Medical whole body screening software on tablets and healthcare devices
Many patients receiving intensive care in hospitals are connected to monitors or ventilators that automatically collect a continuous stream of data. The data from these integrated medical devices is pulled into a platform that provides insights for doctors, nurses, and nursing teams to help them make decisions about patients, automatically record documents, and manage device alerts.
These integrated devices not only reduce the workload of clinicians, but also eliminate data input delays and human errors, both of which can affect treatment.
Most importantly, the data collected by the integrated medical device provides clinicians with complete and accurate patient records from connected documents and clinical information systems. This provides evidence-based support for their decisions and strong interdisciplinary communication to promote nursing coordination.
In view of the obvious advantages of integrated monitors and ventilators, it is clear that the integration of other equipment inside and outside the intensive care unit by medical institutions will improve clinical and operational performance, while improving patient safety and care coordination.
The vast majority of nurses in an industry Polls See the benefits of integrated devices: 93% of people strongly agree that medical devices should be able to automatically and seamlessly share data. Nearly three-quarters (74%) of nurses strongly agree that coordinating data collected by medical equipment is a burden, while 91% of nurses said that if they can spend less time processing equipment, they will spend more time with patients touch.
The following are some medical equipment other than monitors and ventilators. Hospitals and health systems can integrate these equipment to benefit clinicians, patients, and surgeons.
Dialysis Machine
Outside the ICU or similar environment, hemodialysis data is usually recorded manually and then entered into electronic health records (EHR) and other downstream systems. This process often leads to incomplete or inaccurate records, which can be a potential danger because patients undergoing hemodialysis usually have multiple comorbidities such as diabetes, hypertension, and liver disease. Automatically capturing data can create comprehensive and accurate documents to better support care decisions and enable clinicians to spend more time on patients.
Cardiopulmonary device
The extracorporeal circulation machine takes over the functions of the human heart and lungs during surgery, and is usually used in hospital operating rooms. However, these devices are usually not integrated into clinical IT systems. Although the patient’s vital signs are constantly monitored during the operation, the perfusionist can only communicate the data captured by the machine to the operating room team through oral and handwritten notes. This is not only inefficient, but also introduces the possibility of human error.
However, if the cardiopulmonary bypass machine is connected to a comprehensive medical platform, interdisciplinary nursing team members, such as the anesthesiology team, can view the latest data without intermediaries or delays.
Other integrated medical devices, such as intra-aortic balloon pumps, end-tidal carbon dioxide or pulse oximeter devices, can be used by clinicians after surgery to monitor the patient’s recovery and help complete documentation to improve care coordination.
Reduce “alarm fatigue”
Clinicians may get up to 1,000 patient safety alerts per shiftThis can lead to a phenomenon called “alarm fatigue”, where busy clinicians become insensitive to security alarms. Agency for Healthcare Research and Quality (AHRQ) Say Alarm fatigue “is now considered a major unintended consequence of the computerization of healthcare and a major patient safety hazard.” AHRQ cited the 2011 Boston Globe survey This “identified more than 200 deaths during a five-year period due to failing to pay due attention to the alarms of the physiological monitoring system.”
Connecting different medical devices and positioning the collected data in a central location that can be analyzed and contextualized enables suppliers to reduce the number of “nuisance” alarms and the impact of alarm fatigue. The result will be higher clinician preparation and more effective response.
Medical alerts are designed to make clinicians immediately aware of potential abnormal vital signs in patients. By using smarter alarms to continuously monitor a large number of physiological parameters, clinicians can react before adverse events occur.An international study of 7,851 heart disease patients Publish In 2016, it was found that 59.4% of people had at least one vital sign abnormality 1 to 4 hours before cardiac arrest, and 13.4% of people had at least one vital sign that was severely abnormal.
Integrating broader device data into clinical monitoring systems can help clinicians intervene before adverse events occur.The last two years Learn Such a system that monitors post-surgery patients in a non-critical orthopedic ward in New Hampshire showed that “rescue events” dropped sharply from 3.4 events per 1,000 patient discharges to 1.2 events, while ICU transfers decreased to 2.9 per 1,000 patients Times from 5.6 days.
This research and a growing number of clinical studies have shown that effective data management can drive the success of operations, clinical, and patient outcomes, whether in traditional or value-based care payment models. Suppliers must recognize that if used properly, every data point from a medical device has inherent value. There are tools that can extract more value from medical device data for providers and patients.
Photo: ra2studio, Getty Images



