Intelligent autonomous treatment of bedwetting using non-invasive wearable advanced mechatronics systems and MEMS sensors

Kuru, Kaya; Ansell, Darren; Jones, Martin; Watkinson, Benjamin Jon; Caswell, Noreen; Leather, Peter; Lancaster, Andrew; Sugden, Paula; Briggs, Eleanor; Davies, Carl; Oh, Teik Chooi; Bennett, Kina; Goede, Christian de

doi:10.1007/s11517-019-02091-x

Cited by 14 publications

(22 citation statements)

References 17 publications

(32 reference statements)

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“…Despite multiple examples of co‐design of mental health technologies (mostly apps or Web‐based information) with children and young people, 67 , 177 , 178 , 179 , 180 future work will need to consider diversity in the user group, for example children experiencing psychosis. 181 …”

Section: Resultsmentioning

confidence: 99%

Ensuring patient and public involvement in the transition to AI‐assisted mental health care: A systematic scoping review and agenda for design justice

Zidaru

Morrow²,

Stockley

2021

Health Expectations

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Background Machine‐learning algorithms and big data analytics, popularly known as ‘artificial intelligence’ (AI), are being developed and taken up globally. Patient and public involvement (PPI) in the transition to AI‐assisted health care is essential for design justice based on diverse patient needs. Objective To inform the future development of PPI in AI‐assisted health care by exploring public engagement in the conceptualization, design, development, testing, implementation, use and evaluation of AI technologies for mental health. Methods Systematic scoping review drawing on design justice principles, and (i) structured searches of Web of Science (all databases) and Ovid (MEDLINE, PsycINFO, Global Health and Embase); (ii) handsearching (reference and citation tracking); (iii) grey literature; and (iv) inductive thematic analysis, tested at a workshop with health researchers. Results The review identified 144 articles that met inclusion criteria. Three main themes reflect the challenges and opportunities associated with PPI in AI‐assisted mental health care: (a) applications of AI technologies in mental health care; (b) ethics of public engagement in AI‐assisted care; and (c) public engagement in the planning, development, implementation, evaluation and diffusion of AI technologies. Conclusion The new data‐rich health landscape creates multiple ethical issues and opportunities for the development of PPI in relation to AI technologies. Further research is needed to understand effective modes of public engagement in the context of AI technologies, to examine pressing ethical and safety issues and to develop new methods of PPI at every stage, from concept design to the final review of technology in practice. Principles of design justice can guide this agenda.

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Section: Resultsmentioning

confidence: 99%

Ensuring patient and public involvement in the transition to AI‐assisted mental health care: A systematic scoping review and agenda for design justice

Zidaru

Morrow²,

Stockley

2021

Health Expectations

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“…The aim of the MyPAD project is to design a new wearable alarm system, using ultrasound technology, which will detect bladder volume, that is customisable to the user, to prevent inappropriate voiding, which should assist children with NE and their parents/carers in terms of managing the condition. A period of 'learning' will occur with its first use, using artificial intelligence (AI) techniques (for a full description of the device and garment see [19,20]). This will create an individualised alarm triggering point, which aligns with the child's pattern of voiding and bladder capacity.…”

Section: Introductionmentioning

confidence: 99%

“…. In this study, we focus on one of the PPI workshops conducted during the product development phase and we undertook qualitative research to help us understand the families' experience of the condition of enuresis, and to provide opinion relating to existing alarms, designed to detect moisture, and most importantly, the initial design of the MyPAD wearable technology [19,20]. A focus group comprising of children with enuresis and their parents was utilised.…”

Section: Introductionmentioning

confidence: 99%

Patient Engagement in Medical Device Design: Refining the Essential Attributes of a Wearable, Pre-Void, Ultrasound Alarm for Nocturnal Enuresis

et al. 2020

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“…Recently, studies on wearable non-invasive measuring equipment have been conducted using near-infrared spectroscopy [ 12 , 13 ], bioimpedance [ 14 , 15 ], and ultrasound [ 16 , 17 , 18 , 19 , 20 ]. Near-infrared spectroscopy and bioimpedance techniques assume that the optical and electrical properties of pelvic organs are constant and that variations in measurements result from changing the amount of urine in the bladder.…”

Section: Introductionmentioning

confidence: 99%

“…The measurement accuracy was low when measuring women. Van Leuteren and Kuru measured the length of the bladder in children using wearable ultrasound monitors for children [ 17 , 18 ]. The wearable ultrasound monitors have been commercialized to manage bladder fullness of LUTS patients such as SENS-U kids and Dfree [ 18 , 19 , 20 ].…”

Section: Introductionmentioning

confidence: 99%

Forward-Looking Ultrasound Wearable Scanner System for Estimation of Urinary Bladder Volume

Park

Joung

et al. 2021

Sensors

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Accurate measurement of bladder volume is an important tool for evaluating bladder function. In this study, we propose a wearable bladder scanner system that can continuously measure bladder volume in daily life for urinary patients who need urodynamic studies. The system consisted of a 2-D array, which included integrated forward-looking piezoelectric transducers with thin substrates. This study aims to estimate the volume of the bladder using a small number of piezoelectric transducers. A least-squares method was implemented to optimize an ellipsoid in a quadratic surface equation for bladder volume estimation. Ex-vivo experiments of a pig bladder were conducted to validate the proposed system. This work presents the potential of the approach for wearable bladder monitoring, which has similar measurement accuracy compared to the commercial bladder imaging system. The wearable bladder scanner can be improved further as electronic voiding diaries by adding a few more features to the current function.

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Intelligent autonomous treatment of bedwetting using non-invasive wearable advanced mechatronics systems and MEMS sensors

Cited by 14 publications

References 17 publications

Ensuring patient and public involvement in the transition to AI‐assisted mental health care: A systematic scoping review and agenda for design justice

Ensuring patient and public involvement in the transition to AI‐assisted mental health care: A systematic scoping review and agenda for design justice

Patient Engagement in Medical Device Design: Refining the Essential Attributes of a Wearable, Pre-Void, Ultrasound Alarm for Nocturnal Enuresis

Forward-Looking Ultrasound Wearable Scanner System for Estimation of Urinary Bladder Volume

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