Outline the presumptive and definitive characteristics for the laboratory identification of the bacterial species being presented.
Overview of the medical laboratory profession, ethics, responsibilities and clinical relevance of laboratory procedures. Phlebotomy, specimen collection and processing; basic medical laboratory exercises. Three hours lab per week.
Instrumentation and clinical relevance of applied chemical techniques including immunoassays, therapeutic drug monitoring, enzymes, trace elements, and point-of-care technology; quality control and assurance, case studies, and problem solving in clinical chemistry.
Thyroid, digoxin, B12, folic acid, antinuclear antibodies and T and B cell receptor procedures utilized in a clinical laboratory. Hematopoiesis; theory and laboratory application of manual procedures in hematology including cell counts, hemoglobin, hematocrit, and differentials; introductory hemostasis and laboratory applications.
Two hours of lecture and 3 hours of laboratory per week. Clinical Hematology 1 Laboratory. Advanced theory and laboratory procedures in hematology and hemostasis, including leukemia, anemia, hematopathology and coagulation disorders; abnormal differentials and automated methods.
Clinical Hematology 2 Laboratory. Fundamentals of immunology, including both humoral and cellular immunological responses.
Applications of immunological methods in medical research and patient treatment.
VDRL, ASO, febrile, latex, pregnancy, and viral tests; flocculation, precipitation, complement fixation, and titration procedures for various diseases. Clinical applications of human pathogenic microorganisms; infections, frequency, isolation, identification, and treatment of bacteria, fungi, viruses, and parasites.
Case studies, problem solving, and quality assurance in clinical microbiology. Three hours lecture per week. A clinical approach to the study of bacteria, fungi, viruses, and parasites.
Methods to isolate and identify clinically significant pathogens from clinical specimens; case studies in clinical microbiology. Six hours lab per week. Didactics and critical analysis of clinical chemistry.
Four hours of lecture. Grading is Traditional or PR. Acceptance into a clinical internship.Case Studies in Clinical Laboratory Science / Edition 1 This unique collection of 55 multidisciplinary case studies is designed to help laboratory technologists and technicians "experience" how departments work together to help the physician make a diagnosis and determine the best course of treatment for the patient.
Case studies are stories that are used as a teaching tool to show the application of a theory or concept to real situations.
Dependent on the goal they are meant to fulfill, cases can be fact-driven and deductive where there is a correct answer, or they can be context driven where multiple solutions are possible. Case Studies in Clinical Laboratory Science has 7 ratings and 0 reviews.
This unique collection of 55 multidisciplinary case studies is designed to help /5(7). Clinical Laboratory Science (CLSC) Introduction to the Clinical Laboratory () Information on the careers available in the clinical laboratory as well as an overview of each department in clinical pathology will be presented.
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