In the area of cardiovascular disease treatment today, the heart support is a very visible presence. It’s like a magical “key” that can open a life path to blocked heart vessels and save the edges of many coronary heart patients from pain and even death.
Coronary heart disease, known as coronary porridge, is the result of the hardening of the coronary artery, the gradual formation of plasters on the vascular wall, the resulting constriction and even obstruction of the blood vessels, and the consequent lack of adequate blood supplies for the heart muscle, which causes severe symptoms such as cardiac pain and myocardial infarction. A heart stasis, as an effective means of intervention, was introduced.
When a patient is diagnosed with coronary heart disease and the coronary artery is narrower (generally more than 70 per cent) and the medication is ineffective, the doctor may recommend that the patient undergo a heart support procedure. In the course of the operation, the patient is usually in a state of local anaesthesia, where the doctor first punctures the wrist of the patient (the avionic artery) or the root of the thigh (the femoral artery) and sends a very fine catheter slowly along the artery to the opening of the coronary artery. The key step is coronary artery imaging, which is then visible in the form of the coronary artery and in the extent of the mutation, narrowness of the disease, in the clear view of the X-ray. If the coronary artery is found to be severely narrow, the doctor will follow the catheter to a special catheter with a ball bag to the narrow part, then inflate it, and use the strong pressure of the balloon expansion to open up the narrow veins and create good conditions for the subsequent stairwell. Finally, a carefully selected metal support is delivered to the pathogen along the catheter, which is quickly spread within the veins and provides a steady support of the vascular wall, as a strong “bridge” is built within the veins, so that the veins can be restored and the blood supply of the heart muscles secured. Most of the patients during the operation were conscious, suffered relatively little trauma and recovered quickly after the operation.
The implantation of the heart has many notable advantages. First, it is able to improve the blood flow of the coronary artery quickly and effectively in a short period of time, as if it were a clogged river, so that the blood flowed smoothly to myocardial tissue, thereby significantly alleviating the symptoms of myocardiosis, for example, by freeing patients from painful chest pains, chest suffocation, etc. Many patients notice a significant reduction in symptoms immediately after the operation, as if they were reborn. Second, the length of hospitalization for heart support is significantly reduced compared to the traditional artery of open coronary artery by-pass (bridge surgery) and, as a general rule, patients can be discharged from the hospital after surgery for a period of 2 to 3 days, and can be returned to normal life and work more quickly, significantly reducing the disruption and impact on their daily lives. Moreover, the relatively low risk of such surgery and the relatively low incidence of complications during and after surgery provide a more reliable guarantee for the life of the patient.
However, we must also be conscious that the implantation of the heart is not a perfect solution once and for all. Once the frame is in, there is a certain probability that it will be narrower within. This is because, as an alien object, the scaffolding stimulates an increase in the growth of angiogenesis, which, if overgrown, may lead to a re-emergence of the blood vessels, as if the “weeds” had been re-emerged along the road, hindering traffic. In order to reduce this risk effectively, patients need to take long-term anti-sculpable drugs, such as aspirin and chlorpelle, after the operation, which can discourage slabs from condensing on the surface of the stairwell to form a sepsis, as if they were wearing a “protective coat” on the stairwell to ensure a smooth vein. At the same time, medical and scientific personnel are working tirelessly to develop new types of support material and support frames with drug coatings. The gradual and sustained release of drugs from the coatings for a certain period of time can accurately inhibit the excessive growth of vascular skin cells, thereby significantly reducing the incidence of further constriction within the shelves and further improving the long-term therapeutic effects of cardiac support.
In addition to coronary artery support frames, coronary artery cysts expand in the field of coronary heart disease intervention. This treatment is relatively simple, simply using a ball bag to expand a narrow vein without putting a support frame. It applies mainly to patients with a relatively narrow coronary artery and a relatively short range of pathologies or, in some cases, to pre-expanding steps as strangulations. The advantage of coronary cystal expansion is that it is relatively simple to operate and the cost of surgery is relatively low. However, its disadvantage lies in the relatively high rate of narrowness and the fact that the treatment of some of the more complex coronary aneurysms may be less effective than the cascading technique, such as a simple “key”, which opens only a few simple “locks” and may be difficult to cope with for complex “locks”.
In recent years, as medical technology continues to improve and innovate, new and emerging technologies for the treatment of coronary heart disease have emerged as springs of rain, bringing more treatment options and hope to those suffering from coronary heart disease. For example, coronary artery, which is mainly designed for serious calcification pathologies within the coronary artery. Because of calcification, the vascular wall becomes exceptionally hard, as is the case with stones, the normal scylla expansion and strangulation often make it difficult to achieve the desired therapeutic effect. The coronary artery, in turn, is skilfully used for the high-speed rotation of the whirlwind head with diamond particles, grinding calcium plasters like rock grinding, thus creating conditions conducive to the subsequent expansion of the ball’s bladder and to the placement of stairwells, which have significantly increased the success rate of the operation, as it has found a powerful “strike hammer” to attack a hard fort.
Cardiac support plays an extremely important role in the treatment of coronary heart disease, which has opened up blocked blood vessels for patients, restored the blood supply of myocardial muscles, significantly improved their quality of life and extended their lives. However, in choosing the treatment, the patient must communicate fully and in depth with the doctor, who takes into account the patient ‘ s specific condition, including the level of detail, location and number of coronary aneurysms, the age of the patient, the overall state of his/her body, and the existence of other combinations, so as to tailor the most appropriate treatment to the patient. Moreover, the patient must not be negligent after the operation, and it is essential that he/she take the medication on time and that he/she actively adapt his/her lifestyle in strict compliance with the doctor ‘ s requirements, such as keeping the salt, fat and sugar diet low, free from alcohol and alcohol, moderate exercise, control of weight, and rest of his/her mood, etc., and that he/she visit the hospital regularly for review so that he/she can keep abreast of the changes in his/her condition, adjust his/her treatment strategy in a timely manner, ensure the long-term stability of his/her treatment and ensure that the health and vitality of his/her heart are truly preserved.
