The specialized Master of Science programs and certificate program may have requirements that override or differ from the following degree requirements. The student enrolled in a specialized program is referred to the description of his/her own program where the following requirements do not pertain.
For either the M.S. or Ph.D. program, a student must maintain a grade average of B (3.0) or better each semester. The student who fails to maintain an overall GPA of 3.0 will be placed on academic probation and have one long semester to bring his/her grade average to B. If the student has a graduate teaching assistantship, it will not be withdrawn for the semester the student is attempting to correct his/her deficiency. Failure to obtain an overall GPA of 3.0 after one semester may result in dismissal, continued probation or other penalties.
Policy for Repeating Core Courses
The policies regarding general grade requirements for the core biomedical sciences courses are part of the "Core Curriculum in Biomedical Sciences" syllabus and are not included here. The student is referred to the core syllabus for these requirements.
Any Ph.D. student in the discipline of biomedical science must have an overall core average of 3.0 (B). A grade of C is acceptable in one core course (i.e. in BMSC 6301, BMSC 6302, BMSC 6303, or BMSC 6305), as long as an overall core grade of 3.0 is achieved (i.e., a grade of A must be obtained in at least one other core course of equal credit hours to offset the C). As per the Graduate School policy, any Ph.D. student who receives two or more C grades in core courses will be immediately transferred to the M.S. program. The student will not be considered for re-entry into the Ph.D. program until the following conditions are met: the student must have re-taken the necessary core courses and achieved a grade of B or better; the student must successfully complete the M.S. degree. The student will be give one opportunity to retake the required courses. If the student meets the stated criteria, he/she will be considered for re-admittance to the Ph.D. program; however, re-admittance is not guaranteed.
A M.S. student may proceed with his/her program if two C grades are achieved. However, the same requirements for maintaining an overall GPA of 3.0 each semester are in effect as stated under Grades.
All students in the discipline of biomedical sciences are required to perform laboratory rotations (BMSC 5150). The primary goal of rotations is to help a student choose a major professor. A secondary goal is to expose students to a number of areas of study to expand expertise and knowledge in research techniques. Each entering Ph.D. student is required to rotate through three different laboratories within his/her first year in graduate school, and each entering M.S. student is required to rotate through two different laboratories. If, at the time of matriculation, a Ph.D. student has already chosen a mentor, and the mentor has agreed to accept the student, that student is required to rotate in the mentor's laboratory and only one additional lab.
At the beginning of each rotation, the sponsoring faculty member will clearly outline his/her expectations of the student during the rotation period. At the end of the rotation, the faculty member will provide the student with a written constructive critique of his/her strengths and weaknesses. The duration of rotations should be approximately 6-10 weeks. At the conclusion of the final rotation, it is expected that the student will have chosen a major professor. A copy of the Laboratory Rotation Description and Report Form is available in Appendix I of this document.
Selection of Primary and Secondary Advisors and Advisory Committee
As soon as is feasible, a student will select a major professor (or primary advisor, if a Ph.D. student) by joint agreement of that faculty member and the student. Generally the major professor will be identified no later than the end of the second semester of study. The major professor will have the primary responsibility for directing the student's research. Students are required to rotate in faculty laboratories to aid in making this decision (see above). Following identification of a major professor, each Ph.D. student, in consultation with his/her major professor, must select a secondary advisor. In the discipline of biomedical science the dissertation research must span two different disciplines. While the majority of the research will be carried out in the laboratory of the primary advisor under his/her guidance, at least some will take place in the secondary advisor's laboratory under his/her mentorship. The primary and secondary advisors and the student will select the other members of the advisory committee. The advisory committee for a Ph.D. student in biomedical science must include at least five members (including the primary and secondary advisors). This is one more individual than is required by the graduate school. For both the master of science and doctoral students, the advisory committee shares in the responsibility of guiding the student in his/her studies, and has the responsibility of administering major examinations to the student.
The M.S. student is not required to have a secondary advisor. The advisory committee for a M.S. student must include at least three members (including the major professor). Two of the members may be from the same discipline; however, the third member must be from a different discipline and reflect the interdisciplinary nature of the student's research. For both M.S. and Ph.D. students, the major professor (primary advisor) will serve as the chair of the Advisory Committee.
