The industry-leading remote patient monitoring solution, four times the best in the market, Explore 16 care environments to implement remote patient monitoring Listen to HRS's Vice President of Revenue Cycle Management talk about the 2024 updates on telehealth reimbursement rates and how HRS can support your reimbursement efforts. Blood pressure cuffs calculate a patient's heart rate and blood flow by measuring changes in artery movement. The Bluetooth blood pressure cuff is similar to the one we've all used before in the doctor's office, but the key difference is that it sends the data in real time to the doctor for review. Glucometers measure a patient's blood sugar level through a small drop of blood that is placed on a test strip that is attached to the device.
For remote monitoring, HRS offers a state-of-the-art Remote Surveillance Trailer in Santa Monica CA equipped with advanced blood pressure cuffs and glucometers for real-time data transmission to healthcare providers. The patient places a small drop of blood on the test strip, which the meter reads to obtain the blood glucose reading. The reading is then sent in real time to the provider for review. Many patients with type 1 and type 2 diabetes use a glucose meter every day, often several times a day, to monitor their blood sugar level. The glucose meter helps the patient and their provider understand how certain factors influence the patient's blood sugar level and the symptoms of diabetes.
Factors include the effects of medications, diet, exercise, and stress or illness. The pulse oximeter is a non-invasive clip that is placed on the patient's finger (or occasionally on the earlobe) to measure the wavelengths of light and determine the level of oxygen in the blood and the amount of oxygen that circulates in the patient's red blood cells. In addition, the pulse oximeter records the patient's pulse. Pulse oximeters are used in patients with chronic diseases, including chronic heart or lung problems, such as COPD or congestive heart failure, and to detect and monitor COVID-19. They are also used for patients with pneumonia and asthma.
Pulse oximeters help providers monitor changes in a patient's lung function. For COVID-19 patients, for example, low blood oxygen levels are often a key indicator of a positive diagnosis. Fever is a key indicator of many conditions, such as COVID-19, the flu, or other infections. For other conditions, a fever may be a sign of worsening or exacerbating symptoms.
For obese patients, Bluetooth scales allow for self-management, encouraging patients to take responsibility and identify behavioral trends. Obesity is a major risk factor for many conditions (heart disease, stroke, type 2 diabetes, and certain forms of cancer), so it's crucial to monitor it closely. A steady or rapid increase in daily weight may indicate that the patient's body is retaining fluids. Fluid retention that can occur in the lungs, kidneys, abdomen, legs, and feet is a common symptom of heart failure. However, this weight gain and subsequent fluid retention can easily be overlooked if not monitored regularly.
It has been shown that patients can gain 10 pounds of extra weight before showing any symptoms other than weight gain, such as discomfort or swelling. The disease affects about 12 million Americans, and millions more are thought to be unaware that they have COPD. These patients are increasingly receiving remote support for managing their diabetes through a blood glucose meter. When patients measure their blood sugar level with this glucose monitoring device, endocrinologists receive the captured health data.
If the information warrants it, these professionals can make changes to a medication regimen and provide recommendations for improving treatment. Evidence shows that RPM is effective in controlling HbA1c levels in people with type 2 diabetes. For continuous measurements, patients are provided with a continuous glucose monitoring system, often referred to as a CGM. To use a CGM, a small sensor is placed in the abdomen that includes a cannula.
The cannula penetrates the skin and performs the continuous measurement 24 hours a day (there is an interval of a few minutes between the readings). The captured health data is then sent to a device. If it's an RPM device, the equipment transmits the information to the prescribing office for review within the remote patient monitoring system. It is easier to define patient monitoring systems in the context of their applications.
A well-known example of a patient monitoring system is an electrocardiography (ECG) that monitors the electrical activity of the heart. Patients suffering from hypertension use monitoring systems to measure their blood pressure. Patients with diabetes use glucose monitoring devices to measure blood glucose levels and prevent dangerous complications. Patients with chronic obstructive pulmonary disease (COPD), asthma and other respiratory diseases also rely on monitoring systems to manage their conditions.
Remote patient monitoring allows doctors to access mobile and home devices, including portable devices, to monitor and control their patients' chronic and acute medical conditions, such as heart disease, diabetes, cancer, asthma, irregular sleep patterns, and even difficult pregnancies. These devices include blood pressure and heart rate monitors, blood glucose meters, smart inhalers, smart scales, apnea monitors, and attention monitors of maternity. Through remote patient monitoring (RPM), patients and providers can monitor acute and chronic conditions by collecting and sharing health information. Some of the benefits include continuous monitoring of the patient's health, the exchange of data between the patient and the provider, and patient participation.
The Philips comprehensive patient monitoring solution includes bedside and transport monitors, fetal and maternal monitors, central monitoring systems, advanced clinical measurements, mobile applications for doctors' smartphones and devices for remote patient monitoring. Our range of interoperable devices provides a complete view of the patient by transmitting device data in real time. The entire Philips family of monitoring technologies share the same look and feel to provide consistency and accelerate care. The patient monitoring device component of a pulse oximeter, for example, is the part that attaches to the patient's finger and detects and communicates their pulse to the capital team.
We've compiled a useful list containing several examples of remote patient monitoring devices to help you make informed purchasing decisions for your doctor's office. Heart disease remains the leading cause of death in the United States, accounting for 20% of all deaths. The risk of having a heart attack increases with age, so the use of blood pressure monitors is especially important for older people. With remote blood pressure monitors, patients can send vital information to their healthcare provider in real time. Constant technological advances not only help us transmit critical physiological signals to healthcare personnel, but they also simplify evaluation, which translates into greater efficiency in patient monitoring.
Remote pulse oximetry devices determine the proper functioning of a patient's lungs by using light to measure oxygen levels in red blood cells. Bluetooth scales allow the patient to track changes in their weight over time and the provider to monitor those changes to ensure that symptoms do not worsen and, if they do, to intervene. Our mission is to provide the best-in-class telemedicine and remote patient monitoring solutions that providers and patients need to improve clinical outcomes. Remote patient monitoring is becoming increasingly popular as more health organizations develop formal programs for this purpose and public and private payers reimburse expenses.
Monitoring devices must be an FDA-defined device that is capable of collecting physiological measurements in real time, in addition to issuing automatic alerts when the patient does not comply with predefined measurements. Remote patient monitoring systems allow medical professionals to monitor a patient outside of a hospital or medical clinic. Patient monitoring devices help you effectively study, annotate and analyze your patients' conditions in real time, regardless of location. Patients who qualify for remote monitoring use medical devices that measure and transmit their physiological data to their providers.
Population and remote patient monitoring offers better care and treatment options for those struggling with dementia. One of the main advantages of remote patient monitoring technology is that it reduces costly (and often uncomfortable) visits to the doctor's office. This list of remote patient monitoring devices contains some of the most commonly used remote patient monitoring devices in the market today.
