LI, JING: Ph.D., National University of Singapore; M.S., B.S., West China ONCOLOGY University of Medical Sciences; Professor
Cancer Biology Program MATHERLY, LARRY H.: Ph.D., Pennsylvania State University; B.S., New Office: Louis M. Elliman Building, 421 E. Canfield Ave, Room 3217; Mexico State University; Professor 313-578-4302 MOHAMMAD, RAMZI M.: M.D., M.Sc., Baghdad University; B.S., Mosul Program Director: Larry H. Matherly University; Professor Website: http://cancerbiologyprogram.med.wayne.edu/ PATRICK, STEPHAN: Ph.D., Wright State University; B.S., Urbana Medical Physics Program University; Professor Office: Gershenson Radiation Oncology Center, 4201 St. Antoine Boulevard, 1D-UHC: 313-576-9624: PURRINGTON, KRISTEN: Ph.D., M.P.H., M.A., B.S., University of Michigan; Program Director: Jay Burmeister Assistant Professor Website: http://medicalphysics.med.wayne.edu/ (http:// www.medicalphysics.med.wayne.edu/) RATNAM, MANOHAR: Ph.D., Indian Institute of Science; M.S., B.S., Univeristy of Mysore; Professor Faculty by subject area: RAZ, AVRAHAM: Ph.D., The Weizmann Institute of Science; M.S., B.S., The • Cancer Biology (p. 1) Ben-Gurion University of the Negev; Professor • Oncology (p. 1) • Radiation Oncology (p. 2) RISHI, ARUN: Ph.D., M.S., University College of London; Professor SCHWARTZ, ANN: Ph.D., M.P.H., B.S., University of Michigan; M.S., Wayne Cancer Biology State University; Professor ABRAMS, JUDITH: Ph.D., George Washington University; M.S., Rutgers University; B.A., Michigan State University; Professor SHEKHAR, MALATHY: Ph.D., The Indian Institute of Science; M.Phil., B.S., University of Madras; Professor AZMI, ASFAR SOHAIL: Ph.D., M.S., B.S., Aligarh Muslim University; Associate Professor SHIELDS, ANTHONY: M.D., Harvard Medical School; Ph.D., B.S., Massachusetts Institute of Technology; Professor BEEBE-DIMMER, JENNIFER L.: Ph.D., M.P.H., University of Michigan; B.A., University of Wisconsin; Professor TAINSKY, MICHAEL: Ph.D., Cornell University; Professor
BEPLER, GEROLD: M.D., Ph.D., Philipps University; Professor VIOLA, NERISSA T.: Ph.D., Syracuse University; B.S., University of Philippines; Associate Professor BOERNER, JULIE: Ph.D., Mayo Clinic Foundation Graduate School; M.S., B.S., University of Wisconsin; Associate Professor WEI, WEI-ZEN: Ph.D., Brown University; M.S., State University of New York; B.S., National Taiwan University; Professor BOLLIG-FISCHER, ALICCIA: Ph.D., Michigan State University; B.A., B.S., St. Cloud State University; Assistant Professor WU, GEN SHENG: Ph.D., Peking Union Medical College; Professor
BRUSH, GEORGE: Ph.D., The Johns Hopkins University; A.B., Princeton WU, GUOJUN: Ph.D., Fudan University; Associate Professor University; Associate Professor XIE, YOUMING: Ph.D., University of Texas Health Science Center at CACKOWSKI, FRANK C.: Ph.D./M.D. University of Pittsburgh School of Houston; M.S. University of Saskatchewan; B.S., Jinan University; Medicine; B.S. Carnegie Mellon University; Associate Professor Associate Professor
CHEN, WEI: Ph.D., M.S., University of Michigan; M.S., University of Toledo; YANG, ZENG-QUAN: Ph.D., Tokyo Medical and Dental University; M.S., B.S., Shanghai Jiao Tong University; Associate Professor Peking Normal University; Associate Professor
COTE, MICHELE: Ph.D., B.A., University of Michigan; M.P.H., University of ZHANG, XIAOHONG: Ph.D., M.S., University of Texas; B.S., Beijing Normal Alabama; Professor University; Associate Professor DOU, QINGPING: Ph.D., Rutgers University; B.S., Shandong University; Oncology Professor ALAVI, ASIF: M.D., University of Michigan; B.A., University of California; GE, YUBIN: Ph.D., M.S., Jilin University; Associate Professor Assistant Professor (Clinician-Educator)
HILLMAN, GILDA G.: Ph.D., M.S., B.S., Hebrew University; Professor ASSAD, HADEEL: M.D., University of Jordan, Faculty of Medicine; Emerita Assistant Professor (Clinical)
JOINER, MICHAEL: Ph.D., Institute of Cancer Research, University of AYASH, LOIS J.: M.D., University of Massachusetts Medical School; B.S., London; M.A., B.A., Queens' College; Professor Southeastern Massachusetts University; Professor (Clinician-Educator)
