RESUMO
Children with hematologic and oncologic health conditions are at risk of impaired skeletal muscle strength, size, and neuromuscular activation that may limit gross motor performance. A comprehensive assessment of neuromuscular function of these children is essential to identify the trajectory of changes in skeletal muscle and to prescribe therapeutic exercise and monitor its impact. Therefore, this review aims to (a) define fundamental properties of skeletal muscle; (b) highlight methods to quantify muscle strength, size, and neuromuscular activation; (c) describe mechanisms that contribute to muscle strength and gross motor performance in children; (d) recommend clinical assessment measures; and (e) illustrate comprehensive muscle assessment in children using examples of sickle cell disease and musculoskeletal sarcoma.
RESUMO
Unplanned resection is a common problem in the management of sarcoma. Because sarcomas are so rare, they may be misdiagnosed initially as more common benign lesions. When the treating surgeon is unaware of or does not adhere to proper surgical principles of orthopaedic oncology, an intralesional procedure may be performed without the requisite preoperative imaging, staging, or wide resection margins for optimal management of sarcoma. Studies show that oncologic outcomes after unplanned resections are mixed; however, surgical outcomes drastically deteriorate. Failure to adhere to oncologic principles accounts for increased morbidity and amputation rates with re-resection. No diagnostic modality has been proven to accurately predict residual disease in the resection bed following unplanned resection. Thus, repeat surgery with or without adjuvant treatment is usually offered to these patients, thereby adding considerable cost and morbidity. Medical malpractice litigation associated with unplanned sarcoma resection is common, with delayed diagnosis and unnecessary amputation most often cited in cases decided in favor of the plaintiff.