BSC MLT Syllabus 2019-2020 PDF
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Rajiv Gandhi University of Health Sciences
2020
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Summary
This document details the revised ordinance governing the regulations and curriculum for the Bachelor of Medical Laboratory Technology (BSc MLT) course at the Rajiv Gandhi University of Health Sciences, Karnataka, Bangalore for the academic year 2019. It outlines eligibility requirements, course duration, medium of instruction, examination schemes, attendance policies, internal assessment procedures, and detailed teaching hour schedules for theory and practical components for each year of the program. It includes detailed schedules and syllabi.
Full Transcript
REVISED ORDINANCE GOVERNING REGULATIONS AND CURRICULUM OF BACHELOR OF MEDICAL LABORATORY TECHNOLOGY COURSE - 2019 Rajiv Gandhi University of Health Sciences, Karnataka, Bangalore 1 The Emblem...
REVISED ORDINANCE GOVERNING REGULATIONS AND CURRICULUM OF BACHELOR OF MEDICAL LABORATORY TECHNOLOGY COURSE - 2019 Rajiv Gandhi University of Health Sciences, Karnataka, Bangalore 1 The Emblem The Emblem of the Rajiv Gandhi University of Health Sciences is a symbolic expression of the confluence of both Eastern and Western Health Sciences. A central wand with entwined snakes symbolises Greek and Roman Gods of Health called Hermis and Mercury is adapted as symbol of modern medical science. The pot above depicts Amrutha Kalasham of Dhanvanthri the father of all Health Sciences. The wings above it depicts Human Soul called Hamsa (Swan) in Indian philosophy. The rising Sun at the top symbolises knowledge and enlightenment. The two twigs of leaves in western philosophy symbolises Olive branches, which is an expression of Peace, Love and Harmony. In Hindu Philosophy it depicts the Vanaspathi (also called as Oushadi) held in the hands of Dhanvanthri, which are the source of all Medicines. The lamp at the bottom depicts human energy (kundalini). The script “Devahitham Yadayahu” inside the lamp is taken from Upanishath Shanth i Manthram (Bhadram Karnebh i Shrunuyanadev…), which says “May we live the full span of our lives allotted by God in perfect health” which is the motto of the Rajiv Gandhi University of Health Sciences. 2 Ref: ACA/DCD/AHS/B.Sc.MLT/367/2019-20 Date: 28/08/2019 NOTIFICATION Sub: Revised Ordinance pertaining to Regulation and Curriculum of Bachelor of Medical Laboratory Technology. Ref: 1. Minutes of BOS Allied Health Sciences held on 13/05/2019 2. Proceedings of Faculty meeting held on 15/05/2019 3. Proceedings of AC meeting held on 17/06/2019 4. Proceedings of Syndicate meeting held on 29/06/2019 In exercise of the powers vested under Section 35(2) of RGUHS Act, 1994, the Revised Ordinance pertaining to Regulation and the curriculum of Bachelor of Medical Laboratory Technology is notified herewith as per Annexure. The above Regulation shall be applicable to the students admitted to the said course from the academic year 2019-20 onwards. By Order, Sd/- REGISTRAR To The Principals of all affiliated Allied Health Sciences Course colleges of RGUHS, Bangalore. Copy to : 1. The Principal Secretary to Governor, Raj Bhavan, Bangalore – 560001 2. The Principal Secretary Medical Education, Health & Family Welfare Dept., M S Building, Dr.B.R. Ambedkar Veedhi, Bangalore – 01 3. PA to Vice – Chancellor/PA to Registrar/Registrar (Eva.)/Finance Officer, Rajiv Gandhi University Health Sciences, Bangalore 4. All Officers of the University Examination Branch/ Academic Section. 5. Guard File / Office copy. 3 REVISED ORDINANCE GOVERNING REGULATIONS & CURRICULUM OF BACHELOR OF MEDICAL LABORATORY TECHNOLOGY - 2019 1. Eligibility for admission: A candidate seeking admission to the BSc. MLT shall have studied English as one of the principal subject during the tenure of the course and shall have passed: 1. Two year Pre-University examination or equivalent as recognized by Rajiv Gandhi University of Health Sciences with, Physics, Chemistry and Biology as subjects of study. OR 2. Pre-Degree course from a recognized University considered as equivalent by RGUHS, (Two years after ten years of schooling) with Physics, Chemistry and Biology as subjects of study. OR 3. Any equivalent examination recognized by the Rajiv Gandhi University of Health Sciences, Bangalore for the above purpose with Physics, Chemistry and Biology as subjects of study. OR 4. The vocational higher secondary education course conducted by Vocational Higher Secondary Education, Government of Kerala with five subjects including Physics, Chemistry, Biology and English in addition to vocational subjects conducted is considered equivalent to plus TWO examinations of Government of Karnataka Pre University Course. OR 5. Candidates with two years diploma from a recognized Government Board in MLT shall have passed class 12 [10+2] with Physics, Chemistry and Biology, as subjects or candidates with 3 years diploma from a recognized Government Board in MLT should have studied Physics, Biology and Chemistry as subjects during the tenure of the course. Lateral entry to second year of B.Sc.MLT for candidates who have passed diploma program from the Government Boards and recognized by RGUHS, fulfilling the conditions specified above under Sl. No. 5 and these students are eligible to take admission on lateral entry system only in the same subject studied at diploma level from the academic year 2008-09 vide RGUHS Notification no. AUTH/AHS/317/2008-09 dated:01.08.2008. 4 Note: a. The candidate shall have passed individually in each of the subjects. b. Candidates who have completed diploma or vocational course through Correspondence shall not be eligible for any of the courses mentioned above. 2. Duration of the course: Duration shall be for a period of four years including one year of Internship. 3. Medium of instruction: The medium of instruction and examination shall be in English. 4. Scheme of examination: There shall be three examinations one each at the end of 1st, 2nd and 3rd year. 5. Attendance: Every candidate should have attended at least 80% of the total number of classes conducted in an academic year from the date of commencement of the term to the last working day as notified by university in each of the subjects prescribed for that year separately in theory and practical. Only such candidates are eligible to appear for the university examinations in their first attempt. Special classes conducted for any purpose shall not be considered for the calculation of percentage of attendance for eligibility. A candidate lacking in prescribed percentage of attendance in any subjects either in theory or practical in the first appearance will not be eligible to appear for the University Examination in that subject 6. Internal Assessment (IA): 1st Year B.Sc. MLT Theory - 20 marks Practicals - 10 marks*. [Lab work- 06 marks and Record-04 marks] 2nd & 3rd year B.Sc. MLT Theory – 20 Marks Practicals – 20 Marks There shall be a minimum of two periodical tests preferably one in each term in theory and practical of each subject in an academic year. The average marks of the two tests will be calculated and reduced to 20. The marks of IA shall be communicated to the University at least 15 days before the commencement of the University examination. The University shall have access to the records of such periodical tests. The marks of the internal assessment must be displayed on the notice board of the respective colleges with in a fortnight from the date test is held. If a candidate is absent for any one of the tests due to genuine and satisfactory reasons, such a candidate may be given a re-test within a fortnight. * There shall be no University Practical Examination in First year. 5 7. Subject and hours of teaching for Theory and Practicals The number of hours of teaching theory and practical, subject wise in first year, second year and third year are shown in Table-I, Table-II and Table-III Main and Subsidiary subjects are common in first year for all the courses in Allied Health Science. The number of hours for teaching theory and practical for main subjects in first, Second and Third year are shown in Table-I, II and III. Table - I Distribution of Teaching Hours in First Year Subjects Main subjects Sl. Theory No. Practical No. Total No. Subject Of Hours Of Hours Of Hours no 1 Human Anatomy 70 20 90 2 Physiology 70 20 90 3 Biochemistry I 70 20 90 4 Pathology I (Clinical Pathology, 70 20 90 Haematology & Blood Banking) 5 Microbiology 70 20 90 Total 350 100 450 The classes in main and subsidiary subjects are to be held from Monday to Thursday. On Fridays and Saturday’s students shall work in hospitals in the respective speciality or department chosen by them Subsidiary Subjects English 25 Hours Kannada 25 Hours Health-Care 40 Hours Clinical/Lab posting – 470 hours (Friday 9am – 1pm and 2pm - 4-30 pm Saturday 9am - 1pm) Table - II Distribution of Teaching Hours in Second Year Subjects Main Subjects Theory No. Practical No. Clinical Total No. Sl. no Subject of Hours Of Hours Postings Of Hours 1 Biochemistry II 100 80 170 350 2 Microbiology II 100 80 170 350 3 Pathology II 100 80 170 350 Total 300 240 510 1050 6 Subsidiary Subjects: Sociology 20 Hours Constitution of India 10 Hours Environmental Science & Health 10 Hours Table - III Distribution of Teaching Hours in Third Year Subjects Main Subjects Theory No. Practical No. Clinical Total No. of Sl. no Subjects Of Hours of Hours Posting Hours 1 Biochemistry III 100 80 170 350 2 Microbiology III 100 80 170 350 3 Pathology III 100 80 170 350 Total 300 240 510 1050 Subsidiary Subjects: Ethics, Database Management 50 Hours Research & Biostatistics 20 Hours Computer application 10 Hours 9. Schedule of Examination: The university shall conduct two examinations annually at an interval of not less than 4 to 6 months as notified by the university from time to time. A candidate who satisfies the requirement of attendance, progress and conduct as stipulated by the university shall be eligible to