====== Vascular neurosurgery ====== see [[Open vascular neurosurgery]]. see [[Vascular neurosurgeon]]. ===== Events ===== The first [[Gamma Knife]] in the [[US]] in [[1987]] [[Guglielmi detachable coil]]s in [[1991]] The International Subarachnoid Aneurysm Trial ([[ISAT]]) in [[1999]] The International Study of Unruptured Intracranial Aneurysms ([[ISUIA]]) in [[2003]] [[Onyx]] liquid embolic material in [[2005]] [[Pipeline]] endovascular device in [[2011]] Carotid Occlusion Surgery Study ([[COSS]]) in [[2011]] Randomized Trial of Unruptured Brain Arteriovenous Malformations ([[ARUBA]]) in [[2014]] Multiple clinical trials validating the efficacy of mechanical thrombectomy for acute ischemic stroke caused by large vessel occlusion in 2015. Over the last few decades, cerebrovascular surgery has gravitated towards a minimally invasive philosophy without compromising the foundational principles of [[patient safety]] and surgical [[efficacy]]. Enhanced radiosurveillance modalities and increased average life expectancy have resulted in an increased reported incidence of [[intracranial aneurysm]]s. Although endovascular therapies have gained popularity in the recent years, microsurgical clipping continues to be of value in the management of these aneurysms owing to its superior occlusion rates, applicability to [[complex aneurysm]]s and reduced retreatment rates. The concept of [[keyhole]] transcranial procedures has advanced the field significantly leading to decreased post-operative neurological morbidity and quicker recovery. The main keyhole neurosurgical [[approach]]es include the [[supraorbital craniotomy]] (SOC), [[lateral supraorbital craniotomy]] (LSOC), [[minipterional craniotomy]] (MPTC), mini-[[orbitozygomatic craniotomy]] and the mini [[anterior interhemispheric approach]] (MAIA). As these [[minimally invasive]] approaches can have an inherent limitation of a narrow viewing angle and low regional illumination, the use of [[endoscopic]] assistance in such procedures is being popularized. [[Neuroendoscopy]] can aid in the visualization of hidden neurovascular structures and inspection of the parent arterial segment without undue retraction of the lesion. A review of Gandhi et al. from the [[Barrow Neurological Institute]], Department of Neurological Surgery, [[Phoenix]],focuses on the historical progression of [[intracranial aneurysm surgery]], the technical details of various minimally invasive approaches, patient selection and clinical outcomes of the [[anterior circulation aneurysm]]s and useful tenets to avoid [[complication]]s during these [[procedure]]s. Meticulous preoperative [[planning]] to understand the patient's vascular anatomy, the orientation and relationship of the aneurysm to adjacent structures, use of [[neuronavigation]] guidance and [[endoscopic]] assistance if needed can lead to an optimal surgical outcome while minimizing neurological morbidity and mortality ((Gandhi S, Cavallo C, Zhao X, Belykh E, Lee M, Yoon S, Labib M, Meybodi AT, Moreira LB, Preul MC, Nakaji P. Minimally invasive approaches to aneurysms of the anterior circulation: selection criteria and clinical outcomes. J Neurosurg Sci. 2018 Sep 10. doi: 10.23736/S0390-5616.18.04562-9. [Epub ahead of print] PubMed PMID: 30207433. )). ---- Most [[neurovascular]] [[innovation]]s have been introduced by using [[case series]] followed by a [[observational study]]. A better approach would be a pragmatic [[randomized trial]]. Two important aspects of trial design, patient selection and randomized allocation, remain poorly understood. We discuss the role trial [[methodology]] can play in the protection of patients being offered innovative treatments ((Fahed R, Darsaut TE, Raymond J. The introduction of innovations in neurovascular care: Patient selection and randomized allocation. World Neurosurg. 2018 Jun 23. pii: S1878-8750(18)31343-3. doi: 10.1016/j.wneu.2018.06.127. [Epub ahead of print] PubMed PMID: 29945010. )). The complex, highly technological field of neurovascular surgery is quickly expanding, encompassing traditional [[surgical approaches]], as well as [[Neuroendovascular treatment]] and neurointerventional techniques. The last decade has seen increased cross-specialty interest in utilizing minimally invasive techniques to help prevent and treat cerebrovascular disease. Concurrently, there has been important research analyzing the efficacy of surgical methods versus endovascular approaches and the [[clip]] versus [[coil]] discussion. While vascular neurosurgery has undergone unprecedented advances during the past decade, enabling safer and easier access to previously untreatable pathology, this progress has been accompanied by confusion as to what constitutes best, or even acceptable, practice. see [[Neurovascular center]] ===== Disorders ===== see [[Neurovascular Disorder]] ====Books==== **Trends in Cerebrovascular Surgery (Acta Neurochirurgica Supplement)** This volume provides an overview of new concepts in neurovascular interventions based on clinical and scientific knowledge of cerebrovascular disorders. It especially focuses on subarachnoid hemorrhage and cerebrovascular malformations, e.g. aneurysms, arterio-venous malformations, and cavernomas. A separate part addresses cerebral revascularization for both complex aneurysms and ischemia. All contributions were written by recognized experts and cover original papers presented at the 7th European Japanese Stroke Surgery Conference, held in Verona, Italy in June 2014. The authors present new trends and strategies for managing emerging problems, as well as in-depth discussions on controversial issues in the field. Tetsuya Tsukahara National Hospital Organization, Kyoto Medical Center, Mukaihata-cho 1, 612-8555 Fukakusa, Fushimi-ku, Kyoto, Japan Alberto Pasqualin Verona City Hospital, Institute of Neurosurgery, Piazzale Stefani 1, 37100 Verona, Italy Giuseppe Esposito, MD, PhD Consultant Neurosurgeon, Department of Neurosurgery, University Hospital Zurich, Frauenklinikstrasse 10, 8091 Zurich, Switzerland Luca Regli University Hospital Zurich, Department of Neurosurgery, Frauenklinikstrasse 10, 8091 Zurich, Switzerland Giampietro Pinna Verona City Hospital, Institute of Neurosurgery, Piazzale Stefani 1, 37100 Verona, Italy ---- [[http://astore.amazon.com/neurocirugiacom/detail/1604067594|{{http://ecx.images-amazon.com/images/I/51iDZL6rCuL._SL210_.jpg}}]] ---- **Controversies in Vascular Neurosurgery** This concise, easy-to-use book offers expert insights into current controversies in vascular neurosurgery with a view to providing the practitioner with authoritative practical guidance that will assist in the management of difficult disease entities. Here, experts in the field discuss the various tools available and explain how best to use them when confronted by different pathologies, drawing upon their personal experience. Each chapter focuses on a specific case that is discussed by two experienced surgeons; a third author then evaluates the case, highlighting the available evidence and pearls in the treatment of that particular disease. The authors have been carefully chosen to provide a truly balanced viewpoint on paradigms that they themselves use. They therefore have a sound understanding of the thought processes of surgeons when dealing with challenging diseases for which there may be no single correct path. Furthermore, they are well placed to identify not only appropriate uses of new treatment options and technologies but also circumstances in which their use is best avoided. The ultimate benefactor of this book will be the patient: our biases as physicians should never become a patient’s morbidity.