Intra-operative magnetic resonance imaging in neurosurgery

Summary Intra-operative MRI (iMRI) has been incorporated into modern neurosurgical operating rooms as a guide for neurosurgical interventions for almost ten years. This technology has been shown to be a useful modality in brain tumour surgery and biopsy; its use in spine, vascular and epilepsy surgery has been evolving. It is particularly useful in low-grade gliomas, pituitary adenomas and pediatric tumors.We evaluate currently available iMRI systems and their applications in neurosurgery. Future possibilities related to iMRI systems are mentioned in the light of current advances.     

Anesthesia for minimally invasive cranial and spinal surgery

The field of minimally invasive neurosurgery has evolved rapidly in its indications and applications over the last few years. New, less invasive techniques with low morbidity and virtually no mortality are replacing conventional neurosurgical procedures. Providing anesthesia for these procedures differs in many ways from conventional neurosurgical operations. Anesthesiologists are faced with the perioperative requirements and risks of newly developed procedures. This review calls attention to the anesthetic issues in various minimally invasive neurosurgical procedures for cranial and spinal indications. Among the procedures specifically discussed are endoscopic third ventriculostomy, endoscopic transsphenoidal hypophysectomy, endoscopic strip craniectomy, deep brain stimulation, video-assisted thorascopic surgery, vertebroplasty and kyphoplasty, cervical discectomy and foraminectomy, and laparoscopically assisted lumbar spine surgery.     

Lasers in neurosurgery

Lasers have been used in neurosurgery for the past 25 years, undergoing modifications to suit the specific needs of this medical discipline. The present report reviews the current use of lasers in neurosurgical practice and examines the pros and cons of lasers in specific neurosurgical applications. In spite of their advantages, laser use is still not widespread in neurosurgery. One reason is the continued lack of complete control over real-time laser interactions with neural tissue. A greater acceptance and use of lasers by neurosurgeons will depend upon automated control over defined specific parameters for laser applications based upon the type of tissue, the desired effect on tissue, and application to the clinical situation without loss of precision and a lot of expense. This will require the integration of newer lasers, computers, robotics, stereotaxy, and concepts of minimally invasive surgery into the routine management of neurosurgical problems. © 1994 Wiley-Liss, Inc.     

Augmented and virtual reality in spine surgery,current applications and future potentials

BACKGROUND CONTEXTThe field of artificial intelligence (AI) is rapidly advancing, especially with recent improvements in deep learning (DL) techniques. Augmented (AR) and virtual reality (VR) are finding their place in healthcare, and spine surgery is no exception. The unique capabilities and advantages of AR and VR devices include their low cost, flexible integration with other technologies, user-friendly features and their application in navigation systems, which makes them beneficial across different aspects of spine surgery. Despite the use of AR for pedicle screw placement, targeted cervical foraminotomy, bone biopsy, osteotomy planning, and percutaneous intervention, the current applications of AR and VR in spine surgery remain limited.PURPOSEThe primary goal of this study was to provide the spine surgeons and clinical researchers with the general information about the current applications, future potentials, and accessibility of AR and VR systems in spine surgery.STUDY DESIGN/SETTINGWe reviewed titles of more than 250 journal papers from google scholar and PubMed with search words: augmented reality, virtual reality, spine surgery, and orthopaedic, out of which 89 related papers were selected for abstract review. Finally, full text of 67 papers were analyzed and reviewed.METHODSThe papers were divided into four groups: technological papers, applications in surgery, applications in spine education and training, and general application in orthopaedic. A team of two reviewers performed paper reviews and a thorough web search to ensure the most updated state of the art in each of four group is captured in the review.RESULTSIn this review we discuss the current state of the art in AR and VR hardware, their preoperative applications and surgical applications in spine surgery. Finally, we discuss the future potentials of AR and VR and their integration with AI, robotic surgery, gaming, and wearables.CONCLUSIONSAR and VR are promising technologies that will soon become part of standard of care in spine surgery.     

Use of computer navigation and robotics in adult spinal deformity

Recent years have seen significant advancements in the implementation of computer-assisted surgery in spine. Enabling technologies like robots and navigation have been refined to compliment the field's shift towards minimally invasive techniques and to fit more seamlessly into the existing workflow. Robotic-surgery and navigation in deformity can be particularly helpful in cases where the severe curves of the spinal column or the abnormal pedicle anatomy make pedicle screw placement challenging with the use of traditional anatomic landmarks. Furthermore, the ability to pre-plan patient specific rods has opened the door for greater precision in rod contouring. Drawbacks of robotic-assisted surgery include the steep upfront cost, the need for additional staff and training and the lack of tactile feedback. This review will discuss the current state of navigation and robotics, with a specific focus on their applications to deformity surgery.     