appear for the university examination. Certificate to that effect shall be produced from the Head of the institution along with the application for examination and the prescribed fee. 10. Scheme of Examination: There shall be three examinations, one each at the end of I, II and III year. The examination for both main and subsidiary subjects for all courses in Allied Health Sciences shall be common in the first year. Distribution of Subjects and marks for First Year, second year & Third year University theory and practical Examinations are shown in the Table – IV, V & VI. First year Examination: The University examination for 1st year shall consist of only theory examination and there shall be no University Practical Examination. Second & Third year examination: The University examination for 2nd and 3rd year shall consist of Written Examination & Practical. Written Examinations consists of 05 papers in the 1st year 03 papers in the 2nd Year 03 papers in the 3rd Year. 7 Practical examination: There shall be no practical examination in the first year. Three practical examinations, at the end 2nd Year. Three practical examinations at the end of the 3rd year. TABLE-IV Distribution of Subjects and marks for First Year University Theory Examination A Main Subjects* Written Paper I A Theory Total Duration Marks Marks Marks 1 Basic Anatomy (Including Histology) 3 Hours 100 20 120 2 Physiology 3 Hours 100 20 120 3 Biochemistry 3 Hours 100 20 120 4 Pathology 3 Hours 100 20 120 5 Microbiology 3 Hours 100 20 120 Subsidiary Subject** 1 English 3 Hours 80 20 100 2 Kannada 3 Hours 80 20 100 3 Health Care 3 Hours 80 20 100 Note: I A = Internal Assessment *Main Subjects shall have University Examination. There shall be no University Practical Examination. **Subsidiary subjects: Examination for subsidiary subjects shall be conducted by respective colleges. TABLE – V Distribution of Subjects and Distribution of marks for Second Year Examination of B.Sc. MLT Theory Practicals Univ. Sub Univ Sub Grand Paper Subject IA exam Total Prac IA Total Total I Biochemistry II 100 20 120 80 20 100 220 II Microbiology II 100 20 120 80 20 100 220 III Pathology II 100 20 120 80 20 100 220 8 Distribution of Subsidiary Subjects and marks for Second Year Examination of B.Sc. MLT B Subsidiary Subject** I A Theory Total Duration Marks Marks Marks 1 Sociology 3 Hours 80 20 100 2 Constitution of India 3 Hours 80 20 100 3 Environmental Science & 3 Hours 80 20 100 Health ** Subsidiary subjects: Examination for subsidiary subjects shall be conducted by respective colleges TABLE – VI Distribution of Subjects and marks for Third Year Examination of B.Sc MLT Theory Practicals Univ. Sub Univ Sub Grand Paper Subject IA Total Prac IA Total exam Total I Biochemistry III 100 20 120 80 20 100 220 II Microbiology III 100 20 120 80 20 100 220 III Pathology III 100 20 120 80 20 100 220 Distribution of Subsidiary Subjects and marks for Third Year Examination of B.Sc. MLT B Subsidiary Subject** I A Theory Total Duration Marks Marks Marks 1 Ethics, Database 3 Hours 80 20 100 Management 2 Research & Biostatistics 3 Hours 80 20 100 3 Computer Application 3 Hours 80 20 100 ** Subsidiary subjects: Examination for subsidiary subjects shall be conducted by respective colleges. 11. Pass criteria 11.1. First year examination a. Main Subjects: A candidate is declared to have passed in a subject, if he/she secures, 50% of marks in University Theory exam and internal assessment added together. b. Subsidiary Subjects: The minimum prescribed marks for a pass in subsidiary subject shall be 35% of the maximum marks prescribed for a subject. The marks obtained in the subsidiary subjects shall be communicated to the University before the Commencement of the University examination. 9 11.2. Second and Third year Examination a. Main Subjects: A candidate is declared to have passed the examination in a subject if he/she secures 50% of the marks in Theory and 50% in practical separately. For a pass in theory, a candidate has to secure a minimum of 40% marks in the University conducted written examination, and 50% in aggregate in the University conducted written examination and internal assessment added together and for pass in Practical, a candidate has to secure a minimum of 40% marks in the university conducted Practical/Clinical examination and 50% in aggregate i.e. University conducted Practical/Clinical and Internal Assessment. b. Subsidiary Subjects: The minimum prescribed marks for a pass in subsidiary subject shall be 35% of the maximum marks prescribed for a subject. The marks obtained in the subsidiary subjects shall be communicated to the University before the commencement of the University examination. 12. Carry over benefit 12.1 First year examination: A candidate who fails in any two of the five main subjects of first year shall be permitted to carry over those subjects to second year. However, he/ she must pass the carry over subjects before appearing for second year examination. 12.2. Second year examination: A candidate is permitted to carry over any one main subject to the third year but shall pass this subject before appearing for the third-year examination. 13. Declaration of Class a. A candidate having appeared in all the subjects in the same examination and passed that examination in the first attempt and secures 75% of marks or more of grand total marks prescribed will be declared to have passed the examination with Distinction. b. A candidate having appeared in all subjects in the same examination and passed that examination in the first attempt and secures 60% of marks or more but less than 75% of grand total marks prescribed will be declared to have passed the examination in First Class. c. A candidate having appeared in all the subjects in the same examination and passed that examination in the first attempt and secures 50% of marks or more but less than 60% of grand total marks prescribed will be declared to have passed the examination in Second Class. d. A candidate passing the university examination in more than one attempt shall be placed in Pass class irrespective of the percentage of marks secured by him/her in the examination. The marks obtained by a candidate in the subsidiary subjects shall not be considered for award of Class or Rank. [Please note, fraction of marks should not be rounded off clauses (a), (b) and (c) 10 14. Eligibility for the award of Degree: A candidate shall have passed in all the subjects of first, second and third year to be eligible for a compulsory 12 months of rotational internship. On completion of 12 months of the internship with pass criteria in outgoing clinical assessment exams the candidate is then eligible for the award of degree. 15. Distribution of Type of Questions and Marks SUBJECTS HAVING MAXIMUM MARKS= 100 (for First year) Type of Questions No. of Questions Marks for Each Questions Long Essay 2 10 Short Essay 10 05 Short Answer 10 03 1. Long essay- 2 Questions (second question choice) 2x10= 20 marks 2. Short essay- 10 Questions (Questions no 5 &10 choice) 10x5= 50 marks 3. Short answer- 10 Questions (Questions no 15 & 20 choice) 10x3= 30 marks Total= 100 SUBJECTS HAVING MAXIMUM MARKS= 100 (for Second and Third Year) Type of Questions No. of Questions Marks for Each Questions Long Essay 2 10 Short Essay 10 05 Short Answer 10 03 1. Long essay- 2 Questions (second question choice) 2x10= 20 marks 2. Short essay- 10 Questions (Questions no 5 &10 choice) 10x5= 50 marks 3. Short answer- 10 Questions (No choice) 10x3= 30 marks Total= 100 SUBJECTS HAVING MAXIMUM MARKS= 80 (for Subsidiary subjects) Type of Questions NO. of questions Marks for Each Questions Essay Type 3 (2 x 10) 10 Short Essay Type 8 (6 x 5) 05 Short Answer Type 12 (10 x 3) 03 11 INTERNSHIP Twelve-month compulsory rotational postings during which students have to work under the supervision of experienced staff in the following areas: 1. Clinical Pathology - 1 month 2. Hematology – 1 month 3. Clinical Biochemistry - 2 months 4. Clinical Microbiology – 1 months 5. Blood banking - 1 month 6. Phlebotomy – 1 month 7. Serology – 1 month 8. Histopathology – 1 month 9. Cytology – 1 month 10. Project work – 2 months NOTE: - At the end of internship there will be a practical exam, conducted by one Internal and one External examiner. Requirements for internship in the department of Clinical pathology and Blood banking- Haematology- 1. A minimum of 50 haemograms or more per day 2. Bone marrow examination and reporting 3. All special tests for leukemias 4. Immunohistochemistry 5. One MD pathologist should be present Histopathology 1. All his to pathological techniques should be done, both manual or/and automated- 10 specimens per day minimum. 2. All special stains should be done. 3. Immunohistochemistry in histopathology Cytology 1. Minimum 10 specimens per day 2. All cytological techniques including staining technique- manual and automated should be done. 3. Cytopathologist should be there. 12 Blood bank 1. Minimum 10 blood collections per day 2. All facilities for testing eg. Automated cell counter, ELISA reader should be there Facilities for component separation and storage should be there eg. Plasma and / or platelet pheresis machine, cooling centrifuge, blood bag refrigerator, deep freezer, platelet agitator etc. Requirements for internship in the department of Clinical Biochemistry- 1. A medium sized lab performing tests on 100 samples per day or a hospital comprising of 100 beds witha lab performing tests on 100 samples. 