Once the advisor(s) and advisory committee members have been identified the student should complete the Designation of Advisory Committee form (www.hsc.unt.edu/education/gsbs under Forms) and return the signed form to the Graduate School. At the latest this form should be turned in by the end of the third semester of the student's first year.
Post Baccalaureate Premedical Science Certificate students are not required to have an advisory committee or university member unless a change of discipline is initiated. Until this change is made the graduate advisor of the discipline of biomedical sciences acts as the program advisor. Each student is required to meet with his/her advisory committee at least once per year. It is the student's responsibility to convene these meetings.
The University Member
The student will meet with his/her advisor (primary advisor) to select three candidates to serve as university member. Once selected, the student should complete the Designation of University Member form (www.hsc.unt.edu/education/gsbs under Forms) and return the signed form to the Graduate School. At the latest this form should be turned in by the end of the third semester of the student's first year. The Graduate Dean will designate the university member of the advisory committee and the student will then be informed of the choice.
The function of the university member is to ensure that the student receives fair and equitable treatment and that all the requirements of the graduate school are followed during the entire degree process. The university member must be present at any oral exam (i.e. Ph.D. Oral Qualifying Exam, BMSC 6310 Defense, Thesis/Internship Practicum Report/Dissertation Seminar and Defense). As a matter of courtesy and so that the university member may keep informed of the student's research progress, the student should invite the university member to attend the advisory committee meetings when the research proposal is finalized.
The Degree Plan and Credit Hours Required for Degree Programs
Once the advisory committee has been formed, the student should decide on a degree plan with the assistance of the major professor (primary and secondary advisors in the case of the Ph.D. student). The degree plan is a list of all courses (including repeated courses) and major exams undertaken by the student as part of the degree program. The student's advisory committee must approve the degree plan. The Degree Plan form may be obtained on the web (www.hsc.unt.edu/education/gsbs under Forms) and the signed form returned to the Graduate School. At the latest this form should be turned in by the end of the third semester of the student's first year. The entire advisory committee must approve changes to the degree plan and a new form submitted to the graduate school.
Post baccalaureate Premedical Science Certification students are not required to fill out a degree plan unless a change of discipline is initiated.
Credit hour requirements for specialized Master's programs are described in the individual descriptions of the program. The student should consult these documents when filling out the degree plan.
1. The traditional M.S. degree requires a minimum of 36 credit hours. They are awarded to:
a. A student choosing to obtain an M.S. degree or
b. A Ph.D. student who does not fulfill the requirements for a Ph.D. and elects to pursue an M.S. degree.
2. The Ph.D. requires a minimum of 90 credit hours (see typical degree page 4).
3. Core Curriculum Requirements for ALL STUDENTS - Students entering the M.S. or Ph.D. degree programs are required to complete the Biomedical Sciences Core Curriculum (BMSC 6301, BMSC 6302, BMSC 6303, BMSC 6304 and BMSC 6305). For those students entering the Ph.D. degree program with an M.S. degree, the graduate discipline advisor may design an individualized core program, if no advisory committee is available. Students may be required to take additional courses or a core requirement may be waived depending on their backgrounds. In order to waive a core course requirement, permission of the associate dean of the graduate school must be obtained. The waiver will only be considered if the student has taken a graduate course at another institution in the last five years, which covers the same material as the core course, and has obtained a B or better in the course. The student must have a copy of the syllabus of the course and present this to the associate dean.
Research and Internships
The Ph.D. degree will require demonstrated research productivity and originality. In general, it is expected that before graduation, Ph.D. will have at least two publications (one of which is a first author paper) accepted for publication, in press or already in print. The traditional M.S. student's graduate advisor may require the student's research to be written and submitted for publication before graduation.
Since research is a major part of the degree requirement for both the M.S. and Ph.D. degree, it will be expected that once a graduate advisor is selected the student spend a minimum of 40 hours per week at the UNTHSC campus. Early and continuous involvement in research is a top priority of the graduate school. Students will acquire their most important skills during this time, including skills in independent and critical thinking, grant and manuscript writing, use of computer software applications, and research techniques. These skills will largely determine the future success of a student in obtaining a position in academia or industry.
The specialized master's programs require the student to enroll in an internship practicum for variable lengths of time (see individual program descriptions). The student is to regard this experience as he/she would a full-time job and plan to spend a minimum of 40 hours per week at the internship site. Depending on the practicum report and the internship site, the student may be expected to present his/her work at a scientific meeting or write up the work and submit it for publication.
