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Medicinal Chemistry
- Graduate studies in medicinal chemistry involve applying the knowledge of chemistry to research associated with therapeutically useful compounds. This research includes the design and synthesis of new classes of therapeutic agents, the chemical modifications of existing drugs leading to an improved therapeutic effect, the correlation of the chemical structure of a drug with its pharmacological activity, the development and improvement of techniques used in the analysis of therapeutic agents, and the study of how chemical properties affect drug distribution and metabolism.
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A plan of study in medicinal chemistry would emphasize courses in chemistry (analytical, biological, medicinal, organic and physical) with support courses in natural products chemistry, pharmacology, and pharmaceutics.
- Specific thesis or dissertation research projects would be dependent upon the mutual interest of the student and the major professor.
Faculty with interests in Medicinal Chemistry:
Required Courses for Medicinal Chemistry
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Chemistry 407 OR Chemistry 541 and 542
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Instrumental Analysis |
| Chemistry 551 and 552 |
Biochemistry |
| Pharmacy 409 |
Medicinal Chemistry II |
| Pharmacy 566 and 568 |
Advanced Medicinal Analysis |
| Pharmacy 500 |
Molecular Structure & Function of Proteins |
| Pharmacy 531 |
Synthetic Medicinals |
| Pharmacy 539 |
Special Topics |
| Pharmacy 552 |
Seminar |
| Pharmacy 569 |
Concepts in Drug Design |
| Pharmacy 599 OR Pharmacy 699 |
Thesis Research/Dissertation Research |
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Natural Products Chemistry
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Natural products chemistry embraces many of the concepts and techniques as well as most of the fundamental knowledge that is common with medicinal chemistry. The distinguishing feature is that this area involves the study of natural products from plants, animals and microbes. The products may be therapeutically useful or toxic.
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Natural products chemistry endeavors to examine the natural source, mechanisms whereby the source biosynthetically constructs the product, processes whereby the product can be isolated from the source and techniques used to identify the product. These studies lay the ground work for the pharmacological evaulation of a potentially useful natural product or biochemical investigation of a natural toxin.
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A plan of study in natural products would emphasize courses in natural products and medicinal chemistry, chemistry, botany, and microbiology with support courses in pharmacology and pharmaceutics.
Faculty with an interest in Natural Products Chemistry:
Required Courses for Natural Products Chemistry
| Chemistry 407 OR Chemistry 541 and 542 |
Instrumental Analysis |
| Pharmacy 409 |
Medicinal Chemistry II |
| Pharmacy 410 |
Medicinal Chemistry III |
| Pharmacy 566 and 568 |
Advanced Medicinal Analysis |
| Pharmacy 500 |
Molecular Structure & Function of Proteins |
| Pharmacy 531 |
Synthetic Medicinals |
| Pharmacy 539 |
Special Topics |
| Pharmacy 552 |
Seminar |
| Pharmacy 569 |
Concepts in Drug Design |
| Pharmacy 599 OR Pharmacy 699 |
Thesis Research/Dissertation Research |
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Pharmaceutics
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Research in pharmaceutics involves all aspects of design, development, and evaluation of effective dosage forms/delivery systems, and entails one or more interdisciplinary areas that include physical pharmacy, pharmaceutical analysis, drug delivery, biopharmaceutics, and pharmacokinetics.
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Study in physical pharmacy includes equilibria, complexation, preformulation stability of liquid and solid formulations, solubility, surface chemistry, diffusion and mass transport.
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Study in pharmaceutical analysis includes spectroscopy, chromatography, extraction, and radio labeled assays.
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Research in drug delivery involves physical and checmical approaches to deliver drug molecules to selected organs and tissues, and evaluation of drug delivery systems using in vitro models.
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Research in biopharmaceutics considers the interrelationship of the physicochemical properties of drugs, the dosage form in which the drug is given, and the route of administration on the rate and extent of systemic drug absorption.
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Study in pharmacokinetics deals with the time course of drug absorption, distribution, metabolism, and excretion.
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Research in these areas offers interdisciplinary framework and provides comprehensive programs of course work leading to M.S. and Ph.D. degrees. The areas of specialization within pharmaceutics may range from strongly physicochemical to highly biological in orientation. The overall objective of our program is to educate and train individuals capable of conducting independent research with specialized knowledge in one of the above areas.
Faculty with an interest in Pharmaceutics:
Required Courses for Pharmaceutics
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Physical Chemistry |
| Chemistry 407 |
Instrumental Analysis |
| Math 401 |
Differential Equations |
| Math 520 and 521 |
Statistical Methods for the Experimenter |
| Pharmacy 513 |
Pharmacokinetics |
| Pharmacy 514 |
Advanced Biopharmaceutics |
| Pharmacy 577 |
Pharmaceutical Preforumulations |
| Pharmacy 578 |
Solid State Chemistry of Drugs |
| Pharmacy 579 |
Pharmaceutical Dosage Form Design |
| Pharmacy 583 |
Surface and Interfacial Phenomena |
| Pharmacy 584 |
Chemical Kinetics and Stability of Pharmacueticals |
| Additional Courses for Doctor of Philosophy (Ph.D.) degree: |
| Chemistry 402 |
Physical Chemistry |
| Pharmacy 566 |
Advanced Medicinal Analysis |
| Pharmacy 568 |
Advanced Medicinal Analysis Lab |
| Math 522 |
Multivariate Statistical Methods for Researchers |
| Math 405 |
Partial Differential Equations |
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Pharmacology
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Pharmacology is the study of the effects of chemicals on living systems and may include the study of individual molecules and cells, tissues or whole organisms. The field of pharmacology occupies a central position in the continuum of biomedical sciences such that there are often unclear boundaries between pharmacology and, for example, the fields of toxicology, biochemistry, physiology, pathology and microbiology.
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Training in this discipline offers the student a wide diversity of areas of inquiry and may prepare the student for a broad range of career opportunities in academia, industry and government.
Faculty with an interest in Pharmacology:
Required Courses for Pharmacology
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Core Curriculum
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| Pharmacy 409 |
Organic Medicinal Chemistry II |
| Pharmacy 413 |
Pharmacology III |
| Pharmacy 414 |
Pharmacology IV |
| Pharmacy 521 |
Advanced Pharmacology |
| Pharmacy 522 |
Advanced Pharmacology Laboratory |
| Math 520 |
Statistical Methods for the Experminenter I |
| Math 521 |
Statistical Methods for the Experminenter II |
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Electives
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| Pharmacy 527 |
Neuropharmacology |
| Pharmacy 528 |
Cardiac & Renal Pharmacology |
| Pharmacy 550 |
Biochemical Toxicology |
| Pharmacy 581 |
Advanced Toxicology |
| Pharmacy 582 |
Advanced Toxicology Laboratory |
| Pharmacy 432 |
Biopharmaceutics |
| Pharmacy 513 |
Pharmacokinetics |
| Pharmacy 514 |
Advanced Biopharmaceutics |
| Chemistry 551 and 552 |
Biochemistry |
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