新利18官网娱乐在线|18新利luck官网登录
Skip to content Skip to search Skip to footer Program in Physical Therapy Open Menu Back Close Menu Search for: Search Close Search EducationEducation Doctor of Physical TherapyDoctor of Physical Therapy Application & Admissions Eligibility & Prerequisites Tuition & Financial Assistance Educational Experience Student Activities Curriculum CAPTE Success Statistics Clinical Education Program Clinical Instructor Resources PhD in Movement SciencePhD in Movement Science Application & Admissions Curriculum & Degree Requirements Tuition & Financial Assistance Current PhD Students PhD Alumni Steering Committee Dual DPT-PhD Postdoctoral Research FellowshipPostdoctoral Research Fellowship Application & Admissions Current Postdoctoral Research Scholars Financial Assistance Clinical Residency in Orthopaedics Clinical Residency in Women’s HealthClinical Residency in Women’s Health Application & Admissions AlumniAlumni Open Positions The Next 75 Years WUPT 75th Anniversary Celebration Movement System Impairment Syndromes CoursesMovement System Impairment Syndromes Courses Movement System Impairment (MSI) Resources Continuing Education for Clinical Instructors (CEUs)Continuing Education for Clinical Instructors (CEUs) Research Seminars & Recordings Schedule a Student Visit Patient CarePatient Care LocationsLocations Central West End Danforth Campus O’Fallon Our Providers Our ServicesOur Services Musculoskeletal Rehabilitation Neuromuscular Rehabilitation Multidisciplinary Services Women’s & Men’s Pelvic Rehabilitation Pre- & Post-Surgical Rehabilitation Sports Injury & Performance Programs Specialty Techniques Vestibular and Concussion Rehabilitation Specialty Services and Programs Lymphedema Management Spinal Cord Injury Rehabilitation Cerebral Palsy Rehabilitation Wheelchair Seating and Positioning Clinic Aphasia Treatment Stroke/CVA Rehabilitation Dysphagia Treatment Social Work/Clinical Case Management Traumatic Brain Injury Rehabilitation Return to Driving Running Clinic Rehabilitation of the Performing Artist LSVT Loud Injury Prevention Programs Parkinson’s Disease Rehabilitation ASTYM Obesity Management dorsaVi VitalStim Therapy Telehealth Billing & Insurance Patient Testimonials ResearchResearch Our Research AreasOur Research Areas Foot & Ankle Injury & Recovery Hardware & Software Design for Rehabilitation Research Integrative Muscle Physiology Exercise and Cardio-Metabolic Health Movement & Musculoskeletal Problems in Diabetes Movement & Neurodegenerative Disease Neural Control of Movement Following Neurological Injury Neural Plasticity and Sensorimotor Integration Nutrition & Exercise Science Prevention, Rehabilitation & Maintenance in Musculoskeletal Conditions Physical Activity & Fitness Rehabilitation Research for Orthopaedic Conditions Stroke Recovery, Rehabilitation, and AccelerometryStroke Recovery, Rehabilitation, and Accelerometry For Lab Members Orthopaedic Biomechanics Accelerometry Movement Science Research Center Research Training Programs Clinical Trials Recent Publications Faculty & StaffFaculty & Staff Faculty Staff Clinical Providers Faculty Emeritus Open Faculty Positions DiversityDiversity PTID City Faces Recruitment Organizations & Student Groups Diversity, Equity, and Inclusion Resources Calendar AboutAbout Annual ReportAnnual Report 2019 Annual Report – Welcome2019 Annual Report – Welcome 2019 Annual Report – Education 2019 Annual Report – Clinical Practice 2019 Annual Report – Research 2019 Annual Report – Community Explore the Program in Physical Therapy Moving Ahead ContactContact Maps & Directions Schedule a Student Visit Seminar Series Invitation Request Work at WashU PT WUSM Bike Run Walk Club WUPT at 2024 Combined Sections Meeting Open Search Stroke Recovery, Rehabilitation, and Accelerometry Our research is aimed at developing effective and efficient, individualized rehabilitation for people with neurological and neurodevelopmental conditions. A key tool for our lab is the use of wearable sensors (accelerometers) to quantifying human movement in daily life. This tool offers a convenient, accurate, and economical way of measuring real-world movement outside the clinic or laboratory. Our laboratory studies the neural control of movement and motor learning in humans. We are interested in better understanding neural control so that this knowledge can be leveraged to inform diagnoses and selection of rehabilitation interventions for persons with stroke, autism, and other neurological conditions. Our ultimate goal is personalized, effective, and efficient interventions that will improve daily life. Since 2004, we have deployed a variety of research tools, including: computerized analyses of human movement (kinematics, kinetics, electromyography) to quantify behavior during ecologically-valid laboratory tasks; standardized clinical assessments to quantify the capacity to