All degree students in the discipline of biomedical sciences are expected to participate in UNTHSC Research Appreciation Day (RAD). As first year students, individuals may be asked to assist the graduate school staff during the event or may expect to present preliminary research findings at a poster session. Senior graduate students will be required to present their research either as a poster or oral presentation.
All students in the discipline of biomedical sciences (with the exception of certificate students) are expected to attend approximately one seminar per week in its entirety and to meet with invited seminar speakers when requested. Students may elect or are required to take BMSC 5140.001 (Seminars in Current Topics) for course credit (see individual degree plans). Seminar courses offered by other disciplines may also be taken for course credit.
Ph.D. Oral Comprehensive Examination
Doctoral students must complete the following two-part process to be advanced to candidacy. First, a discipline-based oral qualifying exam, designed and administered by the discipline's graduate faculty, must be successfully completed within the 72 SCH of coursework inclusive of any advanced standing granted for the completion of a master's degree. Second, the student must register for Grant Writing (BMSC 6310) in the semester following completion of the oral examination and before the completion of 84 SCH. Once Grant Writing is successfully completed, the student is advanced to candidacy and must enroll in Doctoral Dissertation (BMSC 6395) in the first semester following BMSC 6310. A student who has successfully passed both the oral qualifying examination and Grant Writing (BMSC 6310) must maintain continuous enrollment in a minimum of 6 SCH of BMSC 6395 during at least each long semester and one summer semester or until the dissertation has been accepted by the graduate school. Failure to maintain continuous enrollment will result either in dismissal from the graduate school or invalidate any previous dissertation credits. For medical or other exceptional reasons, the graduate dean may grant an official leave of absence.
The following describes the procedures that will be followed in the administration of the qualifying examination for students seeking the doctor of philosophy degree in the discipline of biomedical sciences:
1.[The semester before the exam will take place] The student will meet with the graduate advisor of the department of biomedical science to declare his/her intent to sit for the examination. At this time the student will also identify one (1) area of primary interest from the disciplines covered in the core graduate curriculum. These include: Biochemistry, Molecular Biology, Cell Biology, Microbiology, Immunology, Physiology, and Pharmacology. The student will also identify two (2) areas of secondary interest that cannot be the same as the primary discipline.
2.[The semester before the exam will take place] A 6 member committee will be appointed distinct from the student advisory committee. The qualifying exam committee will not include the student's mentor.
The committee members will be chosen to reflect the primary and secondary interests of the student. These individuals will be selected from the graduate faculty in a meeting of the graduate advisor of biomedical sciences and the student as follows:
3.[The semester before the exam will take place] The student will inform the chair of the examination committee of his/her one (1) area of primary interest and two (2) areas of secondary interest.
4.[Either during the semester before or early in the semester that the exam will take place] The chair of the examination committee will call the members (excluding the university member) together to create twelve (12) questions for the oral exam. Eight (8) of these questions should focus on the primary discipline identified by the student and should be constructed to emphasize the integrated approach of the biomedical sciences discipline. The questions may test information/topics identified during the first year core biomedical science curriculum and information/topics covered in advanced courses of the chosen discipline. Four (4) of the questions should focus on the secondary disciplines (two for each secondary discipline). All questions should test only information/topics identified during the first year core biomedical science curriculum.
5.[Early in the semester that the exam will take place] The student will set up a date, time, and place for the examination. It is the student's responsibility to get prior approval of all members of the examination committee, including the university member, for the date and time and to inform the entire committee of the final date, time, and location of the exam.
6.[Day of the examination] The student will meet with the committee chair to receive the twelve (12) questions. Following this, the student will be given thirty (30) minutes to read the questions and outline responses to six (6) of them. Four (4) of the six (6) must be based on the primary interest previously identified by the student and two (2) must be based on the secondary interests (one question for each discipline). The student will then convene with the entire committee to orally present answers to the six chosen questions. The student is encouraged to use the blackboard in answering questions. The committee members will ask questions pertaining to the subject matter of each question during the exam. The length of the exam will be approximately two hours.
7.[Day of the examination] Following the examination, the student will be excused from the room. The committee will then decide to either approve or disapprove the student's performance. If approved, the student will receive a pass. If disapproved, the committee will identify areas of weakness and these will be recorded by the chair to be conveyed to the student in writing at a later date. However, the student will be informed immediately if he/she has passed or not passed the examination.
