Journal of clinical neuroscience : official journal of the Neurosurgical Society of Australasia
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Patient-reported outcome measures are increasingly used to access pain, disability, physical function, and mental status to quantify effectiveness of surgical intervention in cervical myelopathy, yet each score has little meaning without established thresholds linked to clinical benefit. We set out to develop thresholds for substantial clinical benefit (SCB) in patients undergoing surgery for cervical myelopathy and to evaluate the effect of length of follow-up on SCB thresholds. Thirty-five patients undergoing spinal surgery for progressive cervical myelopathy were tracked from 2005 to 2015. ⋯ Stratification of thresholds by length of time revealed a significant effect of follow-up time with NDI but not PCS. NDI and PCS thresholds have significantly strong discriminatory value in identifying patients receiving substantial clinical benefit with regard to cervical myelopathy. When NDI is used to predict outcome, choosing thresholds calibrated for follow-up time is recommended to maximize predictive power.
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Spinal arteriovenous malformations (AVMs) comprise a group of complex vascular lesions whose treatment with microsurgery or transarterial embolization can be challenging. Stereotactic radiosurgery is a well-established treatment for intracranial AVMs, and spinal radiosurgery and fractionated radiotherapy are common treatments for spinal tumors of both primary and metastatic origin. The use of radiosurgery and fractionated radiotherapy for the treatment of spinal arteriovenous malformations, however, has been infrequently reported. ⋯ In aggregate, good outcomes were reported in 92.2% with no instances of post-treatment hemorrhage over a mean follow-up time of 46.8 months. Angiographic follow-up showed the nidus to be obliterated in 16%, decreased in 44.6%, and unchanged in 39.3%. Stereotactic radiosurgery for spinal arteriovenous malformations holds promise as a safe and potentially effective option in the treatment of these rare but complex lesions.
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Neurosurgeons are faced with the challenge of planning, performing, and learning complex surgical procedures. With improvements in computational power and advances in visual and haptic display technologies, augmented and virtual surgical environments can offer potential benefits for tests in a safe and simulated setting, as well as improve management of real-life procedures. This systematic literature review is conducted in order to investigate the roles of such advanced computing technology in neurosurgery subspecialization of intracranial tumor removal. The study would focus on an in-depth discussion on the role of virtual reality and augmented reality in the management of intracranial tumors: the current status, foreseeable challenges, and future developments.