Clinically applicable deep learning for diagnosis and referral in retinal disease

Fauw, Jeffrey De; Ledsam, Joseph R.; Romera-Paredes, Bernardino; Nikolov, Stanislav; Tomašev, Nenad; Blackwell, Sam; Askham, Harry; Glorot, Xavier; O’Donoghue, Brendan; Visentin, Daniel; Driessche, George van den; Lakshminarayanan, Balaji; Meyer, Clemens; Mackinder, Faith; Bouton, S. Miles; Ayoub, Kareem; Chopra, Reena; King, Dominic; Karthikesalingam, Alan; Hughes, Cían; Raine, Rosalind; Hughes, J. Randall; Sim, Dawn A; Egan, Catherine; Tufail, Adnan; Montgomery, Hugh; Hassabis, Demis; Rees, Geraint; Back, Trevor; Khaw, PT; Suleyman, Mustafa; Cornebise, Julien; Keane, Pearse A.; Ronneberger, Olaf

doi:10.1038/s41591-018-0107-6

Cited by 1,721 publications

(1,119 citation statements)

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“…An exception was a recent study that addressed the long‐term compliance of patients to wear a smartwatch, a body‐worn sensor, and a smartphone; in this study, a helpdesk to support patients proved a critical strategy to improve adherence . Another pitfall is the aspirational development of mobile health technologies as fulfilling diagnostic needs . Although technologies can be harnessed for validating patient‐centered outcomes and for supporting a clinical diagnosis, they remain inadequate as stand‐alone measures for “diagnostic accuracy.” Aiming at fulfilling this goal perpetuates the concept that the many molecular subtypes subsumed within the clinical diagnosis of PD can be unified by an ideal set of behavioral features.…”

Section: Current Gaps In the Use Of Mobile Health Technologiesmentioning

confidence: 97%

A roadmap for implementation of patient‐centered digital outcome measures in Parkinson's disease obtained using mobile health technologies

et al. 2019

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Obtaining reliable longitudinal information about everyday functioning from individuals with Parkinson's disease (PD) in natural environments is critical for clinical care and research. Despite advances in mobile health technologies, the implementation of digital outcome measures is hindered by a lack of consensus on the type and scope of measures, the most appropriate approach for data capture (eg, in clinic or at home), and the extraction of timely information that meets the needs of patients, clinicians, caregivers, and health care regulators. The Movement Disorder Society Task Force on Technology proposes the following objectives to facilitate the adoption of mobile health technologies: (1) identification of patient‐centered and clinically relevant digital outcomes; (2) selection criteria for device combinations that offer an acceptable benefit‐to‐burden ratio to patients and that deliver reliable, clinically relevant insights; (3) development of an accessible, scalable, and secure platform for data integration and data analytics; and (4) agreement on a pathway for approval by regulators, adoption into e‐health systems and implementation by health care organizations. We have developed a tentative roadmap that addresses these needs by providing the following deliverables: (1) results and interpretation of an online survey to define patient‐relevant endpoints, (2) agreement on the selection criteria for use of device combinations, (3) an example of an open‐source platform for integrating mobile health technology output, and (4) recommendations for assessing readiness for deployment of promising devices and algorithms suitable for regulatory approval. This concrete implementation guidance, harmonizing the collaborative endeavor among stakeholders, can improve assessments of individuals with PD, tailor symptomatic therapy, and enhance health care outcomes. © 2019 International Parkinson and Movement Disorder Society

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Section: Current Gaps In the Use Of Mobile Health Technologiesmentioning

confidence: 97%

A roadmap for implementation of patient‐centered digital outcome measures in Parkinson's disease obtained using mobile health technologies

et al. 2019

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“…Microsoft’s InnerEye offers a graphical user interface to algorithms that help radiologists diagnose cancerous tumours and plan precise surgical interventions 8. DeepMind Health recently partnered with Moorfields Eye Hospital to develop models for diagnosing common retinal pathologies based on optical coherence tomography scans 9. IBM’s Watson for Oncology seeks to provide personalised cancer care based on health records,10 although the project has run into numerous procurement problems, cost over-runs, and delays 11…”

Section: Predictions Versus Explanationsmentioning

confidence: 99%

Clinical applications of machine learning algorithms: beyond the black box

Watson

Krutzinna

Bruce

et al. 2019

BMJ

234

130

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“…In medical imaging, for example, ML may revolutionize identification of clinical signs, using pattern recognition to predict likely diagnosis or referrals. Evaluation is showing performance accuracy equaling human experts but at much faster speeds (De Fauw et al, ; Rajpurkar et al, ). As well as automating stages of diagnosis, ML may expand our current definitions of diseases and their subtypes.…”

mentioning

confidence: 99%

Machine learning: Great opportunities, but will it replace nurses?

Perry¹

2019

Int J of Nursing Practice

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Clinically applicable deep learning for diagnosis and referral in retinal disease

Cited by 1,721 publications

References 37 publications

A roadmap for implementation of patient‐centered digital outcome measures in Parkinson's disease obtained using mobile health technologies

A roadmap for implementation of patient‐centered digital outcome measures in Parkinson's disease obtained using mobile health technologies

Clinical applications of machine learning algorithms: beyond the black box

Machine learning: Great opportunities, but will it replace nurses?

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