Or other statistics course with approval of the Graduate Group.
The degree and major requirements displayed are intended as a guide for students entering in the Fall of 2024 and later. Students should consult with their academic program regarding final certifications and requirements for graduation.
Code | Title | Course Units |
---|---|---|
Year 1 | ||
Fall | ||
Cell Biology | ||
Cancer Biology and Genetics | ||
CAMB First Year Seminar | ||
Lab Rotation | ||
Spring | ||
Regulation of the Genome | ||
Cancer Biology and Genetics | ||
Lab Rotation | ||
Lab Rotation | ||
Summer | ||
Pre-Dissertation Lab Rot | ||
Year 2 | ||
Fall | ||
Foundations in Statistics | ||
Pre-Dissertation Lab Rot | ||
The Cell Cycle, Genome Integrity and Cancer | ||
Stress Responses in Metabolism and Cancer | ||
Spring | ||
Pre-Dissertation Lab Rot | ||
Cell Control by Signal Transduction Pathways | ||
Tumor Microenvironment | ||
Year 3 and Beyond | ||
Dissertation |
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Cancer biology phd program.
The GW Cancer Biology PhD program is designed to equip the next generation of researchers with the knowledge, research training and leadership skills necessary to foster progress in the prevention, detection and treatment of cancer. The PhD program provides research training in areas reflecting GW faculty expertise, which includes the study of cancer signaling and checkpoint inhibitors, cancer immunology and immunotherapy, and molecular mechanisms of oncogenesis and metastasis, cancer genomics and epigenetics and the tumor microenvironment.
The GW Cancer Center (GWCC) brings together cancer research, clinical cancer care, and cancer control/prevention and outreach initiatives at GW, and offers students a range of exciting research programs, seminars and retreats. Researcher labs are located on the 8th floor of the contemporary Science and Engineering Hall, in Ross Hall and other locations. An important focus for the Cancer Center is to address prominent health disparities in breast, cervical, colorectal, pancreatic, liver and prostate cancers faced by communities in the District of Columbia. Students have access to cutting-edge core facilities for flow cytometry, imaging, and computational biology as well as the Cell Enhancement and Technologies for Immunotherapy (CETI) lab , and state-of-the art GW Biorepository resource of biospecimens and clinical data to facilitate research on HIV/AIDS and cancer.
The GW Cancer Biology Training Program (supported by NIH T32 CA247756) is a prestigious dual basic/clinical mentorship program guided by expert cancer researchers and clinician investigators designed to prepare the next generation of outstanding cancer research scientists. The two-year program for predoctoral students and postdoctoral fellows includes courses and workshops as well as a discovery research project leading to an independent research career. Students apply for this program at the end of their first year, with their mentor and cancer-related research.
The PhD in Cancer Biology begins with the interdisciplinary coursework in molecular, cellular, and systems biology and research rotations offered through GW’s Integrated Biomedical Sciences curriculum . In the second and third semester students add a comprehensive introduction to the conceptual and experimental underpinnings of cancer biology. Further electives, career development coursework in scientific writing, oral communication, and research ethics and laboratory rotations are provided. Following required laboratory rotations, students complete a. grant-style qualifier and then work with their research advisor and the Graduate Program Directors to complete remaining Cancer Biology degree requirements, including the research dissertation.
CANC 8221: The Basic Science of Oncology CANC 8222: Molecular Oncology and Epigenetics CANC 8998: Advanced Reading and Research Seminar Course CANC 8999: Dissertation Research
GENO 6237: Proteomics & Biomarkers CANC 8223: Cancer Immunology BIOC 6240: Next Gen Sequencing HSCI 6263: Biostatistics Clinical Translational Scientific Research (online)
The Cancer Biology seminar series held is held Thursday at 4 pm, and the monthly Tumor Board discussions held each Friday morning at 8 am. An annual Cancer Center Retreat is held in May. Faculty and trainees share interest groups (breast, prostate, ovarian cancer) as well as thematic meetings (Cancer Biology, Cancer Immunology, Cancer Engineering), to focus on common research interests.
Sulgi (John) Lee PhD. 2020, “Identification and Characterization of Tumor Specific Antigens in Pediatric Diffuse Midline Gliomas” Mentors: Javad Nazarian, Eric Villain. (Now Application Scientist at Namocell, Washington DC)
Eden Dejene, PhD 2020 “Regulation of Poly(A)-specific ribonuclease Activity by Reversible Lysine Acetylation”. Mentor: Edward Seto, Inducted into Bouchet Society, NCI supplement. (Now Associate Scientist, Abcam, United Kingdom)
Norman Lee, PhD Professor of Pharmacology & Physiology GWU; Ross Hall 601 [email protected]
Yanfen Hu, PhD Professor of Anatomy & Cell Biology GWU; Ross Hall 551-B [email protected]
How to apply to the IBS and Cancer Biology PhD program.
For IBS Application Questions contact Colleen Kennedy, IBS Program Manager at [email protected]
The graduate program in cancer biology offers a course of study and research leading to the PhD degree. Although a master’s degree is offered under special circumstances, students are not admitted for a master’s degree.
The Cancer Biology Graduate Program was established at the McArdle Laboratory for Cancer Research in 1940 as the first graduate program in the United States to offer a degree in basic cancer research. The program now includes more than 50 faculty trainers from multiple departments including Oncology, Medicine, Human Oncology, Cell and Regenerative Biology, Medical Microbiology and Immunology, and others. This interdepartmental structure offers students remarkably diverse training opportunities that span the entire breadth of cancer biology research from haploid or diploid genetics, viral and chemical carcinogenesis, eukaryotic cell and molecular biology, virology, molecular toxicology, and whole-animal carcinogenesis. Through the graduate curriculum, students are introduced to the body of knowledge that has been derived directly from experiments on the induction, properties, and therapy of cancer, and receive the necessary background to conduct independent research.
Curriculum requirements are designed to be flexible, providing a maximal opportunity for specialization within this multidisciplinary field. Students learn through core and elective courses; by participation in seminars, conferences, and journal clubs related to their specific areas of expertise; and most important, from their research advisors. Students who join the program select research advisors after conducting a minimum of three month-long rotations in different laboratories during the first semester. After choosing an advisor, students will also create an advisory committee of five faculty members who will provide guidance throughout the process of earning the PhD degree. The average time to complete the PhD is 5.5 years. The program prepares students for careers in teaching and research in academia, government, and industry.
Please consult the table below for key information about this degree program’s admissions requirements. The program may have more detailed admissions requirements, which can be found below the table or on the program’s website.
Graduate admissions is a two-step process between academic programs and the Graduate School. Applicants must meet the minimum requirements of the Graduate School as well as the program(s). Once you have researched the graduate program(s) you are interested in, apply online .
Requirements | Detail |
---|---|
Fall Deadline | November 15 |
Spring Deadline | The program does not admit in the spring. |
Summer Deadline | November 15 |
GRE (Graduate Record Examinations) | Not required. |
English Proficiency Test | Every applicant whose native language is not English, or whose undergraduate instruction was not exclusively in English, must provide an English proficiency test score earned within two years of the anticipated term of enrollment. Refer to the Graduate School: Minimum Requirements for Admission policy: . |
Other Test(s) (e.g., GMAT, MCAT) | n/a |
Letters of Recommendation Required | 3 |
Students seeking admission to the program must complete a bachelor's degree in biology, biochemistry, chemistry, molecular biology, or a related area from an accredited college or university and should have a grade point average of at least 3.0 (on a 4.0 scale). The background of the applicant should include basic courses in these areas as well as several advanced courses in chemistry, microbiology, biochemistry, genetics, physiology, and molecular biology. Prior laboratory research experience is highly desirable.
Applicants must submit a completed online application, personal statement (reasons for graduate study), unofficial college transcripts, updated CV/resume (highlighting laboratory experience), and three letters of recommendation.
Resources to help you afford graduate study might include assistantships, fellowships, traineeships, and financial aid. Further funding information is available from the Graduate School. Be sure to check with your program for individual policies and restrictions related to funding.
The program is committed to ensuring continuing financial support for all cancer biology PhD students in good standing. Financial support includes a competitive stipend and tuition remission. All graduate students are also eligible for comprehensive health insurance. PhD students are supported from a variety of different sources including research assistantships from faculty research grants, fellowships, and NIH training grants. There is no teaching requirement for cancer biology students; however, many opportunities exist on campus for those who wish to gain teaching experience.
Students are admitted into the Cancer Biology Program as a Research Assistant (RA) unless they have received a fellowship or training grant. Find more information here .
Major requirements.
Review the Graduate School minimum academic progress and degree requirements , in addition to the program requirements listed below.
Face to Face | Evening/Weekend | Online | Hybrid | Accelerated |
---|---|---|---|---|
Yes | No | No | No | No |
Accelerated: Accelerated programs are offered at a fast pace that condenses the time to completion. Students typically take enough credits aimed at completing the program in a year or two.
Evening/Weekend: Courses meet on the UW–Madison campus only in evenings and/or on weekends to accommodate typical business schedules. Students have the advantages of face-to-face courses with the flexibility to keep work and other life commitments.
Face-to-Face: Courses typically meet during weekdays on the UW-Madison Campus.
Hybrid: These programs combine face-to-face and online learning formats. Contact the program for more specific information.
Online: These programs are offered 100% online. Some programs may require an on-campus orientation or residency experience, but the courses will be facilitated in an online format.
