%0 Journal Article
%T Mobile, Cloud, and Big Data Computing: Contributions, Challenges, and New Directions in Telecardiology
%A Jui-Chien Hsieh
%A Ai-Hsien Li
%A Chung-Chi Yang
%J International Journal of Environmental Research and Public Health
%D 2013
%I MDPI AG
%R 10.3390/ijerph10116131
%X Many studies have indicated that computing technology can enable off-site cardiologists to read patients¡¯ electrocardiograph (ECG), echocardiography (ECHO), and relevant images via smart phones during pre-hospital, in-hospital, and post-hospital teleconsultation, which not only identifies emergency cases in need of immediate treatment, but also prevents the unnecessary re-hospitalizations. Meanwhile, several studies have combined cloud computing and mobile computing to facilitate better storage, delivery, retrieval, and management of medical files for telecardiology. In the future, the aggregated ECG and images from hospitals worldwide will become big data, which should be used to develop an e-consultation program helping on-site practitioners deliver appropriate treatment. With information technology, real-time tele-consultation and tele-diagnosis of ECG and images can be practiced via an e-platform for clinical, research, and educational purposes. While being devoted to promote the application of information technology onto telecardiology, we need to resolve several issues: (1) data confidentiality in the cloud, (2) data interoperability among hospitals, and (3) network latency and accessibility. If these challenges are overcome, tele-consultation will be ubiquitous, easy to perform, inexpensive, and beneficial. Most importantly, these services will increase global collaboration and advance clinical practice, education, and scientific research in cardiology.
%K mobile computing
%K cloud computing
%K telecardiology
%K electrocardiograph
%K echocardiography
%K medical images
%K big data
%U http://www.mdpi.com/1660-4601/10/11/6131