Surgical skills and COVID-19 pandemic: Impact and way forward

Abstract

Get full access to this article

View all access options for this article.

References

Nabi

. COVID-19 pandemic, recovery, dark realities of healthcare and road ahead. Scott Med J 2021; 66: 49–50.

Nabi

. Simulation as a tool for learning surgical craft in COVID-19 era. Scott Med J 2020; 65: 39.

Gowda

Swamy

Veerattepillay

, et al.

Tangible effects of the COVID-19 pandemic: a fall in dexterity amongst surgical trainees?

Scott Med J 2022; 67(2): 51–55.

Berridge

Kailavasan

Athanasiadis

, et al. Endoscopic surgical simulation using low-fidelity and virtual reality transurethral resection simulators in urology simulation boot camp course: trainees feedback assessment study. World J Urol 2021; 39: 3103–3107.

Etheridge

Moyal-Smith

Sonnay

, et al. Non-technical skills in surgery during the COVID-19 pandemic: an observational study. Int J Surg 2022; 98: 106210.

Sandvik

Bartone

Hystad

, et al. Psychological hardiness predicts neuroimmunological responses to stress. Psychol Health Med 2013; 18: 705–713.

Bartone

. A new taxonomy for understanding factors leading to suicide in the military. Int J Emerg Ment Health 2013; 15: 299–305.

Khan

Keay

McLellan

, et al. Impact of the COVID-19 pandemic on core surgical training. Scott Med J 2020; 65: 133–137.

Nazeer

MNM

Baig

Subeh

, et al. Multicentric analysis of the perceptions and knowledge of digital health amongst undergraduate medical students. Scott Med J 2022; 67(2): 56–63.

10.

Ozcan

Ozisler

. The relationship between urinary symptom severity and functional Status in patients with stroke. Scott Med J 2022; 67(2): 64–70.

11.

Rankin

McGuire

Chekroud

, et al. Evaluating xanthochromia in the diagnosis of subarachnoid haemorrhage in Scotland in the era of modern computed tomography. Scott Med J 2022; 67(2): 71–77.