Patients determined to understand how their pacemakers operate quickly realize medical and technological jargon stand in the way. In less than 50 years, technology has transformed the pacemaker from a simple, non-programmable device into a sophisticated machine with an array of programmable parameters. Despite the rapid development, pacemakers and their new features still operate on basic underlying principles. Industry innovations do add complexity, but jargon, not complexity, stands in the way of a patient's understanding.
The American Heart Association states that approximately three million people across the globe have been fitted with pacemakers, most of which are to treat bradycardia, or a heart rate that's too slow. Once your implant is done...
pacemakers are medical devices that are implanted into cardiac patients in order to monitor and regulate the heartbeat. Some pacemakers have built-in defibrillators as well. Exercise is an important part of cardiac health, and ...
If you've had a pacemaker implanted, you may be hesitant or cautious about resuming an exercise routine. You may be concerned about the pacemaker's ability to achieve or maintain an accelerated heart rate, your limitations in t...
A heart pacemaker is a small battery-operated device that detects and corrects slow, irregular heartbeats and delays in the normal flow of electrical impulses within the heart. According to a 1995 article in "Public Health Repo...
Cardiac pacemakers can be placed as electrode pads over the skin, or threaded through a major vein in the leg up to the heart, or surgically implanted into the heart. They function to help the heart beat regularly. For example,...
Defibrillators and pacemakers are devices that can be inserted into the heart, or used temporarily over the chest to manipulate the electrical activity of the heart. The heart uses electricity to coordinate contractions in orde...
The first Pacemaker follow-up appointment is critical, according to the Cleveland Clinic: The technician will make adjustments to prolong battery life, and discuss the importance and purpose of various Pacemaker tests. Pacemake...
A pacemaker is implanted into the chest or abdomen to treat abnormal heart rhythms, or arrhythmias. Arrhythmias cause the heart to beat too fast, too slow or irregularly, according to the National Heart Lung and Blood Institute...
A pacemaker is a medical device that is implanted in the chest and connected to the heart to help control irregular heartbeats, according to the National Heart Lung and Blood Institute. Different types of pacemakers treat diffe...
pacemaker warning signs can alert a pacemaker patient to the potential complications or failure of his cardiac device. pacemakers are small electronic mechanisms that surgeons implant into the upper chest of some cardiac patien...
A pacemaker is a small internal device that helps regulate a patient's heart rate. This battery operated pacing system is implanted beneath a patient's collarbone where it sends regular electrical impulses to the heart to initi...
...op periodically. Irregular heart rhythms can lead to chest pain, shortness of breath or dizziness, and can increase the risk of a heart attack or stroke. In these cases, it may be necessary to have a pacemaker implanted to h...
The potential benefits of a pacemaker include normalized heart rhythm and improved quality of life. Physicians recommend pacemakers for patients in varying degrees of cardiac distress, so the potential benefits of a pacemaker w...
For some people whose hearts beat irregularly or too slowly, doctors may recommend a pacemaker, a small electrical device implanted under the skin near the collar bone. Leads from the device are guided through veins into the he...
A pacemaker is a medical device that is inserted into the body in order to regulate abnormal heart rhythms. pacemakers exert their therapeutic effect by emitting a a low electrical current that stimulates the heart muscle to co...
A pacemaker is a small medical device that is implanted into the chest or abdomen in order to regulate abnormal heart rhythms. Its invention is credited to Dr. John Hopps, who in 1950 created the first pacemaker in collaboratio...
While all types of cardiac Pacemakers perform the same basic function, they vary in how that function is performed. Pacemakers are small, battery-operated devices that are surgically implanted into the chest. Once implanted, th...
If the heart is unable to maintain a regular rhythm, a pacemaker may be required. As with any type of surgery, there are risks that need to be considered along with the benefits of having the procedure done. The first step is t...
A pacemaker is placed in the body to control the rhythm of the heartbeat. Typically, complications from a pacemaker are rare. Less than 5 percent of patients have problems soon after receiving a pacemaker, notes MayoClinic.com....
A normal healthy heart has a built in pacemaker called the sinus node, which regulates the rate at which it beats. If the heart does not beat regularly, a pacemaker may help correct the problem. pacemakers are commonly used to ...
A pacemaker produces electrical impulses that stimulates the heart to beat in a regular rhythm. A pacemaker senses when the heart beats irregularly and sends a signal to the heart that makes the heart beat at the correct pace. ...
According to the National Heart, Lung and Blood Institute, the first step is threading the pacemaker wires through a vein near your shoulder or chest. A small incision is made to locate the vein. The wires are fed through and a...
Pacemakers are inserted to help regulate the heart’s electrical system. If the heart rate is too slow patients can experience dizziness, trouble breathing and can even black out; in extreme cases, their heart can stop. A...
Though still not considered as risky as contact sports, cheerleading has its fair share of injuries. As stunts become increasingly athletic (such as jumps, flips and tosses), the risk of injury rises. One of the most common che...
