Robust Data Networks Can Help Support Meaningful Use
Guest post by Alexandra Sewell, executive director, enterprise marketing, Comcast Business.
Meaningful use is one of the largest drivers of healthcare IT, with the potential for far-reaching effects. Many healthcare organizations are well on their way to achieving meaningful use, working through related cost, training and resource challenges.
But there is still work to be done. Meaningful use can require significant network infrastructure investment to support electronic health records (EHRs) and other technologies. At the same time, budgets are shrinking, so providers must be strategic about how they allocate IT dollars.
Improving Patient Outcomes
EHRs give doctors a complete view of the patient — from demographics and vital signs to medications, allergies and more. EHRs are a central component to complying with meaningful use Stage 1 requirements and help doctors easily view and transmit records, which can lead to more accurate patient diagnosis and treatment.
Hospitals with EHR systems can better capture data regarding patients’ co-morbidities and other risks. This helps clinicians manage patients, resulting in more positive clinical outcomes and improving mortality rates for heart attack, respiratory failure, and lower intestine surgery. EHRs can help improve the overall quality of patient care.
Picture Archiving and Communication System (PACS) technology provides economical storage and convenient access to a range of images from multiple imaging devices, transmitting them digitally and eliminating the need to manually file, retrieve or transport film jackets.
To comply with Stage 2 of meaningful use, healthcare providers must offer patients the ability to view, transmit, and download their health information. And while not explicitly mandated by meaningful use core objectives, many organizations are integrating their PACS and EHR systems so images, such as MRIs and CT scans, can be shared between physicians and with patients through patient portals. However, the size and volume of these imaging files place stress on hospital networks, creating data capacity and data center connectivity issues.