Annals of the New York Academy of Sciences
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Ann. N. Y. Acad. Sci. · Dec 2018
ReviewEarly esophageal cancer: the significance of surgery, endoscopy, and chemoradiation.
Early carcinomas of the esophagus are histologically classified as adenocarcinoma or squamous cell carcinoma and microscopically subdivided into mucosal and submucosal carcinomas depending on infiltration depth. The prevalence of lymph node metastasis in mucosal carcinoma remains low. However, lymph node metastases arise frequently from tumors with submucosal infiltration, with increasing prevalence in the deeper submucosal sublayers. ⋯ Minimally invasive procedures show good oncologic results and reduce the morbidity of radical esophagectomy. Reduced morbidity might be an argument for surgical resection in borderline cases between endoscopic and surgical resection. In early squamous cell cancer, the combination of endoscopic resection and adjuvant chemoradiotherapy is a therapeutic option with promising results.
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Ann. N. Y. Acad. Sci. · Dec 2018
ReviewPepsin: biomarker, mediator, and therapeutic target for reflux and aspiration.
Extra-esophageal reflux is suspected to cause a wide range of clinical symptoms in the upper airways. Diagnosis and treatment has focused on acid, but realization of the role of nonacid reflux has resulted in research investigating the use of pepsin as a biomarker for gastric reflux and aspiration. ⋯ In addition to its use as a diagnostic biomarker, pepsin has been shown to cause inflammation independent of the pH of the refluxate and thus despite acid suppression therapy. Research is ongoing to develop new therapies for airway reflux that specifically target pepsin.
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Diabetic foot ulcers (DFUs) are a serious complication of diabetes that results in significant morbidity and mortality. Mortality rates associated with the development of a DFU are estimated to be 5% in the first 12 months, and 5-year morality rates have been estimated at 42%. The standard practices in DFU management include surgical debridement, dressings to facilitate a moist wound environment and exudate control, wound off-loading, vascular assessment, and infection and glycemic control. ⋯ We reviewed the rationale and guidelines for current standard of care practices and reviewed the evidence for the efficacy of adjuvant agents. The adjuvant therapies reviewed include the following categories: nonsurgical debridement agents, dressings and topical agents, oxygen therapies, negative pressure wound therapy, acellular bioproducts, human growth factors, energy-based therapies, and systemic therapies. Many of these agents have been found to be beneficial in improving wound healing rates, although a large proportion of the data are small, randomized controlled trials with high risks of bias.
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Ann. N. Y. Acad. Sci. · Dec 2017
ReviewLooking beyond the intervertebral disc: the need for behavioral assays in models of discogenic pain.
Orthopedic research into chronic discogenic back pain has commonly focused on aging- and degeneration-related changes in intervertebral disc structure, biomechanics, and biology. However, the primary spine-related reason for physician office visits is pain. The ambiguous nature of the human condition of discogenic low back pain motivates the use of animal models to better understand the pathophysiology. ⋯ Looking beyond the intervertebral disc, we describe the different ways to classify pain in human patients and animal models. We describe several behavioral assays that can be used in rodent models to augment disc degeneration measurements and characterize different types of pain. We review rodent models of discogenic pain that employed behavioral pain assays and highlight a need to better integrate neuroscience and orthopedic science methods to extend current understanding of the complex and multifactorial pathophysiology of discogenic back pain.
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Ann. N. Y. Acad. Sci. · Nov 2017
ReviewRecent developments on intramedullary nailing: a biomechanical perspective.
Combining contributions from engineering and medicine, we highlight the biomechanical turning points in the historical evolution of the intramedullary nailing stabilization technique and discuss the recent innovations concerning increase in bone-implant system stability. Following the earliest attempts, where stabilization of long bone fractures was purely based on intuition, intramedullary nailing evolved from allowing alignment and translational control through press-fit fixation to current clinical widespread acceptance marked by the mechanical linkage between nail and bone with interlocking screws that allow alignment, translation, rotation, and length control. ⋯ Intramedullary nail improvements will most likely benefit from merging mechanics and fracture-healing biology by combining surface engineering with sensor tools associated with the innovative progress in wireless technology and with bone-healing biological active agents. Future research should aim at better understanding the ideal mechanobiological environment for each stage of fracture healing in order to allow for intramedullary nail design that satisfies such requirements.