A student who does not pass will meet with the chair of the committee within one week to receive the written description of his/her weaknesses. The student may repeat the process one (1) time with either the same or a new committee. A student who does not pass after the second attempt will not be permitted to register for Grant Writing (BMSC 6310) and will not advance to doctoral candidacy. The student may request entry into a Master of Science program.
8.[Within one week following successful completion of the examination] It is the student's responsibility to obtain signatures from all committee members, including the university member, attesting to the results of the examination. The appropriate form may be obtained from the graduate school website (www.hsc.unt.edu/education/gsbs under Forms). The signed form should then be returned to the graduate school office.
9.The oral qualifying committee may award the following designations to a student who has successfully completed the exam: "Qualifying Exam Passed", "Qualifying Exam Passed with Distinction", "Qualifying Exam Failed". Notations are added to the student's transcript.
Ph.D. Grant Writing (BMSC 6310) and Advancement to Candidacy
In the semester immediately after passing the Oral Comprehensive Examination Ph.D. Qualifying Examination, students must register for BMSC 6310 - "Grant Writing". This stage of the advancement to doctoral candidacy evaluates a student's aptitude for independent thought and scientific writing.
The student is required to:
1.Prepare an NIH-R21-style research proposal for a 3-year funding period;
2.Present the proposal at an advertised public seminar;
3.Orally defend the proposal before his/her Advisory Committee immediately following the public seminar. The defense will not be open to the public.
The proposal should be based on an original hypothesis and should describe specific experimental approaches to address the hypothesis. The proposal may not be identical to what the student will be doing for his/her doctoral research, but it may be in the same area of research.
The student's Advisory Committee will oversee the student's "Grant Writing" process. However, the student's major professor will not be allowed either to participate or be present during the grant writing process and the defense. He/She may attend and participate in the public seminar. The Graduate Student Advisor of Biomedical Sciences will appoint a member of the student's Advisory Committee to act as chair and coordinate the process. The student must have his/her topic approved by the Committee prior to beginning the 6310 and must meet with the Committee at least two other times during the semester to review drafts of the proposal. The final draft of the proposal must be typed in NIH format and presented to the Advisory Committee at least two weeks prior to the public seminar and oral defense. Evaluation and grade assignment will take into consideration the originality of the grant proposal and the student's ability to synthesize and communicate the proposal content. Upon successful completion of BMSC 6310 - "Grant Writing", the student is advanced to doctoral candidacy. A signed form, the Grant Defense Notice (www.hsc.unt.edu/education/gsbs under Forms), indicating the grade, as described in the next paragraph, must be turned into the graduate school along with a clean copy of the grant.
Incomplete grades will not be assigned for Grant Writing (BMSC 6310). Valid grades are Pass (P) or Fail (F). The F grade will contribute to the student's grade point average for that semester. A student who is assigned a failing grade at the end of the semester must repeat the course during the next semester. If a passing grade is earned, the student will be advanced to candidacy and the original F excluded from the grade point average on the transcript.
Two attempts to successfully complete BMSC 6310 - "Grant Writing" will be allowed. Failure to pass on the second attempt will result in dismissal from the doctoral program in Biomedical Sciences. In this case, a student may be allowed to complete the requirements for the Master of Science degree.
Research Proposals and Grading of Individual Research/Practicum Credit Hours
Ph.D. Students: Following the successful defense of his/her BMSC 6310 proposal and prior to 84 SCH, each Ph.D. student will be required to submit a research (dissertation) proposal to his/her advisory committee. Enrollment will be blocked to prevent the student from registering for additional credits before an approved research proposal is turned into the graduate school.
The suggested format for the proposal is an abbreviated (6-10 page) NIH-type grant proposal that includes the following:
a.Specific Aims (1 page)
b.Background and Pilot studies (2-4 pages)
c.Experimental Design and Methods (3-6 pages)
d.Full references will be attached without a page limit
The student's Ph.D. advisory committee will determine if the proposal is satisfactory. If approved, the student must turn in a clean copy to the graduate school along with the signed Research Proposal form (www.hsc.unt.edu/education/gsbs under Forms).
