Your search keyword '"Barone DG"' showing total 54 results

1. EE518 An Early Cost-Effectiveness Analysis of Minimally Invasive Paddle-Type Spinal Cord Stimulation for the Treatment of Chronic Neuropathic Pain

Author

Tahir, W, Barker-Yip, J, Buchanan, V, Proctor, CM, Malliaras, GG, and Barone, DG

Published

2022

2. Cylindrical vs Paddle Leads in Spinal Cord Stimulation for the Long-term Treatment of Chronic Pain: A Systematic Review and Meta-analysis.

Author

El Hadwe S, Wronowski F, Rehman S, Ansong Snr YO, and Barone DG

Abstract

Objectives: This systematic review compares the long-term efficacy of cylindrical-lead spinal cord stimulation (CL-SCS) vs paddle-lead spinal cord stimulation (Paddle-SCS) for chronic pain management., Materials and Methods: We included prospective and retrospective studies with at least ten patients reporting on the efficacy of either lead type. Primary outcomes were pain score reduction (measured by the visual analog scale [VAS] and numeric rating scale [NRS]) and 50% pain relief after at least 12 months. Secondary outcomes included functional disability and complications, such as lead migration and infection rates. Meta-analyses compared effect sizes, while meta-regression and subgroup analyses addressed heterogeneity., Results: A total of 96 studies, comprising 7726 patients, met the inclusion criteria. Paddle-SCS demonstrated superior pain reduction, with a standardized mean difference (SMD) of 5.37 (95% CI [5.35, 5.38]) compared with CL-SCS, which had an SMD of 4.09 (95% CI [4.08, 4.10]) on the VAS. However, CL-SCS outperformed Paddle-SCS on the NRS, with SMDs of 4.39 vs 2.35, respectively. For 50% pain relief, Paddle-SCS had a success rate of 41.4%, as opposed to 35.4% for CL-SCS. Paddle-SCS showed a lower migration rate (4.3% vs 7.2% for CL-SCS) but higher infection rates (5.0% vs 3.3%)., Conclusions: Paddle-SCS offers superior pain reduction (as measured by the VAS) and a lower migration rate, but a higher infection risk compared with CL-SCS. CL-SCS showed better outcomes as measured by the NRS. The choice between Paddle-SCS and CL-SCS should be individualized according to patient-specific factors and treatment goals. Further research with rigorous study designs is needed to provide clearer comparisons between these interventions., Competing Interests: Conflict of Interest Damiano G. Barone is listed as an inventor on patent family members of international patent application PCT/GB2020/051684, published as WO 2021005382. The remaining authors report no conflicts of interest., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

3. The Future of Biohybrid Regenerative Bioelectronics.

Author

Carnicer-Lombarte A, Malliaras GG, and Barone DG

Abstract

Biohybrid regenerative bioelectronics are an emerging technology combining implantable devices with cell transplantation. Once implanted, biohybrid regenerative devices integrate with host tissue. The combination of transplant and device provides an avenue to both replace damaged or dysfunctional tissue, and monitor or control its function with high precision. While early challenges in the fusion of the biological and technological components limited development of biohybrid regenerative technologies, progress in the field has resulted in a rapidly increasing number of applications. In this perspective the great potential of this emerging technology for the delivery of therapy is discussed, including both recent research progress and potential new directions. Then the technology barriers are discussed that will need to be addressed to unlock the full potential of biohybrid regenerative devices., (© 2024 The Author(s). Advanced Materials published by Wiley‐VCH GmbH.)

Published

2024

4. In Reply: Thoracic Outlet Syndrome Part I: Systematic Review of the Literature and Consensus on Anatomy, Diagnosis, and Classification of Thoracic Outlet Syndrome, and Thoracic Outlet Syndrome Part II: Consensus on the Management of Thoracic Outlet Syndrome by the European Association of Neurosurgical Societies' Section of Peripheral Nerve Surgery.

Author

Dengler NF, Ferraresi S, Rochkind S, Denisova N, Garozzo D, Heinen C, Alimehmeti R, Capone C, Barone DG, Zdunczyk A, Pedro MT, Antoniadis G, Kaiser R, Dubuisson A, Kretschmer T, and Rasulic L

Subjects

Humans, Societies, Medical standards, Europe, Neurosurgical Procedures methods, Thoracic Outlet Syndrome surgery, Thoracic Outlet Syndrome diagnosis, Consensus

Published

2024

5. Ultraconformable cuff implants for long-term bidirectional interfacing of peripheral nerves at sub-nerve resolutions.

Author

Carnicer-Lombarte A, Boys AJ, Güemes A, Gurke J, Velasco-Bosom S, Hilton S, Barone DG, and Malliaras GG

Subjects

Animals, Rats, Male, Electrodes, Implanted, Neuralgia physiopathology, Neuralgia therapy, Rats, Sprague-Dawley, Prostheses and Implants, Neural Conduction physiology, Peripheral Nerves physiology, Action Potentials physiology

Abstract

Implantable devices interfacing with peripheral nerves exhibit limited longevity and resolution. Poor nerve-electrode interface quality, invasive surgical placement and development of foreign body reaction combine to limit research and clinical application of these devices. Here, we develop cuff implants with a conformable design that achieve high-quality and stable interfacing with nerves in chronic implantation scenarios. When implanted in sensorimotor nerves of the arm in awake rats for 21 days, the devices record nerve action potentials with fascicle-specific resolution and extract from these the conduction velocity and direction of propagation. The cuffs exhibit high biocompatibility, producing lower levels of fibrotic scarring than clinically equivalent PDMS silicone cuffs. In addition to recording nerve activity, the devices are able to modulate nerve activity at sub-nerve resolution to produce a wide range of paw movements. When used in a partial nerve ligation rodent model, the cuffs identify and characterise changes in nerve C fibre activity associated with the development of neuropathic pain in freely-moving animals. The developed implantable devices represent a platform enabling new forms of fine nerve signal sensing and modulation, with applications in physiology research and closed-loop therapeutics., (© 2024. The Author(s).)

Published

2024

6. Origami-inspired soft fluidic actuation for minimally invasive large-area electrocorticography.

Author

Coles L, Ventrella D, Carnicer-Lombarte A, Elmi A, Troughton JG, Mariello M, El Hadwe S, Woodington BJ, Bacci ML, Malliaras GG, Barone DG, and Proctor CM

Subjects

Animals, Swine, Craniotomy methods, Craniotomy instrumentation, Minimally Invasive Surgical Procedures instrumentation, Minimally Invasive Surgical Procedures methods, Robotics instrumentation, Robotics methods, Brain physiology, Electrocorticography instrumentation, Electrocorticography methods, Electrodes, Implanted

Abstract

Electrocorticography is an established neural interfacing technique wherein an array of electrodes enables large-area recording from the cortical surface. Electrocorticography is commonly used for seizure mapping however the implantation of large-area electrocorticography arrays is a highly invasive procedure, requiring a craniotomy larger than the implant area to place the device. In this work, flexible thin-film electrode arrays are combined with concepts from soft robotics, to realize a large-area electrocorticography device that can change shape via integrated fluidic actuators. We show that the 32-electrode device can be packaged using origami-inspired folding into a compressed state and implanted through a small burr-hole craniotomy, then expanded on the surface of the brain for large-area cortical coverage. The implantation, expansion, and recording functionality of the device is confirmed in-vitro and in porcine in-vivo models. The integration of shape actuation into neural implants provides a clinically viable pathway to realize large-area neural interfaces via minimally invasive surgical techniques., (© 2024. The Author(s).)

Published

2024

7. Complete encasement of the radial nerve by a giant lipoma: illustrative case.

Author

Bah ES, Barone DG, and Spinner RJ

Abstract

Background: Among the spectrum of adipose lesions associated with peripheral nerves, complete circumferential encasement of the nerve by the lesion is a very rare entity. The authors report the first case of a giant lipoma that completely and circumferentially encased the radial nerve., Observations: A 57-year-old woman presented with a large left-arm mass that she had noticed over a year following significant weight loss. She had hypersensitivity and dysesthesias in the left posterior arm but no weakness or other symptoms. Magnetic resonance imaging of the left upper limb demonstrated a large lipoma completely encasing the radial nerve, originating at the level of the spiral grove proximally and extending distally to the lateral epicondyle. The lesion was completely resected at surgery with total preservation of radial nerve function., Lessons: Lipomas encasing peripheral nerves can be difficult to manage while preserving function. This case adds to the intriguing spectrum of adipose lesions associated with peripheral nerves. https://thejns.org/doi/10.3171/CASE24148.

Published

2024

8. Electrochemically actuated microelectrodes for minimally invasive peripheral nerve interfaces.

Author

Dong C, Carnicer-Lombarte A, Bonafè F, Huang B, Middya S, Jin A, Tao X, Han S, Bance M, Barone DG, Fraboni B, and Malliaras GG

Subjects

Animals, Rats, Sciatic Nerve physiology, Rats, Sprague-Dawley, Electrochemical Techniques methods, Microelectrodes, Peripheral Nerves physiology

Abstract

Electrode arrays that interface with peripheral nerves are used in the diagnosis and treatment of neurological disorders; however, they require complex placement surgeries that carry a high risk of nerve injury. Here we leverage recent advances in soft robotic actuators and flexible electronics to develop highly conformable nerve cuffs that combine electrochemically driven conducting-polymer-based soft actuators with low-impedance microelectrodes. Driven with applied voltages as small as a few hundreds of millivolts, these cuffs allow active grasping or wrapping around delicate nerves. We validate this technology using in vivo rat models, showing that the cuffs form and maintain a self-closing and reliable bioelectronic interface with the sciatic nerve of rats without the use of surgical sutures or glues. This seamless integration of soft electrochemical actuators with neurotechnology offers a path towards minimally invasive intraoperative monitoring of nerve activity and high-quality bioelectronic interfaces., (© 2024. The Author(s).)