Robotics in neurosurgery: state of the art and future technological challenges

The use of robotic technologies to assist surgeons was conceptually described almost thirty years ago but has only recently become feasible. In Neurosurgery, medical robots have been applied to neurosurgery for over 19 years. Nevertheless this field remains unknown to most neurosurgeons. The intrinsic characteristics of robots, such as high precision, repeatability and endurance make them ideal surgeon's assistants. Unfortunately, limitations in the current available systems make its use limited to very few centers in the world. During the last decade, important efforts have been made between academic and industry partnerships to develop robots suitable for use in the operating room environment. Although some applications have been successful in areas of laparoscopic surgery and orthopaedics, Neurosurgery has presented a major challenge due to the eloquence of the surrounding anatomy. This review focuses on the application of medical robotics in neurosurgery. The paper begins with an overview of the development of the medical robotics, followed by the current clinical applications in neurosurgery and an analysis of current limitations. We discuss robotic applications based in our own experience in the field. Next, we discuss the technological challenges and research areas to overcome those limitations, including some of our current research approaches for future progress in the field.     

The Use of Robotics Coupled With Navigation for Pediatric Congenital Spine Deformity

Background: Spinal instrumentation in children with congenital spine deformity poses challenges to the surgeon, given the small patient size and the anomalous anatomy often encountered. Purpose: We aimed to investigate the accuracy of screw placement when robotics coupled with real-time navigation was used for surgical treatment of pediatric congenital spine deformity at 1 institution. Methods: We conducted a retrospective search of our institution’s database for all patients younger than 18 years of age with congenital spine deformity who were treated with the robotics surgical platform coupled with navigation between June 2019 and December 2020. We recorded data on demographics, location and type of anomaly, procedure performed, and intraoperative variables related to robotics and navigation. We reviewed the images of patients who had intraoperative 3-dimensional imaging or postoperative computed tomographic scans to determine the accuracy of screw placement using the Gertzbein-Robbins scale. Results: In 14 patients identified, a total of 95 screws were attempted, with 94 successfully placed using robotics coupled with navigation. There were no noted screw-related complications (neurologic or visceral) and no return to the operating room for screw malposition. Conclusion: Patients with congenital spine deformity present potentially unique challenges due to variant anatomy. This retrospective series suggests that robotics coupled with navigation for congenital spine deformity correction in the pediatric population may aid in accurate screw placement and reduce complication rates. More rigorous study is warranted.     

Robotic spine surgery: Ushering in a new era

The endeavour to make spine surgery safe with reproducible, consistent outcomes has led to growing interest and research in the field of intraoperative imaging, navigation and robotics. The advent of surgical robot systems in spine surgery is relatively recent – with only a few systems approved for commercial use. At present, pedicle screw insertion remains the primary application of robotic systems in spine surgery. The purported advantages of robot-assisted pedicle screw insertion over other conventional techniques are its increased accuracy, reproducible consistency and reduced radiation exposure. Many of these claims have been supported or refuted by individual studies – and high quality evidence for the same is lacking. Robotic spine surgery also has its share of limitations which include increased operative time, considerable learning curve and technical pitfalls unique to the robotic systems. The applications of robotic spine surgery are evolving and expanding to spinal deformity, spine oncology and needle-based interventional treatments. This review provides an overview of the evolution and current status of robotic spine surgery along with an evidence-based discussion of its current applications in spine surgery.     

Clinical neurosurgery as it relates to the lumbar spine: what it does versus what it says.

Neurosurgeons may derive as much as 62% of their professional income from and perform proportionately as large a number of procedures on the lumbar spine. Publications in neurosurgical journals, presentations at national and international neurosurgical meetings, and participation in organized neurosurgical symposia are, however, relatively sparse in this area of activity. It appears, therefore, that the lumbar spine must have minimal academic interest to neurosurgeons, as compared with the surgical areas where they have clinical domain, i.e., the brain and spinal cord. In that this clear discrepancy between what they do (their source of income) and what they talk about and publish is apparently not well known to neurosurgeons or their professional society directors, this paper is presented as objective, awakening evidence. The potential impact on future patient draw, professional prowess, and income, which may result from a continuation of this wide gap, is also discussed.     