KIDDER, BENJAMIN: Ph.D., University of Minnesota; B.A., Saint Olaf BISHOP, CARTER R.: M.D., B.S., University of Cincinnati; Professor College,; Assistant Professor BOCK, CATHRYN: Ph.D., M.P.H., University of Michigan; B.A., Wheaton KIM, SEONG HO: M.D., Kyung Hee University; Ph.D., M.S., University of College; Associate Professor Ulsan; Associate Professor
Oncology 1 DEOL, ABHINAV: M.B.B.S., Government Medical College; Associate SIMON, MICHAEL: M.D., B.S., University of Illinois; M.P.H., University of Professor (Clinician-Educator) Michigan; Professor (Clinician-Educator)
DURIC, NEBOJSA: Ph.D., B.S., University of Toronto; Professor SUKARI, AMMAR: M.D., University of Aleppo, Syria; Assistant Professor (Clinician-Educator) DYSON, GREGORY E.: Ph.D., University of Michigan; B.A., Canisius College; Associate Professor SWERDLOW, PAUL: M.D., Harvard Medical School; B.S., Massachusetts Institute of Technology; Professor EGGLY, SUSAN: Ph.D., M.A., B.A., Wayne State University; Professor THOMPSON, HAYLEY: Ph.D., M.S., University of Pittsburgh; B.A., Colgate FLAHERTY, LAWRENCE: M.D., St. Louis University; B.S., University of University; Associate Professor Notre Dame; Professor (Clinician-Educator) UBERTI, JOSEPH P.: M.D., Ph.D., B.S., Wayne State University; Professor GIBSON, HEATHER M.: Ph.D., Wayne State University; B.S., Michigan State University; Assistant Professor VAISHAMPAYAN, ULKA N.: M.B.B.S., Byramjee Jeejeebhoy Medical School; Professor (Clinician-Educator) HAMEL, LAUREN: Ph.D., M.A., B.A., Michigan State University; Assistant Professor WAGNER, KAY-UWE: Ph.D., University of Halle-Wittenberg; M.Sc., B.S., University of Leipzig; Professor HARPER, FELICITY W.K.: Ph.D., University of Georgia; B.A., Wellesley College; Associate Professor (Clinician-Educator) WINER, IRA S.: M.D., Ph.D., University of Michigan; B.S., Boston University; Assistant Professor (Clinical Scholar) HASTERT, THERESA: Ph.D., University of Washington; M.P.P., University of California Los Angeles; B.A., Loyola Marymount University; Assistant YANG, JAY: M.D., University of Michigan; B.A., Johns Hopkins University; Professor Assistant Professor (Clinician-Educator)
HEATH, ELISABETH I.: M.D., Jefferson Medical College; B.S., Lehigh YOO, GEORGE: M.D., B.S., University of Kansas; Professor University; Professor (Clinician-Educator) ZONDER, JEFFREY: M.D., Wayne State University; B.A., Duke University; HEILBRUN, LANCE K.: Ph.D., University of Michigan; M.S., B.A., Wayne Professor (Clinician-Educator) State University; Professor
HOU, ZHANJUN: Ph.D., M.S., China Agricultural University; B.S., Radiation Oncology Agricultural and Husbandry University of Inner Mongolia; Associate BURMEISTER, JACOB: Ph.D., Wayne State University; M.S., Michigan Professor (Research) State University; B.S., Alma College; Professor (Clinician-Educator)
KATO, IKUKO: M.D., Nagoya Health University; Ph.D., Fujita-Gakuen Health DOMINELLO, MICHAEL: D.O., University of New England; B.S., Fairfield University; Professor University; Assistant Professor (Clinician-Educator)
KIN, ANDREW D.: M.D., University of Cincinnati College of Medicine; B.S., HART, KIMBERLY: M.D., Wayne State University; B.A., University of Ohio State University; Assistant Professor (Clinical) Michigan; Assistant Professor (Clinician-Educator)
MANNING, MARK: Ph.D., M.S., University of Massachusetts; B.A., Brown KIM, HAROLD E.: M.D., Northwestern University; B.S., Loyola University; University; Assistant Professor Professor (Clinician-Educator)
MORRIS, ROBERT T.: M.D., University of Minnesota, B.S., Saint John's LOUGHERY, BRIAN: Ph.D., Wayne State University; M.S., San Diego State University; Professor (Clinician-Educator) University; B.S., University of Notre Dame; Assistant Professor (Clinical)
NALICHOWSKI, ADRIAN: Ph.D., M.S., Wayne State University; B.S., MAIER, JORDAN: M.D., Wayne State University; B.A., University of Kettering University; Assistant Professor Michigan; Assistant Professor (Clinician-Educator)