Published

2024

9. Flexible circumferential bioelectronics to enable 360-degree recording and stimulation of the spinal cord.

Author

Woodington BJ, Lei J, Carnicer-Lombarte A, Güemes-González A, Naegele TE, Hilton S, El-Hadwe S, Trivedi RA, Malliaras GG, and Barone DG

Subjects

Animals, Rats, Humans, Electric Stimulation methods, Electrodes, Implanted, Spinal Cord physiology, Spinal Cord Injuries therapy, Spinal Cord Injuries physiopathology

Abstract

The spinal cord is crucial for transmitting motor and sensory information between the brain and peripheral systems. Spinal cord injuries can lead to severe consequences, including paralysis and autonomic dysfunction. We introduce thin-film, flexible electronics for circumferential interfacing with the spinal cord. This method enables simultaneous recording and stimulation of dorsal, lateral, and ventral tracts with a single device. Our findings include successful motor and sensory signal capture and elicitation in anesthetized rats, a proof-of-concept closed-loop system for bridging complete spinal cord injuries, and device safety verification in freely moving rodents. Moreover, we demonstrate potential for human application through a cadaver model. This method sees a clear route to the clinic by using materials and surgical practices that mitigate risk during implantation and preserve cord integrity.

Published

2024

10. The paraneurium and the tumefactive appearance of peripheral nerve neurolymphomatosis: illustrative case.

Author

Barone DG, Kendziora RW, Broski SM, Schembri Wismayer DJ, and Spinner RJ

Abstract

Background: Peripheral neurolymphomatosis (NL) is an often-misdiagnosed condition characterized by lymphomatous infiltration within the peripheral nerves. Its rarity and complexity frequently result in delayed diagnosis and suboptimal patient outcomes. This study aims to elucidate the role of the paraneurium (circumneurium) in NL, emphasizing its diagnostic and therapeutic significance., Observations: A 72-year-old man presented with lesions on his right lower eyelid. Initial diagnostics were inconclusive until an excisional biopsy confirmed extranodal marginal zone lymphoma. Following a complete metabolic response to rituximab treatment, the patient relapsed 14 months later with progressive lymphoma and bilateral sciatic nerve involvement, as confirmed by positron emission tomography-computed tomography and magnetic resonance imaging., Lessons: This paper underscores the critical role of the paraneurium in NL, enhancing understanding of its pathophysiology. Integrating advanced imaging techniques have proved essential in accurately identifying neurolymphomatous involvement within the paraneurium. This study paves the way for more effective management strategies in NL and similar conditions, focusing on improving patient care and outcomes.

Published

2024

11. Declaration of Computational Neurosurgery.

Author

Di Ieva A, Suero Molina E, Somerville MA, Beheshti A, Staartjes VE, Serra C, Theodore N, Elliott JM, Wesselink EO, Russo C, Pilitsis JG, Bennett CC, Wu S, Hammond FM, Lozano AM, Cusimano MD, Davidson JM, Castellano JF, Okonkwo DO, Arefan D, Lee CC, Zanier O, Da Mutten R, Matula C, Rutka JT, Pease M, Liu S, Stummer W, Matulionyte R, Yang H, Yuwen C, Cheng X, Fan H, Wang X, Ge Z, Cepeda S, Sheehan JP, Yang JY, Hamer RP, Cohen-Gadol A, Hansford JR, Savage G, Sowman PF, Stewart C, Kateb B, Sherif C, Perperidis A, Guller A, Hanft S, D'Amico RS, Sav A, Cong C, Song Y, Nicolosi F, Wiedmann MKH, Barone DG, Noorani I, Magnussen J, Krieg SM, Meling TR, De Ridder D, Lawton MT, and Rosenfeld JV

Subjects

Humans, Brain surgery, Brain physiology, Computational Biology ethics, Computational Biology methods, Computer Simulation, Neurosurgical Procedures ethics, Neurosurgical Procedures methods, Artificial Intelligence ethics, Neurosurgery ethics, Neurosurgery methods

Abstract

Computational neurosurgery is a novel and disruptive field where artificial intelligence and computational modeling are used to improve the diagnosis, treatment, and prognosis of patients affected by diseases of neurosurgical relevance. The field aims to bring new knowledge to clinical neurosciences and inform on the profound questions related to the human brain by applying augmented intelligence, where the power of artificial intelligence and computational inference can enhance human expertise. This transformative field requires the articulation of ethical considerations that will enable scientists, engineers, and clinical neuroscientists, including neurosurgeons, to ensure that the use of such a powerful application is conducted based on the highest moral and ethical standards with a patient-centric approach to predict and prevent mistakes. This declaration is a first attempt to draw a roadmap to guide the application of practical or applied ethics to computational neurosurgery. It is intended for the use of practitioners, ethicists, and scientists using artificial intelligence to understand and treat all the pathophysiological conditions related to the human brain., (© 2024. The Author(s), under exclusive license to Springer Nature Switzerland AG.)

Published

2024

12. Thin-film implants for bioelectronic medicine.

Author

Oldroyd P, Hadwe SE, Barone DG, and Malliaras GG

Abstract

This article is based on the MRS Mid-Career Researcher Award "for outstanding contributions to the fundamentals and development of organic electronic materials and their application in biology and medicine" presentation given by George G. Malliaras, University of Cambridge, at the 2023 MRS Spring Meeting in San Francisco, Calif. Bioelectronic medicine offers a revolutionary approach to treating disease by stimulating the body with electricity. While current devices show safety and efficacy, limitations, including bulkiness, invasiveness, and scalability, hinder their wider application. Thin-film implants promise to overcome these limitations. Made using microfabrication technologies, these implants conform better to neural tissues, reduce tissue damage and foreign body response, and provide high-density, multimodal interfaces with the body. This article explores how thin-film implants using organic materials and novel designs may contribute to disease management, intraoperative monitoring, and brain mapping applications. Additionally, the technical challenges to be addressed for this technology to succeed are discussed., Competing Interests: Competing interestsThe authors have no competing interests to declare that are relevant to the content of this article., (© The Author(s) 2024.)

Published

2024

13. Regenerative capacity of neural tissue scales with changes in tissue mechanics post injury.

Author

Carnicer-Lombarte A, Barone DG, Wronowski F, Malliaras GG, Fawcett JW, and Franze K

Subjects

Humans, Rats, Animals, Central Nervous System, Schwann Cells physiology, Neurons, Nerve Regeneration physiology, Axons physiology, Mammals, Nerve Tissue, Spinal Cord Injuries

Abstract

Spinal cord injuries have devastating consequences for humans, as mammalian neurons of the central nervous system (CNS) cannot regenerate. In the peripheral nervous system (PNS), however, neurons may regenerate to restore lost function following injury. While mammalian CNS tissue softens after injury, how PNS tissue mechanics changes in response to mechanical trauma is currently poorly understood. Here we characterised mechanical rat nerve tissue properties before and after in vivo crush and transection injuries using atomic force microscopy-based indentation measurements. Unlike CNS tissue, PNS tissue significantly stiffened after both types of tissue damage. This nerve tissue stiffening strongly correlated with an increase in collagen I levels. Schwann cells, which crucially support PNS regeneration, became more motile and proliferative on stiffer substrates in vitro, suggesting that changes in tissue stiffness may play a key role in facilitating or impeding nervous system regeneration., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

14. Editorial. Analysis of outcome reporting in common peroneal neuropathy studies: a systematic review of the literature.

Author

Barone DG and Spinner RJ

Subjects

Humans, Peroneal Nerve, Peroneal Neuropathies surgery

Published

2023

15. Functional neurological restoration of amputated peripheral nerve using biohybrid regenerative bioelectronics.

Author

Rochford AE, Carnicer-Lombarte A, Kawan M, Jin A, Hilton S, Curto VF, Rutz AL, Moreau T, Kotter MRN, Malliaras GG, and Barone DG

Subjects

Rats, Humans, Animals, Electrodes, Nerve Regeneration, Peripheral Nerves, Neurons

Abstract

The development of neural interfaces with superior biocompatibility and improved tissue integration is vital for treating and restoring neurological functions in the nervous system. A critical factor is to increase the resolution for mapping neuronal inputs onto implants. For this purpose, we have developed a new category of neural interface comprising induced pluripotent stem cell (iPSC)-derived myocytes as biological targets for peripheral nerve inputs that are grafted onto a flexible electrode arrays. We show long-term survival and functional integration of a biohybrid device carrying human iPSC-derived cells with the forearm nerve bundle of freely moving rats, following 4 weeks of implantation. By improving the tissue-electronics interface with an intermediate cell layer, we have demonstrated enhanced resolution and electrical recording in vivo as a first step toward restorative therapies using regenerative bioelectronics.

Published

2023

16. 3D Bioelectronics with a Remodellable Matrix for Long-Term Tissue Integration and Recording.

Author

Boys AJ, Carnicer-Lombarte A, Güemes-Gonzalez A, van Niekerk DC, Hilton S, Barone DG, Proctor CM, Owens RM, and Malliaras GG

Subjects

Humans, Prostheses and Implants, Microelectrodes, Regenerative Medicine, Electronics, Foreign Bodies

Abstract

Bioelectronics hold the key for understanding and treating disease. However, achieving stable, long-term interfaces between electronics and the body remains a challenge. Implantation of a bioelectronic device typically initiates a foreign body response, which can limit long-term recording and stimulation efficacy. Techniques from regenerative medicine have shown a high propensity for promoting integration of implants with surrounding tissue, but these implants lack the capabilities for the sophisticated recording and actuation afforded by electronics. Combining these two fields can achieve the best of both worlds. Here, the construction of a hybrid implant system for creating long-term interfaces with tissue is shown. Implants are created by combining a microelectrode array with a bioresorbable and remodellable gel. These implants are shown to produce a minimal foreign body response when placed into musculature, allowing one to record long-term electromyographic signals with high spatial resolution. This device platform drives the possibility for a new generation of implantable electronics for long-term interfacing., (© 2022 The Authors. Advanced Materials published by Wiley-VCH GmbH.)

