IVMS BMS GENERAL PRINCIPLES USMLE WEB MAPS-Global USMLE WEB MAPS-BMS GENERAL PRINCIPLES IVMS is the ultimate medical student Web 2.0 companion. This SDL-Face to Face hybrid courseware is a digitally tagged and content enhanced replication of the United States Medical Licensing Examination's Cognitive Learning Objectives (Steps 1, 2 or 3). Including authoritative reusable learning object (RLO) integration and scholarly Web Interactive PowerPoint-driven multimedia shows/PDFs. Comprehensive hypermedia BMS learning outcomes and detailed, General Principles and Organ System USMLE Web Maps content enriched learning objectives. http://www.imhotepvirtualmedsch.com/ COMPONENT I: BIOCHEMISTRY AND MOLECULAR BIOLOGY delves into gene expression, protein synthesis, energy metabolism and the metabolic pathways associated with diseases. GENE EXPRESSION: DNA STRUCTURE, REPLICATION AND EXCHANGE 1.1.1 DNA structure: single- and double-stranded DNA, stabilizing forces, supercoiling HGP.pdf DNA and Molecular Genetics DNA Structure and Analysis Gene expression: DNA structure, replication, and exchange 1.1.2 Analysis of DNA: sequencing, restriction analysis, PCR amplification, hybridization DNA Sequence Analysis: Introduction 1.1.3 DNA replication, mutation, repair, degradation, and inactivation DNA Synthesis.ppt DNA Synthesis. notes
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IVMS BMS GENERAL PRINCIPLES USMLE WEB MAPS-Global
USMLE WEB MAPS-BMS GENERAL PRINCIPLES
IVMS is the ultimate medical student Web 2.0 companion. This SDL-Face to Face hybrid courseware is a digitally tagged and content enhanced replication of the United States Medical Licensing Examination's Cognitive Learning Objectives (Steps 1, 2 or 3). Including authoritative reusable learning object (RLO) integration and scholarly Web Interactive PowerPoint-driven multimedia shows/PDFs. Comprehensive hypermedia BMS learning outcomes and detailed, General Principles and Organ System USMLE Web Maps content enriched learning objectives.
http://www.imhotepvirtualmedsch.com/
COMPONENT I: BIOCHEMISTRY AND MOLECULAR BIOLOGY delves into gene expression, protein synthesis, energy metabolism and the metabolic pathways associated with diseases.
GENE EXPRESSION: DNA STRUCTURE, REPLICATION AND EXCHANGE
1.1.1 DNA structure: single- and double-stranded DNA, stabilizing forces, supercoiling
HGP.pdf
DNA and Molecular Genetics
DNA Structure and Analysis
Gene expression: DNA structure, replication, and exchange
1.1.2 Analysis of DNA: sequencing, restriction analysis, PCR amplification, hybridization
DNA Sequence Analysis: Introduction
1.1.3 DNA replication, mutation, repair, degradation, and inactivation
COMPONENT III: GENETICS & HUMAN DEVELOPMENT with stress on embryogenesis, Mendelian genetics, population genetics, pedigree analysis, genetic abnormalities and counseling.
3.0. Embryology: fertilization, cleavage, blastulation, gastrulation, neurulation, and structures
arising out of primary germ cell.
Early Development
Human Growth and Development
The Visible Embryo Project
Embryogenesis: programmed gene expression, tissue differentiation and morphogenesis,
homeotic genes
Embryology-In the Womb
Human Embryogenesis
3.1. Congenital abnormalities: principles, patterns of anomalies, dysmorphogenesis
Congenital Anomalies
3.2. Principles of pedigree analysis: inheritance patterns, occurrence and recurrence risk
General Principles of Medical Genetics
3.3. Population genetics: Hardy-Weinberg law, founder effects, mutation-selection
3.5. Clinical correlates of genetics: genetic testing, prediagnosis, newborn
General Principles of Medical Genetics-Clinical Correlates
COMPONENT IV: IMMUNOLOGY: BASIC & APPLIED It explains the functions of the cells involved in immune response, classification of response, genetic regulation of immunogenicity (MHC class molecules), immune impairment and the laboratory techniques in immunologic investigations.
