View clinical trials related to Sensory Deficit.
Filter by:Chronic ankle instability (CAI) is defined as the symptoms continuing 12 months after the first sprain and the functional and/or mechanical instability reported by the individual. The number of researches that include a combined treatment approach that will affect both sensory and motor components in rehabilitation strategies applied for CAI is limited. The aim of this study is to isolated sensory, isolated motor and combined targeted approaches for the treatment of chronic ankle instability (CAI); to compare the effects on postural control, range of motion, function and kinesiophobia and to contribute to an effective approach related to the applicability of Sensory-Targeted Ankle Rehabilitation Strategies in the treatment of CAI.
This clinical study investigates the sensation deficit in the lower lip and chin area after surgical correction of lower jaw deformity. The primary null hypothesis is: Lower jaw osteotomy cause no sensory deficit in the inferior alveolar nerve. The secondary null hypothesis is: Concurrent genioplasty with sagittal split does not increase the risk of sensory deficit in the inferior alveolar nerve.
Upright-working has been proven to benefit health by combating the negative effects of physical inactivity. However, long-term commitment to static standing regimens may be limited due to symptoms of musculoskeletal fatigue that may develop during prolonged static standing in the absence of facilitated weight shifting. We propose a dynamic standing approach (working while standing accompanied by small periodic stepping movements) as a more tolerable and thereby more applicative lifestyle modification.
Few studies have used quantitative sensory tests to study the effect of chronic opioid treatment on sensation. The investigators will test chronic pain patients who are on different MEDDs, normal volunteers, and patients undergoing an opioid taper. This will be the first study to perform sensory testing on patients while undergoing an opioid taper on an outpatient basis.
Lower limb amputees suffer complete lack of sensory feedback of current available prostheses, which excludes the central nervous system from the correct sensory-motor integration. It causes serious problems as: falls due to unexpected perturbations, asymmetric walking, low mobility, higher power consumption, feeling the prosthesis as a foreign body, high cognitive burden, and phantom limb pain occurrence. Investigators will provide amputees with a prosthesis restoring sensory feedback and will assess its benefits on the users.
Traumatic injury to the peripheral nerves is most common in the young population with high associated costs to the patient, as well as to society. These range from acute healthcare cost to loss of productivity and rehabilitation. Despite major efforts in improving surgical technique, functional outcome has not significantly improved in the past thirty years. Irreversible denervation, atrophy of target muscles, and deranged sensation secondary to slow or aberrant axonal outgrowth remains a significant challenge. Although pre-operative conditioning of the injured peripheral nerve with electrical stimulation has shown promise in animal studies, it has not been tested in humans. In animal studies, pre-operative conditioning with electrical stimulation (ES) of the injured peripheral nerves promoted peripheral nerve regeneration in both sensory and motor fibres. We propose to conduct a clinical trial comparing 3 different treatments of complete digital nerve laceration before and after surgical repair. Participants will be randomized to one of three treatment arms: i) pre and post operative electrical stimulation, ii) pre-operative electrical stimulation alone , or iii) control group that receives sham pre and post-operative electrical stimulation. We will evaluate the effect of pre-operative electrical stimulation on axonal regeneration, as well as determine whether there is an additive effect of pre and post-operative electrical stimulation on sensory nerve axonal regeneration.
The study aims investigate sensory processing disorders and school readiness in pre-school preterm children and the relationship between sensory impairment and school readiness
Introduction Fascia Iliaca compartment block (FICB) is commonly used to treat pain in patients after total hip arthroplasty (THA) despite the lack of RCTs to evaluate the efficacy of FICB for this indication. Therefore the objective of this study was to assess the analgesic benefit of FICB for post-operative pain management in THA. Methods After IRB approval and informed consent, patients having THA at our center in the period 2010-2011 were recruited. Eligible patients were adults, ASA physical status I-III, and BMI <30) with no contraindication to study procedures. In the PACU, all patients received morphine sulfate IVPCA; patients reporting pain > 3 on the NRS-11 despite IVPCA were randomized by the method of sealed envelopes to receive US guided injections of 30ml 0.5% ropivacaine (FICB) or 30ml 0.9% NaCl (sham block, SB) beneath the fascia iliaca. The primary outcome variable was opioid analgesic consumption during the first 24 h postoperatively. Secondary outcome measures were pain intensity (NRS-11) and extent of sensory blockade.
The objective of this study is to investigate the effect of vibration feedback on the gripping pressure in the territory of the median nerve.