Menu

contact us

Examples Of Remote Patient Monitoring – Real Life Examples for 2024

Get the inside scoop on the latest healthcare trends and receive sneak peeks at new updates, exclusive content, and helpful tips.

Contact Us






    Posted in remote patient monitoring

    Last Updated | July 9, 2024

    Examples of Remote Patient Monitoring – Overview

    examples of remote patient monitoring overview

    What is remote patient monitoring and what are the latest examples of remote patient monitoring (RPM) tools for telehealth care? RPM practices are a branch of telehealthcare that enables patients to collect and transmit Patient-Generated Health Data or PGHD using mobile medical equipment and technology. RPM businesses give patients FDA-approved RPM medical equipment so they may monitor their vital signs at home. Other top RPM gadgets use cellular and Bluetooth technologies that don’t need applications or syncing, in contrast to the few RPM devices that do. 

    Therefore, leading remote patient monitoring businesses provide a variety of remote patient monitoring technologies from which healthcare organizations may select. How do you decide which remote patient monitoring system is appropriate for your patients? In this article, you’ll look at multiple examples of remote patient monitoring devices and how these devices are transforming your real-world healthcare business.

    What Are The Examples Of Remote Patient Monitoring?

    Now that you are clear on what is remote patient monitoring in telehealth, let us look at the following nine in-demand examples of remote patient monitoring devices.

    1. Dexcom G6 CGM – Dexcom

    Dexcom is one of the amazing examples of remote patient monitoring program to monitor blood sugar levels. It provides a complete solution for remote patient monitoring including both hardware and software and is a great way to solve how to improve patient experience in hospitals without them coming to the hospitals. A wearable sensor and transmitter are part of the Dexcom G6 CGM system, which transmits glucose readings to a smartphone.

    To keep family members informed of the patient’s situation, and share up to 10 others. The healthcare practitioner monitoring the patient receives data from the Dexcom Clarity software platform. This program records blood glucose patterns discovered by the wearable device and gives the patient a visual breakdown of the information. Doctors can use this information to modify a treatment regimen.

    2. IOL Master 500 and IOL Master 700

    With more than 100 million successful IOL power calculations to date, the ZEISS IOLMaster® 500 is the industry standard in optical biometry. For cataract surgeons seeking an accurate, quick, and user-friendly optical biometer to measure they can rely on, the ZEISS IOLMaster 500 is an excellent option.

    IOLMaster 700, on the other hand, serves as the gateway into the ZEISS Cataract Suite. This tool measures the thickness of the eye’s lens, the depth of the anterior chamber, and the thickness of the cornea to lower the possibility of refractive surprises.

    3. Resideo LifeStream

    A complete line of hardware and software examples of remote patient monitoring telehealth is available from Resideo. Resideo devices like blood pressure monitors provide data to the LifeStream software, which gathers and displays information in a dashboard for the physician to see. Clinicians are notified when patient data deviates from an established ‘normal’ range.

    LifeStream examines data patterns to assist physicians in developing efficient treatment plans, which may include a tailored education program to assist patients in managing their care.

    4. Pentacam – Oculus

    The Pentacam captures a picture of the anterior portion of the eye by using a revolving Scheimpflug camera measurement. This spinning process also produces three-dimensional images. This rotating imaging approach allows for highly-precise measurements of the corneal center. Minute eye movements are concurrently recorded and corrected throughout the measuring procedure, which takes less than two seconds. The accurate depiction, repeatability, and analysis are guaranteed by measuring 25,000 real elevation points.

    Remote Patient Monitoring

    5. Senseonics

    Additionally, Senseonics is committed to blood glucose monitoring. Its system comprises a sensor and a detachable transmitter implanted beneath the skin by a medical expert.

    When a blood glucose level is too high, the sensor connects to a mobile app that analyzes patient data and sends alarms and information to their smartphone or smartwatch.

    6. Argos (Alcon)

    The Alcon Argos biometer provides accuracy throughout optical treatments. It is a non-invasive, contactless clinical biometer. SS-OCT (Swept-Source Optical Coherence Tomography) is

    the first biometer to utilize this technique.

    The ARGOS Biometer offers unmatched dense cataract penetration and accuracy of axial length collection with SS-OCT Technology and a unique Enhanced Retina Visualization mode. Even in the case of patients with grade 4+ cataracts, it enables trust in the refractive results.

    In contrast with the IOLMaster 700 and other market-leading biometers, the ARGOS Biometer exhibits much greater acquisition rates in grade 4+ cataracts while necessitating substantially less time-consuming ultrasound biometry.

    7. Medtronic

    A complete line of RPM software is available from Medtronic. It offers patient-facing apps for iOS and Android smartphones that link to equipment that keep track of vital signs and other health indicators, including blood pressure, blood sugar, and weight. With the help of the Medtronic Care Management Services platform, healthcare practitioners may examine the data.

    When a patient’s data shows that they have reached a certain level, clinicians are notified so that they may review patterns and adjust the patient’s care plan as necessary.

    8. Lenstar – Haag Streit

    The Hill-RBF Method, the Barrett and Olsen equations, now integrated into Lenstar and other modern IOL prediction techniques can all be used to their full potential thanks to Lenstar, the first optical biometer to give the surgeon all the measurements required. It enhances measurement reproducibility, helps the user fine-tune device alignment, and makes biometry simple to delegate for better hospital patient flow best practices.

    With dynamic eye tracking, the Lenstar APS Automated Positioning System helps the user during the measuring procedure. With this feature and Lenstar’s exceptional measuring technology, all eyes may have good IOL prediction thanks to axial measurements of the entire eye, dual-zone auto keratometry, and optional topography.

