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Forum on Medical and Public Health Preparedness for Catastrophic Events; Board on Health Sciences Policy; Board on Health Care Services; Institute of Medicine. The Impacts of the Affordable Care Act on Preparedness Resources and Programs: Workshop Summary. Washington (DC): National Academies Press (US); 2014 Aug 27.
Forum on Medical and Public Health Preparedness for Catastrophic Events; Board on Health Sciences Policy; Board on Health Care Services; Institute of Medicine.
Washington (DC): National Academies Press (US); 2014 Aug 27.“Social-health” information exchange also includes community-based service organizations and can enable providers to focus on the whole person during a disaster response, addressing acute medical needs as well as housing, shelter, and other needs that impact health.
Many hospitals are looking for help with how to meet the Affordable Care Act community benefit requirement, and engaging the community in a health information exchange could be one approach.
Communication technologies such as telemedicine enable the sharing of information and expertise remotely, in real-time, extending workforce capacity and increasing quality of care.
Specialists can help manage patients at local hospitals through telemedicine. This could be an important asset when hospitals are surged and could benefit from additional workforce from unaffected areas.
Education is only a small part of getting people to embrace health information technology. A major component is making it very user friendly so that it is easy to learn and use.
This list is the rapporteurs' summary of the main points made by individual speakers and participants and does not reflect any consensus among workshop participants.
Technologies such as telehealth and health information exchanges (HIEs) are enabling the mobilization of health information across systems and geographies and are building opportunities to broaden the reach of specialist practitioners as well as allowing public health and clinical care to connect and care for the patient at a more holistic and fundamental level. Again, as more health systems shift toward technology use and integrated care with the Affordable Care Act (ACA) at the national level, more opportunities arise for innovations at the patient care level to build connections and expand partnerships that can come into play during disasters. This chapter explores some of these opportunities that are beginning to grow.
Connie Chan, project director at PCCI, a nonprofit organization specializing in the development of real-time predictive and surveillance analytics for health care, described three parallel tracks of technology that PCCI is developing to make health care “safer, simpler, and less stressful.” In the context of the ACA, its program fits within the “triple aim” of health care, striving for higher quality care, lower cost, and better population health. In addition, PCCI's model can add the unspoken fourth aim of making the country more resilient in disasters by connecting social and clinical services.
The first technology is the Dallas Information Exchange Portal (IEP), which is the underlying infrastructure for several other PCCI technologies. Chan noted that there are approximately 10 large health systems and 134 hospitals in Dallas. About 23 percent of the Dallas population lives below the federal poverty line. About 20,000 individuals were relocated to Dallas/Fort Worth after Hurricane Katrina, and many of them remain there today.
The Dallas IEP is a “social-health” information exchange. The concept is very similar to an HIE, Chan explained, but reaches a broader provider community. The vision is to include more than 400 community-based service organizations (e.g., those that provide shelter, housing assistance, food and nutrition assistance, transportation assistance, and financial assistance), as well as health care organizations via the regional HIE, the mental health and behavioral health community, and the Dallas County Detention Facility. In the context of disaster preparedness, responders could also be included within the Dallas IEP.
The initiative was developed out of the Parkland Health and Hospital System, which is a safety net hospital (more than 30 percent of the care provided is for patients without insurance). It became very apparent, Chan said, that the patients regularly going to Parkland were also regular users of the Salvation Army, Catholic Charities, Visiting Nurse Association, and other community organizations and that there was a serious lack of coordination of care for these patients moving across these different sectors. A flexible, standards-based, social-health information exchange would enable care providers to share information about medications, appointments, housing and transportation needs, and other needs that are critical for patients to achieve positive health outcomes. This will not only help in everyday care and reduce readmission rates, but also can help focus on the “whole person” during recovery.
The second technology is predictive analytics software called Pieces ™ that accesses the electronic health record (EHR) system and uses clinical and social risk factors to identify patients that are at high risk for an adverse event (e.g., congestive heart failure). Similar to Dean's and Hupert's earlier comments on predictive modeling to alert health departments to adverse events, this system can then alert the care providers, allowing them to mobilize interventions to prevent the adverse event from happening. Pieces is currently in place at Parkland and has been used in clinical and operational decisions for more than 100,000 patients across Dallas/Fort Worth. Chan said there has been a relative reduction in readmission of 30 percent across all patients and 20 percent relative reduction among Medicare patients.
