Here’s a link to the interview we did and I’ve also reproduced it in full below.
WTA: Tell us a little bit about yourself and your journey within the wearable technology space
RDS: I am a nurse, educator and researcher by background and currently work in a unit called the Centre for Culture, Ethnicity and Health at North Richmond Community Health Centre in Melbourne. I came from Monash University to this role with an interest in translating research into practice. I was really interested in doing research in the community and being based there, so that there wasn’t such a big lag between research and knowledge implementation. Wearable tech seemed a good area to explore in a community setting where there is a high percentage of overseas-born residents (38%). Many speak a language other than English at home which has an impact on health literacy. I have been working with colleagues at the University of Melbourne and Paper Giant using “design probes” to engage women from culturally and linguistically diverse (CALD) backgrounds in discussions about health tracking and wearable health technologies in the context of pregnancy and parenting. We started with a stakeholder forum where we explored the research issues around wearable tech and cultural diversity to develop an agenda. More recently with the the University of Melbourne we have conducted a health self-tracking week where we provided daily community education sessions on a range of topics including diabetes and nutrition and self-tracking. Before the end of the year we will be following up with interviews with trackers and asking them about the barriers and enablers to self-tracking.
WTA: Wearable Tech is the next big thing now. Where do you see the industry heading in the next 5 years?
RDS:I am interested in what changes need to be made in health care systems to really maximise the benefits of Wearable Tech. What kinds of educational preparation will the future health workforce need? How will health workers need to modify their roles from being traditional gate-keepers of information in light of the democratisation of information access? What skills will they need to support patients who are activated, motivated and informed? How will health care systems need to change so they can really make the most of patient generated health data? How will workflows and practices change in order to accommodate the new models of care that are emerging with wearable tech?
WTA: According to your expertise in the wearables space which industry do you think will be impacted most by wearable technologies in the next few years
RDS: Technology is moving faster than the health care and education industries. In order to realise the benefits of advances in wearable tech, it’s going to be crucial for the health care workforce to be well prepared educationally and to develop digital literacies both at the undergraduate level and then in terms of continuing education and training. There’s going to have to be a huge shift not just in terms of knowledge and skills, but also in terms of understanding how to be more collaborative in health care.
WTA: Do you think personal IoT has a sustainable future? Will people need more than one platform to handle all their wearable devices?
RDS: I think interoperability is a big issue. Merely generating personal health data without the capacity to have it integrated into your health care means that the potential benefits may not be realised. For this our current models of care and institutional systems need to become more agile and nimble. Many health workers are sceptical about the benefits of wearable technology and concerned about who gets to benefit from the aggregation of health data. They need reassurance about the ethical treatment of data.
WTA: What do you think is the biggest challenge within the wearable technology industry?
RDS: I think the biggest challenge is how wearable technologies can work for people who are marginalised. Working in community health as a researcher I am interested in what wearable self tracking devices mean for people who don’t fit the wealthy, worried, well and white demographic, that typically wearables are marketed to. There is an urgent need to bring people and communities into processes of information handling that are more transparent and accountable. Health workers adhere to codes of conduct and have a duty of care, I’d like to see the developers of technologies engage in more careful scrutiny and have more transparency about the uses of data. I think also that if wearable tech is to be democratised and benefit everyone then communities who are wary of surveillance must have greater control of their data and personal health information.