Requirements | Detail |
---|---|
Minimum Credit Requirement | 51 credits |
Minimum Residence Credit Requirement | 32 credits |
Minimum Graduate Coursework Requirement | 26 credits must be graduate-level coursework. Refer to the Graduate School: Minimum Graduate Coursework (50%) Requirement policy: . |
Overall Graduate GPA Requirement | 3.00 GPA required. Refer to the Graduate School: Grade Point Average (GPA) Requirement policy: . |
Other Grade Requirements | Students must earn a B or above in all required Core Courses, otherwise the course must be repeated. |
Assessments and Examinations | All doctoral students must pass an oral preliminary examination. All requirements for a doctoral degree, except for the dissertation, must be completed at this time. Six months before the final oral defense, all doctoral students must present a semifinal dissertation proposal to their committee for approval. All doctoral students must pass a final oral defense of their doctoral dissertation and subsequently deposit the dissertation in the Graduate School. |
Language Requirements | No language requirements. |
Graduate School Breadth Requirement | The Cancer Biology Program does not require students to complete a doctoral minor or graduate/professional certificate; however, the option is available to those who wish to do so. Acceptance of the minor or certificate requires the approval of the Advisor and respective department in which the minor or certificate is administered. If you wish to complete a minor or certificate, you must inform the Program Coordinator of your minor option selection by the end of the first year. The minor or certificate must be approved by your Certification Committee and must be completed along with the major course requirements by the end of your second year. Please note that breadth coursework may count towards the elective course requirements. |
The curriculum for Cancer Biology is designed to introduce you to research related to the induction, properties, and therapy of cancer and to ensure that you have the necessary background in one or more areas of related, fundamental science to enable you to do original research. Courses are drawn from the Department of Oncology as well as various related departments, including Bacteriology, Biochemistry, Biomolecular Chemistry, Chemistry, Genetics, Human Oncology, Medical Microbiology and Immunology, Pathology and Laboratory Medicine, and Pharmacology.
The Graduate School at UW-Madison requires PhD students to complete a minimum of 51 credits in order to obtain a PhD Degree. These credits are fulfilled via core curriculum courses, 990 research, and electives. Courses numbered below 300, audit, and pass/fail do not satisfy the minimum requirement. It is suggested that you take approximately 2 courses per semester with the remaining credits being 990 research. All courses must be completed by the end of your second year, before completing the Preliminary Exam.
Code | Title | Credits |
---|---|---|
Core Courses: | ||
General Virology-Multiplication of Viruses | 3 | |
Carcinogenesis and Tumor Cell Biology | 3 | |
Ethics in Science | 1 | |
Readings in Cancer Biology | 2 | |
Current Problems in Cancer Biology | 2 | |
Seminar (presentation) | 1 | |
Research Credits | ||
Research | ||
Quantitative Requirement | ||
Introduction to Biostatistics | 3 | |
or | Bioinformatics for Biologists | |
Electives (two courses) | ||
Total Credits | 51 |
Beginning in your second year, you will be required to give an annual, formal presentation in the Cancer Biology Student/Postdoc Seminar Series. You will register for ONCOLOGY 901 Seminar during the semester in which you present. Your seminars will be recorded and you will receive feedback from the seminar course instructor to help improve your public speaking and presentation skills. Attendance at this seminar series is required .
In addition, you are expected to attend the Cancer Biology Seminar throughout your graduate career (no registration required). The Cancer Biology Seminar, which features local and outside faculty speakers, is held on Wednesdays at 10:30 a.m. in 1345 HSLC. The schedule is posted on the McArdle website .
Students will enroll in up to 12 credits per semester as pre-dissertators (only 2 credits during the summer term).
Students must select electives in consultation with their advisor. These courses should be numbered 500 and above. The list below provides some examples of commonly taken courses.
Code | Title | Credits |
---|---|---|
Protein and Enzyme Structure and Function | 2 | |
Prokaryotic Molecular Biology | 3 | |
Immunology | 3 | |
Advanced Microbial Genetics | 3 | |
Mechanisms of Microbial Pathogenesis | 3 | |
Pathogenesis of Major Human Diseases | 3 | |
Eukaryotic Molecular Biology | 3 | |
Mechanisms of Action of Vitamins and Minerals | 2 | |
Fundamentals of Stem Cell and Regenerative Biology | 3 | |
Molecular and Cellular Organogenesis | 3 | |
Cell Signaling and Human Disease | 1 | |
Stem Cell Bioengineering | 3 | |
Design of Biological Molecules | 3 | |
Cellular and Molecular Biology/Pathology | 2 | |
Host-Parasite Relationships in Vertebrate Viral Disease | 3 |
The Graduate School’s Academic Policies and Procedures provide essential information regarding general university policies. Program authority to set degree policies beyond the minimum required by the Graduate School lies with the degree program faculty. Policies set by the academic degree program can be found below.
Prior coursework, graduate credits earned at other institutions.
With program approval, students may transfer no more than 9 credits of graduate coursework from other institutions. Coursework earned ten or more years prior to admission to a doctoral degree is not allowed to satisfy requirements.
With program approval, students may transfer no more than 7 credits numbered 300 or above from a UW–Madison undergraduate degree, or the equivalent from other institutions.
Refer to the Graduate School: Transfer Credits for Prior Coursework policy.
With program approval, students may transfer no more than 15 credits of coursework numbered 300 or above taken as a UW–Madison Special student. Coursework earned ten or more years prior to admission to a doctoral degree is not allowed to satisfy requirements.
A semester GPA below 3.0 or an incomplete grade (I) will result in the student being placed on academic probation. If a semester GPA of 3.0 is not attained or the Incomplete grade is not cleared during the subsequent semester of full- time enrollment, the student may be dismissed from the program or allowed to continue for 1 additional semester based on advisor appeal to the Graduate School.
All students are required to have an advisor. Students must create a certification committee (advisor plus four additional faculty members) by the end of their first year. After passing their preliminary examination, students are required to conduct a progress report meeting with their certification committee each year. Failure to do so may result in a hold being placed on the student’s registration.
Time Limits
All doctoral students must pass their preliminary examination by the end of their second year (August 31). Under special circumstances, a one-semester extension may be granted when justified in writing by the student and advisor.
Refer to the Graduate School: Time Limits policy.
These resources may be helpful in addressing your concerns:
Any student in a School of Medicine and Public Health graduate program who feels that they have been treated unfairly in regards to educational decisions and/or outcomes or issues specific to the graduate program, including academic standing, progress to degree, professional activities, appropriate advising, and a program’s community standards by a faculty member, staff member, postdoc, or student has the right to complain about the treatment and to receive a prompt hearing of the grievance following these grievance procedures. Any student who discusses, inquiries about, or participates in the grievance procedure may do so openly and shall not be subject to intimidation, discipline, or retaliation because of such activity. Each program’s grievance advisor is listed on the “Research” tab of the SMPH intranet .
This policy does not apply to employment-related issues for Graduate Assistants in TA, PA and/or RA appointments. Graduate Assistants will utilize the Graduate Assistantship Policies and Procedures (GAPP) grievance process to resolve employment-related issues.
This policy does not apply to instances when a graduate student wishes to report research misconduct. For such reports refer to the UW-Madison Policy for Reporting Research Misconduct for Graduate Students and Postdoctoral Research Associates .
Requirements for Programs
The School of Medicine and Public Health Office of Basic Research, Biotechnology and Graduate Studies requires that each graduate program designate a grievance advisor, who should be a tenured faculty member, and will request the name of the grievance advisor annually. The program director will serve as the alternate grievance advisor in the event that the grievance advisor is named in the grievance. The program must notify students of the grievance advisor, including posting the grievance advisor’s name on the program’s Guide page and handbook.
The grievance advisor or program director may be approached for possible grievances of all types. They will spearhead the grievance response process described below for issues specific to the graduate program, including but not limited to academic standing, progress to degree, professional activities, appropriate advising, and a program’s community standards. They will ensure students are advised on reporting procedures for other types of possible grievances and are supported throughout the reporting process. Resources on identifying and reporting other issues have been compiled by the Graduate School.
Steps in the grievance procedures must be initiated and completed within the designated time periods except when modified by mutual consent. If the student fails to initiate the next step in the grievance procedure within the designated time period, the grievance will be considered resolved by the decision at the last completed step.
Take advantage of the Graduate School's professional development resources to build skills, thrive academically, and launch your career.
For the most current list of faculty and descriptions of their research interests, visit the program website .
Cancer Biology Program, McArdle Laboratory for Cancer Research School of Medicine and Public Health [email protected] cancerbiology.wisc.edu
Hilary Berry, Graduate Program Manager [email protected] 608-262-4682 6435 Wisconsin Institutes for Medical Research
Eric Johannsen, Director of Graduate Studies [email protected]
Grievance Advisor, Lisa Arendt, Associate Professor [email protected]
Grievance Advisor, Shigeki Miyamoto, Professor [email protected]
Graduate Program Handbook View Here
Graduate School grad.wisc.edu
Please visit the Biosciences PhD Admissions page for detailed information on the admissions process and requirements.
Application will open in September 2024.
Application Deadline - Tuesday, December 3, 2024, at 11:59:59 PM (PST)
Interview Session - Wednesday, March 5 through Saturday, March 8, 2025
Any questions or concerns about the application process should be addressed to: [email protected]
The Cancer Biology Home Program is one of fourteen Biosciences PhD programs at the School of Medicine. We welcome applications from students with a variety of scientific backgrounds and believe that diversity of previous experiences enriches our multidisciplinary environment.
