Neurobiology of Aging
Michael J. Forster, Ph.D., Graduate Advisor
Center for BioHealth 521
817-735-5429
E-mail: forsterm@hsc.unt.edu
Graduate Faculty: Basu, Das, Dillon, Forster, Gwirtz, Jones, Jung, Koulen, Krishnamoorthy, Luedtke, Machu, Prokai, Prokai-Tatrai, Schetz, Stokely, Simpkins, Singh, Sumien, Yang, Yorio
The Neurobiology of Aging program offers both M.S. and Ph.D. degrees in a wide range of research areas, but with focus on biological aging processes and age-related diseases affecting the nervous system. The Neurobiology of Aging program bridges all major discipline-oriented programs, including Biochemistry and Molecular Biology, Cell Biology and Genetics, Psychology, Integrative Physiology, Microbiology and Immunology, and Pharmacology and Neuroscience. Students are encouraged to acquire a broad base of knowledge and techniques in biomedical sciences, and to acquire a basic understanding of biological aging processes as they affect neurophysiological function and promote diseases of the nervous system.
With the "graying of America," society is faced with increasing numbers of individuals with diminished cognitive, sensory, or psychomotor function, which contribute to decreased independence and diminished quality of life. Further, aging promotes an increase in susceptibility to devastating neurodegenerative diseases such as Alzheimer’s and Parkinson’s diseases, as well as an increased susceptibility to brain insults. For example, it is estimated that by the year 2020, more than 14 million Americans will have Alzheimer's disease. Research in the Neurobiology of Aging includes efforts aimed at delineating the mechanisms of these debilitating neurological and neurodegenerative diseases, as well as fundamental studies to gain understanding of how normal processes of aging in the brain confer an increase in risk for these conditions.
Students with a variety of academic backgrounds may gain acceptance to the Neurobiology of Aging program, though they must be prepared to complete an integrated biomedical science core curriculum that includes fundamental principles of biochemistry, cellular and molecular biology, microbiology and immunology, pharmacology, physiology and neurobiology. Following the completion of the core curriculum, students must complete advanced courses in Functional Neuroscience and the Neurobiology of Aging, as well as other advanced elective courses in any discipline related to their individual research interests. Students will also participate in seminars and group discussions of current research topics, and will be trained in a number of techniques required to address existing research problems in the Neurobiology of Aging. Both M.S. and Ph.D. students will conduct original, publishable research and will be expected to present their results at national scientific conferences.
Completion of the M.S. degree typically requires two years; the Ph.D. degree is generally completed in four to five years. Students who successfully complete a graduate degree in the Neurobiology of Aging will be well prepared for careers in academic and government research laboratories, as well as in the pharmaceutical/biotechnology industry.
Degree Plans
The following are typical degree plans for students in the Neurobiology of Aging program. It is advantageous for the student to begin graduate study in a fall semester. Degree plans may vary depending upon availability of course offerings in a given semester and each student's progress toward thesis and dissertation research.