2. Tests performed should include- routine tests and higher chemistry a. Glucose b. Calcium c. Phosphorus d. Uric acid e. Electrolytes f. Amylase g. Lipase h. Ig i. Microalbumin j. RFT k. LFT l. Lipid profile m. Cardiac marker n. Diabetic profile including HbA1C o. Hypertension profile p. Tumor markers q. Hormones- LH, FSH, testosterone, prolactin r. Thyroid profile s. 24hrs urine protein t. 24hrs urine creatinine u. 24 hrs urine/ creatinine ratio The lab should include equipments as per mentioned below- a. Chemiluminescence/ drug hormone analyser/ ELFA b. HPLC (optional) c. Arterial blood gas analysis (optional) d. ISE electrolyte analyser/ flame photometry e. Electrophoresis / chromatography f. Fully automated analyser g. Semi automated analyser h. Spectrophotometer/ colorimeter 13 i. pH meter j. hot air oven k. distillation unit should have facility for performing caliberations for smaller equipments/ pipettes should run quality control materials should have proper guidelines for total quality management Requirements for internship in the department of Microbiology- Should learn collection and appropriate processing of various specimens. 1. Routine culture and sensitivity including blood culture- minimum of 10 per day 2. Serology by a. Latex agglutination- 20 per day b. Rapid tests- 20 per day c. ELISA- 5 per day 3. Mycology- a. Wet mount- 10 per day b. Culture- 5 per month 4. Parasitology- a. Wet mount- 20 per month b. Peripheral smear for malaria and filaria- 10 per day c. Quantitative buffy coat- 5 per day 5. Microscopy- minimum 10 per day a. Grams stain b. ZN stain c. Urine wet mount d. CSF India ink preparation The lab should have the following instruments- 1. Autoclave 2. Hot air oven 3. Incubator 4. Centrifuge 5. Water distillation unit 6. Physical balance 7. Digital balance 8. Refrigerator 9. Microscope- monocular, binocular, fluorescent microscope 10. ELISA reader 11. Micropipettes 12. Laminar air flow 13. Water bath 14. VDRL shaker 14 The responsibilities that the students should learn during their internship in the department of microbiology- Preparation of media Sterilization Preparation of reagents Handling instruments Waste disposal Maintenance of microscopes Calibration of instruments PROJECT Each student is encouraged to take up a research project in the area of his/her liking. The project should be original and should have considerable clinical relevance. The concerned faculty members guide the student in his/her project. After completing the project, each student has to submit a complete report of their respective projects PROJECT GUIDELINES All B.Sc MLT degree students enrolled in the Rajiv Gandhi University of Health Sciences should complete a scholarly project as partial fulfillment of requirements for the award of B.Sc MLT (MEDICAL LABORATORY TECHNOGY) degree. What is a project? A Project is a preliminary form of research. It is an independent investigation. It is very largely the student’s own work and is to be pursued by them from the inception till completion. It involves the student in a hands-on project led by a research supervisor/ faculty advisor who will choose, develop and guide the project from its inception to completion. Purpose of a project work The purpose of the Project Work is to enable the student to gain practical experience. It enables the student to meet program objectives through development of an appreciation of the interrelations between theory research and practice. A project forms an introduction to scientific thinking and working. Project suggestions Prior to the practical work, students work out a concept with their supervisor that could include any of the following points: Scientific question Educational objectives (which methods have to be mastered and understood) Recent trends in the respective fields Case study Prospective studies Retrospective studies 15 This scholarly project provides the student with the opportunity to participate in a mentored research experience. The student will actively participate in a research project throughout all current applicable phases of the project such as the case study, problem statement development, review of the literature, hypotheses formation, proposal writing, study design, data collection, data analysis, and result reporting. This may be done as a group project. Project supervision The supervisor schedules the project work together with the student and provides an introduction to all laboratory skills that are needed. She or he is then the contact person for all questions and problems during the project. If required, she or he may also ask for a progress report and preliminary results while the project is still ongoing. The eligibility academic qualification and teaching experience required for recognition as research supervisor and faculty advisor by the RGUHS are: a. Eligibility to be a research supervisor and faculty advisor Shall be a full time teacher in the college or institution where he or she is working. b. Academic qualification and teaching/professional experience for each branch Research supervisor (RS)- five years of teaching/ professional experience after the postgraduate qualification in a teaching institution or laboratory approved by RGUHS Faculty advisor (FA)- three years of teaching/ professional experience after the postgraduate qualification in a teaching institution or laboratory approved by RGUHS c. Age: The age of the RS/ FA shall not exceed 65 years. Assessment Four copies of the project report should be submitted to the Principal along with a soft copy (CD), three months before the Internship Practical examinations. Projects are assessed with a written report and a seminar. The written report and the presentation, as well as the practical work in the laboratory are to be assessed during Internship Practical Examination. GUIDELINES FOR THE PREPARATION OF PROJECT REPORTS 1. The project report should be typed in Times New Roman. The size of the titles should be 14 and Bold and the size of the subtitles should be 12 and bold. 2. The matter should have double spacing except for long quotations, footnotes and endnotes, which are single spaced. The left-hand margin must be 1.5”, other margins should be 1.0”. 3. The project report should be hardbound. 4. The project report should be organized in the following subdivisions: a. Title page b. Certificate c. Acknowledgement d. List of abbreviations used e. Table of contents f. Introduction g. Main project h. Summary of the project work i. List of references j. Annexures 16 a. Title page by Name of the Candidate Project Report In partial fulfillment of the requirements for the degree of Degree Name in Subject Name Under the guidance of Name of the RS and FA Name of the Department Name of the College Place Year b. Certificate CERTIFICATE BY THE RESEARCH SUPERVISOR This is to certify that the project report entitled “ " is a bonafide research work done by Name of the Candidate in partial fulfillment of the requirement for the degree of Degree Name. Signature of the Research Supervisor Name Designation & Department Date: Place: ENDORSEMENT BY THE HOD, PRINCIPAL/HEAD OF THE INSTITUTION This is to certify that the project report entitled “ " is a bonafide research work done by Name of the Candidate under the guidance of Name & designation of the Guide. Seal & Signature of the HOD Seal & Signature of the Principal Name Name Date: Place: 17 c. Acknowledgement The inclusion of a paper of Acknowledgment is a traditional practice in the write up of the Project Work. This permits the candidate to write a brief perface and acknowledge the help received from persons and organizations. d. List of abbreviations used e. Table of Contents f. Introduction This section includes a brief write up about the topic, its scope and importance as well as relation to any previous studies done in the particular topic. It should also mention any present developments. g. The main project The main project should be divided into various sections as per the demand of the topic. h. Summary of the project work i. List of References (Vancouver Style) References should be numbered consecutively in the order in which they are first mentioned in the text; they should not be listed alphabetically by author or title or put in date order. j. Annexures POINTS TO KEEP IN MIND The project work should be an original document and, candidates should maintain the originality. The candidate should not copy or reproduce anyone else’s published or unpublished project. Any arguments that are put forward in the project should be supported with appropriate data. Proper documentation of the information is very important. The methodology to be used should be very clearly stated in the beginning of the work. Plagiarism should be avoided. 18 CLINICAL POSTING: A student after having successfully completed the final year university examination is qualified to commence the Compulsory Rotatory ONE year Internship. The completion of Internship is mandatory to enable a student to obtain the B.Sc MLT degree. GUIDELINES Interns should complete postings in all specialities as decided by the department The interns should conduct themselves in a manner befitting the profession. The intern should dress appropriately in the clinical areas It is mandatory for the intern to wear the white apron with nametag while attending clinics Each intern should maintain a logbook wherever he/she is posted. The intern has to get signature from the supervising staff at the end of each posting Log book should be submitted to the Head of the department at the end of each posting of internship after the period of posting Assignments/presentations given during the period of internship has to be duly undertaken and performed. Internship completion certificate will be issued from the College office only after passing in the Internship Practical Examination. The intern in the parent institute will get a monthly stipend. The intern will be allowed to attend the National Conference, leave will be granted only for the days of conference and travel days. Any other leave declared by the University for the students will not apply to the interns 19 I YEAR B.Sc. MLT ANATOMY Theory: 70hrs Practicals: 20hrs Chapter 1: Introduction: Theory: Definition of anatomy and its divisions Terms of location, positions and planes Epithelium-definition, classification, describe with examples, function Glands- classification, describe serous, mucous & mixed glands with examples Basic tissues – classification with examples Practical: Histology of types of epithelium Histology