I am visiting the University of Auckland as an international speaker for the Research Café on Migration & Inequality being organised by the Faculty of Science and School of Population Health. The Research Café is a project of the Engaged Social Science Research Initiative and funded by the Vice-Chancellor’s Strategic Development Fund. I’ll also be giving a public lecture on Wednesday 7th December in Room 730-268 at the School of Population Health: 11.30am -12.20pm:
“Wearables” are a growing segment within a broader class of health technologies that can support healthcare providers, patients and their families as a means of supporting clinical decision-making, promoting health promoting behaviours and producing better health literacies on both sides of the healthcare professional-consumer relationship. Mobile technologies have the potential to reduce health disparities given the growing ubiquity of smartphones as information visualisation devices, particularly when combined with real-time connections with personal sensor data. However despite the optimism with which wearable health technology has been met with, the implementation of these tools is uneven and their efficacy in terms of real-world outcomes remains unclear. Wearables have the potential to reduce the cultural cognitive load associated with health management, by allowing health data collection and visualisation to occur outside the dominant languages of representation and customised to a user experience. However, typically, “wearables” have been marketed toward and designed for consumers who are “wealthy, worried and well”. How can these technologies meet the needs of culturally diverse communities?
This presentation reports on the findings from a seminar and stakeholder consultation organised by The Centre for Culture, Ethnicity and Health, in partnership with the University of Melbourne’s Research Unit in Public Cultures and the Better Health Channel. The consultation brought together clinicians, academics, developers, community organisations, and policymakers to discuss both the broader issues that wearable technologies present for culturally and linguistically diverse (CALD) communities, as well as the more specific problems health-tracking might pose for people from diverse backgrounds. This presentation summarises the key issues raised in this consultation and proposes future areas of research on wearable health technologies and culturally and linguistically diverse (CALD) communities.
Dr. Ruth De Souza is the Stream Leader, Research Policy & Evaluation at the Centre for Culture, Ethnicity & Health in Melbourne. Ruth has worked as a nurse, therapist, educator and researcher. Ruth’s participatory research with communities is shaped by critical, feminist, and postcolonial approaches. She has combined her academic career with governance and community involvement, talking and writing in popular and scholarly venues about mental health, maternal mental health, race, ethnicity, biculturalism, multiculturalism, settlement, refugee resettlement, and cultural safety.
Contact for Information: Dr Rachel Simon Kumar firstname.lastname@example.org
Written for and first published in in the August 2016 edition of Nurse Click (the Australian College of Nursing’s monthly electronic, interactive PDF publication available to ACN members, and to stakeholders, the wider nursing and non-nursing community who subscribe to it.). Cite as: DeSouza, R. (2016). Wearable devices and the potential for community health improvement. Nurse Click, August, 14-15 (download pdf 643KB nurseclick_august_2016_final)
“Wearable technology“, “wearable devices“, and “wearables” all refer to electronic technologies or computers that are incorporated into items of clothing and accessories which can comfortably be worn on the body. These wearable devices can perform many of the same computing tasks as mobile phones and laptop computers; however, in some cases, wearable technology can outperform these hand-held devices through their integration into bodily movements and functions through inbuilt sensory and scanning features, for example. Wearables include: smart watches, fitness trackers, head mounted displays, smart clothing and jewellery. There are also more invasive varieties including implanted devices such as micro-chips or even smart tattoos, insulin pumps, or for contraception. The purpose of wearable technology is to create constant, seamless and hands-free access to electronics and computers.
Wearables are all about data. Thanks to recent advancements in sensors, we’re able to collect more information about ourselves than ever and use that data to make healthcare personal and tailored to our needs. Traditionally, qualitative health research and much clinical interaction relies on self-reporting by consumers, which is then interpreted by researchers and published for incorporation into practice by health practitioners. Along the way, much important information is “lost in translation”. New consumer healthcare technologies are brokering a shared informational interface between caregivers, clinicians, communities and researchers, allowing practitioners to access richer and more detailed empirical data on health consumer activity and their participation in health-seeking activities.
Consumer health technologies offer potential for care to be more equitable and patient-centred. The technological promise also brings concerns, including the impact on the patient-provider relationship and the appropriate use and validation of technologies. Technologies are also developed with particular service-users in mind, and rarely designed with the participation of people from structurally and culturally marginalised communities. In turn, the impacts of these technologies on health service education, planning and policy are far reaching. It is important that technology is not demographically blind, from a public health and community health perspective it must not reinforce the structural inequalities that exist between those who have access to health and those who haven’t.