Published

2023

17. Thoracic Outlet Syndrome Part II: Consensus on the Management of Neurogenic Thoracic Outlet Syndrome by the European Association of Neurosurgical Societies' Section of Peripheral Nerve Surgery.

Author

Rochkind S, Ferraresi S, Denisova N, Garozzo D, Heinen C, Alimehmeti R, Capone C, Barone DG, Zdunczyk A, Pedro MT, Antoniadis G, Kaiser R, Dubuisson A, Pondaag W, Kretschmer T, Rasulic L, and Dengler NF

Subjects

Humans, Treatment Outcome, Prospective Studies, Neurosurgical Procedures adverse effects, Decompression, Surgical adverse effects, Peripheral Nerves surgery, Observational Studies as Topic, Thoracic Outlet Syndrome diagnosis, Thoracic Outlet Syndrome surgery

Abstract

Background: In the first part of this report, the European Association of Neurosurgical Societies' section of peripheral nerve surgery presented a systematic literature review and consensus statements on anatomy, classification, and diagnosis of thoracic outlet syndrome (TOS) along with a subclassification system of neurogenic TOS (nTOS). Because of the lack of level 1 evidence, especially regarding the management of nTOS, we now add a consensus statement on nTOS treatment among experienced neurosurgeons., Objective: To document consensus and controversy on nTOS management, with emphasis on timing and types of surgical and nonsurgical nTOS treatment, and to support patient counseling and clinical decision-making within the neurosurgical community., Methods: The literature available on PubMed/MEDLINE was systematically searched on February 13, 2021, and yielded 2853 results. Screening and classification of abstracts was performed. In an online meeting that was held on December 16, 2021, 14 recommendations on nTOS management were developed and refined in a group process according to the Delphi consensus method., Results: Five RCTs reported on management strategies in nTOS. Three prospective observational studies present outcomes after therapeutic interventions. Fourteen statements on nonsurgical nTOS treatment, timing, and type of surgical therapy were developed. Within our expert group, the agreement rate was high with a mean of 97.8% (± 0.04) for each statement, ranging between 86.7% and 100%., Conclusion: Our work may help to improve clinical decision-making among the neurosurgical community and may guide nonspecialized or inexperienced neurosurgeons with initial patient management before patient referral to a specialized center., (Copyright © Congress of Neurological Surgeons 2022. All rights reserved.)

Published

2023

18. X-Ray Markers for Thin Film Implants.

Author

Woodington BJ, Coles L, Rochford AE, Freeman P, Sawiak S, O'Neill SJK, Scherman OA, Barone DG, Proctor CM, and Malliaras GG

Subjects

Barium, Electrodes, Implanted, Humans, X-Rays, Bismuth, Elastomers

Abstract

Implantable electronic medical devices are used in functional mapping of the brain before surgery and to deliver neuromodulation for the treatment of neurological and neuropsychiatric disorders. Their electrode arrays are assembled by hand, and this leads to bulky form factors with limited flexibility and low electrode counts. Thin film implants, made using microfabrication techniques, are emerging as an attractive alternative, as they offer dramatically improved conformability and enable high density recording and stimulation. A major limitation of these devices, however, is that they are invisible to fluoroscopy, the most common method used to monitor the insertion of implantable electrodes. Here, the development of mechanically flexible X-ray markers using bismuth- and barium-infused elastomers is reported. Their X-ray attenuation properties in human cadavers are explored and it is shown that they are biocompatible in cell cultures. It is further shown that they do not distort magnetic resonance imaging images and their integration with thin film implants is demonstrated. This work removes a key barrier for the adoption of thin film implants in brain mapping and in neuromodulation., (© 2022 The Authors. Advanced Healthcare Materials published by Wiley-VCH GmbH.)

Published

2022

19. Hybrid fabrication of multimodal intracranial implants for electrophysiology and local drug delivery.

Author

Gurke J, Naegele TE, Hilton S, Pezone R, Curto VF, Barone DG, List-Kratochvil EJW, Carnicer-Lombarte A, and Malliaras GG

Subjects

Cardiac Electrophysiology, Microtechnology, Prostheses and Implants, Electrophysiological Phenomena, Neurosciences

Abstract

New fabrication approaches for mechanically flexible implants hold the key to advancing the applications of neuroengineering in fundamental neuroscience and clinic. By combining the high precision of thin film microfabrication with the versatility of additive manufacturing, we demonstrate a straight-forward approach for the prototyping of intracranial implants with electrode arrays and microfluidic channels. We show that the implant can modulate neuronal activity in the hippocampus through localized drug delivery, while simultaneously recording brain activity by its electrodes. Moreover, good implant stability and minimal tissue response are seen one-week post-implantation. Our work shows the potential of hybrid fabrication combining different manufacturing techniques in neurotechnology and paves the way for a new approach to the development of multimodal implants.

Published

2022

20. Thoracic Outlet Syndrome Part I: Systematic Review of the Literature and Consensus on Anatomy, Diagnosis, and Classification of Thoracic Outlet Syndrome by the European Association of Neurosurgical Societies' Section of Peripheral Nerve Surgery.

Author

Dengler NF, Ferraresi S, Rochkind S, Denisova N, Garozzo D, Heinen C, Alimehmeti R, Capone C, Barone DG, Zdunczyk A, Pedro MT, Antoniadis G, Kaiser R, Dubuisson A, Kretschmer T, and Rasulic L

Subjects

Humans, Neurosurgical Procedures adverse effects, Peripheral Nerves, Physical Therapy Modalities, Quality of Life, Thoracic Outlet Syndrome diagnosis, Thoracic Outlet Syndrome etiology, Thoracic Outlet Syndrome surgery

Abstract

Background: Although numerous articles have been published not only on the classification of thoracic outlet syndrome (TOS) but also on diagnostic standards, timing, and type of surgical intervention, there still remains some controversy because of the lack of level 1 evidence. So far, attempts to generate uniform reporting standards have not yielded conclusive results., Objective: To systematically review the body of evidence and reach a consensus among neurosurgeons experienced in TOS regarding anatomy, diagnosis, and classification., Methods: A systematic literature search on PubMed/MEDLINE was performed on February 13, 2021, yielding 2853 results. Abstracts were screened and classified. Recommendations were developed in a meeting held online on February 10, 2021, and refined according to the Delphi consensus method., Results: Six randomized controlled trials (on surgical, conservative, and injection therapies), 4 "guideline" articles (on imaging and reporting standards), 5 observational studies (on diagnostics, hierarchic designs of physiotherapy vs surgery, and quality of life outcomes), and 6 meta-analyses were identified. The European Association of Neurosurgical Societies' section of peripheral nerve surgery established 18 statements regarding anatomy, diagnosis, and classification of TOS with agreement levels of 98.4 % (±3.0)., Conclusion: Because of the lack of level 1 evidence, consensus statements on anatomy, diagnosis, and classification of TOS from experts of the section of peripheral nerve surgery of the European Association of Neurosurgical Societies were developed with the Delphi method. Further work on reporting standards, prospective data collections, therapy, and long-term outcome is necessary., (Copyright © Congress of Neurological Surgeons 2022. All rights reserved.)

Published

2022

21. Spinal cord bioelectronic interfaces: opportunities in neural recording and clinical challenges.

Author

Jiang L, Woodington B, Carnicer-Lombarte A, Malliaras G, and Barone DG

Subjects

Animals, Biomechanical Phenomena, Electrodes, Spinal Cord physiology, Spinal Cord Injuries therapy

Abstract

Bioelectronic stimulation of the spinal cord has demonstrated significant progress in the restoration of motor function in spinal cord injury (SCI). The proximal, uninjured spinal cord presents a viable target for the recording and generation of control signals to drive targeted stimulation. Signals have been directly recorded from the spinal cord in behaving animals and correlated with limb kinematics. Advances in flexible materials, electrode impedance and signal analysis will allow spinal cord recording (SCR) to be used in next-generation neuroprosthetics. In this review, we summarize the technological advances enabling progress in SCR and describe systematically the clinical challenges facing spinal cord bioelectronic interfaces and potential solutions, from device manufacture, surgical implantation to chronic effects of foreign body reaction and stress-strain mismatches between electrodes and neural tissue. Finally, we establish our vision of bi-directional closed-loop spinal cord bioelectronic bypass interfaces that enable the communication of disrupted sensory signals and restoration of motor function in SCI., (Creative Commons Attribution license.)

Published

2022

22. Prevention of the foreign body response to implantable medical devices by inflammasome inhibition.

Author

Barone DG, Carnicer-Lombarte A, Tourlomousis P, Hamilton RS, Prater M, Rutz AL, Dimov IB, Malliaras GG, Lacour SP, Robertson AAB, Franze K, Fawcett JW, and Bryant CE

Subjects

Humans, Macrophages, NLR Family, Pyrin Domain-Containing 3 Protein, Prostheses and Implants, Foreign Bodies, Inflammasomes

Abstract

SignificanceImplantable electronic medical devices (IEMDs) are used for some clinical applications, representing an exciting prospect for the transformative treatment of intractable conditions such Parkinson's disease, deafness, and paralysis. The use of IEMDs is limited at the moment because, over time, a foreign body reaction (FBR) develops at the device-neural interface such that ultimately the IEMD fails and needs to be removed. Here, we show that macrophage nucleotide-binding oligomerization domain-like receptor family pyrin domain containing 3 (NLRP3) inflammasome activity drives the FBR in a nerve injury model yet integration of an NLRP3 inhibitor into the device prevents FBR while allowing full healing of damaged neural tissue to occur.

Published

2022

23. Surgical Resection of an Arteriovenous Malformation of the Orbital Surface of the Frontal Lobe with Olfactory Tract Preservation: 2-Dimensional Operative Video.