of serous, mucous & mixed salivary gland Chapter 2: Connective tissue: Theory: Cartilage – types with example & histology theory Bone – Classification, names of bone cells, parts of long bone, microscopy of compact bone, names of all bones, vertebral column, intervertebral disc, fontanelles of fetal skull Joints – Classification of joints with examples, synovial joint (in detail for radiology) Muscular system: Classification of muscular tissue & histology Names of muscles of the body Practical: Histology of the 3 types of cartilage Histology of compact bone (TS & LS) Histology of skeletal (TS & LS) & cardiac muscle Demo of all bones showing parts, radiographs of normal bones & joints Demonstration of important muscles of the body 20 Chapter 3: Cardiovascular system: Theory: Heart-size, location, chambers, exterior & interior, pericardium Blood supply of heart Systemic & pulmonary circulation Branches of aorta, common carotid artery, subclavian artery, axillary artery, brachial artery, superficial palmar arch, femoral artery, internal iliac artery Inferior vena cava, portal vein, portosystemic anastomosis ,Great saphenous vein, Dural venous sinuses Lymphatic system- cisterna chyli & thoracic duct ,Histology of lymphatic tissues, Names of regional lymphatics, axillary and inguinal lymph nodes in brief Practical: Demonstration of heart and vessels in the body Histology of large artery & vein, medium sized artery & vein Histology of lymph node, spleen, tonsil & thymus Radiology: Normal chest radiograph showing heart shadows C hapter 4: Gastro-intestinal system Theory: Parts of GIT: Oral cavity (lip, tongue (with histology), tonsil, dentition, pharynx, salivary glands, Waldeyer’s ring), Oesophagus, stomach, small and large intestine, liver, gall bladder, pancreas, spleen, peritoneum & reflections Practical: Demonstration of parts of GIT Radiographs of abdomen Chapter 5: Respiratory system Parts of RS: nose, nasal cavity, larynx, trachea, lungs, bronchopulmonary segments, diaphragm Histology of trachea, lung and pleura Names of paranasal air sinuses Practical: Demonstration of parts of respiratory system. Normal radiographs of chest, X-ray paranasal sinuses Histology of lung and trachea Chapter 6: Urinary system Theory: 21 Kidney, ureter, urinary bladder, male and female urethra Histology of kidney, ureter and urinary bladder Practical: Demonstration of parts of urinary system Histology of kidney, ureter, urinary bladder Radiographs of abdomen-IVP, retrograde cystogram Chapter 7: Reproductive system Theory: Parts of male reproductive system, testis, vas deferens, epididymis, prostate (gross & histology) Parts of female reproductive system, uterus, fallopian tubes, ovary (gross & histology) Mammary gland – gross Practical: Demonstration of section of male and female pelvis with organs in situ Histology of testis, vas deferens, epididymis, prostate, uterus, fallopian tubes, ovary Radiographs of pelvis – hysterosalpingogram Chapter 8: Endocrine glands Theory: Names of all endocrine glands in detail on pituitary gland, thyroid gland& suprarenal gland –(gross & histology) Practical: Demonstration of the glands Histology of pituitary, thyroid, parathyroid, suprarenal glands Chapter 9: Nervous system Theory: Neuron & Classification of NS Cerebrum, cerebellum, midbrain, pons, medulla oblongata, spinal cord with spinal nerve (gross & histology) Meninges, Ventricles & cerebrospinal fluid, Names of basal nuclei Blood supply of brain Cranial nerves Sympathetic trunk & names of parasympathetic ganglia 22 Practical: Histology of peripheral nerve & optic nerve Demonstration of all plexuses and nerves in the body Demonstration of all part of brain Histology of cerebrum, cerebellum, spinal cord Chapter 10: Sensory organs Theory: Skin: Skin-histology & Appendages of skin Eye: Parts of eye & lacrimal apparatus, Extra-ocular muscles & nerve supply Ear: parts of ear- external, middle and inner ear and contents Practical: Histology of thin and thick skin Demonstration and histology of eyeball Histology of cornea & retina Chapter 11: Embryology: Theory: Spermatogenesis & oogenesis Ovulation, fertilization Fetal circulation Placenta INTERNAL ASSESSMENT Theory-average of 2 exams conducted 20 Practicals: record and lab work* 10 *There shall be no university practical examination and internal assessment marks secured in Practicals need not be sent to the university. SCHEME OF EXAMINATION THEORY There shall be one theory paper of three hours duration carrying 100 marks. Distribution of type of questions and marks for Anatomy shall be as given under. 23 SUBJECTS HAVING MAXIMUM MARKS= 100 (for First year) Type of Questions No. of Questions Marks for Each Questions Long Essay 2 10 Short Essay 10 05 Short Answer 10 03 1. Long essay- 2 Questions (second question choice) 2x10= 20 marks 2. Short essay- 10 Questions (Questions no 5 &10 choice) 10x5= 50 marks 3. Short answer- 10 Questions (Questions no 15 & 20 choice) 10x3= 30 marks Total= 100 Distribution of Marks for University Theory and Practical Exam Theory Grand Practicals Total Sub Theory IA Sub Total Practicals IA Total 100 20 120 * 120 REFERENCE BOOKS: 1. William Davis (P) understanding Human Anatomy and Physiology – McGraw Hill 2. Chaursia- A Text Book of Anatomy 3. T. S. Ranganathan- A Text Book of Human Anatomy 4. Fattana, Human Anatomy (Description and applied)- Saunder’s & C P Prism Publishers, Bangalore 5. ESTER. M. Grishcimer- Physiology & Anatomy with Practical Considerations, J. P. Lippin Cott. Philadelphia 6. Bhatnagar- Essentials of Human Embryology- Revised Edition. Orient Blackswan Pvt. Ltd. PHYSIOLOGY Theory 70 hours Practical 20hours 1. General Physiology Introduction to cell physiology, transport across cell membrane Homeostasis, Body Fluid compartment & measurement. 2. Blood Introduction- composition and function of blood Plasma. proteins, types and functions Red blood cells - erythropoiesis, stages of differentiation, factors affecting it, function, normal count, physiological variation. Hemoglobin- function, concentration, types & methods of Hb estimation, fate of hemoglobin Jaundice-types Anaemia,-types 24 ESR, PCV, osmotic fragility & blood indices WBC- morphology, production, functions, normal count, differential count, variation, variation Immunity (in brief) Platelets- origin, morphology, normal count, function-Platelet plug ,bleeding disorder Haemostasis - definition, normal haemostasis, clotting factors, mechanism of clotting, anticoagulants disorders of clotting factors. Blood group-ABO & Rh system, Rh incompatibility blood typing ,cross matching, hazards of mismatched blood transfusion RES, spleen and lymph. 3. Nerve-Muscle Neuron structure, types, neuroglia-types, nerve fibre classification, properties of nerve fibres, RMP,action potential, wallerian degeneration NMJ, blockers, Myasthenia gravis Classification of muscle, structure of skeletal muscle, sarcomere, contractile proteins Excitation contraction coupling, mechanism of muscle contraction, types of contraction Motor unit, fatigue, rigor mortis Smooth muscle. 4. Respiratory system Physiological anatomy of respiratory system, muscles of respiration, respiratory & non respiratory functions of lungs, dead space Mechanics of breathing, intrapulmonary & pleural pressures Compliance, Surfactant, Hyaline membrane disease Lung volumes and capacities Respiratory membrane , transport of O2 & CO2 Chemical regulation of respiration Neural regulation of respiration Hypoxia, Acclamatization, Dysbarism. Artificial respiration Definition-Periodic breathing, dyspnoea, apnoea, asphyxia,, cyanosis. 5. Cardiovascular system Introduction to CVS & general principles of circulation Properties of Cardiac muscle Cardiac cycle, heart sounds, Pulse Cardiac output, factors and measurement Heart rate BP-factors, measurement, Short term regulation Intermediate and long term regulation of BP ECG uses and significance,.normal waveform, heart block Coronary circulation, Cutaneous circulation-Triple response Shock Effects of exercise on CVS and Respiratory system. 6. Renal system, Skin and body temperature Kidneys- functions, structure of nephron, type, juxtaglomerular apparatus-structure and function, non- excretory functions of kidney Glomerular filtration rate (GFR)- Definition ,normal value, factors affecting GFR Tubular reabsorption - sites, substance reabsorbed, mechanisms of reabsorption Tubular secretion- sites, substance secreted, mechanisms of reabsorption Counter current mechanism of concentration of urine Obligatory and Facultative reabsorption of water Micturition reflex, Diuretics Artificial kidney, renal function tests-clearance tests Skin -structure and function, body temperature measurement, physiological variation, Regulation of body Temperature by physical chemical and nervous mechanisms-Role of Hypothalamus Hypothermia and fever. 25 7. Digestive system Physiological anatomy, Enteric nervous system & functions of GIT Saliva- composition, regulation,disorder. Deglutition- stages & disorders Stomach-functions, composition and regulation of gastric juice Gastric motility, MMC, vomiting reflex. Pancreas- function, composition and regulation of pancreatic juice Liver & gall bladder-functions, bile- composition, secretion and regulation Small intestine- Succus entericus-composition, functions & movements Large intestine- functions, movements and defecation reflex Digestion & absorption of Carbohydrates, fats and proteins. 8. Endocrine system Classification of Endocrine glands & their hormones & properties-chemistry and receptor, feedback mechanisms of hormone regulation. Anterior pituitary hormones- secretion, functions , disorders Posterior pituitary hormones- secretion , functions , disorders Thyroid hormones- secretion, functions, Disorders Parathyroid hormones- secretion, functions, disorders Calcium homeostasis & disorders Pancreatic hormones, -Insulin and Glucagon-. secretion, functions, disorders Adrenal cortex- Glucocorticoids & Mineralocorticoids, Androgen - secretion, functions, disorders Adrenal medulla- secretion, functions, disorders Thymus & Pineal gland. 