The Centre for Culture, Ethnicity and Health, in partnership with the University of Melbourne’s Research Unit in Public Cultures and the Better Health Channel, recently organised a seminar and stakeholder consultation in Melbourne on July 28th with the aim of shaping a research agenda on wearable health technologies and culturally and linguistically diverse (CALD) communities. Typically wearables have been marketed toward the ‘wealthy worried and well’ demographic and the purpose of the seminar was to discuss both the generic issues that emerging wearable technologies present, as well as the unique issues for people from diverse backgrounds. The three hour event brought together clinicians, academics, developers, community organisations, and policymakers to consider the future issues with these technologies.
The first speaker was University of Melbourne researcher and lecturer Suneel Jethani who expressed scepticism about what wearable health technologies really may deliver for health, particularly for CALD communities. Suneel explored the growth of wearable health technologies through the notion of the pharmakon, the notion that every medicine is also poison, with the devices having capacity to be both beneficial and harmful. Janette Gogler, a Nurse Informatician from Melbourne’s Eastern Health described a randomised control trial of emerging technologies for remote patients with chronic heart failure and chronic obstructive pulmonary disease (COPD). In this trial patients took a number of their own physiological measurements including electrocardiography (ECG) monitoring, blood pressure, and spirometry. While the trial led many patients to feel more in control of their health through a better understanding of their physiology, there were also challenges, including having to manage their expectations of the technology, where patients who became suddenly unwell were upset that the system had not given them forewarning, even though the issues were outside the scope of the devices. Janette also raised the issue of research excluding speakers of additional languages. The final speaker was Deloitte Digital partner Sean McClowry, who noted that the uptake of wearable health technologies has been slower to reach ‘digital disruption’ compared to the smart phones, but saw the likelihood of exponential growth through a new model of care. Sean raised questions about the unprecedented nature of data: how to make it high quality and its analysis meaningful. The session by the three panellists was followed by two youth respondents and a question and answer session and then break out groups which developed further questions and issues for an emerging research program.
In the stakeholder consultation a number of critical themes emerged from many participants: the need to carefully manage privacy; the lack of accuracy of much consumer information; certification of apps; Western models of individual health hard-wired into the platform; the potential of peer support from new technologies; challenges for existing workforces and roles; and the potential of research to stigmatise as well as assist CALD communities. What was agreed was that consumer health technologies were only going to continue to grow and that no part of the health system would be undisrupted by the changes ahead, both intimidating and exciting!
Are you a night owl or an early bird? Or do you fall in between? I succumbed and bought a wearable device because I thought it could be useful to track my sleep. I spend a few nights in the city every week and I notice that I feel less rested than when I am ‘home’. It seems the right time to buy a wearable device, I am co-organising a Wearables seminar on July 28th 2016 at the Centre for Culture, Ethnicity and Health. I’ve also been invited by Croakey to guest tweet on @WePublicHealth and I want to explore how the concepts of consumer participation, health literacy and cultural competence are changing with technologisation in health care. Check out this interview with Marie McInerney editor at Croakey on Youtube if you are interested in the seminar). I’ve also just started a course at QUT on Social media and data analytics as an entry point into beginning to understand what kinds of data are being generated and what can be done with that.
Wearable health technologies are growing in social acceptance and use, especially for people interested in fitness and health monitoring as a form of preventative medicine. As sensors become cheaper and smaller, many kinds of health-related data that previously relied upon clinical equipment are becoming available for continuous self-monitoring by patients and consumers. In effect, these technologies are turning the body into media, so that a health consumer can become their own twenty four hour news channel focused entirely on the realtime representation of wellbeing.
Wearable technology platforms have been dominated by the English-speaking middle-classes, (“the wealthy, worried and well” as Michael Paasche-Orlow suggests), limiting the community benefits of enhanced participation and health. Barbara Feder Ostrov notes:
But Fitbits aren’t particularly useful if you’re homeless, and the nutrition app won’t mean much to someone who struggles to pay for groceries. Same for emailing your doctor if you don’t have a doctor or reliable Internet access.