Author

Budohoski KP, Tajsic T, Barone DG, Guilfoyle M, Santarius T, Kirollos RW, and Trivedi RA

Subjects

Adult, Anterior Cerebral Artery diagnostic imaging, Anterior Cerebral Artery pathology, Anterior Cerebral Artery surgery, Cerebral Angiography methods, Cerebral Hemorrhage complications, Female, Frontal Lobe diagnostic imaging, Frontal Lobe pathology, Frontal Lobe surgery, Humans, Olfactory Bulb pathology, Intracranial Arteriovenous Malformations complications, Intracranial Arteriovenous Malformations diagnostic imaging, Intracranial Arteriovenous Malformations surgery

Abstract

Medial orbitofrontal area arteriovenous malformations (AVMs) are located in the noneloquent cortex and typically drain superficially into Sylvian veins or the superior sagittal sinus, making them favorable for surgical treatment. However, while typically supplied by pial/cortical branches of the anterior cerebral artery (ACA), they can incorporate the recurrent artery of Heubner and other ACA perforators on their way to the anterior perforated substance located just posterior. We present a case of a 30-year-old female admitted with sudden collapse and intraventricular hemorrhage from a ruptured medial orbitofrontal area AVM. She was admitted to the intensive care unit and an external ventricular drain was placed to treat acute hydrocephalus. Catheter angiography demonstrated an AVM located just anteromedial to the termination of the internal carotid artery with a compact nidus and an associated intranidal flow aneurysm. Arterial supply originated from the orbitofrontal artery off the ACA, with medial lenticulostriates seen coursing past the nidus. Additional supply from the recurrent artery of Heubner could not be excluded. However, a hypodensity in the inferior frontal lobe seen on the presentation computed tomography scan was suggestive of a prior orbitofrontal infarct and thus cortical, rather than perforator, supply. In our practice, treatment of ruptured AVMs is dictated by the patients' clinical recovery and associated high-risk features (e.g., flow aneurysms). In this case, despite the presence of a flow aneurysm, treatment was delayed 18 days due to slow neurologic recovery and family preference. The patient remained in the intensive care unit under close neurologic observation. She was extubated on day 10, and the external ventricular drain was removed on day 12 after confirming resolution of intraventricular hemorrhage. Preoperatively the patient recovered to a Glasgow Coma Scale score of 15. Risks of treatment were discussed, and informed consent was obtained. The patient was treated using a standard pterional craniotomy. We describe the anatomic location of the lesion in the medial orbitofrontal area, the relationship to the olfactory tract and olfactory stria. We demonstrate olfactory tract dissection from its arachnoid cistern between the orbitofrontal lobe and gyrus rectus in order to access the lesion. Indocyanine green angiography is used to help surgical dissection and for quality control at the end of the procedure. We do not perform intraoperative angiography routinely; however, it can be a useful adjunct in deep and/or eloquent locations, which are difficult to image using videoangiography. Nevertheless, in the absence of intraoperative angiography close dissection directly over the nidus on the eloquent side ensures preservation of functional brain. We describe the microsurgical techniques of surgical treatment of AVMs, in particular the "cone" dissection technique of the AVM in order to allow identification of all feeding vessels and tracing "en passant" vessels from proximal to distal, as well as the use of intraoperative videoangiography to elucidate the nidus morphology and immediate postoperative quality control (Video 1, available at https://drive.google.com/file/d/1IXuLg84MwyMek1_Z1f1n7qssLThimvdx/view?usp=sharing)., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

24. Far Lateral Approaches: Far Lateral Approach With Minimal Condylectomy for C2 Schwannoma: 3-Dimensional Operative Video.

Author

Budohoski KP, Barone DG, Kirollos RW, Santarius T, and Trivedi RA

Abstract

Upper cervical schwannomas are rare lesions and together with meningiomas constitute around 5% of spinal tumors. The approach to these lesions is difficult because of the close proximity of the medulla and cervical spinal cord, lower cranial nerves, and the vertebral artery. Schwannomas in the upper cervical area typically arise from the dorsal roots and are located posterior to the dentate ligament. Nevertheless, a far lateral approach is often required for these lesions because of their lateral extent through the neural foramen and the proximity of both the V3 and V4 segments of the vertebral artery. With these lesions, an extensive condylectomy is rarely required. We present a case of a 40-yr-old woman who presented with an 8-mo history of deteriorating mobility and feeling of heaviness in the lower limbs with a further acute deterioration 1 wk before admission. She had a dissociated sensory loss and myelopathy in keeping with a partial hemicord syndrome. Imaging revealed a right-sided C2 intradural lesion extending through the C2 foramen in keeping with a C2 schwannoma. The patient was counseled on the treatment options, and informed consent for surgery was obtained. We describe a right-sided far lateral approach with minimal condylectomy for gross total resection of this lesion. We demonstrate the relationship of the tumor with the C2 nerve root, the spinal accessory nerve, and the cervical cord. We supplement the discussion with a 3D surgical video., (Copyright © Congress of Neurological Surgeons 2021. All rights reserved.)

Published

2022

25. Far Lateral Approaches: Dural Arteriovenous Fistulae at the Hypoglossal Canal: 3-Dimensional Operative Video.

Author

Budohoski KP, Barone DG, Mediratta S, Ross M, Kirollos RW, Santarius T, and Trivedi RA

Abstract

Cognard type V dural arteriovenous fistulae (dAVF) are typically located at the foramen magnum. Their presentation often mimics that of cervical myelopathy, and they can be easily misdiagnosed even if spinal vascular imaging is undertaken. Treatment typically involves endovascular embolization or surgery when embolization is not possible. We describe a case of a 67-yr-old man who presented with progressive symptoms of cervical myelopathy with a significant reduced ambulation and upper motor neuron signs. Imaging disclosed upper cervical cord edema, and angiography confirmed a Cognard type V dAVF with drainage into the perimedullary and spinal venous system. The dAVF was supplied by the hypoglossal division of the ascending pharyngeal artery. Endovascular treatment was believed to pose a risk of ischemic injury to the hypoglossal nerve, and therefore, surgery was offered. Informed consent was obtained. A far lateral approach was used to access the fistulous point. We describe the relevant vascular anatomy and the benefits of the far lateral approach for this lesion. We also demonstrate a tailored inferior condylectomy to gain access to the intracranial part of the hypoglossal canal, where the draining vein is expected to be found. We supplement the discussion with a 3D surgical video., (Copyright © Congress of Neurological Surgeons 2021. All rights reserved.)

Published

2022

26. Far Lateral Approaches: C1 Meningioma With Vertebral Artery Involvement: 3-Dimensional Operative Video.

Author

Budohoski KP, Barone DG, Mediratta S, Ross MI, Kirollos RW, Santarius T, and Trivedi RA

Abstract

Tumors around the cervicomedullary junction are rare and constitute 5% of spinal tumors and 1% of cranial tumors. The approach to these lesions is difficult because of the close proximity of the medulla and cervical spinal cord, lower cranial nerves, and vertebral artery (VA) as well as the complex articulation between occipital condyle, C1 and C2. Cervicomedullary junction meningiomas are commonly classified based on their origin in relation to the dentate ligament, but the relationship to the VA typically plays an important role in deciding the surgical approach. For lesions located dorsal to the dentate ligament and not involving the VA, a midline approach is typically sufficient. However, when the VA is involved a far lateral approach is preferred as it offers better access to the V4 segment. We describe a case of a 55-yr-old man who presented with accessory nerve palsy and mild upper motor neuron signs and was found to have a C1 meningioma encasing and narrowing the VA at the V3/V4 segment. Informed consent was obtained. The patient was treated with a right far lateral approach with limited condylectomy to gain access to the V4 segment. We described the steps used for safe resection of the tumor around the VA from distal to proximal. We demonstrate the relationship of the tumor to the VA and the need to completely skeletonize the VA to achieve a gross total resection. We supplement the discussion with a 3D surgical video., (Copyright © Congress of Neurological Surgeons 2021. All rights reserved.)

Published

2022

27. Longitudinal Changes in Size of Conservatively Managed Flow-Related Aneurysms Associated with Brain Arteriovenous Malformations.

Author

Budohoski KP, Mohan M, Millar Z, Tajsic T, Barone DG, Cao JJL, Mediratta S, Phelps E, Sukthankar T, Kirollos RW, Helmy AE, Guilfoyle MR, and Trivedi RA

Subjects

Adult, Aged, Conservative Treatment, Endovascular Procedures, Female, Humans, Intracranial Aneurysm complications, Intracranial Arteriovenous Malformations surgery, Longitudinal Studies, Male, Middle Aged, Retrospective Studies, Treatment Outcome, Intracranial Aneurysm diagnostic imaging, Intracranial Aneurysm pathology, Intracranial Aneurysm therapy, Intracranial Arteriovenous Malformations complications

Abstract

Background: Flow aneurysms (FAs) associated with brain arteriovenous malformations (AVMs) are thought to arise from increased hemodynamic stress due to high-flow shunting. This study aims to describe the changes in conservatively managed FAs after successful AVM treatment., Methods: Patients with symptomatic AVMs and associated FAs who underwent successful treatment of the AVM between 2008 and 2017 were included. FA dimensions were measured on surveillance angiography to assess longitudinal changes., Results: Thirty-two patients were identified with 48 FAs. Sixteen (33%) FAs were treated endovascularly; 18 (38%) FAs were treated surgically; and 14 (29%) FAs (11 patients) were monitored. FAs demonstrated a decrease in size from 5.0 mm to 3.8 mm (24%; P = 0.016) and 4.9 mm to 3.6 mm (27%; P = 0.013) in height and width, respectively, over a median 35 months. However, on subgroup analysis, only class IIb aneurysms demonstrated a significant decrease in size (51% reduction in largest diameter, P = 0.046) and only 3 FAs (21%) resolved. There were no hemorrhages observed during follow-up., Conclusions: While conservatively managed FAs demonstrated a reduction in size after the culprit AVM was treated, this was only significant in FAs located close to an AVM nidus (class IIb). There were no hemorrhages during the median 35 months' follow-up; however, long-term data are lacking. Our data support close observation of all conservatively managed aneurysms and a tailored approach based on the proximity to the nidus and observed changes in size., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