PHILIP, PHILIP A.: Ph.D., University of London; M.B.Ch.B., University of MILLER, STEVEN R.: M.D., Wayne State University; B.S. Michigan Baghdad; Professor Technological University; Associate Professor (Clinical)
POLIN, LISA A.: Ph.D., Wayne State University; B.S., Michigan State RAKOWSKI, JOSEPH: Ph.D., Medical College of Ohio; B.S., University of University; Associate Professor (Research) Pittsburgh; Associate Professor (Clinician-Educator)
PRASAD, ANANDA S.: Ph.D., University of Minnesota; M.B.B.S., B.S., Patna VAISHAMPAYAN, NITIN: M.D., Wayne State University; B.A., Kalamazoo University; Distinguished Professor College; Assistant Professor (Clinician-Educator)
RATANATHARATHORN, VORAVIT: M.D., Ramathibodi Hospital School of • Cancer Biology (M.S.) (http://bulletins.wayne.edu/graduate/school- Medicine; B.S., Mahidol University; Professor medicine/programs/oncology/cancer-biology-ms/) • Cancer Biology (Ph.D.) (http://bulletins.wayne.edu/graduate/school- SANO, DAHLIA: M.D., Al-Mustansirya University, School of Medicine; medicine/programs/oncology/cancer-biology-phd/) Assistant Professor (Clinical) • Medical Physics (M.S.) (http://bulletins.wayne.edu/graduate/school- SCHIFFER, CHARLES A.: M.D., New York University; B.A., Brandeis medicine/programs/oncology/medical-physics-ms/) University; Professor • Medical Physics (Ph.D.) (http://bulletins.wayne.edu/graduate/school- medicine/programs/oncology/medical-physics-phd/) SEYMOUR, ERLENE: M.D., Wayne State University; B.S., University of • Medical Physics (DMP) (http://bulletins.wayne.edu/graduate/school- Michigan; Assistant Professor (Clinician-Educator) medicine/programs/oncology/medical-physics-dmp/)
2 Oncology • Medical Physics (Graduate Certificate) (http://bulletins.wayne.edu/ CB 7430 Cancer Epidemiology Cr. 2 graduate/school-medicine/programs/oncology/medical-physics- Introduces concepts and methods used in cancer epidemiology research graduate-certificate/) and focuses on the cancer burden in the United States and worldwide, as well as the major causes of cancer. Students will be required to review Cancer Biology and provide critical appraisal of selected literature in innovative areas of cancer epidemiologic research. Offered Every Other Year. CB 7130 Clinical Aspects of Cancer Biology Cr. 1 Restriction(s): Enrollment is limited to Graduate level students. Cancer Biology Ph.D. students accompany clinicians during rounds in hospital and outpatient clinics, as well as attend clinical conferences, CB 7460 Mechanisms of Neoplasia: Alterations to Cellular Signaling Cr. 3 tumor boards and related sessions. Offered for S and U grades only. This course covers cellular regulatory signal-transduction networks that Offered Spring/Summer. are often activated inappropriately in malignant cells and impact survival, Restriction(s): Enrollment is limited to students with a major in Cancer apoptosis, adhesion, and cell cycle progression. Offered Every Other Fall. Biology. Prerequisite: CB 7210 with a minimum grade of C and IBS 7015 with a minimum grade of C CB 7210 Fundamentals of Cancer Biology Cr. 3 Restriction(s): Enrollment is limited to Graduate level students. The lectures are organized into three thematic blocks including cancer development and pathology, mechanisms of cancer development and CB 7600 Applied Cancer Biostatistics Cr. 2 progression, and principles of cancer prevention and therapy. Offered This course covers concepts and applications of statistical methods Winter. and data analysis related to cancer research. Students obtain hands- Prerequisite: IBS 7015 with a minimum grade of C on exposure to statistical thinking, and data analysis and interpretation Restriction(s): Enrollment is limited to Graduate level students. through interactive teaching modules. The course enables students to understand basic statistical principles in cancer biology literature, and CB 7220 Molecular Biology of Cancer Development Cr. 3 provides guidance for planning experiments and analyzing data in their Provides a detailed understanding of the molecular mechanisms leading own research. Offered Every Other Fall. to cancer with emphasis on current experimental