A personal decision support system for heart failure management (HeartMan) : study protocol of the HeartMan randomized controlled trial

Background: Heart failure (HF) is a highly prevalent chronic disease, for which there is no cure available. Therefore, improving disease management is crucial, with mobile health (mHealth) being a promising technology. The aim of the HeartMan study is to evaluate the effect of a personal mHealth system on top of standard care on disease management and health-related quality of life (HRQoL) in HF. Methods: HeartMan is a randomized controlled 1:2 (control: intervention) proof-of-concept trial, which will enrol 120 stable ambulatory HF patients with reduced ejection fraction across two European countries. Participants in the intervention group are equipped with a multi-monitoring health platform with the HeartMan wristband sensor as the main component. HeartMan provides guidance through a decision support system on four domains of disease management (exercise, nutrition, medication adherence and mental support), adapted to the patient's medical and psychological profile. The primary endpoint of the study is improvement in self-care and HRQoL after a six-months intervention. Secondary endpoints are the effects of HeartMan on: behavioural outcomes, illness perception, clinical outcomes and mental state. Discussion: HeartMan is technologically the most innovative HF self-management support system to date. This trial will provide evidence whether modern mHealth technology, when used to its full extent, can improve HRQoL in HF

The effectiveness of self-management mobile phone and tablet apps in long-term condition management: A systematic review

Background: Long-term conditions and their concomitant management place considerable pressure on patients, communities, and health care systems worldwide. International clinical guidelines on the majority of long-term conditions recommend the inclusion of self-management programs in routine management. Self-management programs have been associated with improved health outcomes; however, the successful and sustainable transfer of research programs into clinical practice has been inconsistent. Recent developments in mobile technology, such as mobile phone and tablet computer apps, could help in developing a platform for the delivery of self-management interventions that are adaptable, of low cost, and easily accessible. Objective: We conducted a systematic review to assess the effectiveness of mobile phone and tablet apps in self-management of key symptoms of long-term conditions. Methods: We searched PubMed, Embase, EBSCO databases, the Cochrane Library, and The Joanna Briggs Institute Library for randomized controlled trials that assessed the effectiveness of mobile phone and tablet apps in self-management of diabetes mellitus, cardiovascular disease, and chronic lung diseases from 2005-2016. We searched registers of current and ongoing trials, as well as the gray literature. We then checked the reference lists of all primary studies and review papers for additional references. The last search was run in February 2016. Results: Of the 9 papers we reviewed, 6 of the interventions demonstrated a statistically significant improvement in the primary measure of clinical outcome. Where the intervention comprised an app only, 3 studies demonstrated a statistically significant improvement. Interventions to address diabetes mellitus (5/9) were the most common, followed by chronic lung disease (3/9) and cardiovascular disease (1/9). A total of 3 studies included multiple intervention groups using permutations of an intervention involving an app. The duration of the intervention ranged from 6 weeks to 1 year, and final follow-up data ranged from 3 months to 1 year. Sample size ranged from 48 to 288 participants. Conclusions: The evidence indicates the potential of apps in improving symptom management through self-management interventions. The use of apps in mHealth has the potential to improve health outcomes among those living with chronic diseases through enhanced symptom control. Further innovation, optimization, and rigorous research around the potential of apps in mHealth technology will move the field toward the reality of improved health care delivery and outcomes. ©Lisa Whitehead, Philippa Seaton

Use of m-Health Technology for Preventive Interventions to Tackle Cardiometabolic Conditions and Other Non-Communicable Diseases in Latin America- Challenges and Opportunities

In Latin America, cardiovascular disease (CVD) mortality rates will increase by an estimated 145% from 1990 to 2020. Several challenges related to social strains, inadequate public health infrastructure, and underfinanced healthcare systems make cardiometabolic conditions and non-communicable diseases (NCDs) difficult to prevent and control. On the other hand, the region has high mobile phone coverage, making mobile health (mHealth) particularly attractive to complement and improve strategies toward prevention and control of these conditions in low- and middle-income countries. In this article, we describe the experiences of three Centers of Excellence for prevention and control of NCDs sponsored by the National Heart, Lung, and Blood Institute with mHealth interventions to address cardiometabolic conditions and other NCDs in Argentina, Guatemala, and Peru. The nine studies described involved the design and implementation of complex interventions targeting providers, patients and the public. The rationale, design of the interventions, and evaluation of processes and outcomes of each of these studies are described, together with barriers and enabling factors associated with their implementation.Fil: Beratarrechea, Andrea Gabriela. Instituto de Efectividad Clínica y Sanitaria; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; ArgentinaFil: Diez Canseco, Francisco. Universidad Peruana Cayetano Heredia; PerúFil: Irazola, Vilma. Instituto de Efectividad Clínica y Sanitaria; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; ArgentinaFil: Miranda, Jaime. Universidad Peruana Cayetano Heredia; PerúFil: Ramirez Zea, Manuel. Institute of Nutrition of Central America and Panama; GuatemalaFil: Rubinstein, Adolfo Luis. Instituto de Efectividad Clínica y Sanitaria; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentin

