115 Mind Blowing mHealth and Telehealth Statistics and Trends as the third installment of our 4 part Mind Blowing HIT Stats and Facts series.
Thanks to the rise of telehealth and mHealth, a transformation in the delivery of health information and services is quickly taking place, both in the US and abroad. Telehealth use in the US alone is expected to double in the next two years, according to Jonathan Linkous, CEO of the American Telemedicine Association (ATA). So what’s to come from this rather swift shift in the healthcare landscape?
In this third edition of HIT Consultant’s Mind Blowing HIT Stats and Trends series, we take a look at the facts and figures surrounding both telehealth and mHealth to shed light on some potential answers to that rather large question. While the power of both movements has yet to be realized, the influence from their emergence is already evident. Take a look:
HIMSS Analytics conducted the web-based and telephone-based research with 180 IT professionals in October and November 2012 responded to the 2nd Annual HIMSS Mobile Technology Survey. Survey findings include:
1. Two-thirds of health IT executives indicate that the use of mobile technology will substantially or dramatically impact the delivery of healthcare in the future
2. Use of mobile devices by physicians to view patient information or access non-protected health information is widespread, and the percent of clinicians using apps to actively engage in direct patient care has grown in the past year in several key areas, including:
3. Collection of data at the bedside (45 percent compared to 30 percent);
4. Use of bar code reader on mobile devices (38 percent compared to 23 percent);
5. Monitoring data from medical devices (34 percent compared to 27 percent); and
6. Capture visual representation of patient data (27 percent compared to 13 percent).
7. 36% reported allowing patients/consumers the ability to access information using a mobile device, up from 32 percent one year ago.
8. 13% of respondents indicated that their organizations had developed an app for patient/consumer use.
9. Respondents continue to characterize their mobile maturity as average – 3.33 on a scale of one to seven, where seven is highly mature.
10. One-quarter of respondents reported that all data captured via mobile devices is integrated directly into the organization’s EHR.
11. Nearly all IT professionals reported that their organizations supply mobile devices to clinicians to support day-to-day work activities.
12. Two-thirds reported their organization has a mobile technology plan in place, up from the 38% of respondents that reported this in 2011.
13. More than one-quarter of respondents (27%) are currently implementing a mobile technology plan.
14. Use of apps by clinicians is widespread at organizations; approximately half of survey respondents reported they will increase their use of apps in the next 12 months.
15. 5% of respondents now offer an app marketplace, and 11 percent are considering the creation of a marketplace in the future.
16. 70% of Americans are self-trackers, but only a fifth are using technology like mobile devices
17. 9% of cell phone owners say they receive any text updates or alerts about health or medical issues.
18. 31% of cell phone owners have used their phone to look for health information
19. 17% of cell phone owners had used their phones to look for health advice
20. 52% gather health information on their phones, compared with 6% of non‐smartphone owners
21. 19% of smartphone owners have at least one health app on their phone.
22. Most popular type of mhealth apps include:
Source: Pew Research Center
23. More than 100 providers declare securing patient data a primary concern as clinicians increasingly use mobile devices to access medical information
24. Methods Providers Use to Protect Data Accessed by Mobile Devices include:
A recent KLAS survey of 105 CIOs , IT specialists, and physicians in the US, found that:
25. 70% used mobile devices to access their electronic health records, including customers of nearly every major EHR (Epic, Cerner, GE, Allscripts, Siemens, MEDITECH, and McKesson)
26. 94%, were supporting Apple
27. 49% and 44% supporting Android and Microsoft
28. Employees increased their steps by over 40% according to one insurance company who ran a scientific experiment with FitBit, to test if employees who use devices get healthier than those who don’t.
Source: California Report
29. 69% of hospitals indicating that their nurses use their personal mobile devices
30. 96% of hospitals interviewed believe that 1st generation TabletPCs were not the right device to support bedside nursing.
Source: Spyglass Consulting Group
31. The number of mHealth patents issued by the Patent Office has increased steadily since 2000 (when the number of mHealth patent applications was negligible), and will continue to surge until at least 2014.
32. Large companies are winning the mHealth patent race by obtaining the vast majority of newly-issued mHealth patents.
33. Intellectual Ventures, a non-practicing patent aggregator, is patenting aggressively in the mHealth space. Licensing demands and litigation from IV (and possibly other NPEs) are sure to follow.