9. Reproductive system Introduction to reproductive system, sex differentiation & Puberty Male reproductive system, functions of testosterone & Spermatogenesis Female reproductive system, fuctions of Estrogen, Progesterone, Oogenesis Ovulation & Menstrual cycle Physiological changes during pregnancy, pregnancy tests, parturition & lactation Male & Female contraceptive methods. 10. Central nervous system Introduction to CNS, Sensory receptors classification, properties Synapse– classification, properties Sensory pathways: Anterior spino thalamic tract and Posterior column pathway Lateral spino thalamic tract, Types of pain, Referred pain, Thalamus; nuclei and function Classification of reflexes, Monosynaptic reflex- Stretch reflex , muscle spindle ,inverse stretch reflex. Polysynaptic reflex-Withdrawal reflex Motor pathways : Pyramidal pathway and functions, UMNL, LMNL Cerebral cortex (Sensory and motor)-functions, Medulla and Pons-functions Cerebellum –functions, disorders Basal ganglia-functions, disorders Hypothalamus and Limbic system-functions CSF, lumbar puncture Sleep, EEG, Autonomic Nervous System - Sympathetic and parasympathetic distribution and functions. 11. Special senses Vision –Functional anatomy of eye, visual pathway, lesion Refractive errors, color vision Audition – Physiological anatomy of ear, Mechanism of hearing, auditory pathway, deafness Olfaction –modalities, receptor, function, abnormalities 26 Gustation-modalities, receptor, function, taste pathway, abnormalities. Practicals Blood pressure Recording Auscultation for Heart Sounds Artificial Respiration Determination of vital capacity INTERNAL ASSESSMENT Theory-average of 2 exams conducted 20 Practicals: record and lab work* 10 *Thereshall be no university practical examination and internal assessment marks secured in Practicals need not be sent to the university. SCHEME OF EXAMINATION THEORY There shall be one theory paper of three hours duration carrying 100 marks. Distribution of type of questions and marks for Physiology shall be as given under. SUBJECTS HAVING MAXIMUM MARKS= 100 (for First year) Type of Questions No. of Questions Marks for Each Questions Long Essay 2 10 Short Essay 10 05 Short Answer 10 03 1. Long essay- 2 Questions (second question choice) 2x10= 20 marks 2. Short essay- 10 Questions (Questions no 5 &10 choice) 10x5= 50 marks 3. Short answer- 10 Questions (Questions no 15 & 20 choice) 10x3= 30 marks Total= 100 Distribution of Marks for University Theory and Practical Exam Theory Practicals Grand Total Sub Theory IA Sub Total Practicals IA Total 100 20 120 * 120 REFERENCE BOOKS: 1. Guyton (Arthur) Text Book of Physiology. Latest Ed. Prism Publishers 2. Chatterjee (CC) Human Physiology Latest Ed. Vol. 1, Medical Allied Agency 3. Choudhari (Sujith K) Concise Medical Physiology Latest Ed. New Central Book 4. Ganong (William F) Review of Medical Physiology. Latest Ed. Appleton 27 BIOCHEMISTRY I No. Theory classes: 70 hours No. Practical classes: 20 hours 1. Carbohydrate Chemistry [3 hours] Classification (Definition/ examples for each class) Monosaccharides (classification depending upon number of carbon atoms and functional group with examples) Disaccharides (Sucrose/ lactose/ maltose and their composition) Polysaccharides: a) Homopolysaccharides (Structure of starch andglycogen) b) Heteropolysaccharides (Functions ). 2. Lipid Chemistry [3 hours] Definition of lipids Functions of lipids in the body Classification of lipids (subclasses with examples) Definition and Classification of fatty acids Essential fatty acids Phospholipids and their importance 3. Amino-acid and Protein Chemistry [3 hours] General structure of D and L amino acids Amino acids; Definition and Classification of amino acids with examples. Peptides; definition & Biologically important peptides Classification of Proteins based on composition, functions and shape (with examples) Functions of amino acids and Proteins. 4. Nucleotide and Nucleic acid Chemistry [ 3 hours] Nucleosides & Nucleotides Nucleic acid Definition & types Composition & functions of DNA & RNA Structure of DNA (Watson and Crick model) Structure of tRNA, & functions of tRNA, rRNA, mRNA Difference between DNA and RNA. 5. Enzymes [5 hours] Definition & Classification of Enzymes with example Definitions of Active site, Cofactor (Coenzyme, Activator), Proenzyme; Definition and examples (Pepsin & trypsin). 6. Digestion and Absorption [ 3 Hours] General characteristics of digestion and absorption, Digestion and absorption of carbohydrates, proteins and lipids. 28 7. Carbohydrate Metabolism [ 5 Hours] Glycolysis ; Aerobic, Anaerobic, Definition , Site and subcellular site , Steps with all the enzymes and coenzymes at each step , mention the regulatory enzymes , Energetics, Citric acid cycle; Pyruvate dehydrogenase complex (reaction and coenzymes) , Site and subcellular site , Reactions with all the enzymes and coenzymes ,Regulatory enzymes , Energetics Significance of HMP Shunt pathway. Hyperglycemic and hypoglycemic hormones Blood Glucose Regulation. Diabetes mellitus (definition, classification, signs and symptoms) Glycogen metabolism and gluconeogenesis. 8. Lipid Metabolism [ 4 Hours] Introduction to lipid metabolism, Lipolysis Beta oxidation of fatty acids ; Definition ,Site and subcellular site , Activation of palmitic acid , Transport of activated palmitic acid into mitochondria , Reactions , Energetics. Name the different ketone bodies. Note on ketosis. 9. Amino acid and Protein Metabolism [ 3 Hours] Introduction, transamination, deamination, Fate of ammonia, transport of ammonia, Urea cycle. 10. Vitamins [5 Hours] Definition and classification. RDA, sources, coenzyme forms, biochemical functions and disorders for the following water soluble vitamins: Thiamine, Niacin, Pyridoxine, Cobalamine, Folic acid, Ascorbic acid RDA, sources, coenzyme forms, biochemical functions and deficiency disorders for the following fat soluble vitamins; A and vitamin D. 11. Mineral Metabolism [3 Hours] Name the macro/ microminerals Iron: Sources ,RDA, Functions and Disorders of deficiency and excess Calcium and phosphorus: Sources ,RDA, functions, normal serum levels and hormones reulating their levels. 12. Nutrition [6 hours] Balanced diet (Definition) Caloric value ; Definition , Caloric values of carbohydrates, proteins and fats Total daily caloric requirements of an adult male and female, RDA (Definition, standard values for nutrients) Basal metabolic rate(BMR) ; Definition , Magnitude of BMR in men and women, Factors affecting BMR Thermic effect/ SDA of food (Definition, values for major macronutrients) Carbohydrates ;. Daily dietary requirement. 2. Dietary fibers (Definition, functions, importance and their daily requirements) Proteins ;. Daily requirement , Biological value. a. Definition b. Protein used as a 29 standard for this, Protein sources with high and low biological value , Mutual supplementation of proteins (Definition, examples). Fats ; Daily requirement , Essential fatty acids (Definition, functions, daily requirement and deficiency manifestations) , Saturated and unsaturated fatty acids (Definition, sources, examples). Malnutrition 13. Renal Function Tests [ 2 hours] Name the different tests to assess the kidney functions Explain Creatinine clearance & Inulin clearance Urinary acidification test 14. Radioactive Isotopes [1 hour] Definition, clinical applications Biological effects of radiations 15. Clinical Biochemistry [ 5 hours ] A. Definitions of acid, base, pH and pKa [1 hour] B. Buffers Definition [2 hours] Henderson Hasselbalch equation, Principal buffer systems in the ECF ICF and urine Bicarbonate and phosphate buffer systems (pKa value, normal ratio of base/acid in the plasma) Acidosis & Alkalosis (Definition, classification, causes and biochemical findings C. Normal serum levels and condition where they are altered [2 hour] Glucose, Protein, urea, uric acid, and creatinine Bilirubin, cholesterol Serum Electrolytes 16. Fundamental Chemistry (1 hour) Valency, Molecular weight & Equivalent weight of elements and compounds. Normality, Molarity, Molality. 17. Solutions: Definition, use, classification where appropriate, preparation and storage (5 hours) Stock and working solutions. Molar and Normal solutions of compounds and acids. (NaCl, NaOH, HCl, H2SO4, H3PO4, CH3COOH etc.,) Preparation of percent solutions – w/w, v/v w/v (solids, liquids and acids), Conversion of a percent solution into a molar solution Saturated and supersaturated solutions Standard solutions. Technique for preparation of standard solutions and Storage. E.g: glucose, albumin etc. Dilutions- Diluting Normal , Molar and percent solutions. Preparing working standard from stock standard. 