Cranial neuroendoscopy: novel applications and next frontiers

Neuroendoscopy is an ever-evolving frontier in neurosurgery and its use has spanned decades with safe and efficacious treatment in a variety of cranial procedures. There are areas of technology that are broadening the cranial use of the endoscope. Here we discuss the foundations of cranial neuroendoscopy in the areas of cerebrospinal fluid diversion and tumor biopsy and discuss the recent advancements in the areas of craniosynostosis, endonasal surgery, ventriculo-cisternal approaches, brain parenchymal surgery and skull base surgery. We highlight the ongoing evolution of neuroendoscopic technology and consider the potential future applications that will help to revolutionize the current standards in endoscopy and its use inn neurosurgical practice.     

Overview of Robotic Technology in Spine Surgery

As robotics in spine surgery has progressed over the past 2 decades, studies have shown mixed results on its clinical outcomes and economic impact. In this review, we highlight the evolution of robotic technology over the past 30 years, discussing early limitations and failures. We provide an overview of the history and evolution of currently available spinal robotic platforms and compare and contrast the available features of each. We conclude by summarizing the literature on robotic instrumentation accuracy in pedicle screw placement and clinical outcomes such as complication rates and briefly discuss the future of robotic spine surgery.     

Lactic dehydrogenase isoenzymes following head injury

Serial levels of lactic dehydrogenase (LDH) isoenzymes have been measured in 92 neurosurgical patients with damaged brains, including 77 suffering from head injury. Serum LDH isoenzymes 1 and 2 rise in the injured group and generally reflect the degree of parenchymal brain damage. The method has possible diagnostic applications, as well as some prognostic use.     

Advanced computer-aided intraoperative technologies for information-guided surgical management of gliomas: Tokyo Women's Medical University experience

The availability of the intraoperative MRI and real-time neuronavigation has dramatically changed the principles of surgery for gliomas. Current intraoperative computer-aided technologies permit perfect localization of the neoplasm, precise estimation of its volume, and clear definition of its interrelationships with the eloquent brain structures. This allows maximal tumor resection with minimal risk of postoperative disabilities. Under such conditions the medical treatment has become significantly dependent on the quality of the provided information and can be designated as information-guided management. Therefore, appropriate management of the wide spectrum of the intraoperative medical data and its adequate distribution between members of the surgical team for facilitation of the clinical decision-making is very important for attainment of the best possible outcome. Further progress in advanced neurovisualization, robotics, and comprehensive medical information technology has a great potential to increase the safety of the neurosurgical procedures for parenchymal brain tumors in the eloquent brain areas.     

Current trends in minimally invasive neurosurgery: neuro-endoscopy

Minimal invasive neurosurgery refers to the technological advances accomplished in refining surgical access thus enabling neurosurgeons to reduce the morbidity and improve the accuracy and quality of neurosurgical procedures. Neuro-endoscopy comprises a promising minimal invasive technique being applied in an increasing amount of cases as diseases of cerebrospinal fluid dynamics, brain and spinal tumours, cysts, infections, evacuation of haematomas et al. Representing an important scientific modality neuro-endoscopy favours the rapid recovery of the patient and improves its postoperative quality of life. Personnel training is compulsory so that a safe operative performance is performed. Greater experience in the field would be necessary for broadened applications. Neuro-endoscopy presents exciting scientific possibilities in the future.     

Vascular injury and complication in neurosurgical spine surgery

Summary Vascular injury is an uncommon, but not rare complication of spine surgery. The consequence of vascular injury may be quite devastating, but its incidence can be reduced by understanding the mechanisms of injury. Properly managing vascular injury can reduce mortality and morbidity of patients. A review of the literature was conducted to provide an update on the etiology and management of vascular injury and complication in neurosurgical spine surgery. The vascular injuries were categorized according to each surgical procedure responsible for the injury, i.e., anterior screw fixation of the odontoid fracture, anterior cervical spine surgery, posterior C1–2 arthrodesis, posterior cervical spine surgery, anterolateral approach for thoracolumbar spine fracture, posterior thoracic spine surgery, scoliosis surgery, anterior lumbar interbody fusion (ALIF), lumbar disc arthroplasty, lumbar discectomy, and posterior lumbar spine surgery. The incidence, mechanisms of injury, and reparative measures were discussed for each surgical procedure. Detailed coverage was especially given to vascular injury associated with ALIF, which may have been underestimated. The accumulation of anatomical knowledge and advanced imaging studies has made complex spine surgery safer and more reliable. It is not clear, however, whether the incidence of vascular injury has been reduced significantly in all procedures of spine surgery. Emerging new techniques, such as microendoscopic discectomy and lumbar disc arthroplasty, seem to be promising, but we need to keep in mind their safety issues, including vascular injury and complication.     