The diffusion of mobile phones (that can also be used as health monitoring devices) indicates that these technologies will only expand to a wider range of users.
What are wearables?
Wearable devices or “wearable technology” and “wearables” refer to electronic technologies or computers that are incorporated into clothing and accessories and worn on the body. They can include smart watches
fitness trackers, head mounted displays, smart clothing and jewellery. They do many things that mobile phones and laptop computers do, but some also have features not seen in mobile and laptop devices. Sensory and scanning features can provide biofeedback and track physiological function. There are also more invasive devices which can implanted such as micro-chips, smart tattoos, pumps.
Why is everyone talking about wearables now?
The world of health information is undergoing significant transformation in the digital era. New media channels such as the Internet allow access to on-demand health information outside of authoritative channels; and new technologies such as fitness trackers and wearables produce a wide range of personal health information. Several trends have increased attention on technologies in health including the democratising role of the internet, leading to the emergence of more intensively informed health consumers who expect more precise and individualised care; the ubiquity and mobility of network communications, allowing the immediate bidirectional transfer of information between individuals and systems; the role of social media in providing networks for sharing both personal data and health experiences; and the increasing cost of health care and the potential for technology to make health management more efficient.
What are the benefits?
Traditionally, much clinical interaction relies on self-reporting by consumers, which is then interpreted by researchers and published for incorporation into practice by health practitioners. Along the way, much important information is “lost in translation”. New consumer healthcare technologies are brokering a shared informational interface between caregivers, clinicians, communities and researchers, allowing practitioners to access richer and more detailed empirical data on health consumer activity and their participation in health-seeking activities. Consumer health technologies offer potential for care to be more equitable and patient-centred. In turn, the impacts of these technologies on health service education, planning and policy are far reaching. More about benefits.
Could wearables enhance independence and participation?
Advances in health mean that residents of industrialized countries live longer, but with multiple, often complex, health conditions. Health technologies can expand the capabilities of the health care system by extending its range into the community, improving diagnostics and monitoring, and maximizing the independence and participation of individuals (Patel, Park, Bonato, Chan and Rodgers, 2012). The United Kingdom’s National Health Service (NHS) is giving millions of patients free health apps & connected health devices in a bid to promote self-management of chronic diseases. Wearable sensors also have diagnostic and monitoring applications, which can sense physiological, biochemical and motion changes. Monitoring could help with the diagnosis and ongoing treatment of people with neurological, cardiovascular and pulmonary diseases including seizures, hypertension, dysrhythmias, and asthma. Home-based motion sensing might assist in falls prevention and help maximize an individual’s independence and community participation.
What are the concerns about wearables?
The technological promise also brings concerns, including the impact on the patient-provider relationship; and the appropriate use and validation of technologies. Technologies are also developed with particular service-users in mind, and rarely designed with the participation of people from structurally and culturally marginalised communities. Despite the ubiquity and access to apps, wearables and websites, the lack of science might preclude behaviour change (e.g. no set of standards) and the “average person” could struggle to choose an app that is effective at changing health behaviour. People are anxious about whether their health data can be used against them. Workplace surveillance and tracking employees has become a health and safety issue. There’s concern about whether we can trust the scientific rigor of the apps we are using, for example the accuracy of the heart rate tracker of the Fitbit and concerns about security.
What impact will technologies have on health professional roles?