30 Part dilutions: Specimen dilutions. Serial dilutions. Reagent dilution. Dilution factors. ASSIGNMENT TOPICS 1. Units of measurement 2. Hazards - Physical, Chemical, Biological 3. Arterial blood gas analysis 4. Responsibilities of Health care personnel 5. Biomedical waste management PRACTICAL DEMONSTRATION [20 hours] Color Reactions of Carbohydrates & amino acids. Precipitation Reactions of proteins Colorimetry Estimation of Blood glucose Folin Wu and enzymatic method Estimation of Urea by DAM method INTERNAL ASSESSMENT Theory-average of 2 exams conducted 20 Practicals: record and lab work* 10 *Thereshall be no university practical examination and internal assessment marks secured in Practicals need not be sent to the university. SCHEME OF EXAMINATION THEORY There shall be one theory paper of three hours duration carrying 100 marks. Distribution of type of questions and marks for Biochemistry I shall be as given under. SUBJECTS HAVING MAXIMUM MARKS= 100 (for First year) Type of Questions No. of Questions Marks for Each Questions Long Essay 2 10 Short Essay 10 05 Short Answer 10 03 1. Long essay- 2 Questions (second question choice) 2x10= 20 marks 2. Short essay- 10 Questions (Questions no 5 &10 choice) 10x5= 50 marks 3. Short answer- 10 Questions (Questions no 15 & 20 choice) 10x3= 30 marks Total= 100 31 Distribution of Marks for University Theory and Practical Exam Theory Practicals Grand Total Sub Theory IA Sub Total Practicals IA Total 100 20 120 * 120 Text Book References Biochemistry – 3rd revised edition by U Sathyanarayana & U Chakrapani Textbook of Medical Biochemistry-6th Edition by MN Chatterjea & Rana Shinde Textbook of Medical Laboratory technology 2nd edition by Godkar and Godkar. Biochemistry-3rd edition by Pankaja Naik Medical Laboratory technology 6th edition by Ramnik Sood. Manipal Manual of Clinical Biochemistry for medical laboratory and M.Sc., students-3 edition by Shivananda Nayak B rd Varley’s Practical Clinical Biochemistry, 4th, 5th and 6 th editions. PATHOLOGY I (Clinical Pathology, Hematology and Blood Banking) Theory-70 hours Practicals-20 hours I. Clinical Pathology- Theory Introduction to clinical pathology Collection , transport, preservation and processing of various clinical specimens Urine examination- collection and preservation, Physical, chemical and microscopic examination for abnormal constituents Examination of Body fluids Examination of Cerebrospinal fluid (CSF) Sputum examination Examination of feces II. Hematology – Theory Introduction to hematology Normal constituents of Blood, their structure and functions Collection of Blood samples Various anticoagulants used in Hematology Hemoglobin estimation, different methods and normal values Packed cell volume Erythrocyte sedimentation rate Normal Haemostasis Bleeding time. Clotting time, prothrombin time, Activated partial Thromboplastin time 32 III. Blood Bank- Theory Introduction blood banking Blood group system Collection and processing of blood for transfusion Compatibility testing Blood transfusion reactions IV General Pathology: 1. Cell injury: a. Definition, causes. b. Cellular adaptations – Hypertrophy, hyperplasia, atrophy and metaplasia. c. Types of cell injury – Reversible and irreversible; morphology of reversible injury. d. Necrosis – Definition and patterns of tissue necrosis. e. Intracellular accumulations – Lipids, cholesterol, proteins, glycogen and pigments; examples. f. Pathologic calcification – Types and examples. 2. Inflammation: a. Definition and signs of inflammation. b. Types – Acute and chronic inflammation. c. Acute inflammation – Causes, morphological patterns and outcome. d. Chronic inflammation – Causes, morphology and examples. e. Regeneration and repair – Mechanism of cutaneous wound healing. f. Factors affecting wound healing. 3. Hemodynamic disorders: a. Edema – Definition, pathogenesis and types: Renal, cardiac, pulmonary and cerebral. b. Difference between transudate and exudate. c. Shock – Definition, types of shock with examples: Hypovolemic, cardiogenic and septic shock, stages of shock: Nonprogressive, progressive and irreversible. d. Thrombosis – Definition, mechanism of thrombus formation (Virchow’s triad) and fate of thrombus. e. Embolism – Definition and types: Thromboembolism, fat, air and amniotic fluid embolism. f. Infarction – Definition and examples. 4. Immune system: a. Autoimmune diseases – General features, enumerate systemic and organ specific autoimmune diseases. b. Systemic lupus erythematosus – Manifestations and diagnosis. 5. Neoplasia: a. Definition and nomenclature of tumors. b. Differences between benign and malignant neoplasms. c. Enumerate modes of carcinogenesis: Genes, physical, chemical and microbial agents of carcinogenesis. 33 d. Modes of spread of tumors. e. Clinical aspects of neoplasia. f. Grading and staging of cancers. g. Laboratory diagnosis of cancer. Practicals 1. Urine analysis- Physical, Chemical, Microscopic 2. Blood grouping and Rh typing 3. Hb estimation , packed cell volume (PCV), Erythrocyte Sedimentation rate (ESR) 4. Bleeding time and Clotting time 5. Histopathology - section cutting and H&E staining. INTERNAL ASSESSMENT Theory-average of 2 exams conducted 20 Practicals: record and lab work* 10 *Thereshall be no university practical examination and internal assessment marks secured in Practicals need not be sent to the university. SCHEME OF EXAMINATION THEORY There shall be one theory paper of three hours duration carrying 100 marks. Distribution of type of questions and marks for Pathology I shall be as given under. SUBJECTS HAVING MAXIMUM MARKS= 100 (for First year) Type of Questions No. of Questions Marks for Each Questions Long Essay 2 10 Short Essay 10 05 Short Answer 10 03 1. Long essay- 2 Questions (second question choice) 2x10= 20 marks 2. Short essay- 10 Questions (Questions no 5 &10 choice) 10x5= 50 marks 3. Short answer- 10 Questions (Questions no 15 & 20 choice) 10x3= 30 marks Total= 100 Distribution of Marks for University Theory and Practical Exam Theory Practicals Grand Total Sub Theory IA Sub Total Practicals IA Total 100 20 120 * 120 34 REFERENCE BOOKS: 1. Culling Histopathology techniques 2. Bancroft Histopathology techniques 3. Koss- Cytology 4. Winifred Diagnostic cytopathology 5. Orell Cytopathology 6. Todd and Sanford- clinical diagnosis by Laboratory Medicine 7. Dacie and Lewis- Practical Hematology 8. Ramnik SOOD. Lab technology, Methods and interpretation, 4 th edition JP Bros New Delhi, 1996 9. Sathish Guptha , Short text book of Medical laboratory techniques for technicians 10. Sachdev K N. Clinical Pathology and Bacteriology, 8 th edi JP Bros, New Delhi, 1996. Microbiology I Theory: 70 Hours Practicals: 20 Hours 1. Introduction (6 hrs) History of Microbiology - Louis Pasteur, Antony Van Leeuvenhoek, Robert Koch, Edward Jenner, Alexander Fleming. Use of microscope in the study of bacteria - Types of microscopes - compound microscope, phase contrast microscope, electron microscope, fluorescent microscope, dark ground microscope. Morphology of bacterial cell 2. Growth and Nutrition (6 hrs.) Nutrition, growth and multiplication of bacteria, bacterial growth curve, culture media, culture methods, anaerobic culture methods. 3. Sterilization and disinfection (8 hrs.) Principles and use of equipments of sterilization, chemicals used in disinfection, testing of disinfectants. 4. Biomedical waste management principle and practice 5. Immunology ( 5hrs.) Immunity - mechanism of immunity, classification, types Vaccines Immunization schedule Definition of antigen, antibody, list of antigen antibody reaction (no need of detailed account of antigen antibody reactions) Definition of hypersensitivity and classification (no need of detailed account of types of hypersensitivity) 6. Infection (5 hrs.) Definition, types and mode of transmission Hospital acquired infection - causative agents, mode of transmission and prophylaxis. Antimicrobial sensitivity testing 35 7. Systematic bacteriology (15 hrs.) Disease caused and laboratory diagnosis of medically important bacteria (Staphylococcus, coagulase negative Staphylococcus, MRSA, Streptococcus pyogenes, Pneumococcus, gonococcus, E.coli, diarrhoeagenic E.coli, Salmonella, Vibrio cholerae, ElTor vibrios, Halophilic vibrios, Shigella, Mycobacterium tuberculosis, Mycobacterium leprae, Atypical Mycobacteria, Treponema pallidum, leptospira) (no need of classification, antigenic structure, virulence mechanism) 8. Parasitology (10 hrs.) Introduction to Parasitology List of medically important parasites and diseases (E.histolytica, Plasmodium, W.bancrofti, Ascaris, Ancylostoma, B.coli, G.lamblia, T.solium, T.saginata) Laboratory diagnosis of parasitic infection (No need of including life cycles) 9. Virology (10 hrs.) Introduction to virology List of medically important viruses and diseases (AIDS, Hepatitis, Rabies, Polio, Arbo viruses) Cultivation of viruses and laboratory diagnosis of viral infections 10. Mycology (5 hrs.) Introduction to Mycology Classification of medically important fungi - (based on morphology, spore production, disease production, taxonomy) List of medically important fungi and diseases (Candidiasis, Cryptococcosis, Dermatophytes, Aspergillosis, Mucor Mycosis) Laboratory diagnosis of fungal infections. Practicals (20 hrs.) Compound microscope (Demonstration) Demonstration of sterilization equipments Demonstration of culture media and culture methods Demonstration of antibiotic sensitivity testing Demonstration of serological tests - Widal, VDRL, ASO, CRP, RA Demonstration of gram stain and ZN staining Demonstration of Helminthic ova Grams stain, Acid fast staining Stool exam for Helminthic ova There shall be no university practical examination and Internal Assessment marks secured in practicals need not be sent to the university. INTERNAL ASSESSMENT Theory-average of 2 exams conducted 20 Practicals: record and lab work* 10 SCHEME OF EXAMINATION THEORY There shall be one theory paper of three hours duration carrying 100 marks. 36 Distribution of type of questions and marks for Microbiology I shall be as given under. SUBJECTS HAVING MAXIMUM MARKS= 100 (for First year) Type of Questions No. of Questions Marks for Each Questions Long Essay 2 10 Short Essay 10 05 Short Answer 10 03 1. Long essay- 2 Questions (second question choice) 2x10= 20 marks 2. Short essay- 10 Questions (Questions no 5 &10 choice) 10x5= 50 marks 3. Short answer- 10 Questions (Questions no 15 & 20 choice) 10x3= 30 marks Total= 100 Distribution of Marks for University Theory and Practical Exam Theory Practicals Grand Total Sub Theory IA Sub Total Practicals IA Total 100 20 120 * 120 Reference Books- 1. Ananthanarayana & Panikar Medical Microbiology- University Press 2. Robert Cruckshank- Medical Microbiology- The Practice of Medical Microbiology 3. Chatterjee- Parasitology- Interpretation to Clinical Medicine 4. Rippon- Medical Mycology 5. Emmons- Medical Mycology 6. Basic Laboratory methods in Parasitology, J P Bros, New Delhi 7. Basic Laboratory procedures in clinical bacteriology, J P Bros, New Delhi 8. Medical Parasitology- Ajit Damle 9. Introduction to medical microbiology- Ananthanarayana- Orient Longman Pvt. Ltd. SUBSIDIARY SUBJECTS ENGLISH COURSE OUTLINE COURSE DESCRIPTION: This course is designed to help the student acquire a good command and comprehension of the English language through individual papers and conferences. 