28. Large Animal Studies to Reduce the Foreign Body Reaction in Brain-Computer Interfaces: A Systematic Review.

Author

Mian SY, Honey JR, Carnicer-Lombarte A, and Barone DG

Subjects

Animals, Brain, Cats, Electrodes, Implanted, Electroencephalography, Mice, Rabbits, Swine, Swine, Miniature, Brain-Computer Interfaces, Foreign-Body Reaction

Abstract

Brain-computer interfaces (BCI) are reliant on the interface between electrodes and neurons to function. The foreign body reaction (FBR) that occurs in response to electrodes in the brain alters this interface and may pollute detected signals, ultimately impeding BCI function. The size of the FBR is influenced by several key factors explored in this review; namely, (a) the size of the animal tested, (b) anatomical location of the BCI, (c) the electrode morphology and coating, (d) the mechanics of electrode insertion, and (e) pharmacological modification (e.g., drug eluting electrodes). Trialing methods to reduce FBR in vivo, particularly in large models, is important to enable further translation in humans, and we systematically reviewed the literature to this effect. The OVID, MEDLINE, EMBASE, SCOPUS and Scholar databases were searched. Compiled results were analysed qualitatively. Out of 8388 yielded articles, 13 were included for analysis, with most excluded studies experimenting on murine models. Cats, rabbits, and a variety of breeds of minipig/marmoset were trialed. On average, over 30% reduction in inflammatory cells of FBR on post mortem histology was noted across intervention groups. Similar strategies to those used in rodent models, including tip modification and flexible and sinusoidal electrode configurations, all produced good effects in histology; however, a notable absence of trials examining the effect on BCI end-function was noted. Future studies should assess whether the reduction in FBR correlates to an improvement in the functional effect of the intended BCI.

Published

2021

29. Electronics with shape actuation for minimally invasive spinal cord stimulation.

Author

Woodington BJ, Curto VF, Yu YL, Martínez-Domínguez H, Coles L, Malliaras GG, Proctor CM, and Barone DG

Abstract

Spinal cord stimulation is one of the oldest and most established neuromodulation therapies. However, today, clinicians need to choose between bulky paddle-type devices, requiring invasive surgery under general anesthetic, and percutaneous lead-type devices, which can be implanted via simple needle puncture under local anesthetic but offer clinical drawbacks when compared with paddle devices. By applying photo- and soft lithography fabrication, we have developed a device that features thin, flexible electronics and integrated fluidic channels. This device can be rolled up into the shape of a standard percutaneous needle then implanted on the site of interest before being expanded in situ, unfurling into its paddle-type conformation. The device and implantation procedure have been validated in vitro and on human cadaver models. This device paves the way for shape-changing bioelectronic devices that offer a large footprint for sensing or stimulation but are implanted in patients percutaneously in a minimally invasive fashion., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY).)

Published

2021

30. Foreign Body Reaction to Implanted Biomaterials and Its Impact in Nerve Neuroprosthetics.

Author

Carnicer-Lombarte A, Chen ST, Malliaras GG, and Barone DG

Abstract

The implantation of any foreign material into the body leads to the development of an inflammatory and fibrotic process-the foreign body reaction (FBR). Upon implantation into a tissue, cells of the immune system become attracted to the foreign material and attempt to degrade it. If this degradation fails, fibroblasts envelop the material and form a physical barrier to isolate it from the rest of the body. Long-term implantation of medical devices faces a great challenge presented by FBR, as the cellular response disrupts the interface between implant and its target tissue. This is particularly true for nerve neuroprosthetic implants-devices implanted into nerves to address conditions such as sensory loss, muscle paralysis, chronic pain, and epilepsy. Nerve neuroprosthetics rely on tight interfacing between nerve tissue and electrodes to detect the tiny electrical signals carried by axons, and/or electrically stimulate small subsets of axons within a nerve. Moreover, as advances in microfabrication drive the field to increasingly miniaturized nerve implants, the need for a stable, intimate implant-tissue interface is likely to quickly become a limiting factor for the development of new neuroprosthetic implant technologies. Here, we provide an overview of the material-cell interactions leading to the development of FBR. We review current nerve neuroprosthetic technologies (cuff, penetrating, and regenerative interfaces) and how long-term function of these is limited by FBR. Finally, we discuss how material properties (such as stiffness and size), pharmacological therapies, or use of biodegradable materials may be exploited to minimize FBR to nerve neuroprosthetic implants and improve their long-term stability., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Carnicer-Lombarte, Chen, Malliaras and Barone.)

Published

2021

31. Brain-Machine Interfaces: The Role of the Neurosurgeon.

Author

Chari A, Budhdeo S, Sparks R, Barone DG, Marcus HJ, Pereira EAC, and Tisdall MM

Subjects

Humans, Brain-Computer Interfaces, Neurosurgeons

Abstract

Neurotechnology is set to expand rapidly in the coming years as technological innovations in hardware and software are translated to the clinical setting. Given our unique access to patients with neurologic disorders, expertise with which to guide appropriate treatments, and technical skills to implant brain-machine interfaces (BMIs), neurosurgeons have a key role to play in the progress of this field. We outline the current state and key challenges in this rapidly advancing field, including implant technology, implant recipients, implantation methodology, implant function, and ethical, regulatory, and economic considerations. Our key message is to encourage the neurosurgical community to proactively engage in collaborating with other health care professionals, engineers, scientists, ethicists, and regulators in tackling these issues. By doing so, we will equip ourselves with the skills and expertise to drive the field forward and avoid being mere technicians in an industry driven by those around us., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

32. Intraoperative imaging technology to maximise extent of resection for glioma: a network meta-analysis.

Author

Fountain DM, Bryant A, Barone DG, Waqar M, Hart MG, Bulbeck H, Kernohan A, Watts C, and Jenkinson MD

Subjects

Aminolevulinic Acid administration & dosage, Bias, Humans, Intraoperative Care, Magnetic Resonance Imaging, Interventional statistics & numerical data, Network Meta-Analysis, Neuronavigation methods, Neuronavigation statistics & numerical data, Optical Imaging methods, Optical Imaging statistics & numerical data, Randomized Controlled Trials as Topic statistics & numerical data, Brain Neoplasms diagnostic imaging, Brain Neoplasms surgery, Glioma diagnostic imaging, Glioma surgery

Abstract

Background: Multiple studies have identified the prognostic relevance of extent of resection in the management of glioma. Different intraoperative technologies have emerged in recent years with unknown comparative efficacy in optimising extent of resection. One previous Cochrane Review provided low- to very low-certainty evidence in single trial analyses and synthesis of results was not possible. The role of intraoperative technology in maximising extent of resection remains uncertain. Due to the multiple complementary technologies available, this research question is amenable to a network meta-analysis methodological approach., Objectives: To establish the comparative effectiveness and risk profile of specific intraoperative imaging technologies using a network meta-analysis and to identify cost analyses and economic evaluations as part of a brief economic commentary., Search Methods: We searched CENTRAL (2020, Issue 5), MEDLINE via Ovid to May week 2 2020, and Embase via Ovid to 2020 week 20. We performed backward searching of all identified studies. We handsearched two journals, Neuro-oncology and the Journal of Neuro-oncology from 1990 to 2019 including all conference abstracts. Finally, we contacted recognised experts in neuro-oncology to identify any additional eligible studies and acquire information on ongoing randomised controlled trials (RCTs)., Selection Criteria: RCTs evaluating people of all ages with presumed new or recurrent glial tumours (of any location or histology) from clinical examination and imaging (computed tomography (CT) or magnetic resonance imaging (MRI), or both). Additional imaging modalities (e.g. positron emission tomography, magnetic resonance spectroscopy) were not mandatory. Interventions included fluorescence-guided surgery, intraoperative ultrasound, neuronavigation (with or without additional image processing, e.g. tractography), and intraoperative MRI., Data Collection and Analysis: Two review authors independently assessed the search results for relevance, undertook critical appraisal according to known guidelines, and extracted data using a prespecified pro forma., Main Results: We identified four RCTs, using different intraoperative imaging technologies: intraoperative magnetic resonance imaging (iMRI) (2 trials, with 58 and 14 participants); fluorescence-guided surgery with 5-aminolevulinic acid (5-ALA) (1 trial, 322 participants); and neuronavigation (1 trial, 45 participants). We identified one ongoing trial assessing iMRI with a planned sample size of 304 participants for which results are expected to be published around winter 2020. We identified no published trials for intraoperative ultrasound. Network meta-analyses or traditional meta-analyses were not appropriate due to absence of homogeneous trials across imaging technologies. Of the included trials, there was notable heterogeneity in tumour location and imaging technologies utilised in control arms. There were significant concerns regarding risk of bias in all the included studies. One trial of iMRI found increased extent of resection (risk ratio (RR) for incomplete resection was 0.13, 95% confidence interval (CI) 0.02 to 0.96; 49 participants; very low-certainty evidence) and one trial of 5-ALA (RR for incomplete resection was 0.55, 95% CI 0.42 to 0.71; 270 participants; low-certainty evidence). The other trial assessing iMRI was stopped early after an unplanned interim analysis including 14 participants; therefore, the trial provided very low-quality evidence. The trial of neuronavigation provided insufficient data to evaluate the effects on extent of resection. Reporting of adverse events was incomplete and suggestive of significant reporting bias (very low-certainty evidence). Overall, the proportion of reported events was low in most trials and, therefore, issues with power to detect differences in outcomes that may or may not have been present. Survival outcomes were not adequately reported, although one trial reported no evidence of improvement in overall survival with 5-ALA (hazard ratio (HR) 0.82, 95% CI 0.62 to 1.07; 270 participants; low-certainty evidence). Data for quality of life were only available for one study and there was significant attrition bias (very low-certainty evidence)., Authors' Conclusions: Intraoperative imaging technologies, specifically 5-ALA and iMRI, may be of benefit in maximising extent of resection in participants with high-grade glioma. However, this is based on low- to very low-certainty evidence. Therefore, the short- and long-term neurological effects are uncertain. Effects of image-guided surgery on overall survival, progression-free survival, and quality of life are unclear. Network and traditional meta-analyses were not possible due to the identified high risk of bias, heterogeneity, and small trials included in this review. A brief economic commentary found limited economic evidence for the equivocal use of iMRI compared with conventional surgery. In terms of costs, one non-systematic review of economic studies suggested that, compared with standard surgery, use of image-guided surgery has an uncertain effect on costs and that 5-ALA was more costly. Further research, including completion of ongoing trials of ultrasound-guided surgery, is needed., (Copyright © 2021 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd.)