|
MS Degree Plan for Neurobiology of Aging |
||
|
Year 1: Fall |
||
|
BMSC 5600 |
Integrative Biomedical Sciences I: Principles of Biochemistry |
4 SCH |
|
BMSC 5610 |
Integrative Biomedical Sciences II: Molecular Cell Biology |
4 SCH |
|
BMSC 5935 |
Introduction to Faculty Research Programs |
1 SCH |
|
BMSC 5650 |
Lab Rotations |
1 SCH |
|
BMSC 5960 |
Biomedical Ethics |
1 SCH |
|
|
AND EITHER |
|
|
PHRM 5940 |
Seminar in Current Topics |
1 SCH |
|
|
OR |
|
|
PHRM 6699 |
Current Topics in Pharmacology |
1 SCH |
|
|
|
12 SCH |
|
|
|
|
|
Year 1: Spring |
||
|
BMSC 5010 |
Scientific Communications |
3 SCH |
|
BMSC 5700 |
Integrative Biomedical Sciences III: Physiology |
3 SCH |
| BMSC 5705 |
Integrative Biomedical Sciences IV: Pharmacology |
2 SCH |
|
BMSC 5710 |
Integrative Biomedical Sciences V: Immunology and Microbiology |
3 SCH |
|
BMSC 5935 |
Introduction to Faculty Research Programs |
1 SCH |
|
BMSC 5650 |
Laboratory Rotations |
1 SCH |
|
|
AND EITHER |
|
|
PHRM 5940 |
Seminar in Current Topics |
1 SCH |
|
|
OR |
|
|
PHRM 6699 |
Current Topics in Pharmacology |
1 SCH |
|
|
|
14 SCH |
|
|
|
|
|
Year 1: Summer |
||
|
BMSC 5200 |
Biostatistics for BMSC |
4 SCH |
|
BMSC 5930 |
Individual Research for MS Students |
2 SCH |
|
|
|
6 SCH |
|
|
|
|
|
Year 2: Fall |
||
|
BMSC 5950 |
Thesis |
6 SCH |
|
|
|
|
|
Year 2: Spring |
||
|
BMSC 5950 |
Thesis |
6 SCH |
|
|
|
|
|
TOTAL |
|
44 SCH |
|
PhD Degree Plan for Neurobiology of Aging |
||
|
Year 1: Fall |
||
|
BMSC 5600 |
Integrative Biomedical Sciences I: Principles of Biochemistry |
4 SCH |
|
BMSC 5610 |
Integrative Biomedical Sciences II: Molecular Cell Biology |
4 SCH |
|
BMSC 5935 |
Introduction to Faculty Research Programs |
1 SCH |
|
BMSC 5650 |
Lab Rotations |
1 SCH |
|
BMSC 5960 |
Biomedical Ethics |
1 SCH |
|
|
AND EITHER |
|
|
PHRM 5940 |
Seminar in Current Topics |
1 SCH |
|
|
OR |
|
|
PHRM 6699 |
Current Topics in Pharmacology |
1 SCH |
|
|
|
12 SCH |
|
|
|
|
|
Year 1: Spring |
||
|
BMSC 5010 |
Scientific Communications |
3 SCH |
|
BMSC 5700 |
Integrative Biomedical Sciences III: Physiology |
3 SCH |
| BMSC 5705 |
Integrative Biomedical Sciences IV: Pharmacology |
2 SCH |
|
BMSC 5710 |
Integrative Biomedical Sciences V: Immunology and Microbiology |
3 SCH |
|
BMSC 5935 |
Introduction to Faculty Research Programs |
1 SCH |
|
BMSC 5650 |
Laboratory Rotations |
1 SCH |
|
|
AND EITHER |
|
|
PHRM 5940 |
Seminar in Current Topics |
1 SCH |
|
|
OR |
|
|
PHRM 6699 |
Current Topics in Pharmacology |
1 SCH |
|
|
|
14 SCH |
|
|
|
|
|
Year 1: Summer |
||
|
BMSC 5200 |
Biostatistics for BMSC |
4 SCH |
|
BMSC 5650 |
Laboratory Rotations (if necessary) |
1 SCH |
|
BMSC 6940 |
Individual Research |
1-2 SCH |
|
|
|
6 SCH |
|
|
|
|
|
Year 2: Fall |
||
|
PHRM 6000 |
Functional Neuroscience |
4 SCH |
|
PHRM 5100 |
Neurobiology of Aging |
3 SCH |
|
BMSC 6940 |
Individual Research |
1-5 SCH |
|
|
Electives* |
0-5 SCH |
|
|
|
12 SCH |
|
|
||
|
Year 2: Spring |
||
|
BMSC 6940 |
Individual Research |
1-8 SCH |
|
|
Electives* |
1-8 SCH |
|
|
|
12 SCH |
|
|
|
|
|
Year 2: Summer |
||
|
BMSC 6940 |
Individual Research |
6 SCH |
|
|
Qualifying Examination |
0 SCH |
|
|
|
6 SCH |
|
Year 3: Fall |
||
|
BMSC 6010 |
Grant Writing |
3 SCH |
|
BMSC 6940 |
Individual Research |
3-8 SCH |
|
|
Electives* |
0-6 SCH |
|
|
|
12 SCH |
|
Year 3: Spring |
||
|
BMSC 6950 |
Doctoral Dissertation |
3-6 SCH |
|
|
Electives |
0-3 SCH |
|
|
|
6 SCH |
|
|
|
|
|
Year 3: Summer |
||
|
BMSC 6940 |
Individual Research |
3 SCH |
|
BMSC 6950 |
Doctoral Dissertation |
3 SCH |
|
|
|
6 SCH |
|
|
|
|
|
Year 4: Fall |
||
|
BMSC 6940 |
Individual Research |
3 SCH |
|
BMSC 6950 |
Doctoral Dissertation |
3 SCH |
|
|
|
6 SCH |
|
|
||
|
Year 4: Spring |
||
|
BMSC 6950 |
Doctoral Dissertation |
6 SCH |
|
|
|
|
|
TOTAL |
|
98 SCH |
*Elective courses must include 9 SCH in courses offered by any discipline. These may include but are not limited to releant Department of Pharmacology and Neuroscience electives (below). Course offerings of other departments are listed elsewhere in this catalog. The successful completion of Functional Neuroscience (PHRM 6000) and Neurobiology of Aging (PHRM 5100), as well as one of the elective courses, is required before a student can take his/her oral examination.
