The objective of the candidate is to develop as an independent scientist with the capability of effectively applying bioengineering principles to solve clinical problems affecting patients with kidney diseases. To achieve this goal the applicant has designed a period of training to be supported through this application. The proposal combines an extensive education program coordinated with directed laboratory research in years 1-5 and clinical research in years 3-5. The research projects planned are practical and oriented toward solving important clinical problems by (1) Evaluating Variable Flow (VF) Doppler a potentially useful method of hemodialysis vascular access blood flow measurement and (2) Developing and evaluating Ultrasound Elasticity Imaging for hemodialysis access applications using high resolution speckle tracking techniques to accurately measure neointimal hyperplasia. The clinically focused research will be complemented by formal coursework that will provide the foundation of bioengineering principles required for ongoing evaluation of emerging technologies. The extensive resources available through the Biomedical Ultrasonics Lab (BUL) are ideal for this portion of the candidate's Career Development Plan. The resources available through the Division of Nephrology and Radiology and Pathology Departments in the Medical School with the support of the University of Michigan Biomedical Engineering Department will provide an outstanding research experience for the candidate. The candidate will also participate in the University of Michigan's Research Responsibility Program which includes lectures and symposia on responsibility in research, responsible authorship, responsible data management, conflict of interest, and protections for human subjects in research. In addition to the formal coursework and symposia, the candidate will participate in ethics discussions and research reviews within the Nephrology division. This Award will support the training needed to become an effective independent clinical investigator focused on bioengineering applications in medicine.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Clinical Investigator Award (CIA) (K08)
Project #
5K08DK062848-02
Application #
7082246
Study Section
Diabetes, Endocrinology and Metabolic Diseases B Subcommittee (DDK)
Program Officer
Rankin, Tracy L
Project Start
2005-07-01
Project End
2010-05-31
Budget Start
2006-06-01
Budget End
2007-05-31
Support Year
2
Fiscal Year
2006
Total Cost
$132,300
Indirect Cost
Name
University of Michigan Ann Arbor
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
073133571
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109
Patel, Prashant; Biswas, Rohan; Park, Daewoo et al. (2010) Characterization of vascular strain during in-vitro angioplasty with high-resolution ultrasound speckle tracking. Theor Biol Med Model 7:36
Park, Dae Woo; Richards, Michael S; Rubin, Jonathan M et al. (2010) Arterial elasticity imaging: comparison of finite-element analysis models with high-resolution ultrasound speckle tracking. Cardiovasc Ultrasound 8:22
Biswas, Rohan; Patel, Prashant; Park, Dae W et al. (2010) Venous elastography: validation of a novel high-resolution ultrasound method for measuring vein compliance using finite element analysis. Semin Dial 23:105-9
Weitzel, William F; Kim, Kang; Park, Dae Woo et al. (2009) High-resolution ultrasound elasticity imaging to evaluate dialysis fistula stenosis. Semin Dial 22:84-9
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Wusirika, Raghav; Leavitt, Matthew; Boyer, Charles et al. (2008) Hemodialysis graft with blind loop inflow segment treated with stent placement. Semin Dial 21:455-6
Weitzel, William F (2008) Preoperative hemodialysis fistula evaluation: angiography, ultrasonography and other studies, are they useful? Contrib Nephrol 161:23-9
Weitzel, William F; Cotant, Casey L; Wen, Zhijie et al. (2008) Analysis of novel geometry-independent method for dialysis access pressure-flow monitoring. Theor Biol Med Model 5:22