Apple Watch App Identifies Irregular Heart Rhythms
|
By HospiMedica International staff writers Posted on 29 Jan 2018 |
|
Image: Apple and Stanford have jointly launched a study to identify atrial fibrillation (Photo courtesy of Apple).
A first-of-its-kind research study will use the Apple Watch’s heart rate sensor to collect data on irregular heart rhythms and notify users who may be experiencing atrial fibrillation (AF).
The Apple (Cupertino, CA, USA) Heart Study app, launched in partnership with Stanford University School of Medicine (CA, USA), is available for download on the Apple App Store to holders of an Apple Watch Series 1 or later, and who are 22 years or older. To calculate heart rate and rhythm, Apple Watch’s sensor uses green light emitting diode (LED) lights flashing hundreds of times per second and light-sensitive photodiodes to detect the amount of blood flowing through the wrist.
The sensor’s unique optical design gathers signals from four distinct points on the wrist, and when combined with powerful software algorithms, the Apple Watch can isolate actual heart rhythms from other incidental noise. As part of the study, if an irregular heart rhythm is identified, participants will receive a notification on their Apple Watch and iPhone, together with a free consultation with a study doctor and an electrocardiogram (ECG) patch for additional monitoring.
“Every week we receive incredible customer letters about how Apple Watch has affected their lives, including learning that they have atrial fibrillation. These stories inspire us, and we're determined to do more to help people understand their health,” said Jeff Williams, COO of Apple. “Working alongside the medical community, not only can we inform people of certain health conditions, we also hope to advance discoveries in heart science.”
“Through the Apple Heart Study, Stanford Medicine faculty will explore how technology like Apple Watch’s heart rate sensor can help usher in a new era of proactive health care central to our Precision Health approach,” said Lloyd Minor, MD, dean of Stanford University School of Medicine. “We’re excited to work with Apple on this breakthrough heart study.”
AF occurs when the heart's two upper chambers beat erratically. In one form, paroxysmal AF, patients have bouts of erratic beats that begin spontaneously and usually last less than a week. AAD can control the heart rhythm and symptoms of AF, but many patients do not respond well. AF can lead to serious adverse events such as thrombi traveling from the heart to obstruct arteries supplying the brain, causing stroke, or other parts of the body causing tissue damage.
Related Links:
Apple
Stanford University School of Medicine
The Apple (Cupertino, CA, USA) Heart Study app, launched in partnership with Stanford University School of Medicine (CA, USA), is available for download on the Apple App Store to holders of an Apple Watch Series 1 or later, and who are 22 years or older. To calculate heart rate and rhythm, Apple Watch’s sensor uses green light emitting diode (LED) lights flashing hundreds of times per second and light-sensitive photodiodes to detect the amount of blood flowing through the wrist.
The sensor’s unique optical design gathers signals from four distinct points on the wrist, and when combined with powerful software algorithms, the Apple Watch can isolate actual heart rhythms from other incidental noise. As part of the study, if an irregular heart rhythm is identified, participants will receive a notification on their Apple Watch and iPhone, together with a free consultation with a study doctor and an electrocardiogram (ECG) patch for additional monitoring.
“Every week we receive incredible customer letters about how Apple Watch has affected their lives, including learning that they have atrial fibrillation. These stories inspire us, and we're determined to do more to help people understand their health,” said Jeff Williams, COO of Apple. “Working alongside the medical community, not only can we inform people of certain health conditions, we also hope to advance discoveries in heart science.”
“Through the Apple Heart Study, Stanford Medicine faculty will explore how technology like Apple Watch’s heart rate sensor can help usher in a new era of proactive health care central to our Precision Health approach,” said Lloyd Minor, MD, dean of Stanford University School of Medicine. “We’re excited to work with Apple on this breakthrough heart study.”
AF occurs when the heart's two upper chambers beat erratically. In one form, paroxysmal AF, patients have bouts of erratic beats that begin spontaneously and usually last less than a week. AAD can control the heart rhythm and symptoms of AF, but many patients do not respond well. AF can lead to serious adverse events such as thrombi traveling from the heart to obstruct arteries supplying the brain, causing stroke, or other parts of the body causing tissue damage.