approaches. Molecular Restriction(s): Enrollment is limited to students with a major in Cancer mechanisms in cancer will be covered in depth using a combination of Biology. lectures and student-led discussions. Students are required to present and actively participate in discussions. Offered Every Other Fall. CB 7700 Recent Developments in Cancer Biology Cr. 1 Prerequisite: IBS 7015 with a minimum grade of C and CB 7210 with a This course is run as a journal club and is designed for students to minimum grade of C develop proficiency in critically evaluating original cancer biology Restriction(s): Enrollment is limited to Graduate level students. literature, to broaden knowledge of current cancer research, and to provide insight into different research strategies. Each student is CB 7240 Principles of Cancer Therapy Cr. 2 expected to participate in class discussions. Offered Fall, Winter. Continuation of the principles of cancer therapy taught in CB 7210. Restriction(s): Enrollment is limited to students with a major in Cancer Concepts relating to tumor biology and the biochemistry and Biology. pharmacology of both classic and targeted agents are covered. Offered Repeatable for 6 Credits Every Other Winter. Prerequisite: IBS 7015 with a minimum grade of C and CB 7210 with a CB 7710 Individual Studies in Cancer Biology Cr. 1-3 minimum grade of C Cancer Biology graduate students pursue experimental research under Restriction(s): Enrollment is limited to Graduate level students. the guidance of selected faculty. This is the research rotation through which students select their Ph.D. dissertation mentor. Students are CB 7300 Special Topics in Cancer Biology Cr. 1-3 required to complete three rotations. Offered Every Term. This is a series of courses designed to provide students exposure to Restriction(s): Enrollment is limited to students with a major in Cancer emerging themes and technologies on basic, translational, epidemiologic Biology. and clinical topics related to cancer, as well as to augment material from Repeatable for 3 Credits other courses in Cancer Biology. Offered Every Term. Prerequisite: CB 7210 with a minimum grade of C CB 7800 Rigor and Reproducibility in Cancer Biology Cr. 1 Restriction(s): Enrollment is limited to Graduate level students. This course will introduce students to basic principles of rigorous and Repeatable for 3 Credits reproducible Cancer Biology research. This includes experimental design and data interpretation, publishing, animal and human research, and other CB 7410 Cancer Immunology and Immunotherapy Cr. 3 topics relevant to the conduct of research in Cancer Biology. Offered The purpose of this course is to introduce students to fundamental Winter. concepts and methodologies in cancer immunology and immunotherapy Restriction(s): Enrollment is limited to students with a major in Cancer as well cutting-edge developments in academia and industry in this Biology. rapidly progressing field. Upon the completion of the course, the students will become familiar with: how the immune system limits and eradicates CB 7890 Seminar in Cancer Biology Cr. 1 cancer; how cancer cells evade immune recognition; how cancer This course provides Cancer Biology students with the opportunity to immunity is influenced by host genetics and environmental factors; present their dissertation research to their peers. This class not only how cancer immunotherapies are currently performed and monitored provides students with the opportunity to develop their oral presenting in the clinical setting; what are the future developments expected in skills, but also gives the students a chance to critically evaluate their cancer immunotherapy; and how to critically review the basic and clinical peers. Offered Fall, Winter. literature in cancer immunology and immunotherapy. Offered Every Other Restriction(s): Enrollment is limited to students with a major in Cancer Winter. Biology. Prerequisite: IM 7010 with a minimum grade of C Repeatable for 6 Credits Restriction(s): Enrollment is limited to Graduate level students. Equivalent: IM 7410
