Abstract
In this paper, we present a review of the intra-aortic balloon pump, as well as the usage of it in the medical field today. An intra-aortic balloon pump (IABP) is a biomedical device that can assist the heart during unstable angina or after a heart attack. This pump is typically used in patients who suffer from ischemia of the heart tissue, due to an unbalanced level of myocardial oxygen supply or demand. Through counterpulsation, which is a technique to synchronize the external pumping of blood with the heart’s cycle, the device can balance the supply and demand of blood that is necessary for the heart to pump properly. The IABP is comprised of the following four components: a polyurethane balloon, a polyethylene or fiber-optic catheter, a transducer, and the intra-aortic balloon pump console. In the past, researchers have used other materials that have low biocompatibility and can cause complications within the body. This analysis will explain the complications and state changes that occurred due to them. Limitations of past designs and advantages of current designs will be acknowledged, for they can be used by researchers to enhance designs for the future. Consequently, the analysis of this device may lead to improved designs and treatment in the future for patients with cardiac conditions.
Highlights
The cardiovascular system is an imperative system in the human body, with the heart being a key organ for proper function
The heart needs a specific amount of oxygen, so that it can continue to function properly and it has a maximum amount of oxygen that can be provided by the blood [2]
One suggestion physicians make for patients with a heart condition, such as heart failure, is the use of an intra-aortic balloon pump (IABP) [3]
Summary
The cardiovascular system is an imperative system in the human body, with the heart being a key organ for proper function. IABP with two balloons that would block the distal blood flow and augment the proximal flow to improve ventricular performance by facilitating an increase in myocardial oxygen supply and leading to the brain [9,10,11]. These discoveries enabled the use of the IABP on more than 5000 decreasing myocardial oxygen demand [8]. Scientists have recognized the many hemodynamic effects of IABP treatment, including a decrease in afterload on the heart and an increase in diastolic pressure in the aorta. [13]
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