs - Theory : 100 Hrs & Practical : 100 Hrs. GENERAL PATHOLOGY 1. Cell Injury and Cellular Adaptations. a) Normal Cell b) Cell Injury- types of cell injury, etiology of cell injury, morphology of cell injury, cellular swelling (in brief). c) Cell death : types- autolysis, necrosis, apoptosis & gangrene. d) Cellular adaptations-atrophy, hypertrophy, hyperplasia & dysplasia. 2. Inflammation a) Acute inflammation - vascular event, cellular event, inflammatory cells. b) Chronic Inflammation - general features, granulomatous inflammation, tuberculoma. 3. Haemodynamic Disorders : Oedema, hyperemia, congestion, haemorrage, circulatory disturbances, thrombosis, ischaemia & infarction. 4. Neoplasia : Definition, how does it differ from hyperplasia, difference between benign tumor and malignant tumor. 5. Healing Definition, different phases of healing, factors influencing wound healing. B.Sc. in Medical Microbiology (BMM) Second Year HEAMATOLOGY, IMMUNOLOGY & BLOOD TRANSFUSION Min. Hrs - Theory : 100 Hrs & Practical : 100 Hrs. THEORY HEAMATOLOGY 1. Hematological Disorders Classification of Anemia : Morphological & Etiological Iron Deficiency Anemia : Distribution of body iron. Iron absorption causes of iron deficiency, lab findings. Megaloblastic Anemia : Causes, Lab findings. Hemolytic Anemia : Definition, Causes, Classification & Lab findings. 2. Basic Hematological Techniques Preparation of specimen collection material. Collection of blood specimen : various methods of collection. Haemolysis of blood. Separation of serum. Separation of plasma. Changes in blood on Keeping. Maintenance of specimen identification. Transport of the specimen. Effect of storage on Blood Cell morphology. Universal precautions. 3. Coagulation and Bleeding Disorders (in brief) IMMUNOLOGY 1. Immunity - Definition and classification - General Principles of Innate & Acquired Immunity. 2. Immune Response - Humoral immunity & cell mediated immunity. 3. Antigen - Definition, classes, properties. 4. Antibodies/Immunoglobulins - Definition, Properties, Sub types of Immunoglublines 5. Antigen/Antibody Reaction/Serological Refractions - 6. Features of antigen/antibody Reaction - Precipitation - Agglutination - Complement fixation test - Neutralization - Opsonization - Immune adherence - Immuno fluorescence - Immuno electron Microscopic test 7. Structure and functions of Immune System - Parts of Immune system - T/B cells, other cells & their functions 8. Hyper sensitivity Reactions - General Principles of different types of hypersensitive reactions i.e., type 1, 2, 3, 4. - Auto immune disorders 9. ELISA BLOOD TRANSFUSION 1. Blood group system, Blood grouping & cross matching 2. Transfusion reactions 3. Preparation and use of blood components. PRACTICAL HEAMATOLOGY 1. Haematological tests : Complete blood counts (Haemoglobin, TLC, DLC), ESR. 2. Morphology of red blood cells. IMMUNOLOGY 1. WIDAL Test 2. VDRL Test, 3. RA Test 4. CRP Test 5. Pregnancy Test & HIV Test BLOOD TRANSFUSION 1. Blood grouping & Cross Matching. SYSTEMIC BACTERIOLOGY Min. Hrs - Theory : 80 Hrs & Practical : 80 Hrs. THEORY Study of - Staphylococcus, Streptococcus, Pneumococcus, Neisseira gonorrhoea, Neisseira meningitis, Cornybacterium diptheriae, Mycobaterium, Clostridium, E.coli, H. pylori, Klebsiella, Salmonella, Proteus, Pseudomonas, Vibrio & Spirochaetes with reference to their : - Morphology, cultural characteristics, biochemical reaction, pathogenesis/disease caused & lab diagnosis. PRACTICAL 1. Culture techniques 2. Culture media 3. Preparation of media 4. Identification of media & their uses 5. Culture methods & identification of common bacteria on media. 6. Antibiotic sensitivity testing. PARASITOLOGY Min. Hrs - Theory : 60 Hrs & Practical : 60 Hrs. THEORY 1. Definition - parastism, HOST, Vectors etc. 2. Classification of Parasites 3. Phylum Protozoa- general Pathogenic and non pathogenic protozoa. 4. Phylum Nemathelminths/Round words (Nematoda) 5. Phylum Platyhelminths - class-Cestoda, class-Trematoda 6. Lab diagnosis of parasitic infections. Protozoa : 1. Intestinal Amoebae a. E. Histolytica : Life cycle, Morphology, Disease & Lab Diagnosis b. E. coli : Life cycle, Morphology, Disease & Lab Diagnosis 2. Flagellates of intestine/genitalia a. Giardia lamblia : Life cycle, Morphology, Disease & Lab Diagnosis b. Trichomonas vaginalis : Life cycle, Morphology, Disease & Lab Diagnosis 3. Malarial Parasite a. Plasmodium vivax : Life cycle, Morphology, disease & lab diagnosis b. Differences between P. vivax, P. malaria, P. falcipaum & P.ovale. Nematodes : Intestinal Nematodes : a. Ascaris : Life cycle, Morphology, disease & lab diagnosis b. Brief discussion about Enterobius vermicularis (Thread worm ) and Ancylostoma duodenale (Hook worm) Tissue Nematodes : W. Bancrofti - Life cycle, Morphology, Disease & Lab Diagnosis Phylum Platyhelminths a. Cestodes - T. solium, T. saginata & E. granulosus. b. Trematodes - S. haematobium & F. hepatica. PRACTICAL Stool examination. Identification of different ova & cysts in stool samples. CLINICAL BIOCHEMISTRY Min. Hrs - Theory : 100 Hrs & Practical : 100 Hrs. THEORY 1- Photometry- Definition, laws of photometry, absorbance, transmittance, absorption maxima instruments, parts of photometer, types of photometry–colorimetry, spectrophotometry, flame photometry, fluuorometry, choice of appropriate filter, measurements of solution, calculation of formula, applications. 