34. Almost half of the top twenty mHealth patent holders are not mHealth companies, or even medical device developers.
35. The incidence of mHealth patent infringement conflicts likely will increase as companies become more profitable and patent portfolios mature.
36. The volume of patent litigation in the mHealth industry is low relative to related industries such as the computer, smartphone, and medical device industries.
In a survey of 106 physicians at pediatric hospitals, researchers from the University of Kansas School of Medicine in Wichita found that:
37. 27% of named texting their preferred method for brief communications
38. 23% favored hospital-issued pagers
39. 21% that said face-to-face conversation.
40. 57% reported sending or received work-related text messages
41. 12% send at least 10 messages per shift
42. 5% said they received more than 20 messages each time during a typical shift
Source: American Academy of Pediatrics
43. A new meta-analysis of 11 studies shows that mobile device-enabled interventions can help increase people’s physical activity according to study published in the Journal of Medical Internet Research
44. Smartphones are #9 on Health Tech Hazards list thanks to texting during surgery
Source: ERCI Institute
45. 3 million people are expected to be using smartphone-powered remote patient monitoring devices by 2016
46. 44 million mobile health applications will be downloaded this year, and about 142 million will be downloaded in 2016
47. Electronic health records will become an important component of mobile health offerings
48. Increased use of smartphones for remote patient monitoring will lower costs by reducing the need for expensive dedicated medical devices
49. Further guidance from FDA on the regulation of mobile health apps will help boost usage
50. The greater use of smartphones will increase remote monitoring of chronic diseases such as diabetes and chronic obstructive pulmonary disease
51. Wearables will be a $1.5 billion market by 2014, up from just $800 million this year.
Source: Juniper Research
Key Drivers of mHealth are:
52. . Consumer Demand
53. . Affordable Distribution
54. . Free Information
55. Knowledge is Power
56. Social Networks
Source: Why Wireless Health Matters
Reasons Physicians Will Embrace the iPad Mini
58. Display Capability
59. Better Buy-In
60. Address BYOD
Source: HIT Consultant
Touching Lives through Mobile Health: Assessment of Global Market Opportunity PWC report
61. PWC predicts mHealth global revenue to reach $23 billion in 2017
62. Diagnosis services are expected to comprise nearly 15% of the mobile health market with US $3.4 billion in revenues in 2017
63. A majority of the revenues from Diagnosis services are expected to come from call-centre and mobile telemedicine solutions with approximately US$ 1.7 billion and US$ 1.6 billion in revenue in 2017.
64. Treatment will be the third largest revenue opportunity with around 10% of the total mobile health market share. Wellness and Prevention will comprise approximately 3% and 1% respectively of the total mobile health market.
65. Healthcare Systems Strengthening services and applications are expected to contribute about 6% to the overall mobile health market (corresponding to US$ 1.4 billion) in 2017.
66. Among opportunities in Healthcare Systems Strengthening, Healthcare Practitioner Support will have the largest share with about 5% of the total mobile health market opportunity (US$ 1.1 billion), followed by Administration, Healthcare Surveillance Support, and Emergency Response
67. Mobile operators are expected to be the key beneficiaries of the expected growth in the mobile health market and command about 50% share of the overall market, corresponding to US$ 11.5 billion, in 2017.
68. For mobile operators, a majority of the revenue, nearly US$ 8.8 billion, will accrue from their revenue share from Monitoring services. Diagnosis and Treatment solutions will also be attractive opportunities for operators, and contribute US$ 1 billion and US$ 0.9 billion to operator revenues.
69. 75% of current mobile health deployments in Africa focus on improving the efficiency of healthcare workers and systems
70. Current status of mobile health projects in Africa split by countries where they are implemented
71. Solutions that help spread prevention and awareness messages have also been widely deployed and comprise about 20% of the mobile health developments in the African region
72. Patient treatment and remote monitoring solutions constitute almost 60% of the total mobile health deployments in Europe.
73. The UK leads in mobile health development in Europe, with different kinds of solutions being offered and services being delivered through varied means, from simple SMS to complex apps.
74. 60% of mobile health deployment solutions in Latin America are targeted towards strengthening healthcare systems and include applications that aid healthcare practioners in storing and retrieving patient records and supporting decision-making.
75. 27% of mobile health deployment solutions in Latin America constitute remote monitoring of chronic disease patients, aiding the elderly through devices and services, and pill dispensers that remind users through SMS and generate adherence reports.