Published

2021

33. When Bio Meets Technology: Biohybrid Neural Interfaces.

Author

Rochford AE, Carnicer-Lombarte A, Curto VF, Malliaras GG, and Barone DG

Subjects

Animals, Cochlear Implantation, Electrodes, Implanted, Humans, Microarray Analysis, Regenerative Medicine, Stem Cell Transplantation, Tissue Engineering, Microfluidics methods, Neurons physiology

Abstract

The development of electronics capable of interfacing with the nervous system is a rapidly advancing field with applications in basic science and clinical translation. Devices containing arrays of electrodes can be used in the study of cells grown in culture or can be implanted into damaged or dysfunctional tissue to restore normal function. While devices are typically designed and used exclusively for one of these two purposes, there have been increasing efforts in developing implantable electrode arrays capable of housing cultured cells, referred to as biohybrid implants. Once implanted, the cells within these implants integrate into the tissue, serving as a mediator of the electrode-tissue interface. This biological component offers unique advantages to these implant designs, providing better tissue integration and potentially long-term stability. Herein, an overview of current research into biohybrid devices, as well as the historical background that led to their development are provided, based on the host anatomical location for which they are designed (CNS, PNS, or special senses). Finally, a summary of the key challenges of this technology and potential future research directions are presented., (© 2019 The Authors. Published by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

34. Academic neurosurgery in the UK: present and future directions.

Author

Waqar M, Davies BM, Zakaria R, Barone DG, Kolias AG, Yu KK, Ellenbogen JR, Brennan PM, Kotter MR, Gray WP, King AT, Turner C, Kitchen N, May P, Jenkinson MD, and Hutchinson PJ

Subjects

Humans, Publishing, Research Support as Topic, Societies, Medical, United Kingdom, Neurosurgery organization & administration, Universities

Abstract

Academic neurosurgery encompasses basic science and clinical research efforts to better understand and treat diseases of relevance to neurosurgical practice, with the overall aim of improving treatment and outcome for patients. In this article, we provide an overview of the current and future directions of British academic neurosurgery. Training pathways are considered together with personal accounts of experiences of structured integrated clinical academic training and unstructured academic training. Life as an academic consultant is also described. Funding is explored, for the specialty as a whole and at the individual level. UK academic neurosurgical organisations are highlighted. Finally, the UK's international standing is considered., Competing Interests: Competing interests: MW and BMD are supported by National Institute for Health Research (NIHR) Academic Clinical Fellowships. KKY is supported by an NIHR Academic Clinical Lectureship. DGB is supported by a Wellcome Trust Fellowship. AGK is supported by a Clinical Lectureship, School of Clinical Medicine, University of Cambridge. MRNK is supported by a NIHR Clinician Scientist Award (CS-2015-15-023). WPG is supported by and directs the HCRW B.R.A.I.N. Biomedical Research Unit. PJH is supported by a NIHR Research Professorship, the NIHR Cambridge Biomedical Research Centre and the NIHR Research Group on Global Neurotrauma., (© Author(s) (or their employer(s)) 2019. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2019

35. Ossification of the pterygoalar and pterygospinous ligaments: a computed tomography analysis of infratemporal fossa anatomical variants relevant to percutaneous trigeminal rhizotomy.

Author

Matys T, Ali T, Zaccagna F, Barone DG, Kirollos RW, and Massoud TF

Abstract

Objective: Ossification of pterygoalar and pterygospinous ligaments traversing the superior aspect of the infratemporal fossa results in formation of osseous bars that can obstruct percutaneous needle access to the trigeminal ganglion through the foramen ovale (FO), interfere with lateral mandibular nerve block, and impede transzygomatic surgical approaches. Presence of these ligaments has been studied on dry skulls, but description of their radiological anatomy is scarce, in particular on cross-sectional imaging. The aim of this study was to describe visualization of pterygoalar and pterygospinous bars on computed tomography (CT) and to review their prevalence and clinical significance., Methods: The authors retrospectively reviewed 200 helical sinonasal CT scans by analyzing 0.75- to 1.0-mm axial images, maximum intensity projection (MIP) reconstructions, and volume rendered (VR) images, including views along the anticipated axis of the needle in percutaneous Hartel and submandibular approaches to the FO., Results: Ossified pterygoalar and pterygospinous ligaments were readily identifiable on CT scans. An ossified pterygoalar ligament was demonstrated in 10 patients, including 1 individual with bilateral complete ossification (0.5%), 4 patients with unilateral complete ossification (2.0%), and 5 with incomplete unilateral ossification (2.5%). Nearly all patients with pterygoalar bars were male (90%, p < 0.01). An ossified pterygospinous ligament was seen in 35 patients, including 2 individuals with bilateral complete (1.0%), 8 with unilateral complete (4%), 8 with bilateral incomplete (4.0%), 12 with bilateral incomplete (6.0%) ossification, and 5 (2.5%) with mixed ossification (complete on one side and incomplete on the contralateral side). All pterygoalar bars interfered with a hypothetical needle access to the FO using the Hartel approach but not the submandibular approach. In contrast, 54% of complete and 24% of incomplete pterygospinous bars impeded the submandibular approach to the FO, without affecting the Hartel approach., Conclusions: This study provides the first detailed description of cross-sectional radiological and applied surgical anatomy of pterygoalar and pterygospinous bars. Our data are clinically useful during skull base imaging to predict potential obstacles to percutaneous cannulation of the FO and assist in the choice of approach, as these two variants differentially impede the Hartel and submandibular access routes. Our results can also be useful in planning surgical approaches to the skull base through the infratemporal fossa.

Published

2019

36. Epidermal electrophysiology at scale.

Author

Barone DG and Malliaras GG

Subjects

Cognition, Electrophysiology, Magnetic Resonance Imaging, Skin

Published

2019

37. Anterolateral Approach for Central Thoracic Disc Prolapse-Surgical Strategies Used to Tackle Differing Operative Findings: 3-Dimensional Operative Video.

Author

Patel K, Budohoski KP, Kenyon ORP, Barone DG, Santarius T, Kirollos RW, Mannion RJ, and Trivedi RA

Abstract

Thoracic disc prolapses causing cord compression can be challenging. For compressive central disc protrusions, a posterior approach is not suitable due to an unacceptable level of cord manipulation. An anterolateral transthoracic approach provides direct access to the disc prolapse allowing for decompression without disturbing the spinal cord. In this video, we describe 2 cases of thoracic myelopathy from a compressive central thoracic disc prolapse. In both cases, informed consent was obtained. Despite similar radiological appearances of heavy calcification, intraoperatively significant differences can be encountered. We demonstrate different surgical strategies depending on the consistency of the disc and the adherence to the thecal sac. With adequate exposure and detachment from adjacent vertebral bodies, soft discs can be, in most instances, separated from the theca with minimal cord manipulation. On the other hand, largely calcified discs often present a significantly greater challenge and require thinning the disc capsule before removal. In cases with significant adherence to dura, in order to prevent cord injury or cerebrospinal fluid leak a thinned shell can be left, providing total detachment from adjacent vertebrae can be achieved. Postoperatively, the first patient, with a significantly calcified disc, developed a transient left leg weakness which recovered by 3-month follow-up. This video outlines the anatomical considerations and operative steps for a transthoracic approach to a central disc prolapse, whilst demonstrating that computed tomography appearances are not always indicative of potential operative difficulties.

Published

2019

38. Prostheses as extensions of the body: Progress and challenges.

Author

Niedernhuber M, Barone DG, and Lenggenhager B

Subjects

Humans, Illusions physiology, Illusions psychology, Touch Perception physiology, Artificial Limbs psychology, Body Image, Feedback, Sensory physiology, Human Body

Abstract

Recent years have seen a surge of interest in the incorporation of artificial limbs. This research promises to provide individuals with sensorimotor disorders such as amputations with prostheses which feel like their own body part. While neuroscience made a leap towards uncovering the basic neurocognitive mechanisms of bodily self-consciousness, the development of incorporated prosthetic limbs still faces substantial challenges in basic neuroscience and in clinical reality. Here we critically examine recent findings on prosthesis incorporation to aid patient rehabilitation in the context of advances in cognitive and applied neuroscience as well as technology. To this end, we integrate results from fundamental and clinical neuropsychological research to outline how several crucial milestones will have to be passed to achieve the self-attribution of prostheses to one's own body. We further discuss the implications of these results for clinical treatment and patients' quality of life., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

39. Radical, Staged Approach to Extensive Posterior Fossa Pediatric Ependymoma: 3-Dimensional Operative Video.

Author

Budohoski KP, Guilfoyle MR, Barone DG, Kirollos RW, Trivedi RA, and Santarius T

Published

2018

40. Intradural Spinal Arteriovenous Malformation of the Conus Medullaris-Management Strategies and Surgical Nuances: 3-Dimensional Video.

