Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

At a glance: The STEP trials

A round-up of the STEP phase 3 clinical trials evaluating semaglutide for weight loss in people with overweight or obesity.
ADVANCED SEARCH
Log in
Top
Acta Neurochirurgica
Published in: Acta Neurochirurgica 10/2020

Open Access 01-10-2020 | Original Article - Neurosurgery Training

The evolution of an SBNS-accredited NANSIG simulated skills workshop for aspiring neurosurgical trainees: an analysis of qualitative and quantitative data

Authors: Melissa Gough, Georgios Solomou, Danyal Zaman Khan, Mohammed Kamel, Daniel Fountain, Ashwin Kumaria, Richard Ashpole, Saurabh Sinha, Nigel Mendoza

Published in: Acta Neurochirurgica | Issue 10/2020

Login to get access

Abstract

Background

The Neurology and Neurosurgery Interest Group (NANSIG) neurosurgical skills workshop is novel in teaching neurosurgical skills solely to medical students and foundation trainees in the UK. The aim is to offer an affordable option for a high-fidelity simulation course enabling students to learn and practise specific neurosurgical skills in a safe, supervised environment.

Methods

A 10-delegate cohort was quantitatively assessed at the NANSIG neurosurgical skills workshop. Two assessors used a novel modified Objective Structured Assessment of Technical Skills (mOSATS) assessment tool, comprising 5 domains ranked according to a 5-point scale to rate delegates’ ability to create a burr hole. Qualitative data from previous workshops were collected, consisting of open-ended, closed-ended and 5-point Likert scale responses to pre- and post-workshop questionnaires. Data were analysed using SPSS® software.

Results

Delegates scored a mean total of 62.1% (21.75/35) and 85.1% (29.8/35) in pre- and post-workshop assessments respectively revealing a statistically significant improvement. Regarding percentage of improvement, no significant difference was shown amongst candidates when comparing the number of neurosurgical cases observed and/or assisted in the past. There was no significant difference in the overall rating between the last two workshops (4.89 and 4.8 out of 5, respectively). One hundred percent of the attendees reported feeling more confident in assisting in theatre after the last two workshops.