The Cancer Biology Program recognizes that the Supreme Court issued a ruling in June 2023 about the consideration of certain types of demographic information as part of an admission review. All applications submitted during upcoming application cycles will be reviewed in conformance with that decision.
The Cancer Biology Program welcomes graduate applications from individuals with a broad range of life experiences, perspectives, and backgrounds who would contribute to our community of scholars. The review process is holistic and individualized, considering each applicant’s academic record and accomplishments, letters of recommendation, prior research experience, and admissions essays to understand how an applicant’s life experiences have shaped their past and potential contributions to their field and how they might enrich the learning community at Stanford.
Qualified applicants will have completed a bachelor's degree in biological sciences or related fields; applicants with majors in physics, chemistry or mathematics may be admitted on condition that they complete background training in biology during the first two years of study. Students who wish to pursue a combined M.D./Ph.D. degree will be considered for admission into the Cancer Biology Program after they have been admitted to the M.D. program in the School of Medicine. We invite all interested students, and especially those from backgrounds underrepresented in academia, to apply.
The Knight-Hennessy Scholars program awards full funding to Stanford graduate students from all disciplines, including Cancer Biology, with additional opportunities for leadership training and collaboration across fields.
Graduate program.
The Cancer Biology Graduate Program is designed to train students for a career in basic and applied cancer research, as well as in related careers associated with the application of information through biotechnology, and the dissemination of information to the next generation of scientists and to the lay public.
Students will be exposed to a series of cutting-edge research areas (such as cancer precision medicine and tumor immunotherapy) and technologies (genomics, proteomics, CRISPR/Cas9-mediated genome editing, etc.) both in the course work and in the laboratory setting. Training will extend to exercises designed to develop independent thinking, skills in oral and written presentation, analysis of data and information, and dissemination of information through preparation of grants and manuscripts, as well as teaching.
The program combines rigorous course work with laboratory training and exercised designed collectively to provide students with the necessary theoretical and practical skills to launch productive careers. At the conclusion of their training students will be in a position to competitively pursue an increasingly wide rage of available careers, including: academic research, undergraduate teaching, scientific consulting and science writing, basic and applied science in the biotechnology and pharmaceutical industry, and scientific administration at National Institute of Health/ National Cancer Institute and private research foundations.
Graduate students in the Cancer Biology program receiving Vanderbilt University financial support or services must devote full-time effort to graduate study. Students cannot accept jobs for pay within or outside the University unless prior approval is given by their advisor, their Director of Graduate Studies, and the Dean for the Office of Biomedical Research Education and Training. Exceptions to this rule include part-time internships and activities that contribute to career development and that do not exceed the time commitment outlined by the National Institutes of Health, service as course associates at Vanderbilt, and occasional and temporary part-time pursuits (e.g. house sitting). Engagement in outside employment without obtaining approval may result in loss of financial aid, including stipend.
These guidelines supplement and expand the regulations of the Graduate School. Students and faculty are expected to read and be aware of the contents of the Graduate School Bulletin and Regulations.
I. General Information
A. Philosophy
The Cancer Biology Graduate Program is designed to train students for a career in basic and applied cancer research, as well as in related careers associated with the application of information through biotechnology and the dissemination of information to the next generation of scientists and to the lay public. Modern cancer research is based on a broad range of disciplines, including Molecular Biology, Cell Biology, Genetics, Biochemistry, and Bioinformatics, which the students will learn through course work, scientific communication, and laboratory experience. The Cancer Biology Graduate Program is designed to develop independent thinking, problem solving, creativity, oral and written presentation skills, data and bioinformatics analysis, and dissemination of information through teaching. Thus, the proposed program combines rigorous course work with mentored hypothesis-driven laboratory research, and opportunities to develop writing, speaking, and teaching skills. Collectively, these experiences will provide students with the necessary theoretical knowledge, technical experience, and leadership training to launch productive careers using their degree in Cancer Biology. Through dissertation research, students are expected to make original contributions to current knowledge that will impact understanding of cancer biology or cancer diagnosis and treatment. Having graduated from the Program in Cancer Biology, students will be poised to pursue an increasingly wide range of scientific careers, including academic research, undergraduate teaching, science writing, scientific liaison, and basic or applied research in the biotechnology and pharmaceutical industries.
B. Admission into the Program
After completing laboratory rotations and the Interdisciplinary Graduate Program in Biomedical Sciences (IGP) core coursework, students interested in joining the Cancer Biology Graduate Program will apply at the end of the second semester of the first year of graduate school. Acceptance is monitored by the Graduate Executive Committee (GEC) and is contingent on satisfactory performance in both coursework and rotations during the first two semesters. In addition, acceptance into the program is contingent upon approval from the Department Chair of the preceptor’s primary appointment. Mandatory documentation of approval by all involved parties will be provided by signing the Cancer Biology Graduate Program Responsibility Form.
Students admitted into the MSTP (M.D., Ph.D.) Program in the School of Medicine are also eligible to enroll in the Cancer Biology Graduate Program. These students will rotate through the laboratories of program members during their first two years of Medical School, and can be admitted into the Program using the same procedure and criteria as entering IGP students.
1. Transfer Student Provisions
The transfer of students into the Cancer Biology Graduate Program from another Vanderbilt Graduate Program is dependent on the approval of the Graduate Executive committee (GEC, see below). In these instances, the Director of Graduate Studies (DGS) should be contacted by the student first to request evaluation by the GEC and to assist the student in finding a suitable laboratory for his/her thesis work. (Note that failure to pass the Qualifying Exam in another Vanderbilt Graduate Program excludes admission to the Cancer Biology Graduate Program.) Similarly, the DGS should be informed if a student intends to transfer out of the Cancer Biology Graduate Program so the DGS can assist with negotiating an appropriate course of action.
2. Direct Admission Provisions
The direct admittance of graduate students to the Cancer Biology Graduate Program can be accomplished with the written permission of the mentor whose laboratory they wish to enter and approval by the GEC. Faculty wishing to accept a direct admit student should contact the GEC for approval.
C. Administrative Structure
The Cancer Biology Graduate Program is run by the Program Director , currently Ann Richmond, Ph.D., and Rachelle Johnson, Ph.D., Director of Graduate Studies (DGS) for the Cancer Biology Program. In addition, the Program Director appoints an Interdisciplinary Graduate Program (IGP) representative for Cancer Biology (currently Barbara Fingleton), who represents the Program on the IGP admission committee. Cancer Biology Graduate Program policy is monitored and enforced by the Graduate Executive Committee (GEC) (currently Jin Chen, Barbara Fingleton, Ann Richmond, Alissa Weaver, Julie Rhoades, Kim Rathmell, Chris Williams and Rachelle Johnson).
1. Graduate Executive Committee (GEC). The GEC assists the Program Director in monitoring the progress and welfare of the students. Most issues can and should be resolved through consultation with the DGS, but there are limitations to the power and scope of the DGS with respect to certain types of conflict. The GEC exists to ensure fairness and to provide a general oversight role for the Cancer Biology Program. It provides an impartial mechanism for judging and resolving conflicts between and among students and faculty, and is empowered through the Program Chair to enforce its decisions. The GEC is selected by the Program Director/DGS, and consists of at least 5 graduate faculty, including the Program Director, the DGS, the IGP representative, and a representative of the Biomedical Research, Education, and Training (BRET) office. These individuals meet as needed to arbitrate and resolve special situations that arise from time to time in the course of a student’s graduate career. For example, if deemed necessary, the committee can prohibit faculty from taking on new students based on mentoring issues.
The responsibilities of the GEC are summarized below:
2. The Program Director serves as official spokesperson for the Cancer Biology Graduate Program, the liaison with the Graduate School, and representative of the program in matters of university policy. The Director of Graduate Studies (DGS) monitors the academic and research progress of each student throughout his/her training. He/she has frequent contact with the students and is responsible for explaining the requirements and expectations. The Program Director and the DGS are also the student advocate when personal problems arise and in cases of possible faculty misconduct. In addition, he/she is aware of a wide variety of medical and counseling resources available to all students under circumstances that might extend beyond program issues. Most student or faculty issues can and should be resolved through confidential interaction with the DGS. When necessary, conflicts can be referred to the Program Director or the GEC (see above).
3. The Interdisciplinary Graduate Program (IGP) representative sits on the IGP Admission Committee, which selects incoming graduate students and determines IGP policy. He/she also acts as liaison between the graduate programs of the IGP and the Cancer Biology Program, and facilitates the transition of students from the IGP into the Program.
4. The Program administrative contact (Program Manager) coordinates program admission in response to direction from the Program Director and the Director of Graduate Studies (DGS), tracks program requirements, registers students, and maintains the student files throughout their course of study .
5. Qualifying Examination Parent Committee (QEPC). The QEPC is made up of 10 primary or secondary appointees to the Program with experience with graduate student mentoring. The chair of the QEPC is the DGS. Members of the QEPC serve as Chairs of the qualifying examination committees. The QEPC meets regularly during the time of the qualifying examinations and is charged with maintaining consistent standards in examination format and consistent criteria for passing all components of the qualifying examination. The QEPC serves as the first-line arbitrator in the case of a dispute regarding the outcome of the Qualifying Examination. (Current membership of the QEPC is mentioned above).