Oncology 3 CB 7996 Research Cr. 1-15 CB 9995 Candidate Maintenance Status: Doctoral Dissertation Research Directed study and pre-dissertation research with faculty in the program. and Direction Cr. 0 Offered Every Term. Offered Every Term. Restriction(s): Enrollment is limited to students with a major in Cancer Restriction(s): Enrollment is limited to students with a major in Cancer Biology. Biology. Repeatable for 15 Credits Course Material Fees: $384.7 CB 7999 Master's Essay Cr. 1-4 Repeatable for 0 Credits Research in the research literature, and writing of an essay on a topic area in contemporary cancer biology. Offered Every Term. Radiation Oncology Restriction(s): Enrollment is limited to students with a major in Cancer ROC 5010 Introduction to Radiological Physics Cr. 4 Biology. Nature of radiation and its interaction with matter. Theory of dosimetry Repeatable for 4 Credits and instrumentation for detection of radiation. Principles of radiation CB 8910 Applied Cancer Genomics Cr. 1 protection. Applications of radiation in radiology and related problems. This course is designed to impart practical instruction for use of high- Offered for graduate credit only. Offered Fall. throughput technologies and genome-wide data in molecular cancer Restriction(s): Enrollment is limited to Graduate level students. research. The course is geared to an audience with general molecular ROC 5990 Directed Study in Medical Sciences Cr. 1-4 and cell biology understanding, and is tailored to address real-world Introduction to modern methodology of cancer research. Students of experimental research objectives for cancer biologists. Offered Every the Division of Cancer Biology of the Department of Radiation Oncology Other Fall. conduct research projects under direction of research scientists. Areas of Prerequisite: CB 7210 with a minimum grade of C research include: molecular biology, enzyme purification, tumor biology, Restriction(s): Enrollment is limited to Graduate level students. cellular biochemistry. Offered for graduate credit only. Offered Every CB 8920 Principles of Translational and Clinical Cancer Research Cr. 1 Term. The goal of this course is for the students to understand the Restriction(s): Enrollment is limited to Graduate level students. fundamentals of translational and clinical cancer research with emphasis ROC 6710 Physics in Medicine Cr. 3 on identifying clinically meaningful research goals and application of Applications of physics in medicine including radioactivity; interaction of laboratory based research into clinical trials. The students will attend a radiation in matter; x-ray, CT, MRI, ultrasound, and PET imaging; nuclear series of lectures from clinical oncology faculty members. Students will medicine; radiation oncology. Offered Winter. work with their clinical mentors to develop translational research projects ROC 7000 Imaging Physics I Cr. 4 or correlative end points for a clinical trial concept. Students are expected Basic theory of medical imaging. Introduction to magnetic resonance to present a brief proposal of the project at the end of the course, which imaging and spectroscopy, ultrasound; diagnostic radiology: radiography, will be evaluated by the course director. Offered Fall. fluoroscopy, CT, digital radiography, and mammography. Offered Fall. Prerequisite: CB 7310 with a minimum grade of C Prerequisite: ROC 5010 (may be taken concurrently) with a minimum Restriction(s): Enrollment is limited to students with a major in Cancer grade of C Biology. Restriction(s): Enrollment is limited to Graduate level students. CB 8999 Master's Thesis Research and Direction Cr. 1-8 ROC 7010 Imaging Physics II: Nuclear Medicine Cr. 2 Offered Every Term. Physics of nuclear medicine, with emphasis on imaging. Offered Winter. Restriction(s): Enrollment is limited to students with a major in Cancer Prerequisite: ROC 7000 with a minimum grade of C Biology. Restriction(s): Enrollment is limited to Graduate level students. Repeatable for 8 Credits ROC 7020 Physics of Radiation Therapy Cr. 3 CB 9991 Doctoral Candidate Status