2- Water & Mineral Metabolism- Distribution of fluids in the body, ECF & ICF, water metabolism, dehydration, mineral metabolism, macronutrients (principal mineral elements) & trace elements. 3- Liver Functions & their Assessment. Based on: 1- Carbohydrate metabolism 2-Protein metabolism 3- Lipid metabolism 4-Measurements of serum enzyme levels 4-Bile pigment metabolism, Jaundice, its types and their biochemical findings. 4- Renal Function Tests- Various Tests, GFR & Clearance 5- Immunodiffusion Techniques, Radioimmunoassay & ELISA- Principles & Applications. 6- Electrophoresis - Principle, Types & Applications. 7- Polymerase Chain Reaction - Principle & Applications 8- Autoanalysers - Principle & Applications 9- Vitamins- Fat & water soluble vitamins, sources, requirement, deficiency disorders & biochemical functions. 10- Cardiac Profile - In brief Hypertension, Angina, Myocardial Infarction, Pattern of Cardiac Enzymes in heart diseases 11- Different methods of Glucose Estimation- Principle advantage and disadvantage of different methods. 12- Different methods of Cholesterol Estimation- Principle, advantage and disadvantage of different methods. PRACTICAL (By Colorimeter / Spectrophotometer) 1. Blood urea estimation 2. Serum creatinine estimation 3. Serum uric acid estimation 4. Serum total protein estimation 5. Serum albumin estimation 6. Serum globulin estimation 7. Serum glucose estimation 8. Total cholesterol estimation 9. HDL cholesterol (direct) estimation. 10. LDL cholesterol (direct) estimation 11. Triglyceride estimation 12. Serum Bilirubin total estimation 13. Serum Bilirubin direct estimation 14. Serum amylase estimation 15. Serum GOT (AST) estimation 16. Serum GPT (ALT) estimation 17. Alkaline phostase estimation 18. Acid phosphatase estimation 19. Serum sodium estimation 20. Serum potassium estimation 21. Serum chloride estimation 22. CK-NAC estimation B.Sc. in Medical Microbiology (BMM) Third Year MYCOLOGY & VIROLOGY Min. Hrs - Theory : 80 Hrs & Practical : 80 Hrs. THEORY MYCOLOGY - Morphology and structure of fungi. - Classification of fungi. - Nutrition and cultivation of fungus. - Cutaneous & Sub cutaneous and Systemic Mycosis. 14 - Lab diagnosis of fungal Infections. - Opportunistic fungal infections. VIROLOGY - General characters of viruses. - Classification of viruses. - Lab diagnosis of viral infections. - Cultivation of viruses. - Bacteriophages - Retro viruses - HIV, Hepatitis virus , Pox virus . - Picrona virus - Polio. - Orthomyxo virus - Influenza. - Arbo virus - Chikungunya, Dengue. - Herpies and Adeno virus. PRACTICAL - Culture Media used for fungus. - Fungal culture - Methods of lab diagnosis of viruses. APPLIED MICROBIOLOGY Min. Hrs - Theory : 60 Hrs & Practical : 60 Hrs. THEORY 1. Urinary tract infections 2. Nosocomial infections 3. Pyrexia of unknown origin 4. Immunization PRACTICAL 1. Assignment of Microbiology 2. Antimicrobial senstivity testing 3. Slit smear preparation 4. Culture & sensitivity, innoculation techniques of different specimens AUTOMATION IN MEDICAL MICROBIOLOGY Min. Hrs - Theory : 60 Hrs & Practical : 100 Hrs. THEORY 1. Automation - Introduction, meaning, advantages, history 2. Precipitation assays a. Double diffusion method (ouchterlony techniques) b. Counter immunoelectrophoresis c. Radial immunodiffusion d. Quantitative immunoelectrophoresis e. Immunonephelometry f. Immunoelectrophoresis g. Immunofixation (immunoblotting) h. Western blot 3. Assay based on agglutination a. Bacterial agglutination b. Hemagglutination c. Agglutination of inert particles coated with antigen or antibody. 4. Tests based on complement fixation. 5. Test based on immunofluoresence a. Immunofluoresence tests in microbiology b. Qunatitative immunofluoresence assay c. Immunofluorescence tests for the detection of auto-antibodies d. Immunofluorescence tests to detect tissue fixed antigen-antibody complex. e. Flow cytometry-surface staining, cytoplasmic staining, DNA-analysis, sorting f. Radio immunoassay g. Enzyme immunoassay 6. Cell culture- primary, secondary and those using established cell lines. 7. Latest trends in Automation, Biochips, Lab on a chip (LoC), Nanosensors- advantages and disadvantages, PCR and its clinical applications. PRACTICAL Various experiments using ELISA, PCR, Semi-Autoanalyzer or fully automated analyzer Last edited by Neelurk; March 25th, 2020 at 10:43 AM. |
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