D. Teaching
There is no formal teaching requirement. Students pursuing the doctorate may participate in the IGP Focus Groups. Also, students are encouraged to assist in the Advanced Cancer Biology course or other courses organized by the Program. The Cancer Biology Student Association (CBSA) organizes a student taught technology course every year to assist new (2nd year) cancer biology students preparing for their qualifying exam. Students are encouraged to participate in this team taught effort. One hour of graduate credit may be earned by participating in an official CANB course as a teaching assistant provided certain criteria are met, as detailed in section II.6 below.
E. Master’s Degree Option
Cancer Biology does not offer a M.S. degree program. Students are admitted to the Cancer Biology Program with the intention of completing a Ph.D. degree. However, M.S. degrees can be awarded if this goal changes. The following criteria must be met for a M.S. Degree:
– Satisfactory completion of all didactic Ph.D. course work with a B average
– A Thesis acceptable to the Graduate Executive Committee and the Graduate School. Minimal requirements for a thesis are:
II. Requirements for the Ph.D. Degree
A. Course requirements
1. The total number of graduate credits must conform to the specification of the Graduate School (i.e., 24 didactic hours and 72 total hours). Students will be expected to maintain a B (3.0) average. Student performance will be monitored by the DGS. If a student’s grade point average (derived from didactic hours and research credit hours) drops below 3.0, he/she will be placed on probation. If the sub-par performance persists into subsequent semesters, the DGS and Graduate Executive Committee will work with the Graduate School in evaluating the student’s options and he/she may be subject to dismissal from the Program.
2. Entrance into the Program in the second year of graduate studies requires that students, except Medical Scientist Training program (MSTP students), complete the core curriculum governed by the IGP. In accordance with this program, each student rotates through laboratories of their choosing during the first year of their graduate studies. Students participate in experiments in these laboratories and write a short summary of their activities, which is submitted to the IGP. Grades, and a written evaluation of the student’s performance, are provided to the IGP by the faculty member involved. As many as 16 hours of didactic credit may be earned from the IGP curriculum excluding elective courses.
3. Elective courses to reach the total of 24 didactic hours of formal courses (an additional 8 credits) are to be chosen from high-quality, formal 300 level courses given by the Program In Cancer Biology, Cell and Developmental Biology, Biochemistry, Molecular Physiology and Biophysics, Pathology, and Pharmacology in the School of Medicine, or approved courses given by the Department of Biological Sciences in the School of Arts and Sciences. A list of available courses is found in the Graduate School Bulletin. The topic will be determined by the specific research interests of the student.
4. MSTP Cancer Biology students have the option of transferring courses which are particularly pertinent to training in Cancer Biology as per the current version of The Compass
5. All students enrolled in the Cancer Biology Program must take Introduction to Cancer Biology and Advanced Cancer Biology (CANB 8340 & 8342), which are offered in the fall.
6. Other than Didactic course work the remainder of the student’s 72 hours will be earned through their CANB 8999 (Non-Candidate Research) and CANB 9999 (Ph.D. Dissertation Research) classes. One hour of CANB 8999 credit may be earned from serving as a teaching assistant for an official CANB course. To qualify for the TA-credit, students must fulfill the following criteria: (i) Have successfully completed both the required cancer biology courses CANB 8340 and CANB 8342 and (ii) Have obtained approval from their mentor for participation in the program.
Participation in this program will earn 1 credit and will also entitle the student to a document citing their teaching experience. Participation in the program has four components:
(1) Prospective TAs must participate for at least 2 semesters in a monthly 1-hr journal club to discuss articles related to effective teaching techniques for science education. These journal clubs will include current Cancer Biology course directors, grad student TAs and any other faculty, post-docs or students interested in participating;
(2) Each TA will commit to 12-16 hrs class time, which may involve lecturing, discussion facilitation, one-on-one or small group tutoring, technical assistance or other facilitation as required in that course; (3) Each TA will meet with the relevant course director to contribute to the evaluation of the students in the class. This may include test grading, assessment of written documents and/or oral presentations, and analysis of student participation;
(4) Participation in an annual workshop run by Center for Teaching personnel, when offered. Students may register for Candidate research hours once they have passed their Qualifying exams.
7. Faculty will assign Satisfactory (S) or Unsatisfactory (U) grades for CANB 8999/9999 research each semester. If a student is found to have made unsatisfactory progress at a committee meeting, they will be given 3 months to correct course and have another committee meeting. If at the second committee meeting, they have still failed to meet the expectations of reasonable progress outlined in the previous meeting and detailed in the committee report, they could be recommended for dismissal by the graduate school . If a U grade is assigned, the faculty mentor must notify the student, the DGS, and the Program Manager. T he Dissertation Committee chair should submit a report summarizing the Dissertation Committee’s assessment. The student has the right to appeal a U grade, and the details of appeal process can be obtained through the Program Manager . Failure of the student to convene regular dissertation committee meetings every 6 months can result in assignment of U grade by the Dissertation Committee .
8. Training in Biomedical Statistics is required. In view of the movement to incorporate this topic into the required IGP Bioregulation course, it is not listed as a separate requirement. However, in the event that this training is inadequate, a separate course will be developed and will become a requirement for Cancer Biology graduate students.
9. All graduate students are required to attend the weekly Cancer Biology Science Hour Seminar series. Students are required to present their research in a Work in Progress format each year they are in the Cancer Biology program from the third year in graduate school until the Ph.D. in Cancer Biology is awarded. The purpose of Science Hour is for students to practice presenting and hone their presentation skills. Research projects do not need to be a complete story, and students are encouraged to present negative findings and setbacks they encounter. Lisa McCawley is currently the person in charge of the seminar series. Should there be some valid reason for not being present; the student should notify Lisa ahead of time to request an excused absence. Students are expected to document their attendance each week on the sign in sheet and to participate by listening and asking thoughtful questions of the speakers.
C. Admission to the Ph.D. Candidacy (Qualifying Exam)
The qualifying exam for admission to Ph.D. candidacy consists of two parts, both pertaining to the student’s intended thesis proposal. Part I will consist of a written review article covering key papers that serve as background for the student’s dissertation project. The number of articles reviewed will vary depending on the topic of research. However, under most circumstances between 30 and 60 references will be cited. There should be an emphasis on the primary literature and while in some instances it may be appropriate to cite another review, the Review is not a review of reviews, but of the primary literature. The student is expected to identify what is currently known about the topic, integrate the most recent findings in the field in the context of what is current ‘dogma’ in the field, identify remaining questions in the field, and describe how answering these remaining questions would impact our understanding of the indicated area of cancer biology, or how answering these questions could be translated to improved clinical outcome for cancer patients. The written review should conform to the style of review articles published in Cancer Research (see Instructions to Authors for journal specifications regarding formatting). The written review should include at least one original schematic figure representing information integrated in the Review. The written Review must not draw from the preceptor’s previously written reviews, publications, or grant proposals. The written Review must represent the student’s original writing. Evidence of plagiarism will be grounds for disciplinary action.
The Review will be submitted to an Examination Committee comprised of Cancer Biology faculty members with sufficient published expertise in the topic to rigorously critique the Review, and assess the student’s interpretation and integration of published findings. The Examination Committee will be assigned by the DGS with input from the mentor. Once the Examination Committee has received the written Review, the Examination Committee and the student will convene in the format of an oral examination to test the student’s general knowledge of topics and techniques related to the field in which the Review is written. The qualifying exam committee will determine whether the student has the appropriate scientific background, writing skills, and information integration skills to answer key questions remaining in the field. Failure of part I will result in an opportunity to remediate the skills identified as insufficient through tangible efforts, such as increased journal discussion with the preceptor, attendance at scientific writing workshops, and additional exercises in scientific problem solving through experimental approaches. The Committee will present the students with a written critique of the Review article. Within three months, the student will submit a revised version of the written Review to the Examination Committee, including a point-by-point response to the comments written by the Examination Committee. The Committee will convene with the student in an oral examination format. The Examination Committee will determine whether the student has the appropriate background and skills to move to the next examination phase.
When part I of the exam is passed, the student will go forward to the second phase of the qualifying exam. Part II of the qualifying exam will proceed within three months after the student passes Part I of the qualifying exam. Details of Part II are described under Parts C1, 2, and 3.
Both parts of the qualifying exam consist of three major components:
1. The written proposal 2. The oral defense of the proposal 3. General knowledge
The general knowledge component should constitute at least 30 minutes of the overall exam time and take the form of general knowledge questions that arise from the proposed material during the oral defense of the project. Each of the components can and should be evaluated separately. Failure of one part of the exam constitutes a fail.
