Cardiopathic intervention.

As clinical research on cardiac disorders continues, the electrophysiological mechanisms of various heart disorders have been identified and their treatment methods and techniques have been continuously improved, resulting in significant changes in treatment programmes for the disease. Interventions are a non-pharmacological treatment that is more commonly used clinically, and the types of heart disorders that can treat or cure root causes, as well as adaptive disorders, are also significantly widening with advances in medical technology.i. Cardiac pacemaker implant therapyThe first pacemaker implant in the world was implemented in 1958, and the physico-physiology of the pacemaker function is constantly being updated. For a considerable period of time, a pacemaker is considered to be functionally compatible with room synchronisation and frequency of response needs as a physical pace, although with further clinical research, it has been found that the effect of this traditional concept of physical pace in improving the patient ‘ s prognosis is similar to that of the right-heart prognosis; and that studies have found that the higher the rate of sharpness in the right-heart, the greater the risk of the patient ‘ s concussion, and therefore the improvement of the patient ‘ s prognosis by reducing the sharpness of the right-heart. The effect on the patient ‘ s prognosis is mainly due to the non-synchronous electrical agitation in the heart room, which results in a non-synchronous contraction in the heart room. In addition to this, increased attention is being paid to the impact of the pace of cardiac selectivity (including right-room spacing, room beams/bedroom beams) on reducing the non-synchronous electrical agitation of the heart room. At this stage, it is considered clinically that the pace of the heart of the traditional right-heart is the main cause of the patients ‘ tremors and cardiac failure, so that if the patient is chronic heart disorder, the patient needs to be informed of the greatest possible self-direction during the application of a pacemaker implant for the patient, thus avoiding the creation of a synchronous electric agitation, thereby minimizing the needless right-heart pace.II. Conduit digestion treatmentThe most rapid progress in research in the area of heart-ticking interventions is in the use of catheters to treat cardiac tremors, although over time there has been a tendency to reduce the proportion of digestive patients who maintain moist. In the case of patients with cardiovascular diseases, genetic cardiac disorders or instrumental heart disease combined with room-to-heart tremors and hysteria are one of the major causes of heart-to-heart death, while in recent years, as clinical medical technology has improved and experience has improved, catheter digestion treatment has had the most desirable therapeutic effects in the case of Brugada syndrome, cardiac arrhythmia, and post-cardial myocardial infarction. It has been effective in reducing the risk of heart-to-heart tremors and perspiration.III. ICD implantation treatmentAt this stage, there are more than half a million cases of heart attack per year in our country, posing a serious threat to the lives and safety of people. So far, there has been no effective anti-cardiological disorders that can effectively prevent heart sudden death, and ICD implant treatment is the only means of preventing the disease. The prevention of cardiac sudden death can be divided into primary and secondary prevention, which is aimed at patients who have not had a cardiac arrest but who are at high risk of dying; the second prevention is directed at patients who have had a heart arrest and have been rescued. ICD implant therapy is an important approach to the second stage of heart death prevention. However, as many as 95 per cent of patients whose heart rate stopped outside the hospital had lost their lives before reaching the hospital, and only a small percentage of patients whose heart rate stopped had the possibility of implementing secondary preventive measures, which was of great importance.Traditional ICD implants are mainly implanted in the heart by an intravenous route, with patients at certain risk of complications such as endocardial infections, and more difficult to remove or replace electrodes at a later stage. The ICD (S-ICD) under the whole skin has been applied clinically in recent years. It can be located through anatomy, does not require an X-ray, does not suffer from basic operation complications, does not contact the heart, does not have an endocardial infection, and does not have conductor removal or replacement at a later stage. However, S-ICD has not been able to undergo pacemaker treatment for long periods of time after discharge, and S-ICD has not had the desired effect for a <170 frequency/minute of hypercardiology, and therefore there is a need for further research and continuous improvement of S-ICD implantation techniques.Concluding remarksIn sum, advances in science and technology offer new opportunities for research and healing for heart disorders, and as medical technologies and medical devices continue to be developed, improved and optimized, clinical experience is built up and summed up in the belief that humans ' research and treatment of persistent heart disorders can achieve more desirable results, albeit with hard journeys, but will eventually succeed.