علي جميع الطلاب الاطلاع بصورة
يومية علي هذا الملف لمعرفة:
* الاعلانات الصادرة الخاصة بالصف
* التقويم الدراسي
* جداول المحاضرات وجداول العملي وجداول الامتحانات
* توزيع الطلاب علي مجموعات العملي ومجموعات حلقات النقاش
* توزيع
الطلاب علي قاعات الامتحانات
* أي مواضيع اخري اكاديمية خاصة بالصف
The course aims to introduce the student to the concepts and applications of statistical methods as applicable to the biological sciences. It deals with the principles and concepts of biostatistics as well as methods of analysis and evaluation of biological data. The course includes qualitative and quantitative data presentation. Sampling variability and significance. Special emphasis is laid on the use of these methods in the decision-making process. Real life examples from areas such as quality control, biological testing and assay, clinical studies and pharmaceutical drug development are extensively covered
The course also deals with reaction kinetics, diffusion and dissolution, rheology, surface and interfacial phenomena, adsorption at solid phase and liquid inter – phase, suspensions and emulsions
Preparation and characterization of pharmaceutical dosage forms studied in PHPS 2004
The student is introduced to industrial processes, heat – transfer and mass transfer. Unit operations including drying, mixing, extraction, filtration and crystallization are discussed. It also introduces the student to some pharmaceutical sterile formulations such as ophthalmic and parenteral solutions
Selected experiments to demonstrate all possible unit operations
Disinfectant, Gram positive and Gram negative bacteria. Enteric Gram negative rods, Endospore forming bacteria, Corynebacteria, Mycobacteria, Gram negative coccobacilli. Spirochetes, Rickettsiae, Mycoplasmas. Antimicrobial chemotherapy
Introduction to basic microbiological techniques. Laboratory rules. Methods of sterilization and disinfection. Microscopic examination of microbes. Cultivation of bacteria. Colony morphology of bacteria. Antibiotic susceptibility of microbes. Medical helminthology
Mycology. General properties of viruses. Mechanism of viral oncogenesis; Significant of microorganism in Pharmacy
Gram positive and Gram negative cocci. Enteric Gram negative rods (Enterobacteriaceae). Endospore-forming Gram positive aerobic rods. Mycobacteria. Spirochetes. Rickettsiae. Chlamydiae. Medically important fungi. General and medical virology. Bacteriophages. Selected experiments to illustrate the microscopic, immunological and serological methods to diagnose diseases caused by parasites
The aim of the course is to provide the student with the basic concept of pharmacology. The course includes: dose response relationships, route of drug administration, drugs acting on the autonomic and central nervous system, drugs acting on respiratory and cardiovascular systems and drugs acting on gastrointestinal tract. Being the first course in pharmacology, this course aims in providing a clear and solid pharmacologic foundation. A great deal of emphasis is laid not only on the principles of general pharmacology but also the pharmacology of the drugs affecting the autonomic nervous system. The course covers relevant topics such as absorption, distribution and metabolism. Protein binding and excretion
The course offers the students an opportunity to substantiate the inputs they received in pharmacology (i). The purpose is to provide the student with first hand observation of responses induced by drugs on living biological system and to understand the modulation of these drug responses by another drug. Study of various routs of administration
Receptor theory, variability in response to drugs quantitative evaluation of drug effect. Drug interaction. Basic and clinical evaluation of new drugs general anesthetics, sedative – hypnotics. Convulsants, respiratory stimulants, Pharmacology of epilepsy, antiepileptic drug, centrally acting muscle relaxants. Neural mechanism of pain sensation: Morphine, and morphine like drugs. Antipyretic – analgesics, non – steroidal anti – inflammatory drugs. Antidepressant drugs. Chemical neurotransmissions and the autonomic nervous system
The course offers the students an opportunity to study the effect of adrenaline, acetylcholine, atropine, and d – tubocurarine in isolated tissues
This can be considered as a continuation of Pharmacology (ii). It covers mainly antimycobacterial agents. Chemotherapy of cancer. Immunostimulants and immunosuppressants. Mediators of inflammation: antagonist of histamine. Cardiac glycosides and antiarrythmic drugs. Antianginal drugs. Vasoconstrictor and vasodilators: drugs used to control hypertension, atheriosclerosis. Drugs affecting blood coagulation and fibrinolysis. Drugs acting on the kidney, diuretics. Pharmacotherapy of bronchial asthma
The course includes extraction, detection and isolation of secondary plant metabolites with especial emphasis on chromatographic principles and techniques e.g. PC, TLC, CC, GLC, and HPLC as well as other chromatographic methods and their application in drug detection and isolation
The course provides the – student with a series of practical experiments in various methods of extraction, detection on TLC by different reagents and isolation of secondary metabolites by preparative TLC and column chromatography
The course provides an introduction to the chemistry of natural products with emphasis on the secondary metabolites of higher plants. The syllabus includes glycosides such as flavonoids, anthocyanins, coumarins, chromones, anthraquinones, saponins and cardiac glycosides. The course covers tannins as well
The practical course covers the extraction, hydrolysis, detection and isolation of glycosides and tannins as well as the qualitative techniques used in their detection
The course covers the terpenoids chemistry and their classification, acyclic- , monocyclic-, and bicyclic – monoterpenes, sesquiterpenes, diterpenes and triterpenes as well as volatile and fixed oils
Alicyclic hydrocarbons: cyclic aliphatic analogues. Cyclic alkane, alkene.. etc. stereochemistry of aliphatic cyclic compounds. Chiral carbon. Optical activity. Enantiomerism, specific configuration (R & S). conformational isomerism. Geometric isomerism. Reactions involving stereoisomerism. Diastereoisomerism. Aromatics and aromaticity. Electrophilic substitution in aromatic compounds. Functional group chemistry. Aryl halides, carbanion I and II. A, β – unsaturated carbonyl compounds. Rearrangement and neighboring group effects. Molecular orbitals and orbital symmetry. Plynuclear aromatic compounds
This course introduces the student to basic techniques of organic synthesis, reactions and groups identification
The course is structured to enable student to practice their scientific vocabulary and medical jargon
The course aims to provide the student with different reading skills and strategies such as previewing, skimming and scanning of texts-
The student is encouraged to develop different writing skills such as note taking and writing report-
The student is encouraged to make presentation and be involved in debate to defend certain premise or doctrine-