1. Preparing for the Exam
It is expected that students will have to take time away from the bench during the last month or two of preparation for the exam. It seems reasonable (but is not necessary) to spend half days in the lab over the final months. However, faculty expectations can vary widely as to how much time is appropriate. Some students handle it better than others, and some faculty are more understanding than others. One should do what is necessary to pass the exam. It is a realistic exercise in that it is not that different from the demands on faculty when confronting grant deadlines in the face of teaching and other commitments. Students and mentors should discuss the issue if necessary to reach an understanding. Sometimes new faculty members are not very cognizant of the demands of the exercise and the DGS can help with this.
a. December The DGS will meet with the exam candidates sometime in to brief students on exam expectations. The qualifying exam is taken soon after the spring semester of the student’s second year at Vanderbilt (first year in our Program). Throughout the second year, students should be developing their research topic for the qualifying exam proposal.
b. January (exact date to be set on a yearly basis). Students will attend a grant writing workshop during which they will be given an overview of the qualifying exam process and presented with information on how to plan and prepare a grant proposal in the NIH- NRSA format. Students will also be provided copies of exemplary short review articles and the official guidelines for the review article and the NIH-NRSA, which specify page limits and other important details associated with this review article and predoc-level grant application during the workshop. Copies of reviews and proposals by students from previous years will be distributed.
c. February 15 is deadline for approval of topic from the DGS. The student should research and decide on a topic for the review article and the research grant, meet with the mentor for his/her approval, and notify the DGS. The best way to do this is to email a paragraph describing the topic – not more than one page for entire email . Include a brief background, a rationale for the project, general approach and methodology, a hypothesis based on these items, and a preliminary list of up to three possible aims. It does not have to be formal or polished at this stage. (MSTP students can request more time if necessary because of the heavy work load in the spring semester, however if possible, it is better to keep on schedule with the others).
d. March 15 is the deadline for submission of review article topic and aims of the research proposal. (MSTP students can defer to Aug. 1 if necessary). A copy of the abstract and research proposal aims should be submitted to the DGS by email. Failure to meet this deadline can result in dismissal from the Graduate Program. In rare instances, the DGS may grant an extension. The DGS will use the abstracts to select appropriate faculty for examining committees.
e. The DGS will assign examining committees with input from the mentor. In accordance to Graduate School rules for Qualifying Exam Committees, there must be at least 4 members of the Graduate Faculty on each committee (this includes the student’s mentor). Three of the Graduate Faculty should be from within the Cancer Biology Program and one of the three must have a primary appointment in Cancer Biology. The fourth committee member should have their primary appointment from a different graduate program. MSTP student committees must also include one current or former member of the MSTP Faculty Advisory Committee. Each Examining Committee will consist of faculty chosen for their expertise in the subject area of the proposal and their prior experience with Qualifying Exams. The Chair of the Qualifying Exam Committee will be a member of the Qualifying Examination Parent committee, which will meet regularly and assist with consistency and continuity across student examinations. The student’s mentor will provide input to the DGS on the membership of the Qualifying Exam Committee. The student will be informed of the members of his/her Examining Committee. He/she should contact them immediately and arrange a time and place for Part I of the qualifying exam. Faculty members are encouraged to be available in May and June for examination meetings.
2. Schedule for Part I of the Qualifying Exam
A. Early March . The student meets with his/her mentor to develop the topic for the short review covering the body of work that forms the background for the student’s dissertation project. The student then writes the review with some guidance from the mentor or members of the laboratory and/or collaborating faculty. The article should be completed by June 15 and submitted to the qualifying exam committee.
b. Upon final approval of the review article by the mentor, the student, mentor, and Committee members should set a date for Part I of the qualifying exam. The student should reserve a room for a three-hour block of time for the Oral Examination. It should take place one to two weeks after the June 15 deadline for completion of the review article.
c. When an exam date is confirmed, the student is required to immediately inform the Program Manager and members of the examining committee of the confirmed date. The Program Manager is required by the Graduate School to turn in the Request to Schedule Qualifying Exam form at least two weeks prior to the exam. If the student fails to notify the Program Manager in time, this mechanism will fail and the exam will have to be rescheduled. A formal memo will be distributed to the committee members and the DGS one week prior to the exam. The student is required to submit the review article to members of the Qualifying Exam Committee at least one week prior to the exam date.
d . The Qualifying Exam Committee will evaluate the written content of the review article and during the oral exam will question the student on the background area of the research topic, the key questions that remain in the field covering the review article, how experiments would be designed to answer those questions, and the students general knowledge in the areas of Cancer Biology, Biochemistry, Cell and Molecular Biology, Biostatistics, and Responsible Conduct in Research.
e. The student will receive a pass or fail on both the written document and the oral exam. A grade of fail on either part of the exam constitutes a fail and the student will have the opportunity to retake the exam only once and this must be completed within three months of the initial exam. If the examination must be repeated, a written detailed description of expectations and suggestions to improve the deficiencies must be conveyed to the student and to the Qualifying Examination Parent Committee, with a copy placed in the student’s file. If the student fails a second time there will not be an opportunity for another retake of the exam and the student must follow the Graduate school guidelines for failure of Qualifying Exam. In the case of a dispute regarding the result of the qualifying examination, the QEPC will act as an arbitrator, hearing both the committee and the student’s viewpoint on the outcome of the examination.
3. Part II of the Qualifying Examination
a. NIH/ NRSA grant instructions will be provided at the Grant Writing Workshop held in January. This document contains specific instructions regarding page length, etc. The student is required to complete the research plan, the front page, and the abstract page. While the student is not required to complete the portions of the grant dealing with animals, he/she must follow the NIH guidelines for the humane treatment of animals for any studies proposed.
b. The student should assume that the grant is for three years of support (the typical Pre- doctoral F31 fellowship) and that he/she has adequate supplies available for the proposed research.
c. The student is encouraged to refer to successful grant proposals to use as a guide. Examples are distributed at the January workshop.
d. Within three months following Part I of the qualifying exam, the student is required to write and present a Thesis Proposal in the form of an NIH NRSA predoctoral proposal. The NRSA proposal is 6 pages plus one specific aims page. The topic must represent a significant body of work that advances scientific knowledge. The dissertation proposal will be written and defended similarly to Part I of the qualifying exam. However, the proposal itself represents collaboration between student and mentor and constitutes a mock business plan that organizes and outlines the plan of attack. Although the student is responsible for researching, organizing, and writing the proposal, he/she can and should seek advice from any relevant source, including the mentor and committee members.
e. The student will write the Research Plan of an NIH NRSA pre-doctoral proposal. This should be a comprehensive document, encompassing the background literature relevant to the proposed research, aims that will be pursued by the student as their thesis proposal, preliminary data (the student’s data and other relevant preliminary data from the lab), and a plan of attack The proposal should include a Specific Aims page (one page only) consistent with NIH style formatting, including an Impact statement. The proposal should include a narrative section, with the following general outline: A. Significance; B. Innovation; C. Research Design (Background, Hypothesis, Aims). Each Aim should include sections discussing the following: 1.) Statistical Considerations; 2.) Expected Findings, Limitations &Alternative Interpretations; 3.) Experimental Pitfalls & Alternatives. The proposal narrative should not exceed 6 pages. The references should start on a separate page, and will not count towards the 6-page limit.
f. Students are encouraged to have other students or postdocs critique the proposal for general overall readability and make suggestions to improve the format of the grant (i.e., amount of detail in the methods, clarity of why a specific experiment is being performed, etc.).
g. The proposal will be submitted to the Examination Committee (the same committee from part 1) for critical review by one week prior to the dissertation committee meeting. The student is responsible for setting the date and arranging the place for the oral presentation. A three-hour time slot should be scheduled. The proposal should be the original work of the student. Within one week after receiving the document, the Committee will convene with the student in an oral examination format. The student is expected to defend the proposal. The Examination Committee will evaluate independent through, critical problem solving skills analytic skills, grant/scientific writing skills, and scientific communication.
Since the written examination is separate from the oral examination, members of the committee can request that the grant proposal be rewritten before the oral examination is completed if it is found unusually deficient. The Thesis Proposal Evaluation Form will be completed and signed by the committee at the proposal meeting and returned to the Program Manager following the meeting for the student’s file. If the proposal is deemed unsatisfactory by the committee, a written detailed description of expectations and suggestions to improve the deficiencies and a date by which the students must make the corrections, must be conveyed to the student and to the Dissertation Committee, with a copy provided to the Program Manager for placement in the student’s file. If the student’s proposal does not meet expectations a second time, the student’s case must be referred to the DGS and Chairs for further recommendations.
h. Upon approval of the written thesis proposal, the oral defense and general knowledge portion of the exam will go forward. Usually, there will be a brief pre-meeting where the student leaves the room and the faculty discusses the proposal and the student’s progress. The student will make an oral presentation to the dissertation committee followed by a comprehensive discussion of the specific aims of the proposal. The defense itself is a formal presentation and defense of the scientific reasoning on which the proposal is based and the rationale for experimental design. It should result in agreement between student, mentor, and committee regarding the overall plan and direction. During the student’s presentation, the mentor will not participate in the discussion. The purpose of the discussion is to ensure that the student has the opportunity to receive advice and the opinions of the committee members in the endeavor to accomplish the goal of obtaining a Ph.D. degree.
The questioning by the committee members will generally follow the topics included in the grant proposal, but can comprehensively cover areas of cancer biology and any topics that the committee feels the student should be familiar. Questions will determine both the depth and breadth of the student’s knowledge. At least 30 minutes should be dedicated to general knowledge questions.
i. The committee will meet again following the oral examination and evaluate the student’s performance. (The student will again be asked to leave while the committee deliberates and reaches a decision). Performance will be broadly assessed according to three criteria: (1) Written examination; (2) Oral presentation; (3) General knowledge. The exam will also evaluate the student’s ability to think critically, understand the rationale and potential pitfalls for experimental design. Alternative strategies, biostatistical considerations, RCR topics, and knowledge in the area of the research proposal will be evaluated.
j. If the student does not pass the oral exam, the committee can give the student one additional chance to repeat any part of the exam that is deemed inadequate. This must be done within 6 months of the original exam. For example, the student might be required to rewrite one or several sections of the proposal or it may be necessary to repeat a particular aim where general knowledge or logic is lacking. Additionally, the student might be asked to research and write a report on a particular technical issue where knowledge is lacking. If the examination must be repeated, a written detailed description of expectations and suggestions to improve the deficiencies must be conveyed to the student and to the Qualifying Examination Parent Committee, with a copy provided to the Program Manager for placement in the student’s file. The QEPC will provide advice to the examination committee as to the criteria required for passing the Qualifying Examination. If the student fails a second time there will not be an opportunity for another retake of the exam and the student must follow the Graduate school guidelines for failure of Qualifying Exam. In the case of a dispute regarding the result of the qualifying examination, the QEPC will act as an arbitrator, hearing both the committee and the student’s viewpoint on the outcome of the examination.
