e.g. mhealth
Search Results (1 to 10 of 3385 Results)
Download search results: CSV END BibTex RIS
Skip search results from other journals and go to results- 964 JMIR mHealth and uHealth
- 652 Journal of Medical Internet Research
- 587 JMIR Formative Research
- 377 JMIR Research Protocols
- 147 JMIR Mental Health
- 141 JMIR Human Factors
- 74 JMIR Pediatrics and Parenting
- 55 JMIR Diabetes
- 51 JMIR Cancer
- 46 JMIR Aging
- 46 JMIR Cardio
- 39 JMIR Public Health and Surveillance
- 32 Iproceedings
- 31 JMIR Serious Games
- 23 JMIR Medical Informatics
- 20 JMIR Nursing
- 17 Interactive Journal of Medical Research
- 14 JMIR Biomedical Engineering
- 14 JMIR Rehabilitation and Assistive Technologies
- 13 JMIR Dermatology
- 13 JMIR Medical Education
- 11 JMIR Perioperative Medicine
- 5 JMIR AI
- 5 JMIR Neurotechnology
- 3 JMIR Infodemiology
- 2 Online Journal of Public Health Informatics
- 1 Asian/Pacific Island Nursing Journal
- 1 JMIR Bioinformatics and Biotechnology
- 1 Journal of Participatory Medicine
- 0 Medicine 2.0
- 0 iProceedings
- 0 JMIR Preprints
- 0 JMIR Challenges
- 0 JMIR Data
- 0 JMIRx Med
- 0 JMIRx Bio
- 0 Transfer Hub (manuscript eXchange)
- 0 JMIR XR and Spatial Computing (JMXR)
Reference 7: mHealth in cardiovascular health care Reference 17: Challenges in implementing mHealth interventions: a technical perspective Reference 22: A structured review of commercially available cardiac rehabilitation mHealth Applications Reference 66: Prescribable mHealth apps identified from an overview of systematic reviews Reference 73: mHealth apps for self-management of cardiovascular diseases: a scoping reviewmhealthMobile Health (mhealth) mHealth for Diagnosis mHealth for Rehabilitation mHealth for Screening mHealth in a Clinical Setting
J Med Internet Res 2025;27:e66815
Download Citation: END BibTex RIS
Go back to the top of the page Skip and go to footer section
Mobile health (m Health) interventions offer an alternative option for the provision and dissemination of health information, particularly for communities outside major cities where health services reach is reduced.
J Med Internet Res 2025;27:e57019
Download Citation: END BibTex RIS
Go back to the top of the page Skip and go to footer section
In addressing such an impressive morbidity and mortality burden, digital mobile health (m Health) technologies could play a crucial role in this worrying scenario. In fact, AMR counseling and support could be effectively aided by the use of information technology, big data, and artificial intelligence (AI) in health care.
JMIR Mhealth Uhealth 2025;13:e51122
Download Citation: END BibTex RIS
The widespread use of smartphones among young people makes them an attractive platform for mobile health (m Health) apps or digital interventions aimed at promoting mental health through self-help features [14-23]. Evidence-based m Health apps have the potential to target a wide range of users, promoting mental health and preventing mental health conditions in both clinical and nonclinical populations [10].
JMIR Mhealth Uhealth 2025;13:e65106
Download Citation: END BibTex RIS
Real-World Mobile Health Implementation and Patient Safety: Multicenter Qualitative Study
Specifically, m Health platforms should be designed and developed to support health goals and workflows, and organizations must configure health technologies when adopting available m Health. Furthermore, with the remarkable increase in the volume of literature on safety issues surrounding m Health, it is important to extend the understanding from research to real-world implementation.
J Med Internet Res 2025;27:e71086
Download Citation: END BibTex RIS
Mobile applications in health, known as m Health apps, have proven helpful and significant benefits for patients and health care professionals. These apps assist patients in adopting healthier lifestyles, enhancing self-care, and improving the quality of services, with a substantial focus on educational services and sensibilization programs [20-22].
JMIR Hum Factors 2025;12:e60169
Download Citation: END BibTex RIS
Research on the use of information technologies, particularly mobile health (m Health), as a service delivery paradigm for health care systems has proliferated in the last decade due to the potential of these tools to help bridge gaps in care for underserved individuals [1,2]. Coupled with early evidence supporting its efficacy [3-5], the undisputed ubiquity of mobile technology, and strong interest among patients [6], there is a clear potential for harnessing m Health to widen health care access.
JMIR Mhealth Uhealth 2025;13:e56329
Download Citation: END BibTex RIS
Alternatively, mobile health (m Health)–based interventions have been used to promote vaccination [15]. Thus, integrating MI into automated platforms is essential for scalability to improve public health.
The World Health Organization (WHO) acknowledges m Health as a cost-effective, scalable, and sustainable way to improve public health [16]. A limiting factor in MI’s effectiveness is scalability due to the intensity of provider training and evaluation.
JMIR Res Protoc 2025;14:e64010
Download Citation: END BibTex RIS