Do you want to improve decision-making in healthcare systems? Data integration helps to generate meaningful insights for researchers and patients in the healthcare domain. This real-time data collection from various sources enhances the monitoring capabilities and leads to more data-driven decisions. But the question arises is “how to assemble data from multiple clinical systems.”

With technological advancements, wearable devices have emerged as an immersive tool for proactive care and biomedical research. These digital tools have revolutionized medical practices and have a role in promoting overall wellness. About 30% of US adults use wearable tools for healthcare as of 2020.

As a healthcare provider or a patient, you can deploy these tools to monitor vital health indicators. For instance, you may check out blood glucose, heart rate, sleep patterns, and other health parameters by wearing these accessible gadgets. So, to harness the full potential, you need to establish a seamless data ecosystem to foster a more inclusive healthcare environment.

Converting Medical Devices into Wearables

When dealing with data, healthcare systems require a greater level of flexibility. Traditional medical equipment is converted into more user-friendly instruments to improve convenience and data unification. It broadens the scope of their applications and delivers a more personalized experience.

1. Broadening the Scope: Making Any Device Wearable

The transformation of medical devices into wearable technology allows for real-time monitoring in everyday life. Traditionally, medical equipment was confined to clinical settings and required professional assistance. By incorporating these tools, the standard device components are miniaturized and designed into more portable gadgets that can be worn on the body. Over 44 % of Americans approve of wearable fitness trackers for health monitoring purposes.

Moreover, these innovative devices are integrated with advanced sensors that broaden their scope of applications. For instance, diagnostic gadgets like electrocardiograms (ECGs), pulse oximeters, blood pressure, or blood glucose monitors can be made wearable. It enables continuous data tracking of health conditions in a non-intrusive manner.

2. Unlocking New Possibilities: Beyond Traditional Health Monitoring

Beyond monitoring basic vital signs, these tools are deployed to perform a variety of functions.

Screening

One of them is screening. It identifies factors associated with the individuals and promotes preventive healthcare. For example, by enabling some passive sensors, you can measure movement patterns, steps, sleep quality, light, sound, pressure, and other environmental conditions. About 60% of Americans track their weight, diet, or exercise routine by using wearables. These valuable insights unlock immersive data and support personalized intervention.

Detection

Additionally, this innovative technology also incorporates multiple sensors for the detection of many biomedical conditions. For instance, they contain accelerometers, GPS, or gyroscopes to track physical activity, stress levels, or exposure to pollutants or allergens.

Suggestions & Prediction

Also, based on the data collected through surveillance, these gadgets can offer fitness recommendations to personalize your life routine. You can also predict some future trends by using accelerometer insights like mortality or biological age. So, by adopting wearables, users can proactively manage their overall health effectively.

3. Lowering the Barriers: Accessibility and Affordability

Previously, the medical machinery used for diagnosis was very heavy, costly, and needed specialized training to operate. It’s easy to deploy these supplies more conveniently by making them wearable.

It alleviates the barrier of accessibility, and individuals can use them outside of the confines of clinics or health facilities. Mostly, these tools are helpful in remote monitoring and tracking the health status of patients. You can access quality health maintenance in your homes without frequent hospital visits.

Moreover, this latest technology has the potential to lower costs. It mitigates the production and design costs of heavy equipment. Now, you can leverage innovative techniques, wireless connectivity, and extensive data at an economical price. Thus, these gadgets are more affordable and accessible to a wider audience.

Challenges in Wearable Data Integration

Integrating wearables sets new opportunities for health management. However, its incorporation also comes with a set of challenges. Let’s discuss some of the obstacles in the data collection, sharing, and unification of these digital instruments.

1. Ensuring Data Consistency and Accuracy

Data quality and accuracy are the fundamentals of biomedical research ethics to ensure reliable outcomes. One of the potential bottlenecks is the lack of consistency in data collection in a wearable environment.

This variability is because different wearables use different sensors and varied data processing algorithms. Also, different measurement practices lead to inconsistencies in data generation. For example, if you want to measure blood oxygen saturation, the results will greatly vary depending on device type and location.

So, it’s crucial to address this issue to maintain data consistency and transparency in portable gadgets. Try to use standardized protocols and validation processes to ensure accuracy in the assembled data. Also, data interoperability makes it easy to exchange data across devices or software platforms and leads to more uniform results.

2. Overcoming Data Integration Challenges in the Wearable Data Chain

The wearable data chain integrates a variety of steps, such as collection, storage, analysis, transmission, or interpretation. Each stage encompasses potential challenges for data integration. These gadgets generate insights from various sensors, so it might be challenging to analyze the data cohesively. Moreover, these handheld devices produce large data volumes over time. The storing, analyzing, or processing of such massive data is complex. Also, there are some privacy concerns in collecting sensitive health information.

