This is a new submission for a K24 mid-career investigator award in patient-oriented research to support the mentoring, research and career development activities of Dr. Scott Reeder. Dr. Reeder is an Associate Professor at the University of Wisconsin-Madison, with a primary appointment in Radiology and cross- appointments in the Departments of Medicine, Medical Physics, and Biomedical Engineering. After his arrival at UW-Madison in 2005, Dr. Reeder founded a patient-oriented research program for the development and translation of advanced MRI methods into clinical practice. He leads the UW Liver Imaging Research Program, an active NIDDK-funded group developing and validating advanced MRI methods for improved diagnosis of abdominal diseases. The group is focused on validation of quantitative MRI biomarkers of diffuse liver disease, including methods to quantify abdominal adiposity and liver fat, liver iron overload, and non-invasive methods to evaluate the hemodynamics of the liver in patients with portal hypertension. Dr. Reeder has played a major mentoring role at UW-Madison as the Director of the Clinical MRI fellowship for the past 8 years and in his new role as Associate Director of the UW MD/PhD program. He has mentored a large number of medical students, residents, clinical fellows, graduate students, post-doctoral fellows and visiting professors in a wide variety of patient-oriented imaging projects. Most of these projects are interdisciplinary in focus and Dr. Reeder has built well-established collaborations with Pediatric Endocrinology, Emergency Medicine, Hepatology, Hematology, and Transplant Surgery, among others. Dr. Reeder is also the Medical Director of MRI at UW. His combined clinical and research leadership roles have enabled him to build a thriving mentoring environment for patient- oriented imaging research. Support from a K24 award would provide Dr. Reeder with the dedicated time needed to mentor clinicians performing patient-oriented research by freeing him from clinical and administrative responsibilities. Dr. Reeder will also continue his NIDDK funded R01 projects and participate in responsible conduct of research activities. He will also pursue a career development plan that includes additional training in liver disease and metabolic syndrome, as well as patient-centered outcomes research. Finally, he will perform a community-based patient-oriented research project examining the role of quantitative MRI biomarkers in the evolution of ectopic abdominal fat and insulin resistance during puberty in school-age girls. This interdisciplinary study will be performed as part of an ongoing mentorship-collaboration with a junior investigator in Pediatric Endocrinology. Given the outstanding environment at UW-Madison and this well- established mentoring relationship, this project is expected to lay the groundwork for future proposals including a K23 career development award for Dr. Reeder's mentee in Pediatric Endocrinology and will provide exciting new scientific insight into insulin resistance and ectopic abdominal fat deposition during puberty.
Obesity is increasingly common in children, and if not addressed can lead to long-term complications including diabetes, liver disease and premature vascular disease as young adults. Improved tools that are fast, inexpensive and accurate are needed to assess the changes in the body that occur in obesity. This K24 award will support the applicant to increase his available time and effort to mentor junior investigators and to conduct patient-oriented research, particularly in the area of childhood obesity.
|Rivera-Rivera, Leonardo A; Schubert, Tilman; Knobloch, Gesine et al. (2018) Comparison of ferumoxytol-based cerebral blood volume estimates using quantitative R1 and R2* relaxometry. Magn Reson Med 79:3072-3081|
|Repplinger, Michael D; Nagle, Scott K; Harringa, John B et al. (2018) Clinical outcomes after magnetic resonance angiography (MRA) versus computed tomographic angiography (CTA) for pulmonary embolism evaluation. Emerg Radiol 25:469-477|
|Ning, Jia; Schubert, Tilman; Johnson, Kevin M et al. (2018) Vascular input function correction of inflow enhancement for improved pharmacokinetic modeling of liver DCE-MRI. Magn Reson Med 79:3093-3102|
|Hong, Cheng William; Wolfson, Tanya; Sy, Ethan Z et al. (2018) Optimization of region-of-interest sampling strategies for hepatic MRI proton density fat fraction quantification. J Magn Reson Imaging 47:988-994|
|Pirasteh, Ali; Yuan, Qing; Hernando, Diego et al. (2018) Inter-method reproducibility of biexponential R2 MR relaxometry for estimation of liver iron concentration. Magn Reson Med 80:2691-2701|
|Wiens, Curtis N; Artz, Nathan S; Jang, Hyungseok et al. (2018) Fully phase-encoded MRI near metallic implants using ultrashort echo times and broadband excitation. Magn Reson Med 79:2156-2163|
|Hong, Cheng William; Mamidipalli, Adrija; Hooker, Jonathan C et al. (2018) MRI proton density fat fraction is robust across the biologically plausible range of triglyceride spectra in adults with nonalcoholic steatohepatitis. J Magn Reson Imaging 47:995-1002|
|Yokoo, Takeshi; Serai, Suraj D; Pirasteh, Ali et al. (2018) Linearity, Bias, and Precision of Hepatic Proton Density Fat Fraction Measurements by Using MR Imaging: A Meta-Analysis. Radiology 286:486-498|
|Roberts, Nathan T; Hernando, Diego; Holmes, James H et al. (2018) Noise properties of proton density fat fraction estimated using chemical shift-encoded MRI. Magn Reson Med 80:685-695|
|Rutkowski, David R; Reeder, Scott B; Fernandez, Luis A et al. (2018) Surgical planning for living donor liver transplant using 4D flow MRI, computational fluid dynamics and in vitro experiments. Comput Methods Biomech Biomed Eng Imaging Vis 6:545-555|
Showing the most recent 10 out of 61 publications