D. Dissertation Committee and Proposal
1. Dissertation Committee Selection
a. A dissertation committee should be selected within 6 months of completion of the qualifying exam. The dissertation committee, chosen jointly by the student and mentor, will consist of (1) Not fewer than four members, (2) three of which must be Graduate Faculty within the Cancer Biology Program and at least one member should have their primary faculty appointment in Cancer Biology; (3) one member must have their primary graduate school appointment from a graduate program other than Cancer Biology. If the person from outside is not graduate faculty at Vanderbilt or is from another university, the Dean of the Graduate School requires a letter from the DGS stating the reason(s) for appointing this person to the student’s committee and a copy of the CV of the person to be appointed). Secondary faculty within the Program of Cancer Biology with a Primary appointment in another Ph.D. granting department within the Basic Sciences may serve as the “outside” committee member. MSTP student committees must also include one current or former member of the MSTP Faculty Advisory Committee.
Although the mentor is responsible for the scientific direction of the dissertation research, one of the other committee members with an appointment in the Program of Cancer Biology will serve as the Administrative Chair of the committee.
The choice of committee members can be critical and should be carefully considered. Committee members are considered co-mentors for the duration of the graduate career and can be extremely valuable assets, particularly if the primary mentor lacks expertise in a particular technology or field. Good scientists do not limit projects to their own restricted area of expertise, and students should consider whether their choices of committee members can close critical gaps in their mentor’s experience. While students are always encouraged to seek external expertise, the individuals on the thesis committee will be especially committed as co-mentors to needs that are unmet by primary mentors. The thesis committee will oversee and approve the thesis project and continue to monitor the student’s progress throughout the remainder of his/her graduate career. Committee meetings should be scheduled at least every 6 months, and can be more frequent if progress is slow or there is a particular issue to be resolved. The student is responsible for assuring that these meetings are held at appropriate times. Failure of the student to convene the Dissertation Committee for the established regular meeting times can result in a grade of Unsatisfactory.
b. Upon passing the qualifying examination, the students should proceed immediately to form a thesis committee in consultation with the mentor and the DGS. The DGS will follow up within 6 months following the qualifying exam to make sure that the dissertation committee has been selected.
c. The student is responsible for contacting and establishing the willingness of faculty members to serve on this committee. After selection of suitable committee members, the student should submit the list of names to the DGS for approval, then the DGS will forward to the Program Manager so that a formal record/file is established. (Note: There are particular requirements and issues that sometimes invalidate particular faculty).
2. Dissertation Research
The first meeting of the dissertation committee will allow for discussion of the Thesis Proposal and allow for incorporation of any revisions after the second phase of the qualifying exam. Following the acceptance of the Thesis Proposal, the student is required to meet with the dissertation committee once every six months to discuss progress. The student should prepare a short (1 – 2 pages) written progress report, which should be emailed to committee members one week prior to the meeting. Following the meeting, the Administrative Chair of the dissertation committee is responsible for making certain that there is written feedback to the student on their progress and the expectations for the next meeting are clearly defined. A copy of the written communication should be submitted to the student, the DGS and the Program Manager who will place the electronic copy of the report in the student’s file. The committee can consider more frequent meetings if necessary. At all stages of the student’s graduate training, continuation in the program is contingent upon satisfactory progress in research-oriented activities.
E. Dissertation Completion and Final Defense
1. Three to six months prior to the anticipated defense date, the student should schedule a committee meeting to review the dissertation progress and request permission from the committee to write.
2. The dissertation should be written in close consultation with the mentor, and the mentor must read and approve the dissertation before it is copied and distributed to other dissertation committee members. The dissertation should be submitted in printed format to members of the dissertation committee at least two weeks prior to the defense. The dissertation must conform to the formatting guidelines set by the Graduate School and the final document must be submitted to the dissertation committee at least one week before the final defense. The student should consult the Academic Regulations section of the Graduate School catalog for detailed information on the dissertation requirements. Further, students should consult with Graduate School personnel to be certain of required format. A checklist of information for students preparing their dissertation is also available at this site: http://www.vanderbilt.edu/gradschool/form_locator/thesis_and_dissertation_submission/thesis_g uide.pdf
3. The dissertation research project must result in publication of an appropriate number of original and first author research articles as approved by the mentor and the Dissertation Committee. It is preferred that all requirements for the Ph.D. be completed prior to the scheduling of the defense, including publication of relevant papers documenting accomplishment of the aims of the research proposal. In no instance will the Ph.D. be conferred without publication of original research with first authored papers or the equivalent. There are some cases where a student can receive permission from the Chair to complete their Oral Defense prior to publication of manuscript(s) derived from the dissertation research. In this case the student’s committee will hold off on signing the student’s title pages for their dissertation until the requirements for Ph.D. are completed. The committee may, however, sign the Results Form for the defense to be turned in to the Program Manager following the Oral presentation. Degree confirmation will be based on when the actual written dissertation, including the signed title pages, is finally submitted to the graduate school.
4. The final defense is administered by the student’s dissertation committee after obtaining approval from the DGS. It is the student’s responsibility to inform the Committee members and Program Manager of the date, time, place, and title of the final defense at least three weeks ahead of time. The student fills out the Request to Schedule Defense Form located at: (http://www.vanderbilt.edu/gradschool/form_locator/phd_committee,_qualifying_exam,_and_dis sertation_defense_forms/request_to_schedule_dissertation_defense_form.pdf). This must be turned in to the Graduate School and the Program Manager at least two weeks prior to the defense date to allow time for processing of paperwork. Failure of the student to notify the DGS, Program Manager, and graduate school within the above time frame can result in postponement of the defense.
Committee members will receive an official notice from the Graduate School at least one week prior to the defense if paperwork has been turned in prior to that. The date and time of the defense will be published in the Vanderbilt Calendar as a public announcement. The final defense should be completed at least 14 days before the deadlines posted by the Graduate School each semester for dissertation submission. This will allow ample time for any possible revisions suggested by the Committee to be completed and approved.
5. Dissertation defense announcements will be distributed to the Cancer Biology Program and to the appropriate Calendars and E-mail lists by the Program Manager 1 week prior to the defense. This will publicize the event and provide topic information to those attending the defense. Students needing to postpone should give the information to the Program Manager prior to that time.
6. The defense begins with a public seminar. Following the seminar, the committee meets with the student for the final oral examination phase of the defense. The final examination is concerned with the student’s dissertation, the literature relevant to the research topic, unanswered questions, conclusions, and the significance of the study. Passing the final oral examination is denoted by signatures of the dissertation committee members on the Dissertation Results Form. The student should download this form and bring it to the defense: (http://www.vanderbilt.edu/gradschool/form_locator/phd_committee,_qualifying_exam,_and_dis sertation_defense_forms/dissertation_defense_results_form.pdf). The signed form should be submitted by the student to the DGS for signature and submitted to the Program Manager for posting to the Graduate School. A copy will be made for the student’s file. Passing the written dissertation is denoted by signatures on the required title page in the dissertation, and can occur at a later date if additions or corrections are required.
7. The policy regarding distribution of fees and costs associated with preparing the dissertation follows:
a. The mentor will pay for figure expenses and for photocopying the dissertation drafts for him/herself and committee members.
b. The Program will pay for the binding of the Cancer Biology library and the mentor copies of the dissertation. The student will obtain binding fee payment information from the Program Manager for Campus Copy charges for printing the dissertation
c. Photocopied soft-bound copies are appropriate for committee members.
F. Graduation and Degree Conferral
1. A student is considered to have completed the program requirements once the oral defense has been completed, the Dissertation Results form has been signed as “passed” by the dissertation committee members and the DGS, and the dissertation has been accepted by the graduate school. Once the committee has signed the title pages for the dissertation, the student is required to turn the dissertation in to the graduate school within a week. A student may not hold on to a signed dissertation in order to prolong enrollment. Once a student is graduated, they should no longer be working in their labs unless they have been hired as an employee in that lab. To complete the graduation process, a student must fulfill the following.
c. Turn in the final copy of the dissertation, including any revisions suggested by the student’s committee, to the Graduate School by the stated deadlines for each semester See the Graduate School website for deadline dates. If a student cannot turn in the dissertation by the deadline his/her degree conferral will be postponed until the next semester.
2. End-of-term degree conferrals occur three times a year: May, August and December. Intra-term degree conferrals occur as follows: https://gradschool.vanderbilt.edu/academics/intraterm-graduation.php
a. If a student has graduated but has not yet had his/her degree officially conferred, they may request letters from the Graduate School confirming the student has completed all the requirements for a Ph.D. and giving the official conferral date.
b. Students with end-of-term degree conferral in August, December, and any intra-term conferral date can make arrangements with the Registrar’s office to pick up their diplomas; otherwise, diplomas will be mailed to the permanent address indicated on the Intent to Graduate form.
c. The Commencement Ceremony is only held in May. It is optional and has no bearing on the official graduation or degree conferral date. It is a ceremonial recognition of the student’s accomplishment only. All students graduating in the summer or fall just prior to the May ceremony may participate but will have already received their diplomas in the mail. Spring recipients will be handed their diplomas at the ceremony if they have indicated they will be participating on their Intent to Graduate Form. If not their diplomas will be mailed to the permanent address listed on the Intent to Graduate form.
d. The student may obtain information about ordering regalia and participation in the ceremony on the grad school website. If a student chooses to participate, they must notify the Program Manager of who will be hooding them and confirm that the person has agreed to do so. A student may request the Program Director hood them if their mentor is not available. The Program Manager will notify the Graduate School of the names of graduates and the faculty members who will be responsible for the hooding of each graduate.