All Master of Science students are required to submit a research (thesis or practicum report) proposal that has been approved by the student's advisory committee describing the thesis/practicum project. Traditional M.S. students must submit the research proposal before registering for thesis credits, whereas Clinical Research Management students must submit their practicum proposal no later than the end of the second month of the internship practicum. Biotechnology students are required to submit the practicum proposal before the end of the fall semester of the second year of study. If approved, the student must turn in a clean copy of the proposal to the graduate school along with the signed Research Proposal form (www.hsc.unt.edu/education/gsbs under Forms).
In general the Master of Science research proposal content is similar to that of the doctoral research proposal. The document on research proposals for the internship practicum is available in Appendix II and also applies to the traditional M.S. research proposal.
Students registering for individual research, internship practicum, thesis, or doctorial dissertation will be assigned either a grade of Satisfactory (S) or Unsatisfactory (U). Neither the S nor U carries grade points. Courses with S grades count toward total credit hours earned toward the degree, but U grades do not. Any student achieving a U grade will automatically be placed on probation until he/she has achieved an S grade the next semester.
A letter grade (A, B, C, F) will be assigned by the primary graduate advisor, possibly after consultation with the secondary advisor (Ph.D. students) and/or the advisory committee, to the last semester of graduation only.
Declaration of Intent to Graduate and Declaration of Intent to Defend Forms
The semester all students planning to graduate should submit the Declaration of Intent to Graduate Form to the graduate school (www.hsc.unt.edu/education/gsbs under Forms). Thirty days before the student plans to present his/her work to the public and defend it in front of the advisory committee, the student must also submit the Declaration of Intent to Defend form to the graduate school (www.hsc.unt.edu/education/gsbs under Forms). The graduate school will publicize the student's seminar to the institutional community.
Thesis/Internship Practicum Report/Dissertation Requirements
It is normally expected that the Ph.D. candidate be first author on a minimum of one peer-reviewed research paper (either submitted, published or in press) and secondary author on a minimum of one peer-reviewed research paper (either submitted, published or in press) prior to his/her being awarded the terminal degree. (This expectation applies to all students in the Ph.D. program, regardless of the degree held upon entrance into the program). A student may use first author manuscripts as chapters in his/her dissertation in accordance with the requirements of the Graduate School. Alternatively, a student who, in the judgment of the advisory committee, was not the primary author of the submitted paper on his/her research will be required to write a traditional dissertation.
Traditional Master's students will write a traditional thesis and all specialized Master's students will write an internship practicum report following the Research Proposal Guidelines.
The thesis/internship report/dissertation must be prepared for digital submission according to the instructions in the Guidelines for Filing Theses, Internship Practicum Reports and Dissertations (available online at http://hsc.unt.edu/education/gsbs under Forms).
Public Seminar and Defense of Thesis/Internship Practicum Report/ Dissertation
After completion of the research/practicum, the student should convene his/her advisory committee and present an abbreviated seminar to the committee to allow them to determine if the student has completed the specific aims of the Research Proposal. If the committee approves, the student may then proceed to write the thesis/ report/ dissertation. This meeting should occur at the latest the beginning of the semester the student plans to graduate. Some specialized Master's students may be exempt from this meeting (e.g. clinical research management students).
The student will present the primary advisor with a preliminary draft of the thesis/internship practicum report/dissertation. After reading the manuscript, the student will make changes suggested by the advisor (allow approximately two-three weeks for this process) before submitting the document to the advisory committee members. The advisory committee members should receive the manuscript no later than two weeks before the defense.
The primary advisor will advise the student about the public seminar. In general it is a 30-40 minute presentation using visual aids. During or immediately after the seminar, the audience may ask questions, but usually the student's advisory committee members will hold their questions until the private defense. The private defense takes place immediately after the seminar and usually lasts about one-two hours. At this time, the committee members question the student about his/her work and discuss any changes/corrections the committee members feel should be incorporated into the draft document. When initially scheduling the public seminar and defense, the student should leave enough time to be able to make changes to the document prior to the graduate school deadline for final thesis/internship practicum report/dissertation submission. The student should bring the Report of the Final Comprehensive Examination (Defense) form (available online at http://hsc.unt.edu/education/gsbs under Forms) to the defense. The signed form must be turned into the graduate school with the final thesis/internship practicum report/dissertation.
