The overall goal of Core C is to provide support for the research training and education mission of the MDCRC. In particular, Core C will support a Medical Student Fellowship, a Postdoctoral Fellowship and a two-day symposium to educate/engage patients and patient advocates. Both the medical student and postdoctoral fellow will have mentoring from the two core directors. This training effort is vital, so that there are basic scientists and qualified clinicians who can partner to test novel potential treatments. We are particularly interested in training the next generation of neurologists in muscular dystrophy translational research and thus have created the Medical Student Fellowship. This full-time fellowship will enable one medical student per year to be involved in all aspects of research in the MDCRC. The student will participate in the care of patients in the muscular dystrophy clinic and in the evaluation of patients participating in Project 2 under the supervision of Katherine Mathews. They will evaluate muscle biopsies with Steve Moore and study patient cells in Kevin Campbell's lab. Finally, they will present their findings from interesting cases at the Muscle Disease Neuropathology Conference once a month. To promote the development of basic scientists doing translational research in muscular dystrophy, the Postdoctoral Research Fellowship will provide an intensive translational research experience in the MDCRC for a PhD, MD or MD/PhD graduate in Kevin Campbell's laboratory. This research fellow will also observe patient care in the clinic and research settings to enhance their understanding of the clinical side of translational research. Finally, the lowa MDCRC will continue its tradition of involving patients and patient advocates in the center. Core C will host a two day symposium and Center open house with patients and their families. The goal of the symposium will be to educate the patients about the ongoing translational research in the MDCRC and provide a forum where their questions concerning translational research can be answered. The Medical Student and Postdoctoral Research fellows will participate in this symposium. Thus, this core will accelerate the education mission of the MDCRC and establish a training environment for clinician scientists.
Core C will coordinate the research training and education mission of the MDCRC. We are particularly interested in training the next generation of pediatric neurologists and thus have created a fellowship that will attract medical students interested in neurology. This fellowship will enable one medical student per year to perform translational research in the Center and to participate in the care of muscular dystrophy patients.
| Lee, Angela J; Buckingham, Edward T; Kauer, Aaron J et al. (2018) Descriptive Phenotype of Obsessive Compulsive Symptoms in Males With Duchenne Muscular Dystrophy. J Child Neurol 33:572-579 |
| González Coraspe, José Andrés; Weis, Joachim; Anderson, Mary E et al. (2018) Biochemical and pathological changes result from mutated Caveolin-3 in muscle. Skelet Muscle 8:28 |
| Martinez-Thompson, Jennifer M; Niu, Zhiyv; Tracy, Jennifer A et al. (2018) Autosomal dominant calpainopathy due to heterozygous CAPN3 C.643_663del21. Muscle Nerve 57:679-683 |
| Brun, Brianna N; Willer, Tobias; Darbro, Benjamin W et al. (2018) Uniparental disomy unveils a novel recessive mutation in POMT2. Neuromuscul Disord 28:592-596 |
| Larson, Austin A; Baker 2nd, Peter R; Milev, Miroslav P et al. (2018) TRAPPC11 and GOSR2 mutations associate with hypoglycosylation of ?-dystroglycan and muscular dystrophy. Skelet Muscle 8:17 |
| Carlson, Courtney R; Moore, Steven A; Mathews, Katherine D (2018) Dystrophinopathy muscle biopsies in the genetic testing ERA: One center's data. Muscle Nerve : |
| Carlson, Courtney R; McGaughey, Steven D; Eskuri, Jamie M et al. (2017) Illness-associated muscle weakness in dystroglycanopathies. Neurology 89:2374-2380 |
| Donkervoort, Sandra; Chan, Sophelia H S; Hayes, Leslie H et al. (2017) Cytoplasmic body pathology in severe ACTA1-related myopathy in the absence of typical nemaline rods. Neuromuscul Disord 27:531-536 |
| Wilson, Kristin; Faelan, Crystal; Patterson-Kane, Janet C et al. (2017) Duchenne and Becker Muscular Dystrophies: A Review of Animal Models, Clinical End Points, and Biomarker Quantification. Toxicol Pathol 45:961-976 |
| Dean, Marissa; Rashid, Salman; Kupsky, William et al. (2017) Child Neurology: LAMA2 muscular dystrophy without contractures. Neurology 88:e199-e203 |
Showing the most recent 10 out of 97 publications