The third technology PCCI is developing is the Intelligent Continuity of Care Document (iCCD), a multiuser interface for the Dallas IEP. Through technology such as natural language processing, artificial intelligence, and machine learning, the iCCD condenses patient information from multiple sources to provide a summary of the information most relevant to the point of care. The iCCD is also being developed for mobile interfaces so that providers and patients can interact with the information on tablets or smartphones, enabling services to be delivered directly in the community. These are great examples of coordinated, streamlined care with an emphasis on technology that American Reinvestment and Recovery Act (ARRA) and the ACA are encouraging through Meaningful Use Requirements and the Patient Centered Medical Home model (POCP, 2012).
Chan noted that PCCI is cognizant of the privacy and security concerns associated with cross-sector information exchange, and a detailed assessment of federal and state regulations has concluded that this is a feasible and permissible approach to information exchange with the right provisions and agreements.
These three layers of technologies are being developed for daily clinical and social workflows, but there are clearly opportunities for application to disaster preparedness. As an example, Chan described how the Dallas IEP could be of value in a tornado throughout all phases (see Box 7-1).
Potential Applications of the Dallas Information Exchange Portal in a Tornado Disaster. Build collaborative relationships to strengthen community resilience. Build redundancy into technology systems.
Chan highlighted three areas of focus of the Dallas IEP that support the ACA: chronic disease management, population health surveillance and health disparities research, and optimizing transitions of care. The Dallas IEP also supports the ACA relative to public health preparedness in the areas of community resilience, surveillance, and managing scarce resources in the community.
In developing information exchange portals and predictive analytics and technologies, Chan said that technologies being developed for non-catastrophic events could be very useful in disaster situations. It is important to harness the strength of smaller players, the community-based organizations that are not traditionally part of the health sector, to build a layer of redundancy during and after disasters. By having a social-health information exchange, providers will be able to focus on the whole person during the disaster response, acute medical needs as well as housing, shelter, and other needs. This would complement the Patient Centered Medical Home model that the ACA encourages, and would help to focus on value, decrease readmission rates, and increase patient satisfaction. Finally, predictive analytics, artificial intelligence, and natural language processing technologies could help to better direct resources intelligently during disaster situations.
During the discussion, various participants expanded on the idea of community-based organizations as part of the HIE, in particular, what they would need to participate (e.g., finances and technology). Chan said that PCCI has designed integration solutions and technology options for high-, medium-, and low-tech organizations, noting that most of the organizations fall into the low- to medium-tech level. In terms of finances, sustainability is a challenge for HIEs in general. The current PCCI approach is grant funded, and the pilot program is completely cost neutral to community organizations. The intent is to be able to measure and demonstrate the economic impact or potential cost-savings, Chan explained, and then potentially move into a shared-savings model 2 or a gain-sharing model in the community. PCCI is also exploring alternate means of funding information exchange, such as licensing, because the technology for social HIEs can be applied to other applications. Another opportunity for funding such efforts mentioned earlier by Larsen could be the State Innovation Models Initiative through the Centers for Medicare & Medicaid Services 3 that seeks to pilot new and innovative mixtures of payment and service delivery models.
Larsen pointed out that many hospitals are looking for help with how to meet the ACA community benefit requirement, and perhaps engaging the community in an HIE could be one approach.
Regionalization of care improves efficiency and quality but can create disparities in access for those who do not live near regional centers. Telemedicine and similar conferencing technologies allow clinical expertise to be everywhere, said James Marcin, director of the pediatric telemedicine program at the University of California (UC), Davis. Telemedicine has a myriad of clinical applications and has been used in various scenarios already for several years, especially in rural areas (IOM, 2011). The most common uses are for outpatient specialty consultations, inpatient intensive care specialty consultations, operative and procedural consultations, interpretation of images, and remote patient monitoring. Although the concept of telemedicine is not entirely new, provisions in the ACA, many of which are tied to the Center for Medicare & Medicaid Innovation, contain several advances for telemedicine. The legislation also encourages new opportunities in home health services and remote monitoring (ATA, 2010). Marcin gave an example of some of these potential opportunities through his experience at UC Davis.
