Clinical Research Directory

Efficacy of a Telehealth Delivered Group Lifestyle Balance for People Post Stroke (tGLB-CVA)

Investigators will conduct a randomized controlled trial (RCT) to assess intervention efficacy of telehealth delivery of the GLB-CVA (tGLB-CVA) compared to a 6-month wait-list control (WLC) in partnership with a diverse group of patient partners and peer mentors.

Accelerated rTMS vs. Sham for Stroke Apathy

Apathy is a common set of symptoms seen in many people following a stroke. Apathy occurs when a person has lost motivation, becomes withdrawn, and stops doing things that used to be important to them. Apathy has a large negative impact on a person's quality of life, and can also have a large impact the people who take care of them. There are currently no FDA-approved treatments to help with apathy, and other services like therapy may be difficult to access for people who have had a stroke. To address this problem, investigators are conducting a study to find out if a form of treatment called repetitive transcranial magnetic stimulation (rTMS) can be safe and helpful for people struggling with apathy after a stroke. This study will apply a new form of rTMS which can be delivered quickly to a part of the brain called the medial prefrontal cortex (mPFC). This study will help establish whether this treatment is safe, comfortable, and effective for people with apathy after a stroke, and will help researchers develop new forms of treatment.

Imaging Post-Stroke Recovery: Using MEG to Evaluate Cognition

This is a study using magnetoencephalography (MEG) to look at recovery in those with minor stroke. The investigators know that these individuals report difficulties in attention, concentration, multi-tasking, energy level, and processing speed that appear to be independent of lesion size or location. The underlying pathophysiology is unclear; however, anecdotally, many individuals are significantly improved by 6 months post-stroke. One hypothesis is that a single lesion, regardless of size, may disrupt the classic neural networks required for cognitive function. The investigators are currently collecting data to better characterize these difficulties and stroke patients' recovery as part of a previously approved recovery study. In this sub-study, the investigators propose to add MEG at 1 and 6 months in a subset of individuals with small: 1) subcortical, and 2) cortical lesions. The investigators will partner with colleagues at the University of Maryland (College Park), who are well experienced with MEG to conduct this research. In addition a control population of age-similar individuals will be recruited for comparison. Cerebral activation patterns of individuals with stroke versus controls will be compared, both across patients with stroke at a given time point, and within subjects from 1 to 6 months to determine the association of abnormal activation with cognitive dysfunction and recovery. \*\*The investigators have recently extended follow-up by adding an additional assessment at 12 months and will enroll additional participants (up to 40 patients with minor stroke, 15 age-similar controls).

Physiological and Functional Effects of Percutaneous Neuromodulation vs Transcutaneous Neuromodulation

INTRODUCTION: Clubfoot, drop foot or clubfoot, is a disorder that prevents reaching 100º of dorsiflexion actively. Its etiology is varied, and may be due to congenital problems, direct alteration of the bone structure, spasticity or shortening of the posterior musculature (triceps suralis), a neurological factor or a combination of several. Thus, we can differentiate between congenital clubfoot and acquired clubfoot. Stroke is one of the main causes of acquired clubfoot, which is due to paralysis of the dorsiflexor musculature and/or spasticity of the plantar flexor musculature. Electrical stimulation is able to increase muscle activation by depolarization of the motor plate and modulation of nerve conduction. This can be done transcutaneously, through surface electrodes or percutaneously through needles, so neuromodulation is presented as a tool applicable to the pathology of the equine foot, if we take into account the increased activation of the dorsiflexors of the foot. OBJECTIVE: The main objective is to evaluate which of the techniques, percutaneous or transcutaneous, is more effective for the approach of clubfoot in post-stroke patients. METHODOLOGY: a clinical trial with randomized probabilistic assignment in four groups is proposed: G1 (percutaneous neuromodulation): patients will receive a needle circuit approaching the deep peroneal nerve in an ultrasound-guided manner. They will receive a 20-30Hz symmetrical biphasic current; G2 (transcutaneous neuromodulation): patients will have a superficial electrode circuit placed over the belly of the tibialis anterior muscle. They will receive a symmetrical biphasic current of 20-30Hz; G3 (placebo-percutaneous group): in which the patients will receive the neuromodulation circuit with needles at 0 intensity; G2 (placebo-transcutaneous group): the patients will receive the electrodes at 0 intensity over the belly of the tibialis anterior muscle. The variables to be analyzed are: anthropometric variables (age, weight, height, BMI), muscle oxygenation (SatO2, O2Hb, HHb and THb), muscle strength of the foot dorsiflexors measured with dynamometer, muscle activation by surface electromyography, active and passive joint balance with goniometry or inclinometer, assessment of gait and balance, assessment of load distribution by static and dynamic pressure platform, spasticity and questionnaire on quality of life and functionality. The acute effects after one intervention session (pre-post intervention of one session) and the effects after a 10-session program will be analyzed.