Mid-urethral slings have been widely accepted as a treatment of choice for patients with stress urinary incontinence (SUI). Mid-Urethral sling surgery has been associated with good success rate and minimal morbidity.Minor complications are associated with these surgeries including bladder perforation, urethral injury or post operative complication such as de novo urgency and urge urinary incontinence, urinary retention or incomplete bladder emptying. Treatment approaches for complications included sling excision and urethral/bladder/ vaginal defect repair after sling intrusion or extrusion into these organs. Treatments for postoperative voiding dysfunction include clean intermittent catheterization, mid-urethral sling lysis, sling incision and formal urethrolysis. With urethrolysis, obstruction has been reported to be relieved in 65% to 93 with preservation of continence in 80% to 100% while the rate of SUI postoperative is 0 % to 19%.autologus fascial sling for relieve of obstruction with 54% of patients had no recurrence of their SUI [25]. On the other hand, there have been no published data on the use of autologus fascia lata pubovaginal sling to treat patient with recurrent SUI after incision of the mid-urethral mish slings. Urethral injection of bulking agent have been reported with 34% cure [26] and re-do mid urethral sling was reported to have only 53% success over 17 months of follow-up [9].
Our aim is to evaluate the subjective and objective outcomes of salvage treatment of failed mid-urethral mesh sling with sling incision, urethrolysis, autologus facial pubovaginal sling or other forms of diversion if needed. We also will evaluate if this procedure will help to improve in the quality of life of these patients.

This research is being done to find out if brain stimulation combined with a rehabilitation therapy improves arm weakness as a result of having a stroke. The stimulation technique is called transcranial direct current stimulation (tDCS). The treatment uses direct electrical currents to stimulate specific parts of the brain. The rehabilitation therapy is called "modified Constraint Induced Movement Therapy" (mCIMT). During this rehabilitation therapy study participants will wear a mitt on the hand of the arm that was not affected by their stroke. It is designed to restrain the use of the unaffected arm, while performing therapy with impaired one.
It is not known if brain stimulation combined with rehabilitation therapy will improve arm weakness. Study participants will receive rehabilitation therapy while on this study. Study participants may or may not receive the brain stimulation therapy.

The purpose of this study is to determine if 3-dimensional finger force training is an effective tool in restoring hand function post stroke. Persons who survived a stroke 3 to 12 months ago and have a hand impairment will be eligible to participate in this study. Participants will be asked to come to the laboratory to practice controlling the finger force generation 3 times a week for 6 weeks. Participants will see their performance on a computer screen. Participants will also come to the laboratory for additional 4-7 visits for assessments of their upper extremity function. The total duration of the study will be 2.5 months.

Hand disability after stroke has a profound negative impact on functional ability and independence. Hand therapy may be augmented with sensory stimulation for better outcomes. We have developed a novel sensory stimulation - unfelt vibration applied via a wristwatch. In this study, we will determine if combining this stimulation with hand task practice is superior to hand task practice alone.

This is a study to find out if a device that temporarily alters brain activity (repetitive transcranial magnetic stimulation, rTMS) might be used to change how people with anxiety or related concerns cope with emotional situations. The study is recruiting people who recently started treatment for anxiety or a related concern. The study involves 3 visits to MUSC. At the first visit, participants do interviews and surveys asking about anxiety and related concerns, and they also do tasks where they see and react to emotional pictures while their brain activation is measured. At the next two visits, participants receive rTMS that uses a magnet placed on top of the head to alter brain activity temporarily (for about an hour). After rTMS, participants do two tasks where they see and react to emotional situations while wearing sensors on their hand, arms, face, and head.

Each visit in this study is expected to last between 2 – 3 hours. This study is not a treatment study, but it could help improve treatment in the future. Participants in this study are paid for their time.

Constraint-induced movement therapy (CIMT) is the most efficacious treatment for children with hemiparesis from a perinatal arterial stroke but instead, weekly low-dose OT and/or PT is typical. The aims of this study are to compare 2 high doses of treatment to usual care in helping infants improve skills on the hemiplegic hand/arm and to improve bimanual activities. In addition, the association with gross motor, language and cognition will be explored.

Approximately 80% of stroke survivors have hand impairment. A majority do not fully recover their hand function despite completing standard rehabilitation. Limited hand function results in learned non-use not only of the hand but also of the whole arm. This limited upper limb movement results in decreased independence and poor quality of life. It is known that training for proper movement patterns is important especially early in rehabilitation. The purpose of this project is to determine if training using hand exoskeleton to improve finger movement is feasible in stroke patients. Stroke survivors will receive training with 4 different control strategies to improve finger joint coordination.

Sensory stimulation has been shown to enhance rehabilitation outcomes. However, most sensory stimulation devices interfere with natural hand tasks. Thus, a new wearable stimulation device has been developed to deliver imperceptible vibration to wrist skin. This study is to evaluate the community use of the device for patients with neurologic movement disorders. Participation will include wearing the provided device and charging the device every night. The knowledge regarding community use of the device may contribute to improving the device functionality and usability for future users of the device.

Maxillary expanders are orthodontic appliances that are commonly used to expand the upper jaw. The purpose of this study will be to compare the effects produced by two different maxillary expanders in children 8-13 years old. The first type of expander is made by hand in an orthodontic laboratory, and the second type of expander is designed on a computer and printed using 3D printers. Both expanders are already used in the MUSC Orthodontics Clinic. The purpose of this study is to see if the 3D printed expander is as effective as the traditional expander made by hand in the laboratory, with more comfort to the patient. Patients participating in the study will be randomly assigned to one of two groups: group A will be treated with a laboratory-made maxillary expander, and group B with a 3D-Printed maxillary expander. Information will be collected on the participants' standard clinical follow-up visits including photos, x-rays, and dental photo scans over the course of 6 months to see how the expander is working. In addition, as part of the research study, the participant will be asked to complete online questionnaires with assistance from parents or guardians about his/her quality of life and perception of possible pain and discomfort at different time points. The potential benefits of this study include the use of 3D technology to improve the quality of the orthodontic treatment, with more comfort to the patient.

Depression is a leading cause of disability worldwide and is more commonly seen in individuals post-spinal cord injury (SCI) than in the general population. Depression post-SCI impacts an individual's quality of life and recovery. It has been reported that among people with an SCI, those without depression live longer than those with depression. Thus, depression must be treated appropriately. Repetitive transcranial magnetic stimulation (rTMS) is an FDA-approved treatment for depression, but dosing is based on a motor response in the thumb. Over half of individuals with SCI have some degree of arm or hand impairment, so these individuals might not be eligible for rTMS, or they may receive the wrong dose. This study proposes a pilot clinical trial in individuals with depression post-SCI to assess the anti-depressant effect of a novel way to dose rTMS that does not require a motor response. By gaining a better understanding of the application of rTMS for depression post-SCI, we aim to advance the rehabilitative care of those with SCI.