produce skilled movement; biosensors (accelerometers) that quantify types and amount of movements outside the laboratory; and standardized questionnaires that quantify self-perception of function, behavior, and participation in everyday life. Ongoing partnerships with others add additional approaches (fMRI, TMS, serum marker analyses) to the available tool set. The interdisciplinary, interactive laboratory environment promotes collaborations within and outside the lab with scientists and clinicians, resulting in a productive, successful research program. Faculty Investigators Catherine Lang, PT, PhD, FAPTA [Profile ]Marghuretta D. Bland, PT, DPT, NCS [Profile ]Carey L Holleran, PT, MPT, DHS, NCS [Profile ] Trainees and Staff Members Allison Miller, DPT, PhD, NCS, Post Doctoral FellowJeff Konrad, PhD StudentChristine Gordon, Research PTKayla Bell, DPT StudentMcKenna Dixon, DPT Student Current Research Studies Translation of in-clinic gains to gains in daily lifeFunding source: NIH R01HD068290 (PI: Lang) A key purpose of providing rehabilitation services post stroke is to improve performance in daily life. It has long been assumed that improvements in capacity, where capacity is defined as what a person is capable of doing in the structured environment of the clinic or laboratory, result in improvements in real-world performance, where performance is defined as what a person actually does in daily life, outside of the clinic or laboratory. This project uses wearable sensor methodology (accelerometers) to investigate discrepancies between functional capacity and daily performance of activity. We address the following questions: Is this discrepancy unique to the upper limb post stroke, or a broader problem across populations and areas of rehabilitation? When in the time course of recovery does upper limb performance stabilize? How do stroke survivor attitudes and barriers interact with upper limb performance over time? Variation in early motor function in autism, cerebellar injury, and normal twinsFunding source: NIH R01MH123723 (Co-PIs: Lang, Limperopoulis, Marrus) A major barrier to improved outcomes in autism spectrum disorder is the challenge of diagnosis early in life. This project deploys wearable sensor methodology in three cohorts between the ages of 6 and 36 months of age to identify and validate two critical motor phenotypes (neural liabilities) contributing to the development of autism: hyperactivity and motor incoordination. These phenotypes result in high risk of developing autism, but cannot yet be reliably measured within the first year of life. Collaborative Research Studies Development of a Micro-ECoG Neuroprosthesis for Motor Rehabilitation in a Chronic Corticospinal Stroke Injury, NIH R01NS101013 (PIs: Moran and Leuthhardt) Past Research Studies Ischemic conditioning as a neurorecovery agent for stroke (NIH R01HD085930) Characterizing Arm Recovery in People with Severe Stroke (CARPSS) CIHR/IRSC 374601 (PI: Boyd) A Brain Recovery Core for measuring the effectiveness of stroke care (Barnes Jewish Hospital Foundation, Washington University McDonnell Center for Systems Neuroscience) Enhanced Medical Rehabilitation of older adultsNIH R01MH099011 (PI: Lenze) Harnessing neuroplasticity to enhance functional recovery in allogenic hand transplant and heterotopic hand replant recipientsDoD W81XWH-15-2-0037 (PI: Frey) Spinal control during functional activities to improve low back pain outcomesNIH R01HD047709 (PI: Van Dillen) Effects of movement context on hemiparetic grasping after stroke (NIH R01HD055964) Mechanisms underlying loss of hand function after stroke (NIH K01HD047669) For Lab Members Research Our Research Areas Biostatistics, Evidence, and Research Design Foot & Ankle Injury & Recovery Integrative Muscle Physiology Movement & Neurodegenerative Disease Neural Control of Movement Following Neurological Injury Neural Plasticity and Sensorimotor Integration Orthopaedic Biomechanics Prevention, Rehabilitation & Maintenance in Musculoskeletal Conditions Rehabilitation Research for Orthopaedic Conditions Shoulder Biomechanics and Rehabilitation Stroke Recovery, Rehabilitation, and Accelerometry Tendon Rehabilitation Lab Movement Science Research Center Research Training Programs Clinical Trials Recent Publications Program in Physical TherapyMailing Address:Campus Box 8502, 4444 Forest Park Ave., Suite 1101St. Louis, MO 63108-2212314-286-1400Contact us Facebook Instagram Twitter YouTube For Patients Central West End – @4240 4240 Duncan Ave., Suite 120 St. Louis, MO 63110 Central West End – 4444 4444 Forest Park Ave., Suite 1210 St. Louis, MO 63108-2212 For patient appointments, call 314-286-1940 O’Fallon 1 Progress Point Parkway O’Fallon, MO 63368 Danforth Campus Zetcher House 6614 Shepley Dr., Suite 1051 Clayton, MO 63105 Resources Alumni Disclosures Maps & Directions ©2024 Washington University in St. Louis