Immune system: goal, division & general function
Immune System.html notes
Adaptive -Innate Immunity Interplay
Animation: Neutralization I Opsonization I Classical complement pathway I Alternate
complement pathway
4.1. Histoimmunology: production and function of granulocytes, natural killer cells,
macrophages
An Immune System Glossary
Granulocytes, Macrophages and Natural Killer Cells.htm notes
4.2. Production and function of T lymphocytes, T lymphocyte receptors
The Immune Response System
The Adaptive Immune Response -T4 Lymphocytes
B lymphocytes- T lymphocyte interactions.ppt
4.3. Production and function of B lymphocytes and plasma cells; immunoglobulin and
antibodies: structure and biologic properties
The Immune System-Humoral
Development of B-Cells.ppt
Immunoglobulin Structure
4.4. Antigenicity and immunogenicity; antigen presentation; cell activation and regulation;
COMPONENT V: MICROBIOLOGY & INFECTIOUS DISEASES this component commences with taxonomy, and delves into bacteriology, virology, mycology and parasitology. Throughout the presentation, reference is made to the laboratory diagnosis and the mechanisms of infectivity.
4.0. TAXONOMY: microbial classification and its basis
Classification of Microorganisms. PDF
Classification of Microorganisms.ppt
Prokaryotes.ppt
Classification of Microorganisms.html illustrated notes
5.1. BACTERIOLOGY: Bacteria and bacterial diseases
COMPONENT VI: GENERAL PATHOLOGY: PATHOGENESIS AND BIOLOGY OF TISSUE RESPONSE TO DISEASE deals with inflammation (cells & mediators), reparative process and the basic concepts in neoplasia including carcinogenesis, tumor immunology and cancer epidemiology, prevention and control.
6.1. INFLAMMATION (CELLS AND MEDIATORS)
IVMS-General Pathology- Inflammation PPt.
http://ocw.tufts.edu/Course/51/lecturenotes
WebPath-Inflammation Index HTML. Page
(excellent, most comprehensive pathologic basis of inflammation – highly recommended)
http://en.wikipedia.org/wiki/Inflammation
Acute inflammation and mediator systems (pharmacologic mediators)
IVMS-Anti-Inflammatory and Autacoid Pharmacology- NSAIDs
Vascular response to injury (including mediators) Inflammatory cell recruitment (adherence and
COMPONENT VII: BEHAVIORAL SCIENCES with materials covering organic correlates of behavior, life cycle, human behavior in illness, patients’ interview and medical law and ethics. Medical law & ethics is treated with emphasis on patients’ rights, physician-patient relationship, beginning & end of life issues, clinical research & human experimentation and the ethics of managed care.
Gender, ethnic, and behavioral considerations affecting disease treatment and prevention
(including psychosocial, cultural, occupational, and environmental)
COMPONENT VIII: EXTERNAL (EXTRINSIC) FACTORS IN DISEASE This component treats of nutritional issues (nutrients classification, functions of nutrients & nutritional deficiencies), thermoregulation, and adaptation to environment and homeostasis.
COMPONENT IX: INTRODUCTORY PHARMACOLOGY: PHARMACOKINETIC & PHARMACODYNAMIC PRINCIPLES Pharmacokinetics is the study of what the body does to a drug. Pharmacodynamics is the study of what a drug does to the body. and effect.
9.1. GENERAL PRINCIPLES
Medical Pharmacology 2000
General Principles--Introduction
Pharmacokinetics
Pharmacodynamics
General Principles of Medicinal Chemistry.html notes (selected pharmacologic agents notes)
4. GENERAL PROPERTIES OF ANTIMICROBIALS (including mechanisms of action and
resistance)
Antibacterial Agents
5. GENERAL PROPERTIES OF ANTI-NEOPLASTIC AGENTS,
IMMUNOSUPPRESSANTS
Chemotherapy: Introduction & General Principles
Immunopharmacology
COMPONENT X: BIOSTATISTICS AND EPIDEMIOLOGY (QUANTITATIVE METHODS) This component explains the elements of measures, types of measures and basic epidemiologic concepts & principles namely, risk ratio, relative risk, odds ratio, incidence, prevalence, association, sensitivity, specificity, predictive values etc. Study designs, and hypothesis testing & statistical inference are both discussed in detail, in allowing for adequate interpretation of medical literature.