37 BEHAVIOURAL OBJECTIVES: The student at the end of training is able to 1. Read and comprehend English language 2. Speak and write grammatically correct English 3. Appreciates the value of English literature in personal and professional life. UNIT - I: INTRODUCTION: Study Techniques Organisation of effective note taking and logical processes of analysis and synthesis Use of the dictionary Enlargement of vocabulary Effective diction UNIT - II: APPLIED GRAMMAR: Correct usage The structure of sentences The structure of paragraphs Enlargements of Vocabulary UNIT - III: WRITTEN COMPOSITION: Precise writing and summarizing Writing of bibliography Enlargement of Vocabulary UNIT - IV: READING AND COMPREHENSION: Review of selected materials and express oneself in one's words. Enlargement of Vocabulary. UNIT - V: THE STUDY OF THE VARIOUS FORMS OF COMPOSITION: Paragraph, Essay, Letter, Summary, Practice in writing UNIT - VI: VERBAL COMMUNICATION: Discussions and summarization, Debates, Oral reports, use in teaching Scheme of Examination Written (Theory): Maximum Marks: –80 marks. No Practical or Viva voce examination SUBJECTS HAVING MAXIMUM MARKS= 80 (for First year) Type of Questions NO. of questions Marks for Each Questions Essay Type 3 (2 x 10) 10 Short Essay Type 8 (6 x 5) 05 Short Answer Type 12 (10 x 3) 03 This is a subsidiary subject, examination to be conducted by respective colleges. Marks required for a pass is 35% REFERENCE 1. English Grammar Collins, Birmingham University, International Language Data Base, Rupa & Co. 1993 2. Wren and Martin - Grammar and Composition, 1989, Chanda & Co, Delhi 38 3. Letters for all Occasions. A S Myers. Pub - Harper Perennial 4. Spoken English V. Shasikumar and P V Dhanija. Pub. By: Tata Mcgraw Hill, New Delhi 5. Journalism Made Simple D Wainwright 6. Writers Basic Bookself Series, Writers Digest series 7. Interviewing by Joan Clayton Platkon 8. Penguin Book of Interviews. HEALTH CARE Teaching Hours : 40 Introduction to Health Definition of Health, Determinants of Health, Health Indicators of India, Health Team Concept. National Health Policy National Health Programmes ( Briefly Objectives and scope) Population of India and Family welfare programme in India Introduction to Nursing What is Nursing ? Nursing principles. Inter-Personnel relationships. Bandaging : Basic turns; Bandaging extremities; Triangular Bandages and their application. Nursing Position, Bed making, prone, lateral, dorsal, dorsal re-cumbent, Fowler's positions, comfort measures, Aids and rest and sleep. Lifting And Transporting Patients: Lifting patients up in the bed. Transferring from bed to wheel chair. Transferring from bed to stretcher. Bed Side Management: Giving and taking Bed pan, Urinal : Observation of stools, urine. Observation of sputum, Understand use and care of catheters, enema giving. Methods of Giving Nourishment: Feeding, Tube feeding, drips, transfusion Care of Rubber Goods Recording of body temperature, respiration and pulse, Simple aseptic technique, sterilization and disinfection. Surgical Dressing: Observation of dressing procedures First Aid : Syllabus as for Certificate Course of Red Cross Society of St. John's Ambulance Brigade. Reference Books: 1. Preventive and Social Medicine by J.Park 2. Text Book of P & SM by Park and Park 3. Counseling & Communicate skills for medical and health, Bayne- Orient Longman Pvt. Ltd. 39 Scheme of Examination Written (Theory): Maximum Marks: –80 marks. No Practical or Viva voce examination SUBJECTS HAVING MAXIMUM MARKS= 80 (for First year) Type of Questions NO. of questions Marks for Each Questions Essay Type 3 (2 x 10) 10 Short Essay Type 8 (6 x 5) 05 Short Answer Type 12 (10 x 3) 03 This is a subsidiary subject, examination to be conducted by respective colleges. Marks required for a pass is 35%. 40 II YEAR B.Sc. MLT BIOCHEMISTRY II No. Theory classes: 100 hours No. Practical classes: 80 hours THEORY SYLLABUS 1. Clinical Laboratory [02 hours] Responsibilities of health care personnel Laboratory hazards – physical, chemical and biological, laboratory safety measures– safety regulations and first aid in laboratory 2. Laboratory apparatus : Different types, use, care and maintenance (Where appropriate, diagrams to be drawn in practical record ) [ 10 hours ] Glass ware in laboratory – Significance of boro silicate glass. Plastic ware in laboratory Cleaning of glass ware and plastic ware Pipettes - Glass and Automated Burettes, Beakers, Petri dishes, Porcelain dish Flasks - different types (volumetric, round bottomed, Erlenmeyer, conical etc.,) Funnels – different types (Conical, Buchner etc.,) Bottles – Reagent, Wash bottles Measuring cylinders, reagent dispensers Tubes – Test tube, Centrifuge tube, Folin-Wu tube Cuvettes and its use in measurements , cuvettes for visible and UV range Racks – Bottle, Test tube, Pipette and draining racks Tripod stand, Wire gauze, Bunsen burner, Dessicator, Stop watch, timers 3. Instruments: Use, care and maintenance (Where appropriate, pictures/diagrams and schematic diagrams to be drawn in practical record ) [17hours] Water bath, Oven & Incubators, Distillation apparatus - water distillation plant and water deionisers, Reflux condenser, Cyclomixers , Magnetic stirrer, Shakers Refrigerators, Deep freezers, Cold box Centrifuges*: Principle, Svedberg unit, centrifugal force, centrifugal field, rpm, Conversion of G to rpm and vice versa) Components, working. Different types of centrifuges Laboratory balances*: Physical and analytical. Mono & double pan, Electronic balances. Weighing different types of chemicals, liquids, hygroscopic compounds etc. Precautionary measures while handling (Diagram) Photometry - Colorimeter*- Principle, limitations of Beer-lambert’s law, components, working. pH meter*- Principle, components- 41 pH measuring electrodes, Working, Precautions taken while handling. (Diagram of pH meter) (*Diagrams mandatory) 4. Units of measurement [ 1 hour] Metric system. Common laboratory measurements, Prefixes in metric system International system of units- SI units- definition, classification, Conversionof conventional and SI Units 5. Fundamental Chemistry[ 2 hours] Valency, Molecular weight & Equivalent weight of elements and compounds. Normality, Molarity, Molality. 6. Solutions: Definition, use, classification where appropriate, preparation and storage [7 hours] Stock and working solutions. Molar and Normal solutions of compounds and acids. (NaCl, NaOH, HCl, H2SO4, H3PO4, CH3COOH etc.,) Preparation of percent solutions – w/w, v/v w/v (solids, liquids and acids), Conversion of a percent solution into a molar solution Saturated and supersaturated solutions Standard solutions. Technique for preparation of standard solutions and Storage. E.g: glucose, albumin etc. Dilutions- Diluting Normal, Molar and percent solutions. Preparing working standard from stock standard. Part dilutions: Specimen dilutions. Serial dilutions. Reagent dilution. Dilution factors. 7. Chemistry of Carbohydrates; [ 5 hours] Structural properties- Stereoisomerism, optical activity, cyclic structures, mutarotation, epimers. Monosaccharide’s of biological importance.Important chemical reactions – formation of furfural derivatives, enediols, osazones, sugar acids, sugar alcohols , Deoxy sugars, Biomedical importance of Amino sugras, glycosides. Disaccharides; Properties of Maltose, Lactose, Sucrose. Invert sugars. Biomedical importance of Lactose, sucrose. Polysaccharides; Properties of Starch & Glycogen. Biomedical importance of Inulin. Mucopolysaccharides – composition, tissue distribution and functions. 8. Chemistry of amino acids & Proteins ; [ 6 hours] Properties of amino acids- Isomerism, amphoteric nature, and isoelectric pH. Peptide bond formation, Peptides and functions. Color reactions of amino acids. Use of amino acids analysis in diagnosis of diseases. Proteins ; Functions, Structure of proteins- Primary, secondary, tertiary, and quaternary. Precipitation reactions of proteins. Denaturation of proteins. Preparation of protein free filtrate for quantitative analysis. 9. Enzymes; [6 hours] Definition, Classification, Properties, Mechanism of action, factors affecting enzyme 42 activity , enzyme inhibition. Coenzymes Analytical & therapeutic role of enzymes Immobilized enzymes. 10. Metabolism of carbohydrates; [ 6 hours] Diabetes mellitus; diagnosis & management Principles and procedures for the determination of plasma glucose levels; reductometric & enzymatic methods Urinary glucose. 11. Metabolism of lipids [3 hours] Ketogenesis, ketone bodies utilization, ketosis, Rothera’s test and it’s importance. 12. Metabolism of amino acids; [ 7hours] Urea cycle and disorders , Blood urea / blood urea nitrogen – clinical importance Biosynthesis of creatinine- formation, clinical importance Principles and procedures for the determination of Blood urea nitrogen and Creatinine; Colorimetric & enzymatic methods. 13. Specimen Collection ; [4 hours] Capillary, Arterial , Venous blood collection techniques, Anticoagulants used Various types Urine sample collections ( Random, times, 24 hrs etc) Preservatives used , storage of samples, Disposal. 14. Urine analysis; [ 4 hours] Physical characteristics, Chemical examination of normal urine Abnormal constituents of urine. 