Annual Performance Review
The performance of every student in the discipline of biomedical sciences will be reviewed on a yearly basis by the student's primary advisor. The review will include assessment of the student's complete UNTHSC academic record, his/her performance in the laboratory, participation in departmental functions, etc. If a student's performance is judged to be marginal in one or more areas, the student may be required to meet with the departmental Graduate Advisor and/or the Chair of Biomedical Sciences. In these meetings, remedial work may be assigned to the student, including specific goals that must be met for the student to remain in the program. Further, a student whose performance is unsatisfactory may be dismissed from the program.
Each year the student must send a complete CV, his/her achievements for the year, and a list of goals and objectives for the following year to both the graduate advisor and the primary advisor. This information will be used in the annual performance review. The advisor will fill out the Annual Performance Evaluation (available online at http://hsc.unt.edu/education/gsbs under Forms) and meet with the student to discuss it. Both the advisor and the student will sign the Evaluation and a copy will then be sent to the graduate advisor.
M.S. STUDENT MILESTONES
The time to achieve the M.S. degree may vary, but typically requires 2 to 2 ½ years (with the exception of the Clinical Research Management program, which requires 1½ years). Each M.S. student will be expected to advance through the program in a timely manner. Major milestones/requirements to achieve the M.S. degree are noted here (Clinical Research Management students should consult the Clinical Research Management Handbook).
By the end of the first year of study, each M.S. student should have:
· completed the core curriculum
· completed laboratory rotations
· chosen a major professor
· selected a Graduate Advisory Committee
· filed a degree plan
By the end the first semester of the second year of study, each M.S. student should have:
· submitted a research (thesis/internship practicum) proposal
By the end of the second year of study, each M.S. student should have:
· completed required course work
· have a tentative timetable for completing the degree requirements or have completed all degree requirements
Ph.D. STUDENT MILESTONES
Due to the nature of Ph.D. training, the time to complete the degree will vary some from student to student. However, each student should expect to complete several significant requirements in a timely manner. Major milestones/requirements are noted here.
By the end of the first year of study, each Ph.D. student should have:
· completed the core curriculum
· completed laboratory rotations
· chosen a major professor
By the end of the second year of study, each Ph.D. student should have:
· taken oral qualifying examination
· selected a Graduate Advisory Committee
· filed a degree plan
By the end of the third year of study, each Ph.D. student should have:
· completed Grant Writing (BMSC 6310)
· submitted a research (dissertation) proposal
ELIGIBILITY TO TRANSFER INTO Ph.D. PROGRAM FROM M.S. PROGRAM
A student in the M.S. program in the discipline of biomedical sciences may petition to transfer into the Ph.D. program. The student can petition to transfer only if the following conditions are met: 1) the student must have completed the core curriculum with a core GPA of at least 3.0; 2) the student must have identified a major professor who is willing to direct the student; 3) funds have been identified to support the student; and 4) the student must have successfully completed a rotation in the prospective major professor's laboratory. If all these conditions are satisfied, the Graduate Advisor and the Department Chair will review the student's file. The review process will include assessment of academic and laboratory performance. Note that meeting the above criteria for consideration for transfer into the Ph.D. program does not in any way guarantee the transfer will be approved. If the transfer is approved and funds have been identified, the transfer will be effective once the necessary paperwork has been filed with the Graduate School of Biomedical Sciences.
FINANCIAL AID POLICIES
Request for State-Supported Assistantship
Several forms of support are available to students. The graduate school through the discipline of biomedical sciences offers a limited number of state-supported teaching assistantships to Ph.D. students. Consideration for these may be requested at the time of application to the graduate school or later (see below). The graduate teaching assistantships are granted on a one year or one semester basis and are generally renewed for a maximum of two years, after which it is expected the primary graduate advisor or other grant (e.g. training grants, grants obtained by the student etc.) will support the student.
Both Master's and doctoral students who have successfully completed the first year core curriculum may apply to receive training grant fellowships, or students may be supported by the grants awarded to their graduate advisor, once he/she is identified. The student should discuss such funding directly with the advisor. Minority Ph.D. students may be eligible for the NIH-sponsored MORE fellowship, but must generally matriculate into graduate school the summer before the core curriculum begins.
Senior Ph.D. students are strongly encouraged to apply for student-eligible funding from agencies outside institution. The graduate advisor of biomedical sciences will assist any student to identify such funding sources. The process of applying for a grant is instructional and if successful, is a beneficial addition to the student's curriculum vitae.
The Office of Financial Aid, which is housed in Student Affairs, is also a source for obtaining support. In addition, the financial aid staff can help identify scholarships for which the student may qualify.