Health professionals will have to consider how they work with clients in the context of these technologies. The capacity to review and share healthcare experiences is already available. Technologies will require changes in rules, business models, workflow and roles. The advent of authoritative websites like the Better Health Channel, means that health professionals may no longer be the ultimate gate-keepers of knowledge, their role might shift to being health coaches who empower clients to monitor and improve their health by using their own data. They might have a larger role in care coordination and managing care transitions through the use of mobile health apps. They could play a greater role in research at the point of care through data gathering in research projects. They could play a greater role in evaluating the quality and appropriateness of particular apps. Technology could also free up time to care. Nurses often spend more time collecting information rather than looking after patients. One study showed 60 % of the nurse’s/midwife’s time was spent collecting information and only 15% caring for their patients. ePrescription systems in Sweden, the US and Denmark increased health provider productivity per prescription by over 50%.5. eReferrals in Europe reduced the average time spent on referrals by 97%.6. So, there is potential for the enhancement of health system design: workflow and the coordination of care. There will also need to be better support for innovation as this post from The Medical Startup notes:
How can you innovate where your environment is slow to respond to change, and, despite best intentions, has trouble understanding the few (or many) employees who want to do more, but can’t articulate their feelings? How can you innovate when you risk being penalised or even kicked out of a specialty college that you’ve worked so hard to enter?
Health professionals will also need data management or data analytic skills in order to best use the data wearable health technologies generate. The data will range from public health intelligence (for example tracking outbreaks); using data as a diagnostic tool; to follow up treatment plans; to provide access to the personas, problems, goals and preferences which can then improve the care plan through tailored information and also improve engagement and activation. Health professionals will also need to find ways to prepare patients better for their appointments so that the time they spend is better used.
What kinds of workforce preparation will be necessary for using technologies effectively?
The Digital Skills for Health Professionals Committee of the European Health Parliament surveyed over 200 health professionals about their experience with digital health solutions, and a large majority reported to have received no training, or insufficient training, in digital health technology. The committee recommended continuous education of health professionals in the knowledge, use and application of digital health technology. Curricula will need to be updated to prepare health professionals for using mobile apps/diagnostic and data monitoring tools to the nurses’ repertoire of skills and competencies and larger focus on patient-centered care and consumer engagement in health promotion and maintenance activities. Will there be new roles for ‘informaticians’ whose job is to help download apps, set it up, teach patients how to use it to make health messages more understandable? Educators will need to consider how they teach students to use technology and integrate the use of mobile technology into learning experiences and clinical practice. They’ll need to consider how to use technology such as texts, mobile telephones, or video for health promotion and disease prevention. They will also need an understanding of informatics and how health data are stored, transmitted, and used, as well as the use of the electronic health record in patient-centered care planning (Kennedy, Androwich, Mannone, & Mercier, 2014).
Could benefits be realised for people from CALD backgrounds?
As one of the most culturally diverse communities in the world which accounts for around one-third of migrant settlement in Australia, Victorians born overseas as a percentage of the population have grown by 29 per cent from 2001 to 2011—from just below 1.1 million people to 1.4 million (VARG, 2014). The Auditor General notes in the VARG report (2014) that:
Migrants, particularly those with low English proficiency or poor literacy in their own language, and refugees and asylum seekers are among our most vulnerable members of the community. This is because they often have complex needs, particularly in relation to health, welfare and language services. A whole-of-government approach to the broader area of multicultural affairs should improve integration, reduce duplication and better identify gaps in services.
Evidence is growing that the the greater the health literacy of an individual, the greater the likelihood of health maintenance and promotion. Low health literacy is associated with more adverse health outcomes (people with low levels of individual health literacy are between 1.5 and 3 times more likely to experience an adverse health outcome (DeWalt et al. 2004 cited in ACSQHC 2013c). People from refugee and migrant backgrounds may be disadvantaged in the health system because they are in the process of developing their health literacy and capital. Access to and through health care is a significant aspect of feeling a sense of belonging and worth, so improvements in health participation will also have a significant impact on broader social inclusion. We need to explore how low health literacy/data literacy affect the use of health information, merely having access to information in apps is no guarantee that you can use the information.
It’s going to be interesting seeing what data comes out of the Jawbone app. Having had it for two days I can see that it provides useful data about the type of sleep I’ve had. What I do with the information will be one of the questions I grapple with next.