Author

Budohoski KP, Patel K, Guilfoyle MR, Barone DG, Sethi M, Kirollos RW, Higgins NJ, Santarius T, and Trivedi RA

Published

2018

41. Intraoperative imaging technology to maximise extent of resection for glioma.

Author

Jenkinson MD, Barone DG, Bryant A, Vale L, Bulbeck H, Lawrie TA, Hart MG, and Watts C

Subjects

Aminolevulinic Acid therapeutic use, Humans, Intraoperative Care, Photosensitizing Agents therapeutic use, Brain diagnostic imaging, Brain Neoplasms diagnostic imaging, Brain Neoplasms surgery, Glioma diagnostic imaging, Glioma surgery, Magnetic Resonance Imaging, Neuronavigation, Tomography, X-Ray Computed

Abstract

Background: Extent of resection is considered to be a prognostic factor in neuro-oncology. Intraoperative imaging technologies are designed to help achieve this goal. It is not clear whether any of these sometimes very expensive tools (or their combination) should be recommended as standard care for people with brain tumours. We set out to determine if intraoperative imaging technology offers any advantage in terms of extent of resection over standard surgery and if any one technology was more effective than another., Objectives: To establish the overall effectiveness and safety of intraoperative imaging technology in resection of glioma. To supplement this review of effects, we also wished to identify cost analyses and economic evaluations as part of a Brief Economic Commentary (BEC)., Search Methods: We searched the Cochrane Central Register of Controlled Trials (CENTRAL) (Issue 7, 2017), MEDLINE (1946 to June, week 4, 2017), and Embase (1980 to 2017, week 27). We searched the reference lists of all identified studies. We handsearched two journals, the Journal of Neuro-Oncology and Neuro-oncology, from 1991 to 2017, including all conference abstracts. We contacted neuro-oncologists, trial authors, and manufacturers regarding ongoing and unpublished trials., Selection Criteria: Randomised controlled trials evaluating people of all ages with presumed new or recurrent glial tumours (of any location or histology) from clinical examination and imaging (computed tomography (CT) or magnetic resonance imaging (MRI), or both). Additional imaging modalities (e.g. positron emission tomography, magnetic resonance spectroscopy) were not mandatory. Interventions included intraoperative MRI (iMRI), fluorescence-guided surgery, ultrasound, and neuronavigation (with or without additional image processing, e.g. tractography)., Data Collection and Analysis: Two review authors independently assessed the search results for relevance, undertook critical appraisal according to known guidelines, and extracted data using a prespecified pro forma., Main Results: We identified four randomised controlled trials, using different intraoperative imaging technologies: iMRI (2 trials including 58 and 14 participants, respectively); fluorescence-guided surgery with 5-aminolevulinic acid (5-ALA) (1 trial, 322 participants); and neuronavigation (1 trial, 45 participants). We identified one ongoing trial assessing iMRI with a planned sample size of 304 participants for which results are expected to be published around autumn 2018. We identified no trials for ultrasound.Meta-analysis was not appropriate due to differences in the tumours included (eloquent versus non-eloquent locations) and variations in the image guidance tools used in the control arms (usually selective utilisation of neuronavigation). There were significant concerns regarding risk of bias in all the included studies. All studies included people with high-grade glioma only.Extent of resection was increased in one trial of iMRI (risk ratio (RR) of incomplete resection 0.13, 95% confidence interval (CI) 0.02 to 0.96; 1 study, 49 participants; very low-quality evidence) and in the trial of 5-ALA (RR of incomplete resection 0.55, 95% CI 0.42 to 0.71; 1 study, 270 participants; low-quality evidence). The other trial assessing iMRI was stopped early after an unplanned interim analysis including 14 participants, therefore the trial provides very low-quality evidence. The trial of neuronavigation provided insufficient data to evaluate the effects on extent of resection.Reporting of adverse events was incomplete and suggestive of significant reporting bias (very low-quality evidence). Overall, reported events were low in most trials. There was no clear evidence of improvement in overall survival with 5-ALA (hazard ratio 0.83, 95% CI 0.62 to 1.07; 1 study, 270 participants; low-quality evidence). Progression-free survival data were not available in an appropriate format for analysis. Data for quality of life were only available for one study and suffered from significant attrition bias (very low-quality evidence)., Authors' Conclusions: Intra-operative imaging technologies, specifically iMRI and 5-ALA, may be of benefit in maximising extent of resection in participants with high grade glioma. However, this is based on low to very low quality evidence, and is therefore very uncertain. The short- and long-term neurological effects are uncertain. Effects of image-guided surgery on overall survival, progression-free survival, and quality of life are unclear. A brief economic commentary found limited economic evidence for the equivocal use of iMRI compared with conventional surgery. In terms of costs, a non-systematic review of economic studies suggested that compared with standard surgery use of image-guided surgery has an uncertain effect on costs and that 5-aminolevulinic acid was more costly. Further research, including studies of ultrasound-guided surgery, is needed.

Published

2018

42. Minimally Invasive Excision of Thoracic Arachnoid Web.

Author

Vergara P and Barone DG

Subjects

Arachnoid diagnostic imaging, Humans, Male, Middle Aged, Retrospective Studies, Spinal Cord Compression diagnostic imaging, Thoracic Vertebrae diagnostic imaging, Arachnoid surgery, Minimally Invasive Surgical Procedures methods, Spinal Cord Compression surgery, Thoracic Vertebrae surgery

Abstract

Objective: Arachnoid webs are rare intradural lesions that can cause direct spinal cord compression or alteration of the cerebrospinal fluid flow with syringomyelia. Surgery has been historically performed through wide-open laminectomies. The aim of this study is to prove the feasibility of minimally invasive techniques for the excision of arachnoid webs., Methods: A retrospective review of two cases of minimally invasive excision of thoracic arachnoid webs was performed. Surgery was undertaken through expandable tubular retractors., Results: Complete excision was achieved through the described approach, with minimal bony removal and soft tissue disruption. There were no intraoperative or perioperative complications. Both patients were mobilized early and discharged home within 24 hours after surgery. Postoperative imaging showed good re-expansion of the spinal cord, with no evidence of residual compression or tethering., Conclusions: For symptomatic arachnoid webs, surgery remains the only definitive treatment. In expert hands, the excision of arachnoid webs can be achieved with tubular retractors and minimally invasive techniques., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

43. Microsurgical Resection of a Common Peroneal Nerve Schwannoma: A 3-Dimensional Operative Video.

Author

Budohoski KP, Guilfoyle MR, Kenyon O, Barone DG, Santarius T, and Trivedi RA

Abstract

Peripheral nerve sheath tumors are benign entities that manifest with pain or neurological deficits from mass effect. Treatment is mostly surgical, however, the aggressiveness of treatment needs to be carefully considered with respect to preserving function. We present a case of a 62-year-old male with a 2-year history of left lower extremity pain radiating toward the dorsolateral foot. There was a tender and palpable mass in the lateral popliteal fossa with imaging consistent with Schwannoma of the common peroneal nerve. The patient was counseled for surgery and informed consent was obtained. Microsurgical resection was undertaken and gross total resection was achieved without compromise of function. We demonstrate the placement of neurophysiological monitoring electrodes in all 3 compartment of the calf as well as the use of stimulation to identify a nonfunctioning area for entering the nerve sheath. Anatomy of the popliteal fossa and microsurgical technique for resection of nerve sheath tumors are discussed. When dealing with these pathologies, it is important to use intraoperative neurophysiology as well as careful technique in order to achieve maximal resection without compromising neurological function., (Copyright © 2017 by the Congress of Neurological Surgeons.)

Published

2018

44. Stereoscopic Three-Dimensional Neuroanatomy Lectures Enhance Neurosurgical Training: Prospective Comparison with Traditional Teaching.

Author

Clark AD, Guilfoyle MR, Candy NG, Budohoski KP, Hofmann R, Barone DG, Santarius T, Kirollos RW, and Trivedi RA

Subjects

Cadaver, Educational Measurement, Humans, Neuroimaging, Imaging, Three-Dimensional, Models, Anatomic, Neuroanatomy education, Neurosurgery education, Teaching

Abstract

Objective: Stereoscopic three-dimensional (3D) imaging is increasingly used in the teaching of neuroanatomy and although this is mainly aimed at undergraduate medical students, it has enormous potential for enhancing the training of neurosurgeons. This study aims to assess whether 3D lecturing is an effective method of enhancing the knowledge and confidence of neurosurgeons and how it compares with traditional two-dimensional (2D) lecturing and cadaveric training., Methods: Three separate teaching sessions for neurosurgical trainees were organized: 1) 2D course (2D lecture + cadaveric session), 2) 3D lecture alone, and 3) 3D course (3D lecture + cadaveric session). Before and after each session, delegates were asked to complete questionnaires containing questions relating to surgical experience, anatomic knowledge, confidence in performing procedures, and perceived value of 3D, 2D, and cadaveric teaching., Results: Although both 2D and 3D lectures and courses were similarly effective at improving self-rated knowledge and understanding, the 3D lecture and course were associated with significantly greater gains in confidence reported by the delegates for performing a subfrontal approach and sylvian fissure dissection., Conclusions: Stereoscopic 3D lectures provide neurosurgical trainees with greater confidence for performing standard operative approaches and enhances the benefit of subsequent practical experience in developing technical skills in cadaveric dissection., (Copyright © 2017. Published by Elsevier Inc.)

Published

2017

45. Methodological shortcomings in the literature evaluating the role and applications of 3D training for surgical trainees.

Author

Kostusiak M, Hart M, Barone DG, Hofmann R, Kirollos R, Santarius T, and Trivedi R

Subjects

Clinical Competence, Humans, Program Evaluation, Reproducibility of Results, Computer Simulation standards, Models, Anatomic, Simulation Training methods, Simulation Training standards, Surgical Procedures, Operative education

Abstract

Aim: There has been an increased interest in the use of three-dimensional (3D) technology in surgical training. We wish to appraise the methodological rigor applied to evaluating the role and applications of 3D technology in surgical training, in particular, on the validity of these models and assessment methods in simulated surgical training., Methods: Literature search was performed using MEDLINE with the following terms: "3D"; "surgery"; and "training". Only studies evaluating the role of 3D technology in surgical training were eligible for inclusion and assessed for the level of evidence, validity of the simulation model, and assessment method used., Results: A total of 93 studies were analyzed, and majority of reviewed articles focused on 3D displays (36) and 3D printing (35). Most of these studies were case series, the most common assessment was subjective (69), with objective assessment used by 57 studies. Very few studies provided evidence for validity of the model or the assessment methods used., Conclusions: 3D technology has a great potential in simulated surgical training. However, the validity of this technology and strong evidence for its beneficial effects in surgical training is lacking. Further work on validation of 3D technology and assessment tools is needed.