REQUEST FOR STATE-SUPPORTED ASSISTANTSHIP
Any Ph.D. student in the discipline of biomedical sciences who does not have financial support may apply to be considered for a state-supported graduate teaching assistantship, only if all of the following conditions are met:
· The student must have obtained an A in at least one course of the core curriculum (BMSC 6301, 6302, 6303, 6304 and/or 6305);
· If a grade of C is obtained in any of the core courses, the student is not eligible for a stipend;
· The student must have completed at least one laboratory rotation.
If all conditions are met, the student can request to be evaluated for financial support. At that time, the student's file will be reviewed. The review process will include assessment of academic and laboratory performance. If approved, and if funds are available, the student will receive an assistantship. Note that meeting the above criteria for consideration for funding does not in any way guarantee that an assistantship will be awarded.
The starting date for the assistantship may vary, and will depend in part on the time of application and approval, and availability of funds. As with all students, continued receipt of an assistantship is dependent upon the student maintaining good academic standing.
COURSES AND FACULTY
Course descriptions may be found in the Graduate School of Biomedical Sciences Catalog. Registration is accomplished on-line. If the student has a question about which courses to register for, he/she should consult with the following individuals depending on the student's situation and/or degree program: the graduate advisor for the discipline of biomedical sciences (in cases either where there is no primary research advisor or one has not yet been selected/assigned), the primary research/internship advisor, or the graduate advisor for science education.
Descriptions of the research interests of the graduate faculty members are available on the graduate school website (www.hsc.unt.edu/education/gsbs under Faculty). For those degree programs in which the primary advisor is not assigned, the student should investigate the research interests of the faculty before selecting potential laboratories in which to do a rotation. It is also worthwhile to have an appreciation of faculty research interests in case the student may require specialized assistance with a particular research problem.
LABORATORY ROTATIONS (BMSC 5150)
GRADUATE SCHOOL OF BIOMEDICAL SCIENCES, UNT Health Science Center
Approved by Graduate Council 1-10-02
1. The laboratory rotation is met by registering for BMSC 5150. The student may do a laboratory rotation with any graduate faculty member in any discipline. Upon registering for BMSC 5150, the student should identify his/her Discipline Graduate Student Advisor by including the graduate advisor's faculty section number in the appropriate space. The section number may be found at the beginning of the class schedule.
2. The purpose of the Laboratory Rotation is to:
3. The student should begin early in the first semester in graduate school to decide on 1-3 individuals with whom the student would like to do a rotation. The student should begin by contacting the faculty member to set up an appointment where the student will explain his/her interests and learn more about the faculty member's research. The student may have to interview several faculty before deciding on the ones to do rotations with. When the student has narrowed down his/her choices, the student should make a second appointment with those individuals.
4. During the second interview, the student and faculty member decide the specific dates of the rotation. In general, a rotation lasts approximately 6-10 weeks (l SCH). The student should learn from the faculty member what his/her expectations are during the rotation, what the student will be doing, when the student will be expected to be in the lab, etc. A letter grade will be given for the rotation.
5. A student may enroll in two different rotations (i.e. two different labs; 2 SCH) per semester. Moreover, students may register for additional rotations in other semesters. However, the student will only be permitted to register for 1 SCH of rotation per faculty member.
6. Faculty conducting laboratory rotations will submit to the student and the student's Discipline Graduate Student Advisor a description of the content and requirements of the rotation and dates when the rotation will take place. (See "Laboratory Rotation Report -Description Form" can be found at www.hsc.unt.edu, select departments>graduate school>forms.)
7. Following the rotation, the faculty member will submit a brief written critique of the student's attendance and performance during the rotation as well as a grade to the student's Discipline Graduate Student Advisor. (See "Laboratory Rotation Report - Grade Form" can be found at www.hsc.unt.edu, select departments>graduate school>forms). The student's Discipline Graduate Student Advisor will compile all rotation grades and critiques concerning the student and submit final grades to the registrar.
LABORATORY ROTATION REPORT FORM-DESCRIPTION (BMSC 5150)
Complete this form for each student who is doing a rotation in your laboratory and submit it to the appropriate Discipline Graduate Student Advisor at the beginning of the student's rotation. Provide the student with a copy of this form before start of the rotation or at the latest, at the beginning of the rotation.