I: Dissertation Research and Lecture and demonstration in physics of radiation therapy. Offered Winter. Direction Cr. 7.5 Prerequisite: ROC 5010 with a minimum grade of C Offered Every Term. Restriction(s): Enrollment is limited to Graduate level students. Restriction(s): Enrollment is limited to students with a major in Cancer Biology. ROC 7040 Radiation Dosimetry Cr. 2 Lecture and demonstration on principles of radiation dosimetry. CB 9992 Doctoral Candidate Status II: Dissertation Research and Dosimetry of photons, electrons, neutrons and dose from radioactive Direction Cr. 7.5 materials. Offered Winter. Offered Every Term. Prerequisite: ROC 5010 with a minimum grade of C Prerequisite: CB 9991 with a minimum grade of S Restriction(s): Enrollment is limited to Graduate level students. Restriction(s): Enrollment is limited to students with a major in Cancer Biology. ROC 7060 Applied Radiobiology in Radiological Science Cr. 2 Fractionation, oxygen enhancement ratio, characterization of neutron CB 9993 Doctoral Candidate Status III: Dissertation Research and beams and heavy particles for radiation therapy, radiosensitivity within Direction Cr. 7.5 cell division. Offered Fall. Offered Every Term. Restriction(s): Enrollment is limited to Graduate level students. Prerequisite: CB 9992 with a minimum grade of S Restriction(s): Enrollment is limited to students with a major in Cancer ROC 7070 Radiation Safety Cr. 2 Biology. Lectures on radiation safety procedures and practices; governmental regulations on radiation safety. Offered Spring/Summer. CB 9994 Doctoral Candidate Status IV: Dissertation Research and Prerequisite: ROC 5010 with a minimum grade of C Direction Cr. 7.5 Restriction(s): Enrollment is limited to Graduate level students. Offered Every Term. Prerequisite: CB 9993 with a minimum grade of S Restriction(s): Enrollment is limited to students with a major in Cancer Biology.
4 Oncology ROC 7080 Radiotherapy Physics Laboratory Cr. 2 ROC 7999 Essay Direction Cr. 3 Practical laboratory exercises in ionometric and solid-state dosimetry Preparation of an in-depth paper on a subject in radiological physics. techniques, quality assurance procedures for selected radiation therapy Offered Every Term. and diagnostic radiological equipment. Offered Spring/Summer. Restriction(s): Enrollment is limited to students with a major, minor, or Prerequisite: ROC 7020 with a minimum grade of C and ROC 7040 with a concentration in Medical Physics or Radiological Physics; enrollment is minimum grade of C limited to Graduate level students. Restriction(s): Enrollment is limited to Graduate level students. ROC 8990 Special Problems in Radiation Biophysics Cr. 1-7 ROC 7110 Treatment Planning Cr. 2 Independent study in advanced topics to be selected by the student in Practical aspects of radiotherapy treatment planning. Lectures and consultation with instructor. Offered Every Term. exercises in patient data acquisition and computerized treatment Restriction(s): Enrollment is limited to students with a major in Medical planning for a variety of sites with both teletherapy and brachytherapy. Physics or Radiological Physics; enrollment is limited to Graduate level Offered Fall. students. Prerequisite: ROC 7020 with a minimum grade of C Repeatable for 7 Credits Restriction(s): Enrollment is limited to Graduate level students. ROC 9990 Pre-Doctoral Candidacy Research Cr. 1-8 ROC 7120 Radionuclide Therapy Cr. 2 Research in preparation for doctoral dissertation. Offered Every Term. Development of radionuclide technology and its medical use from its Restriction(s): Enrollment is limited to Graduate level students. discovery to the latest developments. Offered Fall. Repeatable for 12 Credits Prerequisite: ROC 5010 with a minimum grade of C and ROC 7020 with a ROC 9991 Doctoral Candidate Status I: Dissertation Research and minimum grade of C and ROC 7040 with a minimum grade of C Direction Cr. 7.5 Restriction(s): Enrollment is limited to Graduate level students. Offered Every Term. ROC 7130 Nuclear Medicine Physics Laboratory Cr. 2 Restriction(s): Enrollment