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Pain management in pediatric patients presents a difficult challenge. Unlike adults, pediatric patients often cannot communicate their pain management needs clearly. This is especially true in patients with cerebral palsy (CP), who often have concomitant developmental delay, intellectual disability and verbal limitations. Current literature indicates pain as a common experience for children with CP but has been understudied in this population. Moreover, inadequate post-operative pain control can result in negative physiologic and psychological complications and lead to poor surgical outcomes. Currently, perioperative pain management following orthopaedic procedures in pediatric patients follows traditional protocols that rely on the administration of opioid medications despite their known adverse side effects including nausea, vomiting, itching, constipation, urinary retention, confusion, and respiratory depression. Epidural anesthesia is a key modality in traditional pain management for pediatric patients with CP given its proven efficacy in decreasing pain and managing spasticity. Yet, administering epidural anesthesia in this patient population poses several risks including damage to preexisting intrathecal baclofen pumps, iatrogenic infection, and technically demanding insertion given high rates of concomitant neuromuscular scoliosis. Alternatively, multimodal analgesic injections theoretically offer an efficacious adjunct to traditional pain management protocols with a lower risk profile. Preliminary data from our study group's pilot randomized control trial comparing the safety and efficacy of a multimodal surgical site injection to placebo showed decreased pain scores and narcotic consumption postoperatively in this patient population. Based on these promising results, the objective of this randomized control trial is to evaluate the efficacy of a multimodal surgical site injection compared to epidural anesthesia for postoperative pain control following operative management of hip dysplasia in pediatric patients with CP.
The goal of this feasibility clinical trial is to learn if melatonin can help teens having major musculoskeletal surgery by promoting healthy sleep. Melatonin is available as a dietary supplement that may be effective in promoting longer, higher quality sleep. This study will assess the feasibility and acceptability of melatonin for teens undergoing major musculoskeletal surgery, as well as determine optimal measured outcomes (sleep, pain, health-related quality of life) at short- and long-term follow-up.
At this time, no formal ERAS (enhanced recovery after surgery) protocol exists for THR that incorporates perioperative acupuncture. Developing, and more importantly, validating a preliminary fast-track protocol for THR can have a significant impact on reducing recovery time and improving the rate at which this subgroup of surgeries is done on an outpatient basis. Furthermore, previous studies of acupuncture as an adjunctive therapy for postoperative analgesia have primarily investigated patient satisfaction rather than the impact on postoperative opioid consumption. The majority of studies also place acupuncture needles preoperatively, rather than following induction of anesthesia (intra-operatively). This study hopes to show that placing auricular therapy needles intraoperatively is a feasible part of a protocol for motivated patients to minimize opioids after total knee arthroplasty. The prospect of incorporating intraoperative acupuncture as an adjunct into said protocol is very attractive given its low cost, its safety profile, its ease of administration, and the growing evidence supporting its efficacy. This study would provide further clarity on whether perioperative acupuncture can effectively reduce hospital length of stay and post-operative opioid consumption, in addition to evaluating the role of perioperative acupuncture in improving recovery after THR as part of a multimodal fast-track protocol.
This research study is attempting to answer the question of whether 81 mg aspirin once daily is as effective as 81 mg aspirin twice daily in preventing blood clots after total joint replacement surgery.