To overcome these challenges, the specialists use:

  • Data filtering to alleviate redundant or irrelevant data. When this technique is applied at the device level, it optimizes the storage or data processing requirements.
  • Additionally, you can also utilize standard data formats like CSV or JSON to ensure compatibility across various devices’ data.
  • You can use built-in data validity mechanisms to filter out inconsistent data and enhance overall quality.
  • To ensure data privacy, you can adopt security measures like encryption, strict access control, and transmission protocols. It assures that only authorized persons have access to personal health info.

3. Forming a Closed Data Loop for Continuous Insights and Support

Wearable devices can produce a stream of continuous data. To get a meaningful understanding of these insights, forming a closed loop is significant. This process connects data assembling, analysis, interpretation, and feedback. However, different data management systems of various gadgets can make this task challenging. For this purpose, the specialists should adopt robust measures to integrate data in a loop.

Moreover, the continuous data require real-time processing. This poses obstacles in terms of information storage, computational abilities, and more. So, a system of efficient processing may help acquire continuous support.

Viatom’s Solution: A Comprehensive Wearable Health Ecosystem

Viatom is a leading medical technology company that is committed to producing healthcare products. We aim to offer innovative wearable devices and software solutions to maintain health efficiently. You can conveniently analyze your health parameters by leveraging our data analysis tool and health ecosystem. Let’s discuss some of our significant solutions in the following.

Data Collection

Viatom offers a diverse range of top-quality devices for comprehensive data collection and monitoring. These devices are designed to capture vital signs and help to provide useful insights to users. They include:

  • Pulse oximeters: Our wearable pulse oximeter helps users easily monitor their O2 saturation levels. We offer a variety of products which includes a ring, wrist, handheld, and fingertip oxygen monitors. It is particularly useful during respiratory conditions like asthma etc. In covid 19, these pulse oximeters were deployed to monitor hypoxemia. You can also deploy these innovative products to check out your saturation during physical activities or at high altitudes.
  • Blood pressure monitors: Viatom offers portable and lightweight blood pressure monitors to track BP trends. You can conveniently analyze your BP levels at home or on the go. These devices are highly accessible and easy to operate. The data is continuously saved on the device, and you can assess accurate insights easily.
  • ECG reporters: We provide handy ECG heart reporters that allow you to capture your heart rhythms. Apart from traditional heavy electrocardiograms, Viatom offers you handheld and wearable ECG monitors to simplify your healthcare.
  • Body composition scales: Our body scales serve as a personal fitness trainer to improve your overall well-being. They integrate built-in algorithms to generate metrics related to body fat percentage, weight, muscle or bone mass, and more. By tracking these indicators, you can track progress in your overall body composition.
  • Ultrasound scanner: Viatom offers innovative solutions for monitoring body ultrasounds. They are wireless, handheld, and produce high-resolution images for clinical procedures. Our ultrasound scanner range is easy to operate, lightweight, and cost-effective.

Data Transformation

Integration of monitoring sensor device SDK

Viatom offers software development kits for portable sensor devices. It allows the users to integrate the functionality of monitoring sensor gadgets into their preferred applications or platforms.  So, it is easy to access and utilize the real-time collected data effectively.
●Integration of ViHealth Cloud API
This is a cloud-based platform that serves as a repository for healthcare data. Viatom allows specialists to integrate their applications with its cloud infrastructure, which enables them to secure and retrieve their data insights in the ViHealth cloud. 
So, with the integration of ViHealth API, the users can do a seamless synchronization of healthcare data captured by wearable devices . Thus, by leveraging these solutions, the users can access the records across multiple devices through safe data sharing.
●Integration of ViHealth data hub API
ViHealth data hub is a centralized analytical engine for data processing. By leveraging Vihealth Cloud  API, the users can deploy the data processing capabilities of Viatom. It allows them to assess and drive actionable insights from gathered healthcare data. Based on the processed records, the users perform data aggregation and generate personalized recommendations.
●Generation of AI-based Analysis Interpretations
processing,  we utilize artificial intelligence algorithms to generate meaningful insights from the collected datasets. It helps to process the raw information and provides the users with information about their health trends and status. AI-ECG real-time accumulated data has exceeded 140 million copies, and the high-risk warning time has exceeded 350,000 times. We are bringing more revolutionary changes to the prevention and treatment of cardiovascular diseases.

RPM Support Service:

Viatom can help professionals to monitor and manage patient data. Healthcare providers now are used to assessing remote patient monitoring program portals to streamline health management. As a paramedic, they can view real-time data, set thresholds for abnormal metrics, or track progress remotely. With our equipment and services, you can achieve the following:

●Real-time patient monitoring

●Multi-user access

●Abnormality catching in real-time.