is limited to Graduate level students. Laboratory experiments calibration, Q.A., etc., on isotope generators, ROC 9992 Doctoral Candidate Status II: Dissertation Research and isotope calibrators, counting systems, spectrometers, cameras, spect Direction Cr. 7.5 and PET systems, Counting statistics, spectrum analysis. Offered Spring/ Offered Every Term. Summer. Prerequisite: ROC 9991 Prerequisite: ROC 7010 with a minimum grade of C Restriction(s): Enrollment is limited to Graduate level students. Restriction(s): Enrollment is limited to Graduate level students. ROC 9993 Doctoral Candidate Status III: Dissertation Research and ROC 7150 Radiation Oncology Anatomy and Physiology Cr. 2 Direction Cr. 7.5 Independent study course covering radiological (CT/MRI) anatomy and Offered Every Term. basic anatomy and medical terminology pertinent to radiation oncology. Prerequisite: ROC 9992 Offered Every Term. Restriction(s): Enrollment is limited to Graduate level students. Restriction(s): Enrollment is limited to Graduate level students. ROC 9994 Doctoral Candidate Status IV: Dissertation Research and ROC 7160 Advanced Topics in Medical Physics Cr. 2 Direction Cr. 7.5 Advanced imaging principles for students pursuing careers in medical Offered Every Term. physics or any other profession related to diagnostic imaging. Offered Prerequisite: ROC 9993 Winter. Restriction(s): Enrollment is limited to Graduate level students. Prerequisite: ROC 5010 with a minimum grade of C and ROC 7000 with a minimum grade of C ROC 9995 Candidate Maintenance Status: Doctoral Dissertation Restriction(s): Enrollment is limited to Graduate level students. Research and Direction Cr. 0 Offered Every Term. ROC 7170 Professional Aspects of Medical Physics Cr. 2 Prerequisite: ROC 9994 Provide an overview of the professional aspects of clinical radiation Restriction(s): Enrollment is limited to Graduate level students. oncology physics. Involvement in practical aspects of clinical radiation Course Material Fees: $384.7 oncology physics including analysis of quality assurance and practice quality improvement initiatives, review of regulatory and external ROC 9996 Radiation Oncology Physics Clinical Rotation I Cr. 7.5 certification requirements, etc. Offered Every Term. Prereq: DMP candidate in department and written consent of the program Restriction(s): Enrollment is limited to Graduate level students. director. Required in Fall term of Year 3 of Professional Doctorate program. Offered for S and U grades only. Offered Every Term. ROC 7890 Seminar Cr. 1 Restriction(s): Enrollment is limited to Graduate level students. Presentations by graduate students, staff, visitors with emphasis on topics relevant to radiation biophysics and radiological health. Offered ROC 9997 Radiation Oncology Physics Clinical Rotation II Cr. 7.5 Every Term. Prereq: Satisfactory completion of ROC 9996 and written consent of Restriction(s): Enrollment is limited to Graduate level students. the program director. Required in Winter term of Year 3 of Professional Doctorate program. Offered for S and U grades only. Offered Every Term. ROC 7990 Directed Study Cr. 1-5 Restriction(s): Enrollment is limited to Graduate level students. Independent study in the uses of new technologies in clinical radiology. Offered Every Term. ROC 9998 Radiation Oncology Physics Clinical Rotation III Cr. 7.5 Restriction(s): Enrollment is limited to Graduate level students. Prereq: Satisfactory completion of ROC 9997 and written consent of Repeatable for 5 Credits the program director. Required in Fall term of Year 4 of Professional Doctorate program. Offered for S and U grades only. Offered Every Term. Restriction(s): Enrollment is limited to Graduate level students.
Oncology 5 ROC 9999 Radiation Oncology Physics Clinical Rotation IV Cr. 7.5 Prereq: Satisfactory completion of ROC 9998 and written consent of the program director. Required in Winter term of Year 4 of Professional Doctorate program. Offered for S and U grades only. Offered Every Term. Restriction(s): Enrollment is limited to Graduate level students.
6 Oncology