9%) for standard activation. Forty-seven patients (56.6%) received PCI in contrast to 178 (45.9%) for standard activation (‘true positive’ activation). Therefore, the rate of ‘true positive’ activations based on STEMI adjudication with subsequent PCI was nominally higher when CHap was used; however, the difference did not reach statistical significance, (p = 0.103). A specific subgroup analysis of the rate of ‘true positive’ selleck screening library activations for transferred patients demonstrated a similar pattern to that found for the general cohort, and
it is shown in Table 6. The primary finding of this study is that utilization of a downloadable software application in the care process of a patient with a possible ACS allows for a significant reduction of total DTB time of those with a STEMI. This is accomplished by significantly reducing the time from the initial call to the time of arrival into the catheterization laboratory. The use of telecommunication systems is considered valuable in the care of patients with STEMI, and has been shown to improve the quality of patient care
[11], [12], [13] and [14]. find more STEMI management in regional networks of care has benefitted from the implementation of pre-hospital electrocardiograms [13], [14], [17] and [18]. This crucial step improves risk stratification of a patient with possible ACS, and permits appropriate decisions to be made regarding the urgency and level of care required. Moreover, it reduces improper utilization of resources, such as ambulance transfer to non PCI-capable centers or inappropriate catheterization laboratory activations. An initial pilot study published by Gonzalez et al. [16] presented proof of concept for the use of a downloadable software application in the management
of patients with a possible ACS. This software installed on a cellular video-phone permitted a reliable and consistent interpretation of an electrocardiogram, where the measured inter-physician reliability and the time to interpret the electrocardiogram transmitted electronically was as good as that achieved with direct interpersonal communication, with a slightly longer time to complete the interaction [16]. until The presented data pertains to the first 12 months after clinical implementation of original software called “CHap”, which is used for the triage of patients with a possible ACS. The results could be attributed to some theoretical advantages found on the product design from its inception. The initial objectives were to create an affordable telecommunications system that worked on multiple commonly used platforms that permitted real-time, good quality video and voice transmission, that was simple to use, and was HIPPA compliant.