STUDENT'S NAME: ________________________________________________________
FACULTY MEMBER SUBMITTING FORM: ____________________________________
DATES OF ROTATION: START ____________________ END ___________________
DATE REPORT SUBMITTED:
IN THE SPACE BELOW, GIVE A BRIEF DESCRIPTION OF THE CONTENT AND REQUIREMENTS OF THE ROTATION:
Signature of Faculty Member Student
LABORATORY ROTATION REPORT FORM-GRADE (BMSC 5150)
Complete this form for each student who is doing a rotation in your laboratory and submit it to the appropriate Discipline Graduate Student Advisor at the end of the student's rotation. Provide the student with a copy of this form as well.
STUDENT'S NAME: _________________________________GRADE________________
FACULTY MEMBER SUBMITTING FORM: ____________________________________
DATES OF ROTATION: START ____________________ END ___________________
DATE REPORT SUBMITTED: ________________________________________________
IN THE SPACE BELOW, GIVE A BRIEF, CONSTRUCTIVE CRITIQUE OF THE STUDENT'S ATTENDANCE AND PERFORMANCE DURING THE ROTATION:
Signature of Faculty Member Student
RESEARCH PROPOSAL GUIDELINES
FOR INTERNSHIP PRACTICUM REPORTS
Many studies end in futility or waste considerable amounts of time because the student begins the project with only a meager understanding of the area under consideration and no real plan or road map. To be successful, the student should have a detailed plan as well as an overall conceptualization of the study. The research proposal for the internship practicum allows the student to specify the problem/activities that will be pursued during the internship; to elaborate on the significance of the study to a particular profession; to review related literature; and outline the appropriate methodology employed in the study within a reasonable time-frame. It essence the proposal serves as a "road map" for the activities to follow.
Each program will have its own specific guidelines as to what must be included in Research Proposal, but in general all proposals will have the following components. When the final Practicum Report is written, it will have many of these same components, but each will be expanded over what is in the Research Proposal and there may be addition of new components.
i. Provide one or two paragraphs that describe the environment where the work will be done, what the focus of practicum work will be, what activities will be accomplished and how these will be conducted.
ii. Problem/Hypothesis/Specific Aims: Statement of the Problem - A concise and clearly written statement describing the focus and direction of the practicum problem. Hypothesis or Goal (1-2 sentences) -A reasonable, educated guess or suggested answer to the problem. Specific Aims (2-4 Listed) - List the specific aims that will test the hypothesis.
iii. Significance of and Justification: An opportunity to explain why the practicum project is important; Justify the study by explaining how the project will further knowledge and extend theory. (One-two paragraphs) Note: To determine the significance, you must know the literature!
iv. Brief Review of Related Literature*: Provide a review of the salient literature (with citations) that directly supports or opposes the stated hypothesis. For an Internship Practicum Report, this section may be a review of the recent observations or opposing arguments that support the larger review of the problem or methods development. Make clear that there is a need, as illustrated in the literature or based on the needs of the site, to do the study.
v. Preliminary Data: If available, preliminary findings, demonstration of methodology etc. may be included.
vi. Practicum Design and Activities:
vii. Relate to Specific Aims Described Earlier
Description of internship practicum site environment
Present clearly and concisely the practicum design and analyses to be employed (includes statistical analyses)
Describe the data to be collected
Describe methods, data collection and sampling techniques to be employed
Describe briefly any new methods or tools that will be developed.
Describe briefly any populations that will be sampled
Describe briefly any databases that will be sampled
Describe any potential pitfalls that may arise and alternate means to approach the problem
Describe any key factors that will limit your ability to interpret the data
viii. Citations: List all references cited in the proposal using an accepted form of scientific citation. Choose whether you will use the name system, e.g. (Miles et al, 2004), or the number system, e.g. (1) through (n). Then be consistent! Unless the idea is totally your own, cite a source. Failure to do so is plagiarism!
* There are several evidence-based full-text and abstracting services available through online computer services at the library. These databases can save the student an immense amount of time when seeking high-quality evidence-based information. Examples are: MEDLINE, PubMed and TRIP. If you've never used these services, ask a librarian for assistance. Use primary sources (books and journal articles) not information gathered from non-reviewed internet sites in your literature review.
NOTE: The student should read the requirements for writing the practicum report before beginning to actually write either the proposal or the final document. These may be found on the graduate school web page under Forms.