EKG’s on Ambulances

Emergency care is always looking for ways it can improve the treatment of patients. The need to save a life is crucial and the ambulatory technicians and paramedics, while among the best emergency staff in the field, as still looking for ways to make their jobs easier and more effective.

For the ambulances in Lackawanna County, right out side of Scranton, Pennsylvania, there job on the “bus” just got a whole lot easier. From now on, when they pick up a patient that is having a heart problem, they will soon be able to take an EKG while on the bus and send it to the hospital they are heading too. The hope is that there will be the proper information that is sent to the hospital so they can prepare for the proper treatment before the patient even gets there.

OF course the installation of these systems onto the ambulance is costing the hospital staff a pretty penny. However, they believe it’s a cost worth absorbing if it’s going to get the patients the life saving treatment they need.

The truth is that this program is geared toward the bigger picture. The bigger picture is to get patients to take the proper procedures when it comes to dealing with the symptoms of heart attacks. It’s long been known that patients who suffer from a heart attack and don’t get it treated as early as possible will run the risk of prolonged damage to the heart.

The use of these types of ambulances is to get people to call at the first sign of a heart problem and have the peace of mind to know that they will be getting the most detailed treatment possible. Patients are often hesitant to take the first step even though the first step is so important to the treatment of a heart attack. Here’s hoping that these new EKG machines make a difference in someone calling the paramedics in time.

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How Medical Technology is Improving Heart Problem Treatments

Conversation between doctor and patient/consumer.
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Having a heart attack or other heart issues is a very scary thing to deal with. Often, these problems occur out of nowhere and, while you may have thought you were perfectly healthy, are now facing an entirely different reality. When you first begin noticing the heart abnormalities, you will likely be rushed to an emergency room to undergo a variety of tests to determine the problem. However, the tests you can expect to receive now are much different than the ones you would have received just a few years ago. These test changes are a result of advancing medical technology and are greatly improving not only the accuracy of the results but also the speed with which the tests can be completed. The following are just a few of the improvements you may experience.

Better Accuracy

Heart tests that once required a catheter camera to search your arteries for trouble spots are now being replaced by heart scans. These heart scans require no insertions into your arteries and are typically much more accurate than older test versions. This means you will receive better answers regarding your heart problems and will then be prescribed an appropriate treatment course or taken in for immediate surgery depending on the severity of your condition.

Faster Results

Because older test versions required the insertion of a catheter into arteries to search for the cause of the heart problems, these tests were often cumbersome and painful for patients. However, the new heart scans are completed very quickly and cause no harm to patients. This is a welcome change for patients who, in the past, were already experiencing chest pains and then had to undergo painful tests to determine the cause of their health issues.

Improved Recovery Time

Since heart specialists are now able to quickly determine the cause of heart problems thanks to medical technology improvements, they can treat their patients faster. This not only improves the recovery time for patients but also improves the chance that they will make a full recovery from the heart problems.

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A Quality Defibrillator Can Make the Difference in an Emergency Case

Automated External Defibrillator
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Heart arrhythmia is a very serious condition. A heart normally pumps at a stable rate. However, heart arrhythmia designates a shift from this normal pattern. Some times heart arrhythmia remains harmless. However, heart arrhythmia caused by trauma or serious chronic heart disease can prove life threatening. In this case, a defibrillator can prove to be a literal lifesaver. The defibrillator administers electrical energy to hopefully depolarize the heart and hopefully restore normal rhythms. In this case the decision on which defibrillator to use is absolutely important.
Most defibrillators operate on the principle of simplicity which ensures both a novice can use it and that an expert will have easy operation in a time of crisis. There are a host of features to ensure proper operation during a defibrillator procedure. The features range from pictogram instructions to voice and text instructions. This can help ease even a skilled technician in the case of an emergency.
Additionally, one must consider the context of the device. If the medical institution does not frequently deal with trauma or emergency cases then a simple and easy to use defibrillator remains completely appropriate. However, additional features such as manual control can make the difference in the hands of a trained expert dealing with a complicated trauma or emergency case.
Moreover, if the devise is likely to be outside of a sterile environment other factors come into play. The electrical charge makes most defibrillators prone to discharge in the presence of dust, water, or other unrelated materials. In this case, different defibrillators have different “International Protection Ratings” or IP codes. The higher the code the better the resistance to these various particles which might interfere with the procedure. Moreover, it helps prevent dangerous feedback to the user his or herself.
Finally, one can compare defibrillators by secondary characteristics such as warranty or battery life. These factors may tip the scales depending on one’s institution’s planned use rather than the core characteristics of the machine.

Heart arrhythmia is a very serious condition. A heart normally pumps at a stable rate. However, heart arrhythmia designates a shift from this normal pattern. Some times heart arrhythmia remains harmless. However, heart arrhythmia caused by trauma or serious chronic heart disease can prove life threatening. In this case, a defibrillator can prove to be a literal lifesaver. The defibrillator administers electrical energy to hopefully depolarize the heart and hopefully restore normal rhythms. In this case the decision on which defibrillator to use is absolutely important.
Most defibrillators operate on the principle of simplicity which ensures both a novice can use it and that an expert will have easy operation in a time of crisis. There are a host of features to ensure proper operation during a defibrillator procedure. The features range from pictogram instructions to voice and text instructions. This can help ease even a skilled technician in the case of an emergency.
Additionally, one must consider the context of the device. If the medical institution does not frequently deal with trauma or emergency cases then a simple and easy to use defibrillator remains completely appropriate. However, additional features such as manual control can make the difference in the hands of a trained expert dealing with a complicated trauma or emergency case.
Moreover, if the devise is likely to be outside of a sterile environment other factors come into play. The electrical charge makes most defibrillators prone to discharge in the presence of dust, water, or other unrelated materials. In this case, different defibrillators have different “International Protection Ratings” or IP codes. The higher the code the better the resistance to these various particles which might interfere with the procedure. Moreover, it helps prevent dangerous feedback to the user his or herself.
Finally, one can compare defibrillators by secondary characteristics such as warranty or battery life. These factors may tip the scales depending on one’s institution’s planned use rather than the core characteristics of the machine.

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