Posted on August 20, 2021
With the technological innovations penetrating our daily lives and emerging digital trends getting a hold of our daily routine, the use of smart wearable devices for managing health has become commonplace. In this era of remote and personalized patient care, the cardiac community must familiarize itself with a wide range of wearable technologies available in the market.
In this blog, we will highlight the uses of smart biosensors for Cardiac Patients to monitor their heartbeats in near real-time. Further, we will also discuss the role of these smart wearable devices in remote screening and detecting of common heart diseases like arrhythmias, and in the management of patients with critical heart problems such as cardiac failure.
What Are Smart Wearable Devices And How Do They Work?
Smart wearable devices or a biosensor monitor as the name suggests, are discreet and wireless devices that can be worn by patients comfortably, for a recommended period of time. These devices can be in the form of wrist bands, patches, etc.
One good example of such wearable smart devices is Cardiac Rhythm’s biosensors. These come in the form of super lightweight patches that can be fixed on the body of patients for a period of up to 15 days. During this period, the device records every single heartbeat and detects abnormal cardiac rhythms along with the patient’s activities that caused them.
Smart wearable devices collect beat by beat data using auto algorithms and supply them to the monitoring centre through any software or mobile applications. On reaching the monitoring centres, the data is interpreted by certified and trained cardiac technicians and converted into detailed reports that are then shared with the doctors and physicians.
There is plenty of evidence stating that the use of wearable devices in Cardiac health assessment and prevention of critical cardiac disease is going on the right way. Not only are they allowing doctors and healthcare facilities to deliver quality remote patient care, but also helping patients to get better and personalized treatments.
Benefits of Smart Wearable Biosensors For Remote Cardiac Monitoring
It comes out as no shock that the ability to continuously keep eyes on a patient’s heart health and functioning of their smart wearable devices has proven to be extremely beneficial to doctors, physicians and other caregivers. For starters, very few in-person visits are needed, which saves a lot of time and cost associated with doctors fees. For doctors, smart wearable devices help in saving operational costs associated with infrastructure and labour. Besides, biosensor monitors pave a way to provide advanced and high-quality patient care which results in all sorts of positive outcomes — be it patient’s health or healthcare facility’s revenue generation.
Some of the most impressive benefits of smart wearable devices are as follows:
● Helps in reducing the rate of hospitalization due to common heart ailments like atrial arrhythmia.
● Prevents a patient’s heart condition from getting worse.
● Detect the abnormal heart rhythm at the earliest and allow patients to get effective treatment before it gets too late.
● Patients using remote monitoring devices have higher chances of survival than those who are not using them.
● Allows doctors and clinicians to provide personalized treatments to their patients and improve the quality of service.
Apart from these benefits, significant cost savings are also among the perks of remote patient monitoring using biosensors and smart wearables.
Main Features of Smart Biosensors
Biosensor devices are very easy to use and come with more or less the same features. For instance, Cardiac Rhythm bio-sensor offers the following features and benefits :
1. Lightweight & Easy To Wear
Cardiac Rhythm biosensor patches are super light in weight and are pretty comfortable to wear. Patients can get them fixed on their bodies and function normally as they would do without wearing them. They will not even realise that they are wearing some sort of device.
2. Continuous Monitoring
Biosensor patches can be worn for a period of up to 15 days. Once fixed on a patient’s body, these discrete devices record beat-by-beat heart data and detect abnormal cardiac rhythms along with the action that caused them.
3. Higher Diagnostic Yield
Biosensor devices offer far better diagnostic yield than the traditional Holter monitors themselves. Advanced healthcare algorithms detect abnormal heartbeats and send this data to monitoring centres. Here, well-trained and certified cardiac technicians interpret and prepare detailed reports that can be used by doctors to have a complete view of their patient’s heart condition.
4. Suitable for All Genders
Smart wearables are suitable for all age groups and genders. Anyone can wear these sensors to monitor their heart health.
5. 24/7 Access Via Secure Portals
Patients can access their clinical reports anytime, anywhere from the secure portals via their mobile phones or computers. As for the doctors, they can make better treatment decisions for saving their patients.
6. Built-in Event Notification
Most good quality biosensors come with patient-initiated as well as inbuilt notifications that allows the users to keep tabs on their cardiac rhythm.
7. Interpreted By Certified Cardiac Technicians
As discussed above, the data collected by smart wearable devices is sent to the monitoring centres where it is analyzed and interpreted by certified cardiac technicians.
Who Can Use Smart Wearable Biosensors?
Biosensors heart rate monitors aren’t only for heart patients. Instead, they can be used by anyone who wants to keep their heart health in check.
Below are some of the applications of Cardiac Rhythm Biosensors :
For Heart Patients
Biosensors heart rate monitors are the best tools for remote patient monitoring. They allow doctors to keep an eye on their patient’s health remotely.
Athletes can track their performance and stamina using the heart rate monitors. They can indulge in physical activities in accordance with their heart health.
For Post-operative Care
Hospitals can provide post-operative care to their patients after discharging them. This enhances the patient care experience and also improves the recovery rates.
E-ICU is among the top applications of a heartbeat monitor. Using it, clinicians can carry out at-home or on-site monitoring of their critical patients.
Cardiac rhythm monitoring biosensors minimize the chances of human errors by providing an efficient and precise way to collate ECG data. Thus, they enable caregivers to spend less time on monitoring aspects, and more time in providing high-quality personalized treatment to their patients.