Many patients with cardiovascular disease are being treated successfully because of technological advancements. These new equipment and methods allow us to cure a more significant number of people than we could five years ago.
Fortunately, we can now treat them with less intrusive procedures and a lower risk of complications, enhancing sufferers’ rehabilitation and standard of living.
Undoubtedly, artificial intelligence is advancing, and health care is one of the primary beneficiaries of this rapid development. Indeed, a modern imaging platform enables doctors to examine CT biopsies in greater detail to identify how to treat cardiovascular disease.
In addition, whenever you work out or feel agitated, you may feel a pressing feeling of pressure in your heart. One probable cause is the insufficient blood supply to the heart.
This symptom, known as stable angina, indicates that you may have cardiovascular disease and are at risk of having a heart attack. This article will discuss the technologies about how to prevent heart attack using technology.
Do you know about CAD (coronary artery disease)?
When the arteries supplying blood back to the heart become blocked with lipid and calcium deposits, coronary artery disease develops. Most people are at risk for heart attacks and other types of heart disease. Whereas many persons with coronary artery disease do not display symptoms, some do.
However, coronary artery disease and coronary heart disease, or CHD, are sometimes used indiscriminately; they are not the same thing. In fact, CAD is frequently the cause of CHD. The primary symptoms are pain, chest problem, discomfort, and other upper body regions, such as the arms, back, neck, jaw, or stomach, may experience pain, warmth, or irritation.
The treatment of this disease is not as simple as you think. Here are a few options for dealing with CAD. Most first and primary is lifestyle adjustments may require. Some others include giving up on smoking, eating fruits and vegetables, preventing high sugar foods from maintaining a healthy diet, losing some weight, and exercising daily. However, some drugs are pretty important. According to Dr Hirsch, some of these medications help prevent heart attacks and can aid people to live longer. The following drugs are among them:
- Statins are cholesterol-lowering drugs.
- Blood-pressure-lowering medications
- Aspirin or other anti-clotting medications used to prevent blood clots.
- Treatments for diabetes
- Nitrates, beta-blockers, and medications used to treat angina.
Certain operations, including stents or heart surgery of the clogged arteries, may be required in some circumstances to help increase blood supply to the heart.
Therapy for Treatment of Heart Attack
BioCardia is a diagnostic technology, and regenerative medicine firm focused on developing novel therapies for heart problems. Tailored scans are one of the therapy options available, and they assist evaluate which individuals are most likely to gain from local anaesthetic injections into the heart.
However, CardiAMPTM Therapy and CardiALLOTM Therapy, which target heart problems caused by heart attacks, are two of BioCardia’s current cardiac gene therapy endeavours.
Dr Simon Stertzer, who conducted the first cardiac balloon angioplasty in the United States in 1978, was a company’s co-founder.
A subcutaneous defibrillator with a string implantable
This technology can help heart patients prevent sudden heart attacks and give them a better long life. A far less intrusive device that can avoid heart failure is the implanted string subcutaneous defibrillator (ISSD).
The ISSD does not demand a metallic pulse is generating wallet, unlike existing subcutaneous defibrillators. Essentially, it employs a single elastic string-shaped instrument with no internal connections. The device may be attached to a cellphone, and the typical insertion time is about 20 min.
Soft Robot Technology
It is another most exciting technology in the artificial intelligence environment that is useful for heart disease. It is a soft robot that wraps itself around the heart and assists it in beating.
For people whose hearts have been compromised by a cardiac event and are in danger of heart problems, the gadget has many potentials.
A tiny silicone sleeve with sensitive engine components that resemble the heart’s outer muscle layers synchronises the robotic with the heart.
It accomplishes so without coming into close touch with blood, as most available today devices. This eliminates the need for possibly hazardous blood thinners.
Prediction of Heart disease
It is indeed an artificial intelligence program created by Google and its wellness division to predict cardiac problems only by looking into a patient’s eyes.
They searched a database of roughly 3 million patients for trends in order to develop this device.
The optical consists of 48 unmistakable indicators of cardiovascular diseases, such as elevated blood pressure, because the internal back wall of the eye conceals a system of blood arteries.
It can identify if a person will have a heart problem over the next three years with 75% precision, even though it is consistent throughout the test phase.
Bio print a human cardiac muscle patch
It is one of the best technology that helps to bio print heart issues much better. It is the most nuanced approach to deal with heart problems.
A Chicago-based biotechnology firm has reported that it can print natural cardiac muscle patches that can be stitched up over even a dying heart tissue to hasten rehabilitation from congestive heart failure.
The overall process is really complicated because It entails converting a patient’s cells into stem cells, which would then alter to generate the exact cell types needed for three-dimensional manufacturing of a person’s heart.
In short, when it comes to CVD, healthcare technology offers a lot of potentials. For instance, in low-resource income areas, when standard echocardiography equipment isn’t really accessible, and echocardiography transducers attached to a mobile device can be beneficial in the detection of rheumatic heart disease.
Moreover, wearable gadgets, such as smartwatches, can also assist clinicians with arrhythmia that necessitate constant heartbeat monitoring, when long durations of monitoring were formerly only possible with the insertion of sequence recorders.