Touch Surgery is a London, New York City, Sydney and Auckland-based health technology app and trading name for the company Digital Surgery LTD. Digital Surgery is a health tech company shaping the future of surgery through the convergence of surgical expertise and technology.[1] The app was first discussed in 2010.[2] The Touch Surgery mobile app is a mobile surgical training platform designed to simulate surgical procedures.[2][3][4] As of October 2019, The Touch Surgery mobile app included surgical instructions for about 200 surgical procedures in 17 different specialties.[5]

Touch Surgery
Company typePrivate
IndustryHealth informatics and medical technology
FoundedLondon, United Kingdom
HeadquartersLondon and New York City and Auckland and Sydney
ProductsMedical education
Medical technology
WebsiteOfficial website

Validation Studies

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Touch Surgery app has been validated by over 19 independent peer-reviewed publications for its innovative approach to training surgeons virtually.

The McDougal principles of validation (construct, face and content) have been conducted by 4 research groups. Each of the groups belonged to a different procedures, surgical specialties and institutions. The first paper was from an orthopaedic team in London (UK), followed by a Plastic surgical team at Stanford Hospital in Stanford (USA) an oro-maxillofacial team at Mount Sinai in New York (USA) and a General Surgery team in Heidelberg (Germany).

Construct validation tests the ability of the simulator to differentiate between different experience groups. Content validation is the expert opinion of content within the simulations with focus on the accuracy of the anatomy, steps and use of instruments. Face validation is the subjective assessment of the platform as a training tool (face value). Statistical significance was demonstrated in all studies proving repeatability of validation irrespective of procedure, specialty and location.[6][7][8][9]

Learning curves and knowledge transfer

Participants naive to Intramedullary femoral nailing and Touch Surgery were assessed on an exam paper created to assess their understanding of the surgical procedure. The participants then used the app for learning and regularly tested themselves on the app. Finally they retook the exam-paper to see how much they had learned. Mastery on the app took 6 consecutive repetitions. A significant rise in score was noted and scores rivaled that of the surgeons that validated the exam paper.[8]

Training Efficiency

The cardiothoracic team at Stanford assessed medical students on their understanding of Cardiopulmonary Bypass (CPB) on a 25 question exam. The exam had been validated by five cardiac surgeons. The medical students were then randomly allocated to use either the text based resources or the Touch Surgery app. The students were allowed to use the resource for 45 minutes and then retook the exam on CPB. Baseline test showed that there was no difference between the two groups before intervention; however there was a statistically significant difference in the two groups after the 45 minute preparation session. This study demonstrated that Touch Surgery could outperform traditional text-based learning tools.[10]

In another randomised controlled trial of skills transfer from Touch Surgery to laparoscopic cholecystectomy, the Touch Surgery app has proved effective for providing cognitive training in laparoscopic cholecystectomies to medical students.[11]

Microsoft Partnership

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In October 2018, Touch Surgery (Digital Surgery) and Microsoft announced their partnership and their aim to make operations safer by using Microsoft Hololens. The company has been made an official Microsoft Mixed Reality Partner and is creating mixed-reality apps and programs for Microsoft HoloLens to help surgeons as they work.[12]

Safe Surgery 2020

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In January, 2019 Safe Surgery 2020 and Digital Surgery have launched their simulation training platform, Touch Surgery, in Tanzania to upskill surgical workers in Tanzania and East Africa. Safe Surgery 2020 is a collaboration of foundations, nonprofits, educational institutions and local governments who want to make surgery safe, affordable and accessible across the world.

Assist International, Digital Surgery and local health facilities and hospitals, including Kijabe Hospital in Kenya, have been collaborating closely to develop a series of simulation trainings for the most common procedures provided by primary facilities in LMICs, such as C-sections and hysterectomies. The simulations are developed specifically for surgical teams operating in low-resource settings to ensure the procedure is achievable with basic instruments. The simulation integrates the WHO's surgical safety checklist to reinforce the importance of following the checklist to improve patient outcomes. The Safe Surgery 2020 hospitals received in-person and tele-mentoring training, and education on the Touch Surgery app as well as practical tools such as tablets in each facility for continuous learning.[13][14]

References

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  1. ^ Surgery, Digital. "About". Digital Surgery. Retrieved 2019-10-02.
  2. ^ a b "Touch Surgery: the iPad app that teaches surgeons how to operate," by Oliver Wainwright, The Guardian, February 27, 2013, retrieved March 18, 2015.
  3. ^ "Surgeons develop app to practise surgery," by Parul Agrawal, BBC News, June 15, 2013, retrieved March 19, 2015.
  4. ^ "Touch Surgery: learning surgery on the operating table," by Joao Mederios, Wired, July 28, 2014, retrieved March 18, 2014.
  5. ^ "Touch Surgery Simulations", retrieved October 2, 2019.
  6. ^ Kowalewski, Karl-Friedrich; Hendrie, Jonathan D.; Schmidt, Mona W.; Proctor, Tanja; Paul, Sai; Garrow, Carly R.; Kenngott, Hannes G.; Müller-Stich, Beat P.; Nickel, Felix (October 2017). "Validation of the mobile serious game application Touch Surgery™ for cognitive training and assessment of laparoscopic cholecystectomy". Surgical Endoscopy. 31 (10): 4058–4066. doi:10.1007/s00464-017-5452-x. ISSN 1432-2218. PMID 28281111.
  7. ^ "aps :: Archives of Plastic Surgery". www.e-aps.org. Retrieved 2019-10-02.
  8. ^ a b Sugand, Kapil; Mawkin, Mala; Gupte, Chinmay (November 2015). "Validating Touch Surgery™: A cognitive task simulation and rehearsal app for intramedullary femoral nailing". Injury. 46 (11): 2212–2216. doi:10.1016/j.injury.2015.05.013. ISSN 1879-0267. PMID 26094504.
  9. ^ Khelemsky, Renata; Hill, Brianna; Buchbinder, Daniel (April 2017). "Validation of a Novel Cognitive Simulator for Orbital Floor Reconstruction". Journal of Oral and Maxillofacial Surgery. 75 (4): 775–785. doi:10.1016/j.joms.2016.11.027. ISSN 1531-5053. PMID 28012843.
  10. ^ Brewer, Zachary E.; Ogden, William David; Fann, James I.; Burdon, Thomas A.; Sheikh, Ahmad Y. (Spring 2016). "Creation and Global Deployment of a Mobile, Application-Based Cognitive Simulator for Cardiac Surgical Procedures". Seminars in Thoracic and Cardiovascular Surgery. 28 (1): 1–9. doi:10.1053/j.semtcvs.2016.02.006. ISSN 1532-9488. PMID 27568126.
  11. ^ Chidambaram, Swathikan; Erridge, Simon; Leff, Daniel; Purkayastha, Sanjay (2019-02-01). "A Randomized Controlled Trial of Skills Transfer: From Touch Surgery to Laparoscopic Cholecystectomy". Journal of Surgical Research. 234: 217–223. doi:10.1016/j.jss.2018.09.042. hdl:10044/1/72504. ISSN 0022-4804. PMID 30527477.
  12. ^ "Digital Surgery is aiming to make operations safer by using Microsoft HoloLens". Microsoft News Centre UK. 2018-10-04. Retrieved 2019-10-02.
  13. ^ "Safe Surgery 2020". Assist International. Retrieved 2019-10-02.
  14. ^ "Who". Safe Surgery 2020. Retrieved 2019-10-02.
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