76. Almost 40% of the solutions deployed work towards strengthening the healthcare systems in the US
77. 25% of mobile health solutions aid monitoring and treatment of patients
78. Current status of mobile health projects in the US
79. Top 5 mHealth Regulatory Issues for 2013
80. 5 Reasons Why Your Consumer Health App Will Fail To Change Behavior
Source: Healthy Startups
81. Key Barriers to Implementation of mHealth
Source: [x]cube LABS
82. 5 Common Threads of Success for Consumer Health and Medical Apps
Source: Dr. David Lee Scher, MD
83. The global telehealth market is expected to grow steadily over the next several years and reach $2.5 billion by 2018
84. The global telehealth market was valued at $736 million in 2011.
85. In 2011, telehealth table devices cost about $350 and the average price of the software was about $75 per unit
86. The telehealth services market will grow from $7 billion in 2011 to nearly $16 billion in 2016.
Source: Companies & Markets
According to U.K. Dept. of Health Study:
87. Using remote monitoring technology to keep tabs on patients’ blood sugar and cardiopulmonary disease can reduce the risk of patient mortality by up to 45%
Telehealth can deliver:
88. 15% reduction in emergency room visits
89. 20% reduction in emergency admissions
90. 14% reduction in elective admissions
91. 14% reduction in bed days
92. 8% reduction in tariff costs.
Source: U.K. Department of Health
93. The U.S. market for advanced patient monitoring systems has grown from $3.9 billion in 2007 to $8.9 billion in 2011 and is forecast to reach $20.9 billion by 2016 according to a study by Kalorama Information
According to the American Hospitals Association:
94. 70% of the “most wired” hospitals in America already provide telehealth.
A previous pilot study conducted by the NHS reviewed three cities with over 6,000 patients suffering from three primary conditions: diabetes, heart failure or COPD. The results include:
95. Remote monitoring reduced mortality rates by 45%
96. 15% reduction in emergency room visits
97. 20% reduction in emergency admissions
98. 14% reduction in bed days
99. 8% reduction in total costs per patient
100. Patients who receive telemonitoring services and blood pressure management support from a pharmacist are more likely to lower their blood pressure than those who do not receive the extra support, according to a study presented at the American Heart Association’s Quality of Care Outcomes Research Scientific Sessions 2012,
101. After six months, the study found that 71.8% of patients in the group that received telemonitoring support had lowered their blood pressure to healthy levels, compared with 45.2% of patients in the control group.
Source: American Heart Association
102. Top Areas for Growth in Telehealth Market
Source: Frost & Sullivan
Telehealth Adoption Challenges
103. Some regulations require that physicians be licensed in the state where patients are treated, limiting the use of telehealth to in-state treatment.
104. In addition, insurance coverage for telehealth varies, with some insurers only covering telehealth in rural areas.
105. Moreover, some patients refuse to use telehealth, and some physicians are wary of the technology’s shortcomings.
Study: Telemonitoring Might Not Reduce ED Visits, Hospitalizations
The study found that both groups had similar rates of hospitalizations and ED visits.
106. 64% of the patients in the telemonitoring group were hospitalized or visited the ED, compared with 57% of the control group.
107. Researchers also found that about 15% of the patients in the telemonitoring group died during the course of the study, compared with 4% of the patients in the control group.
Source: Archives of Internal Medicine
Using Telehealth in ICUs
108. Combined implementation and first year of operation costs for a Tele-ICU program of $50,000 to $100,000 per monitored ICU-bed.
109. Changes in patient care costs after Tele-ICU implementation ranged from a $3000 reduction to a $5600 increase in hospital cost per patient.
110. VHA data suggested a cost for implementation and first year of operation of $70,000 to $87,000 per-ICU bed depending on depreciations methods applied.
Source: Chest Journal
A survey by www.CouponCodes4u.com of 1,723 Americans, aged 18-30, found:
111. About one third of Americans are willing to receive some of their healthcare from robots
112. 98% said they would receive robot care if it meant lower co-pays and health insurance costs
113. 34% said that they would opt for care from a remote presence virtual and independent telemedicine assistant robot (RP-VITA), if given the choice, while
114. 5% of respondents claimed to be “indifferent.”-
115. 8 Telehealth Trends from the Trade Show Trenches
The last and final installment will be social media.
Featured image credit: meremortalblog