Randomized controlled trial of a coordinated care intervention to improve risk factor control after stroke or transient ischemic attack in the safety net: Secondary stroke prevention by Uniting Community and Chronic care model teams Early to End Disparities (SUCCEED).

BackgroundRecurrent strokes are preventable through awareness and control of risk factors such as hypertension, and through lifestyle changes such as healthier diets, greater physical activity, and smoking cessation. However, vascular risk factor control is frequently poor among stroke survivors, particularly among socio-economically disadvantaged blacks, Latinos and other people of color. The Chronic Care Model (CCM) is an effective framework for multi-component interventions aimed at improving care processes and outcomes for individuals with chronic disease. In addition, community health workers (CHWs) have played an integral role in reducing health disparities; however, their effectiveness in reducing vascular risk among stroke survivors remains unknown. Our objectives are to develop, test, and assess the economic value of a CCM-based intervention using an Advanced Practice Clinician (APC)-CHW team to improve risk factor control after stroke in an under-resourced, racially/ethnically diverse population.Methods/designIn this single-blind randomized controlled trial, 516 adults (≥40 years) with an ischemic stroke, transient ischemic attack or intracerebral hemorrhage within the prior 90 days are being enrolled at five sites within the Los Angeles County safety-net setting and randomized 1:1 to intervention vs usual care. Participants are excluded if they do not speak English, Spanish, Cantonese, Mandarin, or Korean or if they are unable to consent. The intervention includes a minimum of three clinic visits in the healthcare setting, three home visits, and Chronic Disease Self-Management Program group workshops in community venues. The primary outcome is blood pressure (BP) control (systolic BP <130 mmHg) at 1 year. Secondary outcomes include: (1) mean change in systolic BP; (2) control of other vascular risk factors including lipids and hemoglobin A1c, (3) inflammation (C reactive protein [CRP]), (4) medication adherence, (5) lifestyle factors (smoking, diet, and physical activity), (6) estimated relative reduction in risk for recurrent stroke or myocardial infarction (MI), and (7) cost-effectiveness of the intervention versus usual care.DiscussionIf this multi-component interdisciplinary intervention is shown to be effective in improving risk factor control after stroke, it may serve as a model that can be used internationally to reduce race/ethnic and socioeconomic disparities in stroke in resource-constrained settings.Trial registrationClinicalTrials.gov Identifier NCT01763203

Efficacy of a Mobile Application in a Chronic Kidney Disease Population

Chronic kidney disease (CKD) is associated with high healthcare costs, poor health outcomes and low quality of life (Donald et al., 2018). The US CKD prevalence is 15%, costing Medicare $79 billion in 2016 (United States Renal Data System, 2018). Self-management could reduce CKD burden (Jeddi, Nabovati, and Amirazodi, 2017). Mobile technology offers a low-cost, ease-of-access platform for chronic disease self-management (Whitehead & Seaton, 2016), potentially slowing disease progression and improving health outcomes (Jeddi, 2017). The purpose of this project was to utilize a CKD-specific mobile application, CARELogiQ, to facilitate symptom management; increasing patient satisfaction and decreasing hospitalizations and ER visits over three months. A five-database literature review yielded six high-quality articles; three level I, two level II, and one level III evidence based on JHNEBP (Dang & Dearholt, 2017). Evidence supports a multifaceted approach to effectively use a CKD-specific mobile application for patient and provider communications, appointment and biometric check reminders, education, and telemonitoring of BP and weight. The Stetler Model guided the project (Stetler, 2001). In a Northwest Indiana nephrology clinic, CARELogiQ was used to report symptoms, communicate with patients and providers, and record medical appointments. DaVita’s Kidney Smart© educational class provided education. Participants recorded weekly BP and weights manually in a log. Weekly calls collected BP and weight results, reminded participants to use CARELogiQ to report symptoms, encouraged medication adherence, and continued telemonitoring. Aggregate and person-to-person hospitalization/ER visit comparisons, and a post-intervention satisfaction-of-care survey were completed. Healthcare utilization was less in the intervention group (N = 10, M = 0.00, SD = 0.00) compared to the non-intervention group (N = 32, M = 0.125, SD = 0.42) (t(40) = .930, p = .36) . Rate of healthcare utilization in the intervention group (N = 10) did not change from pre (M = 0.00, SD = 0.00) to post-intervention (M = 0.00, SD = 0.00). Participants were satisfied with use of CARELogiQ. CARELogiQ has the potential to reduce healthcare utilization by improving self-management, thus effectively impacting CKD burden. Significant outcomes may be attainable for future CARELogiQ projects by increasing sample size, lengthening implementation time, increasing functionality of CARELogiQ, and providing a smart device to participants