Related Links:
Apple
Stanford University School of Medicine
Gold Member
Solid State Kv/Dose Multi-Sensor
AGMS-DM+
Gold Member
STI Test
Vivalytic Sexually Transmitted Infection (STI) Array
Silver Member
Compact 14-Day Uninterrupted Holter ECG
NR-314P
New
1.5T MRI System
uMR 670
Latest Health IT News
- Machine Learning Model Improves Mortality Risk Prediction for Cardiac Surgery Patients
- Strategic Collaboration to Develop and Integrate Generative AI into Healthcare
- AI-Enabled Operating Rooms Solution Helps Hospitals Maximize Utilization and Unlock Capacity
- AI Predicts Pancreatic Cancer Three Years before Diagnosis from Patients’ Medical Records
- First Fully Autonomous Generative AI Personalized Medical Authorizations System Reduces Care Delay
- Electronic Health Records May Be Key to Improving Patient Care, Study Finds
- AI Trained for Specific Vocal Biomarkers Could Accurately Predict Coronary Artery Disease
- First-Ever AI Test for Early Diagnosis of Alzheimer’s to Be Expanded to Diagnosis of Parkinson’s Disease
- New Self-Learning AI-Based Algorithm Reads Electrocardiograms to Spot Unseen Signs of Heart Failure
- Autonomous Robot Performs COVID-19 Nasal Swab Tests
- Statistical Tool Predicts COVID-19 Peaks Worldwide
- Wireless-Controlled Soft Neural Implant Stimulates Brain Cells
- Tiny Polymer Stent Could Treat Pediatric Urethral Strictures
- Human Torso Simulator Helps Design Brace Innovations
- 3D Bioprinting Rebuilds the Human Heart
Channels
Artificial Intelligence
view channel
AI-Powered Algorithm to Revolutionize Detection of Atrial Fibrillation
Atrial fibrillation (AFib), a condition characterized by an irregular and often rapid heart rate, is linked to increased risks of stroke and heart failure. This is because the irregular heartbeat in AFib... Read more
AI Diagnostic Tool Accurately Detects Valvular Disorders Often Missed by Doctors
Doctors generally use stethoscopes to listen for the characteristic lub-dub sounds made by heart valves opening and closing. They also listen for less prominent sounds that indicate problems with these valves.... Read more
Critical Care
view channel
Powerful AI Risk Assessment Tool Predicts Outcomes in Heart Failure Patients
Heart failure is a serious condition where the heart cannot pump sufficient blood to meet the body's needs, leading to symptoms like fatigue, weakness, and swelling in the legs and feet, and it can ultimately... Read more
Peptide-Based Hydrogels Repair Damaged Organs and Tissues On-The-Spot
Scientists have ingeniously combined biomedical expertise with nature-inspired engineering to develop a jelly-like material that holds significant promise for immediate repairs to a wide variety of damaged... Read more
One-Hour Endoscopic Procedure Could Eliminate Need for Insulin for Type 2 Diabetes
Over 37 million Americans are diagnosed with diabetes, and more than 90% of these cases are Type 2 diabetes. This form of diabetes is most commonly seen in individuals over 45, though an increasing number... Read more
Surgical Techniques
view channel
Miniaturized Implantable Multi-Sensors Device to Monitor Vessels Health
Researchers have embarked on a project to develop a multi-sensing device that can be implanted into blood vessels like peripheral veins or arteries to monitor a range of bodily parameters and overall health status.... Read more
Tiny Robots Made Out Of Carbon Could Conduct Colonoscopy, Pelvic Exam or Blood Test
Researchers at the University of Alberta (Edmonton, AB, Canada) are developing cutting-edge robots so tiny that they are invisible to the naked eye but are capable of traveling through the human body to... Read more
Miniaturized Ultrasonic Scalpel Enables Faster and Safer Robotic-Assisted Surgery
Robot-assisted surgery (RAS) has gained significant popularity in recent years and is now extensively used across various surgical fields such as urology, gynecology, and cardiology. These surgeries, performed... Read more
Patient Care
view channel
First-Of-Its-Kind Portable Germicidal Light Technology Disinfects High-Touch Clinical Surfaces in Seconds
Reducing healthcare-acquired infections (HAIs) remains a pressing issue within global healthcare systems. In the United States alone, 1.7 million patients contract HAIs annually, leading to approximately... Read more
Surgical Capacity Optimization Solution Helps Hospitals Boost OR Utilization
An innovative solution has the capability to transform surgical capacity utilization by targeting the root cause of surgical block time inefficiencies. Fujitsu Limited’s (Tokyo, Japan) Surgical Capacity... Read more
Game-Changing Innovation in Surgical Instrument Sterilization Significantly Improves OR Throughput
A groundbreaking innovation enables hospitals to significantly improve instrument processing time and throughput in operating rooms (ORs) and sterile processing departments. Turbett Surgical, Inc.... Read more
Point of Care
view channel
Critical Bleeding Management System to Help Hospitals Further Standardize Viscoelastic Testing
Surgical procedures are often accompanied by significant blood loss and the subsequent high likelihood of the need for allogeneic blood transfusions. These transfusions, while critical, are linked to various... Read more
Point of Care HIV Test Enables Early Infection Diagnosis for Infants
Early diagnosis and initiation of treatment are crucial for the survival of infants infected with HIV (human immunodeficiency virus). Without treatment, approximately 50% of infants who acquire HIV during... Read more
Whole Blood Rapid Test Aids Assessment of Concussion at Patient's Bedside
In the United States annually, approximately five million individuals seek emergency department care for traumatic brain injuries (TBIs), yet over half of those suspecting a concussion may never get it checked.... Read more
New Generation Glucose Hospital Meter System Ensures Accurate, Interference-Free and Safe Use
A new generation glucose hospital meter system now comes with several features that make hospital glucose testing easier and more secure while continuing to offer accuracy, freedom from interference, and... Read moreBusiness
view channel
Johnson & Johnson Acquires Cardiovascular Medical Device Company Shockwave Medical
Johnson & Johnson (New Brunswick, N.J., USA) and Shockwave Medical (Santa Clara, CA, USA) have entered into a definitive agreement under which Johnson & Johnson will acquire all of Shockwave’s... Read more