Vanderbilt University highly encourages electronic applications to its graduate programs (see links below). Those students interested in Cancer Biology should apply through the Interdisciplinary Graduate Program (IGP). The deadline for IGP applications is December 1. Following are a few general requirements.
Graduate Record Examination Scores
GRE scores are optional as part of the application. Official scores should be sent directly from ETS. Copies are not allowed. Scores should be sent to institution code 1871. A program code is not required but is helpful. For IGP applications, scores should be sent to program/department code 0202 or for Systems & Cognitive applications, scores should be sent to program/department code 0213.
Official Transcripts
A copy of unofficial student transcript should be uploaded to the application by or before the application deadline.
Letters of Recommendation
The University requires three to five letters of recommendation from persons qualified to evaluate your academic and professional qualifications. On your application, you will be asked to provide the e-mail addresses of your recommenders. Vanderbilt will contact your recommenders by e-mail and provide them with a link to a web site, a password, and instructions on how to submit the recommendation online. Online recommendations are instantly attached to your application. If you are unable to provide e-mail addresses for your recommenders, it is your responsibility to contact them and provide them with the recommendation form.
Begin Your Online Application
Click here to apply via the Interdisciplinary Graduate Program (IGP)
Graduate courses administered by the program in cancer biology, fall semester.
CANB 8340: Introduction to Cancer Biology
Course Director- Fiona Yull Credit hours- 2 Day(s) & Time: Mon. 10:00 am – 12:00 pm Location- PRB 749 Prerequisite- IGP core course or consent of instructor.
This course is focused on molecular and cell biological under-pinning’s of cell migration, with emphasis on cancer motility, invasion and metastasis. It is an in-depth analysis of three to four research areas in molecular and cell biology. It is intended for graduate students with a strong foundation in experimental biology. Students in interdisciplinary fields such as engineering and mathematics are welcome (and encouraged) to take the course if they already have some background biological knowledge, however it is encouraged to discuss enrollment with the instructor first. This course will add options for graduate students interested in cancer metastasis and related biological processes (leukocyte motility, bone and tissue remodeling, embryonic development, etc.) taught by experts in each sub-discipline through lectures and discussions of papers from the current literature. This is a didactic lecture series in which general concepts in Cancer Biology will be reviewed. Topics range from molecular biology of cancer (oncogene and tumor suppressors) to novel concepts such as cancer stem cells and therapeutic approaches.
CANB 8342: Advanced Concepts in Cancer Biology
Course Director- Barbara Fingleton Credit hours- 4 Day(s) & Time: Wed. & Fri., 10:00 am – 11:55am Location- PRB 749 Prerequisite- Must be a Cancer Biology graduate student or have consent of instructor.
Advanced concepts in Cancer Biology will be reviewed in depth using a combination of lectures and student-led discussion sessions based on current literature. This course is offered only in tandem with the Introduction to Cancer Biology course to be taken concurrently.
CANB 8344: Cancer Immunotherapy
Course Director- Sebastian Joyce Credit hours- 2 Day(s) & Time: TBD Location-TBD
The extraordinary rise of Cancer Immunotherapy is used as a platform to examine the past, current and future implications of this rapidly growing discipline. The team taught course combines didactic lecture with key literature assignments aimed at providing not only an understanding of the current immunotherapy landscape, but also an important sense of perspective. The first half of the course covers basic concepts in adaptive and innate immunology, and cancer, needed to read and understand the literature. The second half is based on recent landmark literature in “Cancer Immunotherapy”. Instructor presentations aimed at addressing overarching concepts will be coordinated with student-presentations of key papers. Joyce, Johnson, Wilson. [2]
CANB 8351: Teaching Assistantship in Cancer Biology Curriculum.
Course Director- Barbara Fingleton Credit hours- 1 Day(s) & Time: TBD Location-TBD
Prerequisites: CANB 8340 and CANB 8342, Ph.D. candidacy.
Enrollees in the course will act as teaching assistants for one of the Cancer Biology courses (8340 or 8342 in Fall; 8347 or 8384 in spring) with a maximum of 16 hours class contact time. All enrollees will also be required to participate in a monthly journal club for that semester devoted to teaching methods in STEM subjects; and to work with course directors on evaluations. Prerequisites: CANB 8340 and CANB 8342, Ph.D. candidacy.
CANB 8384: Cancer Precision Medicine
Course Director- Kimberly B. Dahlman Credit hours- 2 Day(s) & Time: TBD Location-TBD Prerequisite- CANB 8340
This course will provide a unique experience in oncology where medical and graduate students work together to explore the molecular drivers of cancer and how that information is translated into targeted cancer therapies. Students will learn the risk factors for and signaling pathways that are often deregulated in cancer through seminars and literature review sessions. This information will be used as a platform to describe how molecular changes are detected in the laboratory and leveraged in the clinic for personalized patient care. Students will examine the multidisciplinary teams necessary in the care of cancer patients through participation in tumor board meetings, clinical experiences, and roundtable discussions. Furthermore, cancer screening, imaging, pre-clinical drug discovery, the advantages and barriers of clinical trials, and socioeconomic disparities will be presented in this course. Although this course will focus on melanoma, breast cancer, and lung cancer, students will demonstrate an ability to apply their knowledge of tumor diagnosis and targeted inhibition to other tumor types through a group project.
CANB 8999: Research prior to entry into candidacy (completion of qualifying examination) and for special non-degree students. [Variable credit: 0-12]
CANB 9999: Ph.D. Dissertation Research.
CANB 8326: Cancer Biology Grant Writing
Course Directors- Rachelle Johnson, Ann Richmond Credit hours- 1 (P/F, no didactic credit) Day(s) & Time: TBD Location- TBD
Cancer Biology Grant Writing. This self-guided course provides applied training in grant writing for students in their first year in the Cancer Biology program, second overall year in graduate school. Students will write an NRSA proposal and are assigned two faculty reviewers and peer reviewers who will provide feedback in at least three meetings. Input from the mentor is essential but needs to be limited to verbal discussions with the student. The proposal will be written and submitted to the reviewers in stages, with three required face-to-face meetings. Passing of the course depends on the final quality of the proposal, the ability of the student to incorporate suggestions and to respond to criticism, and the adherence to deadlines laid out by the course director at the beginning of the course. Course Directors: Rachelle Johnson, Ph.D., and Ann Richmond, Ph.D. SUMMER. [1]
New Student Responsibility Form
Grad School Travel Grant Application Form
Grad School Request to Schedule Qualifying Exam Form
SACS Qualifying Examination Evaluation Form Part I
Grad School Qualifying Exam Results Form – Required in conjunction with “SACS Qualifying Exam Evaluation Form Part I”
Grad School Request to Appoint Ph.D. Committee Form
Grad School Request to Change Ph.D. Committee Form
SACS Qualifying Examination Results Form Part II (Thesis Proposal)
SACS 6 Mos Committee Meeting Form with RCR Form
SACS RCR Discussion Record Form
Grad School Request to Schedule Defense Form
SACS Defense Evaluation Form
Grad School Defense Results Form – Required in conjunction with “SACS Defense Evaluation Form”
Name Year of PhD Current Position
Tristin Abair 2007 Chief Medical writer, priME Oncology
Omozusi Andrews 2014 Postdoctoral fellow, NIH
Meredith Brown 2008 Intellectual property manager, Metabolon Inc.
Nikki Cheng 2002 Associate Professor, University of Kansas
Laura DeBusk 2008 Scientist, Sarah Cannon Cancer Institute
Joseph Deweese 2009 Associate Professor Pharmaceutical Science Lipscomb University
Dominique Donato 2010 Lecturer, University of Leiden, Netherlands
Charnise Goodings 2009 Postdoctoral fellow, St. Judes’ Children’s Hosp.
Mark Harris 2003 Founder and CEO, NexGxDx Inc.
Katherine Amato 2015 Postdoctoral fellow, Yale University
Rachelle Johnson 2011 Associate Professor, Vanderbilt University
Nuruddeen Lewis 2011 Senior Scientist, Codiak BioSciences.
Holli Loomans 2017 Postdoctoral fellow, NCI
Lauren Matise 2012 Business Development Manager, GlaxoSmithKline
Nicole Fowler 2008 Medical Writer, INC Research
Ian Nicoud 2007 Scientist, Kiadis Pharma of Regenerative Med
Daniel O’Brien 2008 Patent Lawyer, Seed Intellectual Property Law Group
Seth Ogden 2009 Patent Lawyer, Patterson Intellectual Property
Veronica Placencio 2010 Project Scientist, Cedar-Sinai Medical Center
Shenika Poindexter 2014 Assistant Professor, Xavier University
Jillian Pope 2014 Postdoctoral Fellow, University of Florida
Meghana Rao 2012 Senior Consultant, InVentiv Health Consulting
Alisha Russell 2010 Assistant Professor, Trevecca University
Jamie Ausborn 2016 Postdoctoral fellow, Dana Farber Cancer Inst.