The UC Davis telemedicine network interacts with more than 100 sites across the state every year, Marcin noted, resulting in more than 40,000 live interactive adult consultations and 6,000 pediatric consultations since its inception in 1996. Marcin shared the case of a comatose child who, because of his immediate needs, was transported to a local level II trauma center instead of the pediatric trauma center 150 miles away. Through a videoconference with the adult critical care physician, Marcin was able to help manage the care of the child in the adult intensive care unit. This remote patient management avoided the need to transfer the child and displace the family.
Surveys of parents have shown that they are overwhelmingly more satisfied with the care they receive via telemedicine versus the standard of care, which is telephone consultation (Dharmar et al., 2013a). Similarly, physicians rated the quality of care higher when the consultation was via telemedicine versus telephone. Medication errors were also reduced when telemedicine was used (Dharmar et al., 2013b). Telemedicine also offers significant cost savings. There is a 31 percent lower transfer rate among ill children receiving telemedicine compared to telephone consults. Assuming 10 seriously ill children per year, receiving care via telemedicine results in a cost savings of $38,366 per year, Marcin said. Another way to look at it, he said, is that for every dollar that UC Davis has invested in the telemedicine program, society (or typically the payer) has saved $12.
Telemedicine is used every day in the UC Davis emergency department, and it has now been integrated into the existing disaster preparedness framework at every step of the process (see Figure 7-1). Marcin said there are videoconferencing units in the ambulances and satellite videoconferencing units that fit into a suitcase and can be dropped at a scene. In the pre-hospital setting, telemedicine can lead to improved triage decisions, improved transport decisions, access to rural sites, and decreased exposure of providers to toxins or infectious agents. From a workforce perspective, telemedicine offers the potential to increase capacity by extending expertise beyond regional centers.
Integration of telemedicine in disaster preparedness. SOURCE: Marcin presentation, November 19, 2013.
Specialists can help manage patients at local hospitals. This could be an important asset when hospitals are surged and could benefit from additional workforce from unaffected areas.
Despite the success of telemedicine, there are barriers to implementation. Medicare has very restrictive reimbursement policies, and only about half of states reimburse for telemedicine for Medicaid populations, Marcin explained. There are also issues with cross-state licensure because the consulting specialist could be in a different state and might not be licensed in the state where the patient is. A related issue is hospital credentialing and privileging of the specialists at the remote hospitals before they are able to act as a consultant via videoconferencing. There is also concern about increased liability. While some of these barriers will remain at the local level, the ACA legislation's relevant telehealth provisions, and the Health Information Technology for Economic and Clinical Health (HITECH) Act through the ARRA have an opportunity to assist in moving this forward and augmenting everyday care and disaster response.
Many participants discussed the importance of educating and engaging health professionals in the use of health information technology (IT). Barnes said that with regard to the uptake of EHRs, about half of providers are adopting this technology simply to receive the incentive funds, and the other half understand what the technology can enable. Larsen said that getting people to understand why they are implementing EHRs is very important. Education is only a small part of getting people to embrace health IT. A major component is making it very user friendly so that it is easy to learn and use. The challenge for technology developers is to try and minimize the amount of education needed to use the system. During his remarks, Gamache added that conducting exercises like they do in the military would not be sustainable in the community. What is needed for this effort to succeed are systems that are used every day that can continue to be used in a disaster. What is done with the information may change in a disaster, he said, but how the information is reported or retrieved should stay as similar as possible to routine use. Terry Adirim, special consultant on maternal and child health at the Health Resources and Services Administration (HRSA), noted that Meaningful Use, 4 the financial incentives created to support optimal use of EHRs, requires that there be functionality in EHRs for public health. However, it was suggested that only about 10 percent of physicians and 15 percent of hospitals are using their EHRs for public health purposes. As Dawkins noted, the ACA brings a lot of great opportunities to share data. If this is the case, then there is opportunity for public health to capitalize on the ACA and include themselves in the conversations to not only meet their own objectives of data sharing and providing needed services to the population in disasters, but also to help hospitals meet the community benefit requirement spelled out in the legislation regarding 501(c)(3) status (referenced on p. 15). As more health care facilities switch to electronic data records, more information will be available to inform models and support decision making, whether at the local, state, or hospital catchment level.