Conclusion

We show that a simulation workshop cannot only objectively quantify the improvement of surgical skill acquisition but can also be beneficial regardless of the extent of prior experience.
Appendix
Available only for authorised users
Literature
1.
Agha RA, Fowler AJ (2015) The role and validity of surgical simulation. Int Surg 100(2):350–357CrossRef
2.
Alamri A, Chari A, McKenna G et al (2018) The evolution of British neurosurgical selection and training over the past decade. Med Teach 40(6):610–614CrossRef
3.
Ashpole RD (2015) Introducing Rowena: a simulator for neurosurgical training. Bull R Coll Surg Engl 97(7):299–301CrossRef
4.
Ashpole RD (2019) Simulation training in neurosurgery; 7 years experience of 2 day courses with a realistic operative workstation for educating neurosurgical apprentices; ‘Rowena’, 19th European Congress of Neurosurgery, Dublin, Sep 24-28
5.
6.
Carleton-Bland N, Coope D, Kamaly-Asl I (2015) Use of OSATS as metric of competence: experience from the EVD simulator at neurosurgical bootcamp. Br J Neurosurg 29(4):461–462
7.
Coulter IC, Brennan PM (2011) Experiences and perceptions of simulation in neurosurgery. Br J Neurosurg 25(5):557
8.
Craven CL, Cooke M, Rangeley C et al (2018) Developing a pediatric neurosurgical training model. J Neurosurg Pediatr 21(3):329CrossRef
9.
Estevez ME, Lindgren KA, Bergethon PR (2010) A novel three-dimensional tool for teaching human neuroanatomy. Anat Sci Educ 3(6):309–317CrossRef
10.
Fargen KM, Arthur AS, Bendok BR et al (2013) Experience with a simulator-based angiography course for neurosurgical residents: beyond a pilot program. Neurosurgery. 73(Suppl 1):46–50CrossRef
11.
Filho FV, Coelho G, Cavalheiro S et al (2011) Quality assessment of a new surgical simulator for neuroendoscopic training. Neurosurg Focus 30(4):E17CrossRef
12.
Gasco J, Patel A, Ortega-Barnett J et al (2014) Virtual reality spine surgery simulation: an empirical study of its usefulness. Neurol Res 36(11):968–973CrossRef
13.
Ghobrial GM, Anderson PA, Chitale R et al (2013) Simulated spinal cerebrospinal fluid leak repair: an educational model with didactic and technical components. Neurosurgery. 73(Suppl 1):111–115CrossRef
14.
Harada K, Morita A, Minakawa Y et al (2015) Assessing microneurosurgical skill with medico-engineering technology. World Neurosurg 84(4):964–971CrossRef
15.
Harada N, Kondo K, Miyazaki C et al (2011) Modified three-dimensional brain model for study of the trans-sylvian approach. Neurol Med Chir 51(8):567–571CrossRef
16.
Harrop J, Rezai AR, Hoh DJ et al (2013) Neurosurgical training with a novel cervical spine simulator: posterior foraminotomy and laminectomy. Neurosurgery. 73(Suppl 1):94–99CrossRef
17.
Ishikawa T, Yasui N, Ono H (2010) Novel brain model for training of deep microvascular anastomosis. Vol. 50:627–629
18.
Javed S, Berhanu M (2015) Rowena: the trainee’s perspective on simulation. Bull R Coll Surg Engl 97(7):303–304CrossRef
19.
Johnston TJ, Tang B, Alijani A et al (2013) Laparoscopic surgical skills are significantly improved by the use of a portable laparoscopic simulator: results of a randomized controlled trial. World J Surg 37(5):957–964CrossRef
20.
Kamel M, Fountain DM, May P et al (2017) Launching an SBNS-accredited neurosurgical skills workshop for medical students and foundation trainees. Br J Neurosurg 31(6):724–726CrossRef
21.
Kirkman MA, Ahmed M, Albert AF et al (2014) The use of simulation in neurosurgical education and training. J Neurosurg 121(2):228CrossRef
22.
Lessard S, Lau C, Chav R et al (2010) Guidewire tracking during endovascular neurosurgery. Med Eng Phys 32(8):813–821CrossRef
23.
Marcus HJ, Darzi A, Nandi D (2013) Surgical simulation to evaluate surgical innovation: preclinical studies with MARTYN. Bull R Coll Surg Engl 95(9):299–299CrossRef
24.
Martin JA, Regehr G, Reznick R et al (1997) Objective structured assessment of technical skill (OSATS) for surgical residents. Br J Surg 84(2):273–278CrossRef
25.
Maxwell AJ, Crocker M, Jones TL et al (2010) Implementation of the European Working Time Directive in neurosurgery reduces continuity of care and training opportunities. Acta Neurochir 152(7):1207–1210CrossRef
26.
Miranpuri AS, Nickele CM, Akture E et al (2014) Neuroangiography simulation using a silicone model in the angiography suite improves trainee skills. J Neurointerv Surg 6(7):561–564CrossRef
27.
Mitchell EL, Arora S, Moneta GL et al (2014) A systematic review of assessment of skill acquisition and operative competency in vascular surgical training. J Vasc Surg 59(5):1440–1455CrossRef
28.
Moiraghi A, Perin A, Sicky N et al (2020) EANS Basic Brain Course (ABC): combining simulation to cadaver lab for a new concept of neurosurgical training. Acta Neurochir 162(3):453–460CrossRef
29.
Palter VN, Grantcharov T, Harvey A et al (2011) Ex vivo technical skills training transfers to the operating room and enhances cognitive learning: a randomized controlled trial. Ann Surg 253(5):886–889CrossRef
30.
Perin A, Galbiati TF, Gambatesa E et al (2018) Filling the gap between the OR and virtual simulation: a European study on a basic neurosurgical procedure. Acta Neurochir 160(11):2087–2097CrossRef
31.
Ray WZ, Ganju A, Harrop JS et al (2013) Developing an anterior cervical diskectomy and fusion simulator for neurosurgical resident training. Neurosurgery. 73(Suppl 1):100–106PubMed
32.
Stienen MN, Netuka D, Demetriades AK et al (2016) Neurosurgical resident education in Europe—results of a multinational survey. Acta Neurochir 158(1):3–15CrossRef
33.
Zevin B, Bonrath EM, Aggarwal R et al (2013) Development, feasibility, validity, and reliability of a scale for objective assessment of operative performance in laparoscopic gastric bypass surgery. J Am Coll Surg 216(5):955–965.e8CrossRef
Metadata
Title
The evolution of an SBNS-accredited NANSIG simulated skills workshop for aspiring neurosurgical trainees: an analysis of qualitative and quantitative data
Authors
Melissa Gough
Georgios Solomou
Danyal Zaman Khan
Mohammed Kamel
Daniel Fountain
Ashwin Kumaria
Richard Ashpole
Saurabh Sinha
Nigel Mendoza
Publication date
01-10-2020
Publisher
Springer Vienna
Published in
Acta Neurochirurgica / Issue 10/2020
Print ISSN: 0001-6268
Electronic ISSN: 0942-0940
DOI
https://doi.org/10.1007/s00701-020-04325-6

Other articles of this Issue 10/2020

Acta Neurochirurgica 10/2020 Go to the issue

Original Article - CSF Circulation

In vitro performance of six combinations of adjustable differential pressure valves and fixed anti-siphon devices with and without vertical motion

Original Article - Neurosurgery Training

Procedures performed during neurosurgery residency in Europe

Letter to the editor - Vascular Neurosurgery - Other

Letter to the editor regarding “How I do it: operative nuances of multiple burr hole surgery for moyamoya disease and syndrome”

Original Article - Neurosurgery Training

Neurosurgical simulator for training aneurysm microsurgery—a user suitability study involving neurosurgeons and residents

Original Article - CSF Circulation

Paradoxical response of intracranial pressure to shunt valve setting adjustments

Original Article - Vascular Neurosurgery - Ischemia

High-intensity vessel sign on fluid-attenuated inversion recovery imaging: a novel imaging marker of high-risk carotid stenosis—a MRI and SPECT study