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Educational Program Overview

History


The Radiation Oncology Physics Residency Program was established at the University of Michigan in 2002 under the directorship of James Balter, Ph.D. In June of 2006, a co-director, Joann Prisciandaro, Ph.D., was appointed to initiate the CAMPEP application process. In January 2009, the University of Michigan's Radiation Oncology Physics Residency Program was officially accredited by CAMPEP, and is currently under the directorship of Dr. Prisciandaro. In 2012, Dr. Choonik Lee became the programs associate director.

Program Duration


The clinical residency program provides two years of full-time clinical training divided into ten rotations, via two training tracks, designated as the standard and academic tracks.

The standard clinical residency program is designed to provide both didactic and clinical training over a continuous two year period. This track concentrates predominately on clinical training under the supervision of a faculty mentor, and allows residents to become involved in several clinical projects to improve the efficiency of clinical flow, implement new clinical protocols, and integrate new technology.

The academic clinical residency program is designed to present didactic and clinical training as well as research and/or developmental opportunities over the course of 2 1/2 - 3 years. This group of residents will receive concenterated, full-time clinical training over two years and an additional 6 - 12 months on faculty-mentored research or development project(s).

During their clinical training, the resident will be expected to complete rotations in six areas of radiation oncology physics under faculty supervision.

Rotations


Clinical and academic clinical residents are expected to complete rotations in the following six clinical areas:

1. General physics and quality assurance
  A. General Physics and QA
  B. Shielding - Linac, CT, and brachytherapy
  C. Linear accelerator and algorithm commissioning
   
2. Treatment planning
  A. Introduction to treatment planning
   
3. Intensity Modulated Radiation Therapy (IMRT)
  A. IMRT treatment planning
  B. IMRT QA
   
4. Brachytherapy and radiation safety
  A. Introduction to brachytherapy and radiation safety
  B. Advanced brachytherapy
   
5. Special procedures - SBRT, SRS, TBI, and SBRT
  A. Introduction to special procedures
  B. Advanced special procedures
     
6. Imaging

Each rotation is typically two to three months in length, and is under the direct supervision of one or two faculty physicists. In addition to meeting with their rotation specific mentor(s) on a weekly or biweekly basis to discuss their progress, residents will also meet with either the director or associate director of the residency program monthly. Residents are expected to keep a log documenting their clinical and didactic activities which is reviewed during their meeting with the residency director or associate director. Following the completion of a rotation, the resident is evaluated by their rotation specific mentor(s) and an additional faculty member typically via an oral examination.

Coursework and Teaching

To complement their clinical training, medical physics residents may audit physician or radiation therapy student courses in radiobiology, clinical oncology, and diagnostic radiology. However, these courses are intended as a refresher (and attendance much be approved by the program director or associate director) and are not intended to correct any deficiencies in their medical physics didactic training.  Residents will be expected to attend weekly treatment planning conferences, weekly physics seminars, and monthly physics and physician journal clubs.

Medical physics residents will be expected to provide teaching assistance for the radiation therapy technician’s physics course or the radiation therapy medical resident’s physics course, if necessary.  As a teaching assistance, they will be expected to attend all medical physics lectures.

Alumni Statistics

At the completion of the University of Michigan residency program, resident will be prepared to practice Radiation Oncology independently. Below is a summary of the current positions held by our alumni and their certification status.

 

Certification

No. of Alumni

 

In process

6

 

ABR certified

10

 

Profession

No. of Alumni

 

Academic

4

 

Clinical

11

 

Industry

0

 

Other

2


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- Last updated 04/01/2014