Efficacy of a Mobile Application in a Chronic Kidney Disease Population

Chronic kidney disease (CKD) is associated with high healthcare costs, poor health outcomes and low quality of life (Donald et al., 2018). The US CKD prevalence is 15%, costing Medicare $79 billion in 2016 (United States Renal Data System, 2018). Self-management could reduce CKD burden (Jeddi, Nabovati, and Amirazodi, 2017). Mobile technology offers a low-cost, ease-of-access platform for chronic disease self-management (Whitehead & Seaton, 2016), potentially slowing disease progression and improving health outcomes (Jeddi, 2017). The purpose of this project was to utilize a CKD-specific mobile application, CARELogiQ, to facilitate symptom management; increasing patient satisfaction and decreasing hospitalizations and ER visits over three months. A five-database literature review yielded six high-quality articles; three level I, two level II, and one level III evidence based on JHNEBP (Dang & Dearholt, 2017). Evidence supports a multifaceted approach to effectively use a CKD-specific mobile application for patient and provider communications, appointment and biometric check reminders, education, and telemonitoring of BP and weight. The Stetler Model guided the project (Stetler, 2001). In a Northwest Indiana nephrology clinic, CARELogiQ was used to report symptoms, communicate with patients and providers, and record medical appointments. DaVita’s Kidney Smart© educational class provided education. Participants recorded weekly BP and weights manually in a log. Weekly calls collected BP and weight results, reminded participants to use CARELogiQ to report symptoms, encouraged medication adherence, and continued telemonitoring. Aggregate and person-to-person hospitalization/ER visit comparisons, and a post-intervention satisfaction-of-care survey were completed. Healthcare utilization was less in the intervention group (N = 10, M = 0.00, SD = 0.00) compared to the non-intervention group (N = 32, M = 0.125, SD = 0.42) (t(40) = .930, p = .36) . Rate of healthcare utilization in the intervention group (N = 10) did not change from pre (M = 0.00, SD = 0.00) to post-intervention (M = 0.00, SD = 0.00). Participants were satisfied with use of CARELogiQ. CARELogiQ has the potential to reduce healthcare utilization by improving self-management, thus effectively impacting CKD burden. Significant outcomes may be attainable for future CARELogiQ projects by increasing sample size, lengthening implementation time, increasing functionality of CARELogiQ, and providing a smart device to participants

Alcuni abstract di articoli che trattano argomenti relativi all'eHealth

Non utile per esam

MobiHealth-Innovative 2.5/3G mobile services and applications for health care

MobiHealth aims at introducing new mobile value added services in the area of healthcare, based on 2.5 (GPRS) and 3G (UMTS) technologies, thus promoting the use and deployment of GPRS and UMTS. This will be achieved by the integration of sensors and actuators to a Wireless Body Area Network (BAN). These sensors and actuators will continuously measure and transmit vital constants along with audio and video to health service providers and brokers, improving on one side the life of patients and allowing on the other side the introduction of new value-added services in the areas of disease prevention and diagnostic, remote assistance, para-health services, physical state monitoring (sports) and even clinical research. Furthermore, the MobiHealth BAN system will support the fast and reliable application of remote assistance in case of accidents by allowing the paramedics to send reliable vital constants data as well as audio and video directly from the accident site