ABSTRACT
BACKGROUND: Limited funding is available for athletes with disabilities in the United Kingdom. This compounds the barriers to participation and development that already exist. METHOD: To combat this growing problem, a Multi-Disciplinary Pediatric Adaptive Sports Clinic was formed. RESULT: Fifteen athletes with disabilities attended the Clinic from November 2017 to November 2019. In our cohort, there were 10 males and 5 females (age range: 13-18 years). Most athletes participated at a grassroots level (n = 9). The range of diagnoses included cerebral palsy, Ehlers Danlos syndrome and congenital hand differences. Forty-four appointments were made after the initial meeting with a 95% attendance rate. Improvements beyond the minimal clinically important differences (MCID) for the Patient Specific Functional Scale, Numerical Pain Rating Scale, and Medical Research Council Manual Muscle Testing Scale were noted in over half of cases. CONCLUSION: With a focus on injury prevention and strength and conditioning techniques, this clinic supported athletes to successfully compete from a recreational to an elite level across all types of sports and adolescent ages by providing patient-specific regimens. Our case series provides preliminary evidence to suggest the formation of similar clinics that can support athletes with disabilities across a range of sports.
Subject(s)
Disabled Persons , Sports for Persons with Disabilities , Sports , Male , Child , Adolescent , Female , Humans , Athletes , United KingdomABSTRACT
Rapid transcranial magnetic stimulation is being increasingly used in the treatment of psychiatric disorders, especially major depression. However, its mechanisms of action are still unclear. The aim of this study was to assess metabolic changes by proton magnetic resonance spectroscopy following high-frequency rapid transcranial magnetic stimulation (20 Hz), both immediately after a single session and 24 h after a series of five consecutive sessions. Twelve healthy volunteers were enrolled in a prospective single-blind, randomized study [sham (n = 5) vs. real (n = 7)]. Three brain regions were investigated (right, left dorsolateral prefrontal cortex, left anterior cingulate cortex). A single as well as a series of consecutive rapid transcranial magnetic stimulations affected cortical glutamate/glutamine levels. These effects were present not only close to the stimulation site (left dorsolateral prefrontal cortex), but also in remote (right dorsolateral prefrontal cortex, left cingulate cortex) brain regions. Remarkably, the observed changes in glutamate/glutamine levels were dependent on the pre-transcranial magnetic stimulation glutamate/glutamine concentration, i.e. the lower the pre-stimulation glutamate/glutamine level, the higher the glutamate/glutamine increase observed after short- or long-term stimulation (5 days). In general, the treatment was well tolerated and no serious side-effects were reported. Neither transient mood changes nor significant differences in the outcome of a series of neuropsychological test batteries after real or sham transcranial magnetic stimulation occurred in our experiment. In summary, these data indicate that rapid transcranial magnetic stimulation may act via stimulation of glutamatergic prefrontal neurons.
