Finding the sweet spot: a qualitative study exploring patients’ acceptability of chatbots in genetic service delivery

[1]  Y. Bombard,et al.  Patient-facing digital tools for delivering genetic services: a systematic review , 2022, Journal of Medical Genetics.

[2]  A. Sturm,et al.  Use of a chatbot to increase uptake of cascade genetic testing , 2022, Journal of genetic counseling.

[3]  T. T. Luk,et al.  Efficacy, Usability, and Acceptability of a Chatbot for Promoting COVID-19 Vaccination in Unvaccinated or Booster-Hesitant Young Adults: Pre-Post Pilot Study , 2022, Journal of medical Internet research.

[4]  L. Donkin,et al.  A Cognitive Behavioral Therapy Chatbot (Otis) for Health Anxiety Management: Mixed Methods Pilot Study , 2022, JMIR formative research.

[5]  James Shaw,et al.  Telephone, video, equity and access in virtual care , 2021, npj Digital Medicine.

[6]  R. Nussbaum,et al.  Hereditary Cancer Risk Using a Genetic Chatbot Before Routine Care Visits , 2021, Obstetrics and gynecology.

[7]  Jill Walker Rettberg,et al.  Ask Rosa - The making of a digital genetic conversation tool, a chatbot, about hereditary breast and ovarian cancer. , 2021, Patient education and counseling.

[8]  V. Braun,et al.  Conceptual and design thinking for thematic analysis , 2021 .

[9]  Lu Xu,et al.  Chatbot for Health Care and Oncology Applications Using Artificial Intelligence and Machine Learning: Systematic Review , 2021, JMIR cancer.

[10]  Eri Haneda,et al.  Preliminary Screening for Hereditary Breast and Ovarian Cancer Using a Chatbot Augmented Intelligence Genetic Counselor: Development and Feasibility Study , 2021, JMIR formative research.

[11]  T. Wong,et al.  Digital health during COVID-19: lessons from operationalising new models of care in ophthalmology. , 2021, The Lancet. Digital health.

[12]  Alaa A. Abd-alrazaq,et al.  A review of mobile chatbot apps for anxiety and depression and their self-care features , 2021 .

[13]  D. Bradford,et al.  Introducing Edna: A trainee chatbot designed to support communication about additional (secondary) genomic findings. , 2020, Patient education and counseling.

[14]  J. Church,et al.  Using chatbots to screen for heritable cancer syndromes in patients undergoing routine colonoscopy , 2020, Journal of Medical Genetics.

[15]  M. Milne-Ives,et al.  The Effectiveness of Artificial Intelligence Conversational Agents in Health Care: Systematic Review , 2020, Journal of medical Internet research.

[16]  Andrea Giovanni Nuzzolese,et al.  How the COVID-19 pandemic favored the adoption of digital technologies in healthcare: a systematic review of early scientific literature. , 2020, Journal of medical Internet research.

[17]  Y. Bombard,et al.  How digital tools can advance quality and equity in genomic medicine , 2020, Nature Reviews Genetics.

[18]  J. Phillips,et al.  Mainstreaming genetics and genomics: a systematic review of the barriers and facilitators for nurses and physicians in secondary and tertiary care , 2020, Genetics in Medicine.

[19]  K. Schulman,et al.  Covid-19 and Health Care's Digital Revolution. , 2020, The New England journal of medicine.

[20]  Nicholas C Jacobson,et al.  Artificial Intelligence Chatbot for Depression: Descriptive Study of Usage , 2019, JMIR formative research.

[21]  H. Kirchner,et al.  Patient assessment of chatbots for the scalable delivery of genetic counseling , 2019, Journal of genetic counseling.

[22]  Alexandre Escande,et al.  A Chatbot Versus Physicians to Provide Information for Patients With Breast Cancer: Blind, Randomized Controlled Noninferiority Trial , 2019, Journal of medical Internet research.

[23]  Judith Moskowitz,et al.  Use of the Chatbot “Vivibot” to Deliver Positive Psychology Skills and Promote Well-Being Among Young People After Cancer Treatment: Randomized Controlled Feasibility Trial , 2019, JMIR mHealth and uHealth.

[24]  W. Mansell,et al.  Conversational Agents in the Treatment of Mental Health Problems: Mixed-Method Systematic Review , 2019, JMIR mental health.

[25]  Tom Nadarzynski,et al.  Acceptability of artificial intelligence (AI)-led chatbot services in healthcare: A mixed-methods study , 2019, Digital health.

[26]  Jean-Emmanuel Bibault,et al.  When Chatbots Meet Patients: One-Year Prospective Study of Conversations Between Patients With Breast Cancer and a Chatbot , 2019, JMIR cancer.

[27]  L. D. de Witte,et al.  A Virtual Agent to Support Individuals Living With Physical and Mental Comorbidities: Co-Design and Acceptability Testing , 2018, Journal of medical Internet research.

[28]  A. Laupacis,et al.  The Genomics ADvISER: development and usability testing of a decision aid for the selection of incidental sequencing results , 2018, European Journal of Human Genetics.

[29]  Y. Kobori,et al.  MP15-03 NOVEL APPLICATION FOR SEXUAL TRANSMITTED INFECTION SCREENING WITH AN AI CHATBOT , 2018 .

[30]  Shameek Ghosh,et al.  Quro: Facilitating User Symptom Check Using a Personalised Chatbot-Oriented Dialogue System. , 2018, Studies in health technology and informatics.

[31]  David Ireland,et al.  Designing a Chat-Bot for Non-Verbal Children on the Autism Spectrum. , 2018, Studies in health technology and informatics.

[32]  R. Bennett,et al.  Projecting the Supply and Demand for Certified Genetic Counselors: a Workforce Study , 2018, Journal of Genetic Counseling.

[33]  Natalie Stein,et al.  A Fully Automated Conversational Artificial Intelligence for Weight Loss: Longitudinal Observational Study Among Overweight and Obese Adults , 2017, JMIR diabetes.

[34]  Ran Tao,et al.  Cognitive-Behavioral Therapy. , 2008, Advances in experimental medicine and biology.

[35]  Timothy Bickmore,et al.  Acceptability and feasibility of a virtual counselor (VICKY) to collect family health histories , 2015, Genetics in Medicine.

[36]  Timothy Bickmore,et al.  An Internet-Based Virtual Coach to Promote Physical Activity Adherence in Overweight Adults: Randomized Controlled Trial , 2012, Journal of medical Internet research.

[37]  Dana P. Goldman,et al.  A Theory of Health Disparities and Medical Technology , 2005 .

[38]  J. Benkendorf,et al.  The state of the medical geneticist workforce: Findings of the 2003 survey of American Board of Medical Genetics certified geneticists , 2005, Genetics in Medicine.

[39]  Michael J Green,et al.  Use of an educational computer program before genetic counseling for breast cancer susceptibility: Effects on duration and content of counseling sessions , 2005, Genetics in Medicine.

[40]  B. Smedley,et al.  Race as biology is fiction, racism as a social problem is real: Anthropological and historical perspectives on the social construction of race. , 2005, The American psychologist.

[41]  Michael J Green,et al.  Effect of a computer-based decision aid on knowledge, perceptions, and intentions about genetic testing for breast cancer susceptibility: a randomized controlled trial. , 2004, JAMA.

[42]  B. Biesecker,et al.  An interactive computer program can effectively educate patients about genetic testing for breast cancer susceptibility. , 2001, American journal of medical genetics.

[43]  B. Biesecker,et al.  Education about genetic testing for breast cancer susceptibility: patient preferences for a computer program or genetic counselor. , 2001, American journal of medical genetics.