The incidence of cardiovascular disease is closely related to the heart, and the quality of the heart function directly affects the health of the cardiovascular system. At present, the prevention and treatment of diseases no longer rely solely on drug treatment, and people are increasingly aware of the importance of exercise. Therefore, it is very important to find an economical and effective way to improve cardiovascular function in patients with heart failure. The purpose of this paper is to analyze and discuss the PETCT imaging diagnosis of heart failure improved by Tai Chi exercise based on intelligent sensors. First, it summarizes the origin, characteristics, and exercise rules of simplified Taijiquan, introduces the basic etiology and pathophysiology of cardiac insufficiency, studies the pathogenesis of chronic cardiac insufficiency, and understands the influence of exercise therapy on chronic cardiac insufficiency, combining information fusion and smart sensors to observe the effect of Taijiquan’s short-term intervention on mild to moderate chronic cardiac insufficiency and the diagnosis of nuclear medicine PET and CT. The results of the experiment showed that there were 317 cases of Taijiquan group III patients before treatment and 413 cases after treatment. Tai Chi can not only improve the health-related quality of life of CHF patients but also can effectively improve the restricted activities of CHF patients. Exercise endurance is significantly improved. According to the clinical treatment principles and rules of CHF, it is an excellent auxiliary treatment method. The significance of auxiliary Taijiquan therapy is not only to improve heart function and quality of life but also to have a positive impact on the patient’s mental state, which meets the needs of the bio-psycho-social medical model, and also inspires and assists the research progress of other diseases.
Nanotechnology is an alternative material manufacturing technology, and the research field involves a broad field of modern technology, especially in the field of high-end manufacturing. Nanotechnology is a technique for studying the properties and applications of materials with structural dimensions in the range of 1 nanometer to 100 nanometers. Medical imaging refers to the technology and processing process of obtaining internal tissue images of the human body or a certain part of the human body in a noninvasive way for medical treatment or medical research; the acquired image can be further processed to restore the original image that was not clear enough to highlight some characteristic information in the image. The appearance of medical imaging has promoted the development of the medical field. The purpose of this paper is to study the application of nanoscale microparticle technology in medical imaging diagnosis and treatment. It is expected that the combination of nanotechnology and medical imaging will improve the accuracy of medical imaging diagnosis. This paper mainly introduces the general methods and technologies of technical development of medical imaging instruments and briefly shows the process of data and image analysis. The experimental results in this paper show that when other conditions remain unchanged, the image quality will change when the quality factor of the image changes. When the image quality is 60%, the image transmission rate is about 5.5FPS, which is relatively stable and can be used in the medical field.
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