Published

2017

46. The Effect of 3-Dimensional Simulation on Neurosurgical Skill Acquisition and Surgical Performance: A Review of the Literature.

Author

Clark AD, Barone DG, Candy N, Guilfoyle M, Budohoski K, Hofmann R, Santarius T, Kirollos R, and Trivedi RA

Subjects

Clinical Competence, Humans, Task Performance and Analysis, United Kingdom, Competency-Based Education methods, Computer Simulation, Imaging, Three-Dimensional, Neurosurgical Procedures education, Simulation Training methods

Abstract

Objective: In recent years, 3-dimensional (3D) simulation of neurosurgical procedures has become increasingly popular as an addition to training programmes. However, there remains little objective evidence of its effectiveness in improving live surgical skill. This review analysed the current literature in 3D neurosurgical simulation, highlighting remaining gaps in the evidence base for improvement in surgical performance and suggests useful future research directions., Design: An electronic search of the databases was conducted to identify studies investigating 3D virtual reality (VR) simulation for various types of neurosurgery. Eligible studies were those that used a combination of metrics to measure neurosurgical skill acquisition on a simulation trainer. Studies were excluded if they did not measure skill acquisition against a set of metrics or if they assessed skills that were not used in neurosurgical practice. This was not a systematic review however, the data extracted was tabulated to allow comparison between studies RESULTS: This study revealed that the average overall quality of the included studies was moderate. Only one study assessed outcomes in live surgery, while most other studies assessed outcomes on a simulator using a variety of metrics., Conclusions: It is concluded that in its current state, the evidence for 3D simulation suggests it as a useful supplement to training programmes but more evidence is needed of improvement in surgical performance to warrant large-scale investment in this technology., (Copyright © 2017 Association of Program Directors in Surgery. Published by Elsevier Inc. All rights reserved.)

Published

2017

47. Clinical Experience and Results of Microsurgical Resection of Arterioveonous Malformation in the Presence of Space-Occupying Intracerebral Hematoma.

Author

Barone DG, Marcus HJ, Guilfoyle MR, Higgins JNP, Antoun N, Santarius T, Trivedi RA, and Kirollos RW

Subjects

Adult, Aged, Angiography, Cerebral Hemorrhage complications, Cerebral Hemorrhage diagnostic imaging, Cohort Studies, Female, Hematoma complications, Hematoma diagnostic imaging, Humans, Intracranial Arteriovenous Malformations complications, Intracranial Arteriovenous Malformations diagnostic imaging, Male, Middle Aged, Patient Selection, Treatment Outcome, Young Adult, Cerebral Hemorrhage surgery, Hematoma surgery, Intracranial Arteriovenous Malformations surgery, Microsurgery

Abstract

Background: Management of ruptured arteriovenous malformations (AVMs) with a mass-producing intracerebral hematoma (ICH) represents a surgical dilemma., Objective: To evaluate the clinical outcome and obliteration rates of microsurgical resection of AVM when performed concomitantly with evacuation of an associated space-occupying ICH., Methods: Data of patients with AVM were collected prospectively. Cases were identified in which an AVM was resected and an associated space-occupying ICH was evacuated at the same time, and divided into "group 1," in which the surgery was performed acutely within 48 h of presentation (secondary to elevated intracranial pressure); and "group 2," in which selected patients were operated upon in the presence of a liquefying ICH in the "subacute" stage. Clinical outcomes were assessed using the modified Rankin Scale, with a score of 0 to 2 considered a good outcome. Obliteration rates were assessed using postoperative angiography., Results: From 2001 to 2015, 131 patients underwent microsurgical resection of an AVM, of which 65 cases were included. In "group 1" (n = 21; Spetzler-Ponce class A = 13, class B = 5, and class C = 3), 11 of 21 (52%) had a good outcome and in 18 of 19 (95%) of those who had a postoperative angiogram the AVMs were completely obliterated. In "group 2" (n = 44; Spetzler-Ponce class A = 33, class B = 9, and class C = 2), 31 of 44 (93%) had a good outcome and 42 of 44 (95%) were obliterated with a single procedure. For supratentorial AVMs, the ICH cavity was utilized to provide an operative trajectory to a deep AVM in 11 cases, and in 26 cases the ICH cavity was deep to the AVM and hence facilitated the deep dissection of the nidus., Conclusion: In selected patients the presence of a liquefying ICH cavity may facilitate the resection of AVMs when performed in the subacute stage resulting in a good neurological outcome and high obliteration rate., (Copyright © 2017 by the Congress of Neurological Surgeons)

Published

2017

48. Short versus long-segment posterior fixation in the treatment of thoracolumbar junction fractures: a comparison of outcomes.

Author

Waqar M, Van-Popta D, Barone DG, Bhojak M, Pillay R, and Sarsam Z

Subjects

Adult, Aged, Bone Screws, Female, Humans, Length of Stay, Lumbar Vertebrae diagnostic imaging, Magnetic Resonance Imaging, Male, Middle Aged, Pedicle Screws, Retrospective Studies, Spinal Fractures diagnostic imaging, Thoracic Vertebrae diagnostic imaging, Tomography, X-Ray Computed, Treatment Outcome, Young Adult, Fracture Fixation, Internal methods, Lumbar Vertebrae surgery, Spinal Fractures surgery, Thoracic Vertebrae surgery

Abstract

Purpose: To compare clinical and radiological outcomes between short (SSPF) and long-segment (LSPF) posterior fixation for thoracolumbar junction (TLJ) fractures., Materials and Methods: Retrospective review of adult patients, with single-level, TLJ (T11-L2) fractures, treated with posterior fixation between 2007 and 2014 at a regional spinal centre. SSPF and LSPF were defined as transpedicular screw fixation at one and two levels above and below the fractured vertebra, respectively. Construct failure was defined as instrument breakage or screw pull-out requiring operative intervention. Two independent assessors measured the kyphotic Cobb angle at up to six months., Results: A total of 28 patients were included with a median age of 38 years (range 20-76 years) and median follow-up period of 14 months (4-41 months). All patients sustained traumatic fractures and the male to female ratio was 19:9. AO fracture classes were: A (29%), B (50%) and C (21%). SSPF and LSPF were performed in 17 (61%) and 11 (39%) patients, respectively. There was no significant difference in age (Fisher's exact, p > 0.99), AO fracture class (chi-squared, p = 0.510), preop TLICS score (independent t-test, p = 0.668) and length of stay (independent t-test, p = 0.106) between the groups. Construct failure occurred in three SSPF cases (3-14 months postop) and was associated with an increased mean loss of correction. By six months, the Cobb angle had increased significantly in the SSPF group (paired t-test, p = 0.049), but not the LSPF group (paired t-test, p = 0.157)., Conclusions: Our data identified a trend towards better clinical and radiological outcomes in the LSPF, compared to the SSPF group. Although supported by some studies, these findings should be evaluated in future clinical trials.

Published

2017

49. External Immobilization of Odontoid Fractures: A Systematic Review to Compare the Halo and Hard Collar.

Author

Waqar M, Van-Popta D, Barone DG, and Sarsam Z

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Humans, Middle Aged, Prospective Studies, Retrospective Studies, Treatment Outcome, Young Adult, Odontoid Process injuries, Spinal Fractures

Abstract

Background: The aim of this systematic review was to compare the halo and hard collar in the management of adult odontoid fractures., Methods: Systematic and independent searches on MEDLINE (PubMed) and the Cochrane Database of Systematic Reviews. Inclusion criteria included studies 1) with clinical outcomes, 2) in adults (18 years of age or order), 3) with odontoid fractures, 4) with patients immobilized using a halo or hard collar, and 5) in multiple (more than 5) patients. Treatment failure rates were calculated as the proportion requiring operative intervention., Results: There were 714 cases included, who were managed in a halo (60%) or collar (40%). The mean age was 66 years (range, 18-96 years). Type 2 odontoid fractures were the most common (83%). There was no significant difference in failure rates between the halo and collar in patients with type 2 odontoid fractures (P = 0.111). This was also true in elderly (older than 65 years of age) patients (P = 0.802). The collar had a higher failure rate in type 3 odontoid fractures, though numbers were small (P = 0.035). Fibrous malunion occurred in 56 patients, and only 7% failed. There was only 1 case of neurological deterioration. Although mortality rates were similar between the collar and halo (P = 0.173), the halo was associated with a significantly higher complication rate (P < 0.001)., Conclusions: For the most common clinical scenario, the halo and collar have similar failure rates, such that the higher morbidity associated with the halo may not be justified, especially in elderly patients. Malunion usually represents a stable clinical outcome, and surgery is rarely required. Prospective randomized studies are needed to more definitively compare the devices., (Crown Copyright © 2016. Published by Elsevier Inc. All rights reserved.)

Published

2017

50. Alternative cost-effective method to record 3D intra-operative images: a technical note.

Author

Barone DG, Ban VS, Kirollos RW, Trivedi RA, Bulters DO, Ribas GC, and Santarius T

Subjects

Humans, Imaging, Three-Dimensional instrumentation, Neurosurgical Procedures instrumentation, Surgery, Computer-Assisted instrumentation, Imaging, Three-Dimensional methods, Neurosurgical Procedures methods, Surgery, Computer-Assisted methods

Abstract

The educational value of stereoscopic imaging in neurosurgical training has increasingly been appreciated and its use increased during the last decade. We describe a technique that we developed to acquire and reproduce intra-operative stereoscopic images.

Published

2014