●A secure Networking

Embrace Viatom’s Data Ecosystem for a Convenient Life

Viatom offers a comprehensive data ecosystem to ameliorate healthcare systems. Our innovative devices and software solutions make the process much more facile and convenient. Some of the significant benefits of our data integration system are discussed in the following.

For service providers

Viatom efficient solutions allow healthcare providers to gain valuable details about the patients. The service providers utilize this actionable dataset to track the patient’s health parameters. It helps them to diagnose the problem and make related treatment solutions accordingly. So, by leveraging our data collection ecosystem, healthcare workers assess real-time health trends and deliver proactive care to patients.

For patients

In a survey, 88% of the respondents believe that wearable smartwatches help them to achieve their fitness goals. It improves their health management journey and empowers their participation in self-healthcare. With Viatom’s data ecosystem, patients can personalize their self-care and improve their overall well-being. For example, by deploying our innovative technology, individuals can track their health performance indicators. They follow the fitness recommendations, set goals, and make informed decisions.

Application Scenarios of Viatom’s Data Collection:

Personal health care:

Viatom’s solutions enable individuals to monitor their health trends consistently. With our devices like fitness trackers or body scales, users can take notice of their wellness more keenly. They can gain a comprehensive guide about their health and make adjustments accordingly. With our well-designed solutions, over 90,000 people have been able to track their body indicators, and over 70,000 of them witnessed a healthier and better-looking version of themselves and started to maintain a healthy lifestyle.

Sleep monitoring:

Our sleep monitoring devices play a significant role in monitoring sleeping patterns and quality. They are useful for individuals looking to ameliorate their sleep hygiene and optimize their sleep routines. These sleep insights help the users to identify their patterns, disorders and detect the factors that influence their sleep. We also offer handheld devices that are helpful for patients suffering from sleep apnea. For example, our pulse oximeters are significant in showing sleep apnea. They help the users to identify their breathing patterns from time to time. Also, they are useful in identifying sleep apnea episodes. In order to improve the reliability and accuracy of the algorithm, we cooperate with more than 1,000 hospitals to conduct experimental tests and use the collected real data to promote the algorithm update.

Athlete monitoring:

Viatom’s solutions are also beneficial for sports enthusiasts. Using our products, athletes can efficiently monitor their heart rate, oxygen saturation, and physical activity. For example, our SpO2 monitor helps athletes effectively train. It allows them to know about their overall fitness and optimize their health accordingly. So far, we have cooperated with more than 2,000 sports institutions, providing them with convenient and accurate vital sign monitoring.

Data Connectivity: Enabling Future Services and Support

 

In the realm of wearable technology, seamless data connectivity is significantly important across devices and the healthcare domain. The connectivity enables safe data exchange and transfer and promotes quality health management. Let’s get into how you can unlock data connectivity in these portable gadgets.

  • Interoperability standards are crucial to exchange healthcare data among different devices and platforms safely. By embracing the importance of interoperability, our company ensures that our devices comply with industrial standards.
  • These devices have robust mechanisms and protocols to facilitate the service providers in assessing the insights effectively. It ensures seamless data transfer and integration into healthcare systems.
  • We emphasize maintaining privacy and data integrity in ecosystems. We foster trust by employing secure cloud platforms. Thus, our main focus is to provide transparent future services and support.

Empowering Health Outcomes through Wearable Data

Wearable devices have a significant impact on health outcomes. Using this innovative technology, healthcare professionals and other users can make informed decisions.

  • Through leveraging innovative gadgets, individuals can actively gain a deeper understanding of their own health and improve their lifestyle choices.
  • With this technology, healthcare professionals can deliver more targeted patient care and improve the healthcare experience.
  • Healthcare workers can remotely monitor the patient’s health conditions and support proactive care. Without the need to visit in person, the usage of these gadgets ensures a timely intervention and continuity of accessibility.

Conclusion

In short, wearable devices hold tremendous significance in promoting new possibilities in healthcare. The data integration and utilization help individuals to personalize their health care and improve their overall wellness. With remote linking, seamless data connectivity, and telemedicine, this innovative technology empowers a more personalized approach to health maintenance.

As a company dedicated to the medical device industry, our goal is to develop innovative products that improve patient outcomes and enhance healthcare delivery. We believe that anyone deserves access to high-quality medical care, and we are committed to developing practical and affordable equipment that can be used worldwide. Driven by a sense of responsibility to improve healthcare outcomes, we will continue to work with our customers and partners to develop comprehensive solutions that make a difference in people’s lives.

Reference:

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7600024/#:~:text=About%2030%25%20(1266%2F4551,wearables%20with%20their%20care%20providers.

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6746089/

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6746089/figure/figure1/

https://www.16best.net/wearable-technology-statistics/