|
Courses offered each year: |
||
|
PHRM 5200 |
Intracellular Calcium Signaling |
1 SCH |
|
PHRM 5900 |
Special Problems |
3 SCH |
|
PHRM 5910 |
Special Problems |
3 SCH |
|
PHRM 6000 |
Functional Neuroscience |
4 SCH |
| PHRM 6040 | Neurobiological Basis of Neuropsychiatric Disorders | 3 SCH |
|
PHRM 6050 |
Ocular Pharmacology |
3 SCH |
|
|
|
|
|
Courses offered "even" years: |
||
|
PHRM 5070 |
Neuropharmacology |
4 SCH |
|
|
|
|
|
Courses offered "odd" years: |
||
|
PHRM 5100 |
Neurobiology of Aging |
3 SCH |
|
PHRM 5435 |
Molecular Aspects of Cell Signaling |
4 SCH |
|
PHRM 6080 |
Receptors and Drug Action |
4 SCH |
Advancement to Doctoral Candidacy
Qualifying Examination
The qualifying examination determines if the doctoral student has mastered information needed to succeed in the discipline of Neurobiology of Aging. The student is required to demonstrate reasonable proficiency in the topics of general biomedical science, functional neuroscience, and the neurobiology of aging presented during the first two years of graduate study. An oral qualifying examination will be administered by a committee comprised of graduate faculty, selected by the graduate advisor, and may also include faculty from another discipline when appropriate. The student's major professor may be present but will not participate in the examination. The initial phase of the qualifying examination consists of presentation of a published neurobiology of aging journal article, approved by the graduate advisor, with a subsequent question period. In the second phase of the examination, the student will be required to address questions on his/her knowledge of biomedical science and the neurobiology of aging.
A maximum of two attempts to pass the qualifying examination will be allowed. A doctoral student who does not pass after the second attempt may be dismissed or allowed to complete the requirements for a Master of Science degree.
Grant Writing (BMSC 6010)
Successful completion of Grant Writing (BMSC 6010) requires the preparation and oral defense of an original NIH-style grant proposal. The student's doctoral advisory committee serves as the student's grant proposal committee. The graduate advisor and the student's major professor instruct the student on the regulations of the course and assist in initiating and preparing the proposal. The proposal must consist of the student's original ideas and is expected to significantly extend scientific knowledge in the chosen research area. The student will first submit a summary report, which presents the hypothesis, experimental stragegy, and specific aims for the proposal to the examination committee within the first three weeks of the semester. Once the committee approves the summary, the student must then proceed to prepare a detailed written report of the research proposal in NIH format. The final proposal will be typed and presented to the committee at least two weeks prior to the oral defense. The student will present the proposal to faculty and graduate students. The grant proposal and presentation will be evaluated by the committee on the basis of originality and ability to organize and communicate information. A maximum of two attempts to pass will be allowed.
If the proposal and defense are satisfactory, the committee will recommend that the student be advanced to candidacy
This page last updated Jun 06, 2008
