The goal of the Kansas University Training Program in Neurological and Rehabiltiation Sciences is to provide predoctoral interdisciplinary training in translational research in basic and clinical aspects of neuroscience, especially as it applies to neurological conditions amenable to rehabilitative treatments. The interdisciplinary nature of this program is unique in that basic science trainees will have the opportunity to participate in clinical aspects of neurological disorders, and clinical trainees will be provided with valuable basic scientific insights and technical experience in neurobiological mechanisms. The program derives expertise from both basic and clinical research to cross-fertilize research experiences of the individual trainees. Didactic training will include core curricula for predoctoral students in the Interdisciplinary Graduate Program in Biomedical Science, the Graduate Programs in Neuroscience or the Graduate Program in Rehabilitation Science, providing a firm groundwork for understanding basic genetic, molecular and cellular mechanisms. Short- term, summer training experiences will be offered to medical and allied health students, providing experience with the complex interdisciplinary models that will be necessary for the next generation of therapeutic approaches in neurorehabilitation. The faculty include 23 basic and clinical mentors, and an additional 19 teaching faculty who are located within 10 Departments and two Schools of the Kansas University Medical Center. The strength of this group is the expertise and caliber of research faculty, the outstanding research infrastructure, the focus on translating basic neuroscientific principles to bear on neurological conditions, and the desire of both scientists and clinicians to collaborate in the interdisciplinary training of students. Laboratory research and apprenticeships, courses, seminars, guest lectures, journal clubs, data sessions, and poster presentations will be utilized to ensure frequent interaction of the trainees and faculty. The recruitment and selection of trainees will be coordinated through an Internal Advisory Committee, with input from all the participating faculty. In addition, the program will be monitored by an External Advisory Committee, composed of national leaders in graduate training in neuroscience and rehabilitation science.
(Seeinstructions): Complex medical conditions such as those that result from brain injury require a new approach to understanding and treating patients based on interdisciplinary workgroups of scientists and clinicians. This program will train young scientists to work in research teams that address the basic mechanisms of brain recovery and repair in the context of real-world relevance and feasibility.
|Witherspoon, Jessica W; Smirnova, Irina V; McIff, Terence E (2014) Neuroanatomical distribution of mechanoreceptors in the human cadaveric shoulder capsule and labrum. J Anat 225:337-45|
|Herda, Ashley A; Lentz, Angela A; Mattlage, Anna E et al. (2014) Cross-validation of the recumbent stepper submaximal exercise test to predict peak oxygen uptake in older adults. Phys Ther 94:722-9|
|Billinger, Sandra A; Vidoni, Eric D; Greer, Colby S et al. (2014) Cardiopulmonary exercise testing is well tolerated in people with Alzheimer-related cognitive impairment. Arch Phys Med Rehabil 95:1714-8|
|Witherspoon, J W; Smirnova, I V; McIff, T E (2014) Improved gold chloride staining method for anatomical analysis of sensory nerve endings in the shoulder capsule and labrum as examples of loose and dense fibrous tissues. Biotech Histochem 89:355-70|
|Stroh, Matthew; Swerdlow, Russell H; Zhu, Hao (2014) Common defects of mitochondria and iron in neurodegeneration and diabetes (MIND): a paradigm worth exploring. Biochem Pharmacol 88:573-83|
|Levant, Beth; Ozias, Marlies K; Guilford, Brianne L et al. (2013) Streptozotocin-induced diabetes partially attenuates the effects of a high-fat diet on liver and brain fatty acid composition in mice. Lipids 48:939-48|
|Guilford, B L; Wright, D E (2013) Chewing the fat: genetic approaches to model dyslipidemia-induced diabetic neuropathy in mice. Exp Neurol 248:504-8|
|Vidoni, Eric D; Thomas, George P; Honea, Robyn A et al. (2012) Evidence of altered corticomotor system connectivity in early-stage Alzheimer's disease. J Neurol Phys Ther 36:8-16|
|Sharma, Neena K; McCarson, Kenneth; Van Dillen, Linda et al. (2011) Primary somatosensory cortex in chronic low back pain - a H-MRS study. J Pain Res 4:143-50|
|Guilford, B L; Ryals, J M; Wright, D E (2011) Phenotypic changes in diabetic neuropathy induced by a high-fat diet in diabetic C57BL/6 mice. Exp Diabetes Res 2011:848307|
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