15. Techniques ; [10 hours] Spectrophotometry-Principle, Instrumentation, Operation, Applications, care & maintenance, Standardization Reflectance photometry-Principle, Instrumentation, Applications Turbidimetry & Nephelometry-Principle, Instrumentation, Applications Glucometers-Principle, Instrumentation, Applications Chromatography – Paper & TLC- Principle, Instrumentation, Applications Electrophoresis – agarose and SDS-PAGE ASSIGNMENT TOPIC; Oral glucose tolerance test Glycated HbA1c Microalbuminuria 43 PRACTICALS I. PRACTICAL APPROACH TO BASIC LABORATORY PRACTICES 1. Pipetting techniques 2. Operation of the instruments Analytical balance pH meter Centrifuges Urinometer, Esbach’ s albuminometer 3. Techniques of preparation of Solutions & reagents; Normal, Molar, Percent ( Na 2Co3, NaCl, NaOH, KCl, HCl, H 2SO4 , H 3 PO4 , CH3COOH , sodium tungstate Buffers ( Phosphate buffer, Citrate buffer) Standard solutions – Glucose, urea, creatinine, Total protein etc 4. Dilution Techniques; Dilution of stock standard , Dilution of acids Part Dilution of the body fluids 5. Determination of pH ; II. QUALITATIVE; 1. Color reactions – known test solution Carbohydrates; Glucose, Fructose , Sucrose, Starch, Lactose, Maltose NPN- Urea, creatinine, Uric acid Albumin, Casein 2. Precipitation reactions Albumin, Casein Preparation of protein free filtrates for quantitative analysis of - Glucose, urea, creatinine, uric acid estimations 3. Identification of unknown carbohydrate 4. Identification of unknown protein 5. Urine Analysis; normal and Abnormal III. QUANTITATIVE; 1. Operation of colorimeter / spectrophotometer; 2. Quantitative estimations by manual methods- Preparation of calibration curve, & estimation of unknown analyte concentration. Blood glucose by Glucose oxidase – peroxidase method Blood urea by DAM method Serum & urine creatinine by Jaffe’s method. Determination of creatinine clearance Serum uric acid by commercially available kit method 44 PRACTICAL DEMONSTARTION; 1. Paper chromatography of amino acids 2.Dipsticks for urine analysis INTERNAL ASSESSMENT Theory-average of 2 exams conducted 20 Practicals: record and lab work* 20 SCHEME OF EXAMINATION -THEORY There shall be one theory paper of three hours duration carrying 100 marks. Distribution of type of questions and marks for Biochemistry II shall be as given under. SUBJECTS HAVING MAXIMUM MARKS= 100 (for Second and Third Year) Type of Questions No. of Questions Marks for Each Questions Long Essay 2 10 Short Essay 10 05 Short Answer 10 03 1. Long essay- 2 Questions (second question choice) 2x10= 20 marks 2. Short essay- 10 Questions (Questions no 5 &10 choice) 10x5= 50 marks 3. Short answer- 10 Questions (No choice) 10x3= 30 marks Total= 100 SCHEME OF EXAMINATION – PRACTICALS The scheme of examination for Biochemistry II Practical shall be as follows: Distribution of marks Type of Question Marks allotted Quantit 30 ative estimati on Qualitative 30 estimation Urine examination 20 Total 80 Distribution of Marks for University Theory and Practical Exam Theory Practicals Grand Total Sub Theory IA Sub Total Practicals IA Total 100 20 120 80 20 100 220 Text Book References Biochemistry – 3rd revised edition by U Sathyanarayana & U Chakrapani 45 Textbook of Biochemistry (For Medical Students)-5th Edition by DM Vasudevan & Sreekumari S Textbook of Medical Biochemistry-6th Edition by MN Chatterjea & Rana Shinde Textbook of Medical Laboratory technology 2nd edition by Godkar and Godkar. Biochemistry-3rd edition by Pankaja Naik Medical Laboratory technology 6th edition by Ramnik Sood. Manipal Manual of Clinical Biochemistry for medical laboratory and M.Sc., students-3rd edition by Shivananda Nayak B Varley’s Practical Clinical Biochemistry, 4th, 5th and 6 th editions Clinical Chemistry, Theory, Analysis, Correlation-4th edition by Lawrence A Kaplan Tietz Textbook of Clinical Chemistry 3rd edition by Burtis, Ashwood and Bruns Clinical Chemistry-Principles, procedures, correlations- 5th edition by Michael L. Bishop, Edward P. Fody and Larry Schoeff. Practical Clinical Biochemistry, methods and interpretation –2nd edition by Ranjna Chawla. MICORBIOLOGY II (SYSTEMATIC BACTERIOLOGY AND PARASITOLOGY) No. of Theory hours - 100 hrs. No. of Practical hours- 80 hrs I SYSTEMATIC BACTERIOLOGY (60hrs) Biochemical reactions for identification of bacteria Antimicrobial susceptibility testing Normal flora of the human body Gram positive bacteria: systematic study of the following bacteria with special reference to morphology,cultural characteristics, pathogenicity,lab diagnosis and prophylaxis- Staphylococcus Streptococcus Pneumococcus Corynebacterium Bacillus Mycobacterium Clostridium Actinomycetes Gram negative bacteria: Neisseria Haemophilus,Bordetella,Brucella Enterobacteriaceae,Salmonella,Shigella Vibrio, Campylobacter,Helicobacter Pseudomonas, Burkholderia and non fermenters Yersinia 46 Spirochetes and others: Treponemes,Leptospira & Borrelia Applied Bacteriology: UTI,Diarrhoeal diseases and food poisoning, Meningitis, Sexually transmitted diseases, pyogenic infections, Hospital acquired infections and PUO Specimen collection for the above said infections Bacteriology of water, milk and air II PARASITOLOGY (40 hrs.) 1. Protozology Entamoeba, Balantidium coli Trichomonas, Giardia, Leishmania, Trypanosoma Malaria, Toxoplasma Cryptosporidium, Microsporidium, Isospora, Cyclospora 2. Helminthology Cestodes-Taenia,Echinococcus,D.latum,H.nana Trematodes-Schistosoma,Fasciola Nematodes- Ascaris, Ancylostoma, Enterobius, Strongyloides, Trichuris, Trichinella, Dracunculus, Wuchereria and other filarial worms Lab diagnosis of parasitic infections Arthropods of medical importance PRACTICALS: Stainings 1. Gram staining, ZN stain, Albert stain 2. Hanging drop preparation 3. Culture methods 4. Introduction to biochemical reactions 5. Identifications of pure culture based on morphology, colony characteristics,motility, biochemical reaction and anti biogram 6. Antibiotic sensitivity testing- Kirby-Bauer method 7. Stool examination 8. Saline mount 9. Iodine mount 10. Peripheral smear examination for malaria and filariasis INTERNAL ASSESSMENT Theory-average of 2 exams conducted 20 Practicals: record and lab work* 20 47 SCHEME OF EXAMINATION -THEORY There shall be one theory paper of three hours duration carrying 100 marks. Distribution of type of questions and marks for Microbiology II shall be as given under. SUBJECTS HAVING MAXIMUM MARKS= 100 (for Second and Third Year) Type of Questions No. of Questions Marks for Each Questions Long Essay 2 10 Short Essay 10 05 Short Answer 10 03 1. Long essay- 2 Questions (second question choice) 2x10= 20 marks 2. Short essay- 10 Questions (Questions no 5 &10 choice) 10x5= 50 marks 3. Short answer- 10 Questions (No choice) 10x3= 30 marks Total= 100 SCHEME OF EXAMINATION – PRACTICALS The scheme of examination for Microbiology II Practical shall be as follows: Distribution of marks Type of Question Marks allotted Spotters 20 ZN staining 10 Pure culture of 25 the organism Stool examination 15 Record 10 Total 80 Distribution of Marks for University Theory and Practical Exam Theory Practicals Grand total Sub Sub Theory IA Practi IA Total Total cals 100 20 120 80 20 100 220 Reference Books- 1. Ananthanarayana & Panikar Medical Microbiology- University Press 2. Robert Cruckshank- Medical Microbiology- The Practice of Medical Microbiology 3. Chatterjee- Parasitology- Interpretation to Clinical Medicine 4. Rippon- Medical Mycology 5. Emmons- Medical Mycology 48 6. Basic Laboratory methods in Parasitology, J P Bros, New Delhi 7. Basic Laboratory procedures in clinical bacteriology, J P Bros, New Delhi 8. Medical Parasitology- Ajit Damle 9. Introduction to medical microbiology- Ananthanarayana- Orient Longman Pvt. Ltd. PATHOLOGY II No. Theory classes: 100 hours No. Practical classes: 80 hours Theory:- Histopathology and Hematology Histopathology Instrumentation: a) Automated tissue processor b) Microtomes, knives, knife, sharpner and ultra microtome c) Freezing microtome and Cryostat d) Automatic slide stainer Techniques: Receiving specimens Grossing, fixation Tissue processing, Decalcification, Section cutting Haematoxylin & Eosin Staining Frozen section and Cryostat section studies Staining techniques: Special stains for Carbohydrates, Connective tissue, Nervous tissue, Bone tissue, Collage fibers, Elastic Fibers, Lipids, Organisms, fungi, parasites, pigments and deposits in tissues Mounting techniques: Various mounts and mounting techniques Electron microscope - Scanning electron microscope Dark ground microscope Fluorescent microscope Museum technology Microphotography and its application Maintenance of records and filing of slides ICDS classification and coding Application of computers in pathology HAEMATOLOGY Haemopoiesis, stem cells, formed elements and their functions Anticoagulants used in various haematological studies Routine haematological tests and normal values : A) Determination of haemoglobin and Hematocrit B) Enumeration of RBC, WBC and platelets C) Absolute eosinophil count D) Reticulocyte E) Calculation of red cell indices F) Preparation and staining of blood film for morphology of red cells and differential count 49 Special haematological tests : A) Sickling test B) Osmotic fragility tests C) Determination of HbF and HbA2 D) Haemoglobin electrophoresis E) Investigation of G6PD deficiency F) Plasma haptoglobin and demonstration of hemosiderin in urine G) Tests of autoimmune and hemolytic anemia H) Measurement of abnormal Hb pigments Hemostasis and coagulation : A) Normal hemostasis, mechanism of blood coagulation and normal fibrinolytic system B) Collection of blood and anticoagulants used in coagulation studies C) Investigation of hemostatic mechanism - BT, CT, whole blood coagulation time test, PT, PTT D) Assay of clotting factors E) Tests for fibrinolytic activity - Euglobulin, clot lysis test and FDP F) Platelet function tests. Investigation of Megaloblastic anemia and Iron deficiency anemia : A) B12 and folate assay and Schilling test B) Estimation of serum iron and iron binding capacity Bone marrow biopsy study C) Needle aspiration and surgical biopsy technique D) Preparation of smears and staining Demonstration of LE cells Cytochemistry Administration in hematology and quality control Practicals: 1. Paraffin section cutting 2. Staining by Hematoxylin & Eosin and other special stains 3. Determination of Hemaglobin and Hematocrit 4. Red blood cell count 5. Total white blood cell count 6. Platelet count 7. Differential count of white blood cells 8. Absolute Eosinophil count 9. Reticulocyte count 10. Calculation of red cell indices 11. Determination of ESR 12. Determination of BT, CT, Whole blood clotting time 13.