Jennifer Tillman 2007 Principal Scientist, Celgene Corporation
Yee Mon Thu 2011 Assistant Professor, Grinnell College
Nicole Neel 2008 Scientific Writer, INC Research
David Vaught 2011 Grants Manager, Komen Foundation
Kimberly West 2008 Scientist, Sarah Cannon Cancer Institute
Li Yang 2004 Senior Investigator, Head, Tumor Micro- environment Section, NCI
Brian Yaspan 2008 Scientist, Genetech Inc.
Guanglei Zhuang 2010 Assistant Professor, Shanghai Xiaotong University
Kim dahlman, nuruddeen lewis, meghana rao, graduate student and faculty resources.
Key searches, cancer biology and genomics, about the cancer biology and genomics phd program.
The PhD program in Cancer Biology and Genomics (CBG) focuses on training investigators in strategies to understand the mechanisms of cancer development and progression which includes cell biological and genomic approaches. The ultimate objective is to translate basic findings into diagnostics, treatments and ultimate cures.
The program applies a multidisciplinary approach toward these goals, with the full realization that cancers in different organs represent different diseases. However all cancers relate to uncontrolled cell proliferation with many cancers having a strong genetic predisposition. Consequently, major features of this program include the breadth of medically related interests and training and faculty characterized by wide and varied skills in many cancer-related research areas. To facilitate the application of multidisciplinary approaches to make cancer a disease of the past, close and regular contact between participating faculty of different disciplines and students is a major theme of this PhD program.
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The PhD Program in Cancer Immunology and Immunotherapy at Moffitt provides an enriched educational environment by blending advanced studies in fundamental cancer immunology and novel immunotherapies. The program fosters interdisciplinary research through collaborations with experts in immunology, oncology, molecular biology, metabolism, bioengineering, bioinformatics and translational medicine.
Moffitt Cancer Center is a designated Comprehensive Cancer Center by the National Cancer Institute (NCI), signifying the highest level of recognition in cancer research and treatment. This designation underscores Moffitt's excellence in various aspects such as fundamental and clinical research, prevention, education, outreach and patient care.
For more information, contact the Program Coordinator at [email protected] .
Cancer Immunology and Immunotherapy PhD
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Cancer Biology PhD Program. Established in 1978, the interdisciplinary Cancer Biology PhD Program is designed to provide graduate and medical students with the education and training they need to make significant contributions to the field of cancer biology. The program is led by Laura Attardi, PhD, and Julien Sage, PhD, and currently has over ...
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The GW Cancer Biology PhD program is designed to equip the next generation of researchers with the knowledge, research training and leadership skills necessary to foster progress in the prevention, detection and treatment of cancer. The PhD program provides research training in areas reflecting GW faculty expertise, which includes the study of cancer signaling and checkpoint inhibitors, cancer ...
Call us at 800-525-2225 to make an appointment. Sloan Kettering Institute; Research ... Learn about the Cancer Biology and Cancer Engineering PhD programs, research faculty, admission process, and campus life at our Gerstner Sloan Kettering Graduate School of Biomedical Sciences.
Cancer Biology, PhD. The graduate program in cancer biology offers a course of study and research leading to the PhD degree. Although a master's degree is offered under special circumstances, students are not admitted for a master's degree. The Cancer Biology Graduate Program was established at the McArdle Laboratory for Cancer Research in ...
Prospective Students. Please visit the Biosciences PhD Admissions page for detailed information on the admissions process and requirements. Application will open in September 2024. Any questions or concerns about the application process should be addressed to: [email protected]. The Cancer Biology Home Program is one of fourteen ...
The Cancer Biology Program covers all areas of cancer research, including cancer genetics, stem cells, tumor microenvironment, hematopoietic malignancies, tumor immunology, systems analyses, among others. This program will foster educational, scientific and social interactions with the other cancer-focused graduate students on campus, and ...
If you need further information, connect with us at 716-845-2339 or [email protected]. Study alongside 3,000 scientific, academic and medical minds If you're looking for a prestigious program where you can make name for yourself, a PhD in Cancer Sciences from Roswell Park is the next step on your career or academic journey.
Graduate Program. The Cancer Biology Graduate Program is designed to train students for a career in basic and applied cancer research, as well as in related careers associated with the application of information through biotechnology, and the dissemination of information to the next generation of scientists and to the lay public. Students will be exposed to a...
The PhD program in Cancer Biology and Genomics (CBG) focuses on training investigators in strategies to understand the mechanisms of cancer development and progression which includes cell biological and genomic approaches. The ultimate objective is to translate basic findings into diagnostics, treatments and ultimate cures. The program applies ...
Apply Now. The PhD Program in Cancer Immunology and Immunotherapy at Moffitt provides an enriched educational environment by blending advanced studies in fundamental cancer immunology and novel immunotherapies. The program fosters interdisciplinary research through collaborations with experts in immunology, oncology, molecular biology ...
To facilitate the application of multidisciplinary approaches to make cancer a disease of the past, close and regular contact between participating faculty of different disciplines and students is a major theme of this PhD program. Cancer Biology and Genomics students are required to take CBG 580 and CBG 504 and must complete a total of 4 units ...
The curricula are designed to provide a strong foundation in cancer biology while maintaining flexibility to pursue elective courses tailored for the student's future research interests. Statistics. Molecular Cancer Biology: PhD Admissions and Enrollment Statistics; Molecular Cancer Biology: PhD Completion Rate Statistics
The Sheila and David Fuente Graduate Program in Cancer Biology is a university-wide interdisciplinary training program that draws upon clinical and basic sciences from multiple departments and medical school divisions of the University of Miami. The scientific focus is cancer research, emphasizing fundamental cellular processes, the ...
Ph.D. Pathways in Cancer Research. For undergraduate students completing their baccalaureate degree who are interested in pursuing a Ph.D. in cancer research, the University of Florida offers a broad range of Ph.D. programs across multiple colleges in which graduate faculty are conducting cancer research.
cancer gene discovery • tumorigenesis • cancer therapy and resistance • oncogenes • tumor suppressor genes • cancer models • growth control and cell proliferation • metastasis • cell proliferation • cell death • cell-cell and cell-matrix interactions • microenvironment •DNA repair and replication • transcription • chromosome stability • metabolism • immunology ...
2022-2023 American Legion Auxiliary Fellowship in Cancer Research - Renewal 2022 Dr. John J. Kopchick Fellow 2021-2022 American Legion Auxiliary Fellowship in Cancer Research . Hey Min Lee (mentor: E. Scott Kopetz, MD, PhD) 2021-2022 Ralph B. Arlinghaus, Ph.D. Scholarship. Jiexi Li (mentor: Ronald DePinho, MD) 2022 GSBS Presidents' Research ...
Cellular and Molecular Medicine *. Human Genetics *. Immunology *. Nanotechnology for Cancer Research *. Pathobiology. **These graduate programs are supported by NIH T32 training grants (two are NCI-funded), and the other four are directed by SKCCC Members. To inquire about one of these programs, please contact their respective program Contacts.
Los Angeles, CA ·. University of Southern California ·. Graduate School. ·. 7 reviews. Current Master's student: The Keck School of Medicine's Translational Genomics Program is a rigorous and comprehensive program that provides students with a strong foundation in genomics research and its applications. The program offers excellent resources ...
Below is a list of best universities in the United States ranked based on their research performance in Oncology and Cancer research. A graph of 66.2M citations received by 1.59M academic papers made by 537 universities in the United States was used to calculate publications' ratings, which then were adjusted for release dates and added to final scores.
Massachusetts Institute of Technology. Department of Biological Engineering 77 Massachusetts Avenue Building 56-651 Cambridge, MA 02139-4307 (617) 253-3159
Our scientists pursue every aspect of cancer research—from exploring the biology of genes and cells, to developing immune-based treatments, uncovering the causes of metastasis, and more. ... Gerstner Sloan Kettering Graduate School of Biomedical Sciences PhD & MD/PhD programs Explore all programs Careers; ... Partner with us to treat your ...
Partner with us to treat your patient's cancer. Refer a patient. CALL OUR DEDICATED CLINICIAN ACCESS NUMBER. 646-677-7440. Monday through Friday, 8 a.m. to 6 p.m. (Eastern time) ... From left: graduate student Dasom Kim; research scholar, Mihir Pendse, PhD; research scholar, Sofia Tortora Morel, PhD; and research technician, Lisette Peres-Tintin.
Research Scholars Grant, American Cancer Society, 2019 - 2023 K08 grant, National Institutes of Health/National Cancer Institute, 2015 - 2020 Harry J. Lloyd Charitable Trust Career Development Award, 2015 - 2017
Cancer, an international interdisciplinary journal of the American Cancer Society, publishes high-impact, peer-reviewed original articles and solicited content on the latest clinical research findings.Spanning the breadth of oncology disciplines, Cancer delivers something for everyone involved in cancer research, risk reduction, treatment, and patient care.
Research: Molecular cell bioengineering is the application of engineering approaches to develop quantitative understanding of cell function in terms of fundamental molecular properties, and to apply this understanding for improved design of molecular- and cell-based technologies.
Started during the Obama administration and led by then-Vice President Joe Biden, whose son Beau died of brain cancer at 46, Cancer Moonshot has funded $1.8 billion in new cancer research since ...