The role of statins in neurosurgery

Statins are drugs used to control cholesterol disorders and prevent cardiovascular diseases. Their denominated pleiotropic effects have demonstrated a broad action spectrum that might profit some neurological and neurosurgical diseases. These effects are correlated to dose and kind of statin. We accomplished a systematic review in PubMed and MEDLINE about studies of statins and main neurosurgical diseases. If statins are administered after subarachnoid hemorrhage, a significant lower incidence of vasospasm as well as delayed ischemic deficits and decreased mortality could be found; the results of a large multicenter trial are expected. In other complex diseases as intracerebral hemorrhage or traumatic brain injury, the evidence for positive effects of a treatment with statin increased. Additionally, promising experimental results indicate that high statin doses are able to promote cell death in tumor cells, especially in gliomas. Moreover, experimental and observational studies suggest the ability of statins to modulate the immune system, by that they can reduce incidence and severity of sepsis. The origin of these multiple effects from neuroprotection to tumoral apoptosis is not totally explained so far. Recent data in literature are discussed in this review. More trials in humans are urgently required to finally determine if statins could contribute to the current management of neurosurgical diseases.     

A new mechatronic assistance system for the neurosurgical operating theatre: implementation, assessment of accuracy and application concepts

OBJECTIVE: To introduce a new robotic system to the field of neurosurgery and report on a preliminary assessment of accuracy as well as on envisioned application concepts. Based on experience with another system (Evolution 1, URS Inc., Schwerin, Germany), technical advancements are discussed. MATERIAL/METHODS: The basic module is an industrial 6 degrees of freedom robotic arm with a modified control element. The system combines frameless stereotaxy, robotics, and endoscopy. The robotic reproducibility error and the overall error were evaluated. For accuracy testing CT markers were placed on a cadaveric head and pinpointed with the robot's tool tip, both fully automated and telemanipulatory. Applicability in a clinical setting, user friendliness, safety and flexibility were assessed. RESULTS: The new system is suitable for use in the neurosurgical operating theatre. Hard- and software are user-friendly and flexible. The mean reproducibility error was 0.052-0.062 mm, the mean overall error was 0.816 mm. The system is less cumbersome and much easier to use than the Evolution 1. CONCLUSIONS: With its user-friendly interface and reliable safety features, its high application accuracy and flexibility, the new system is a versatile robotic platform for various neurosurgical applications. Adaptations for different applications are currently being realized.     

Language testing during awake "anesthesia" in a bilingual patient with brain lesion adjacent to Wernicke's area

Awake "anesthesia" is the preferable anesthetic approach for neurosurgical procedures that require intraoperative localization of eloquent brain areas. We describe intraoperative inducible selective English aphasia in a bilingual (English and Italian) patient undergoing awake anesthesia for excision of a brain lesion adjacent to Wernicke's area with no postoperative neurological sequelae. We discuss the importance of intraoperative brain mapping and intraoperative language testing in bilingual patients to prevent iatrogenic-related morbidity.     

Collagen sponge for surface brain protection. Technical note.

The authors discuss the properties, use, and advantages of collagen sponge as a microneurosurgical adjunct. Experience with the material in over 300 operative cases has demonstrated its value for protecting the surface of the brain during exposure and retraction in neurosurgical procedures.     

The use of titanium mesh cages in the cervical spine.

Titanium mesh cages have been used widely for spinal reconstruction since 1986 when they first were introduced. Despite their popularity, relatively few studies have been published on their use in the cervical spine. These cages can be used as structural devices containing autologous local bone or iliac crest bone graft, obviating the need to harvest large structural bone grafts. The main disadvantages of their use are the increased costs and the difficulty of assessing fusion status. The authors review surgical techniques that can be used using titanium mesh cages in cervical spine applications and discuss some of their advantages and disadvantages.