    9. OPD III – Nidek

    The OPD-Scan III Refractive & Corneal Analyser, a third-generation aberrometer/corneal topographer, is a genuine refractive workstation for every doctor developed by NIDEK, a world leader in ophthalmology and optometric technology.

    Clinical professionals may acquire complete and accurate information on the refractive status of the eye thanks to the adaptability built into a small instrument, enabling thorough analysis and assessment with cutting-edge data.

    The practitioner can more effectively assess and manage a wide range of patients, from those who need simple glasses prescriptions to those who require complicated contact lenses and refractive surgery, notably in pre-and post-operative cataract assessments.

    Transform Your Healthcare Business With Real-World Examples of Remote Patient Monitoring

    examples of remote patient monitoring

    We have already explained what is remote patient monitoring; now, look at how it is transforming the healthcare industry. RPM is a technique that enables medical professionals to remotely monitor patients in real time. It is a transformational strategy that makes it easier to gather, transmit, and assess health information in real-time from any patient location to their healthcare practitioner. 

    Among many other benefits of remote patient monitoring most common of all is both patients and caregivers can benefit from it. We can see different examples of remote patient monitoring system that makes it possible to proactively monitor patient health, identify early warning signals, and act quickly by utilizing wearable technology, real-time data transfer, and powerful analytics. It results in fewer hospital readmissions, better patient outcomes, and higher-quality care, laying the groundwork for a more individualized and efficient healthcare system.

    1. Home Health Monitoring Using Wearables

    Wearable technology provides real-time input, enabling patients to actively participate in the management of their health. Patients are encouraged to make better decisions, follow prescribed medication and treatment schedules, and communicate more with their healthcare professionals thanks to the immediate feedback.

    Telehealth and wearable technologies enable the delivery of healthcare right to the door. It lessens the need for frequent hospital trips and assures access to healthcare services, which is especially advantageous for patients who live in rural places or have mobility concerns. Resultantly, this justifies the remote patient monitoring cost of development and implementation.

    2. Automated Medication Reminders And Dosage Tracking With Connected Devices

    The patient scheduling workflow and tracking of the administration of medications are possible with RPM pill reminder and medication tracker applications. For improved identification & mistake reduction, it needs to display pictures of medicines along with their titles.

    These applications keep track of the dose, administration timing, and frequency. It also informs the doctor of any further treatment-related notes.

    3. Remote Telemedicine Appointments, Video Conferencing, And Secure Messaging

    RPM applications enable medical professionals to examine, diagnose, and treat patients remotely while utilizing communication tools like video conferencing, appointments, and remote monitoring through secure messaging. Digital connectivity allows for the consultation of patients, the examination of documents and photos related to their health, and the prescription of prescriptions. Numerous platforms, including telemedicine software, mobile apps, and web-based tools, are used to do this.

    These apps also remind patients to schedule a medical appointment or renew a prescription when the time is due. It frees patients from remembering to take their medications, skip dosages, or schedule follow-up appointments with their doctor online.

    4. Smartphone Apps That Allow For Patient-Focused Data Collection And Transmission

    Smartphone apps provide real-time input, enabling patients to actively participate in managing their health. Patients are encouraged to make better decisions, follow prescribed medication and treatment schedules, and communicate more with their healthcare professionals with the immediate feedback they get.

    Telehealth and these apps enable the delivery of healthcare right to the door and come with a guide on how to implement a patient portal for healthcare professionals. It lessens the need for frequent hospital trips and assures access to healthcare services, which is especially advantageous for patients who live in rural places or have mobility concerns.

    5. Wearable Sensors For tracking Real-Time Data

    The capacity of wearable sensors to offer real-time data on physiological reactions led to an increase in their use in recent years and are creative ways to increase patient satisfaction too. It enables researchers to comprehend how individuals respond to various treatment alternatives, which may result in patients receiving more effective therapies.

    The wearable device is worn by the patient, often around the upper arm or in the area between the shoulder blades. It records information about their physiology, such as heart rate, respiration rate, and amount of sweat. A computer receives the data collected with the device, processes it, and then wirelessly transmits the results to the researcher.

    Final Words for Examples Of Remote Patient Monitoring

    Examine the requirements of your healthcare company and decide which features are most significant to you before selecting an RPM program because they all have their pros and cons of patient portals. Choose the options available from all the possible examples of remote patient monitoring programs that will work best for you and your patients by being aware.

    FAQs- Examples of Remote Patient Monitoring

    What are the examples of monitoring devices?

    The following is a list of some of the most common monitoring devices examples;

    • Blood pressure cuff.
    • Glucometer.
    • Pulse oximeter.
    • Ecg + Stethoscope.
    • Wearables (activity trackers and continuous monitoring)
    • Thermometer.
    • Scale.

    Can remote patient monitoring replace in-person visits?

    No RPM cannot replace in-person visits to doctors; however, substituting telehealth visits for in-person visits and, where practical, employing virtual procedures, telehealth has been regarded as an effective patient safety strategy during the COVID-19 public health emergency (PHE).

    3. What technologies are used in remote patient monitoring?

    When patients are being remotely monitored, wireless sensors and wireless communication are utilized to collect and send data to the hospital. During data collection, wearable and implantable (contact-based sensors) and non-contact sensors are employed.

    4. How secure is remote patient monitoring?

    RPM is practical and economical, and its use has expanded. However, without sufficient cybersecurity and privacy protections, unauthorized parties might access critical information or stop patient monitoring services. RPM solutions include a variety of players in the clinical treatment of patients.

    The vendors of telehealth platforms, HDOs, and the patients themselves are some of these actors. Each participant utilizes, manages, and maintains various technological components as part of an ecosystem that is linked, and each is responsible for protecting their component from specific hazards and risks related to RPM technologies.

    About the Author

    Noc Folio3