Abstract

This article aims to study the application of multi-functional nano-materials combined with sports rehabilitation training in the diagnosis and treatment of cardiovascular diseases. This paper uses multi-functional nano-materials combined with sports rehabilitation training methods to record the physical condition of patients with cardiovascular diseases after the illness. Use intelligent monitoring system to design network nodes, and use network technology to carry out real-time data transmission of the physical conditions of patients with cardiovascular diseases, so as to ensure the real-time transmission of patients' physical conditions, to achieve real-time understanding of the recovery status of patients with cardiovascular diseases, and whether they adapt This therapy. Then compared with the traditional cardiovascular patients' own feelings, to judge the feasibility of multifunctional nanotechnology combined with sports rehabilitation training, so as to the multifunctional nanotechnology combined with sports rehabilitation training in cardiovascular medicine Technology improvements and upgrades. Research data shows that multi-functional nanomaterials combined with sports rehabilitation training can greatly increase the speed of new blood vessel disease review. Research data shows that multifunctional nanomaterials combined with sports rehabilitation training combine disease-related protein and nucleic acid molecules in the body with precision-targeted nanomedicine, and at the same time transfer function-related organic macromolecules and peptides to the site of effect to protect them It is degraded by enzymes and not immune to rejection, so that they cross biological barriers, and then achieve the effect of diagnosis and treatment of cardiovascular disease. It has improved the recovery rate by about 20% and has an important role in promoting the diagnosis and treatment of cardiovascular diseases.

摘要

本文旨在研究多功能纳米材料结合运动康复训练在心血管疾病诊治中的应用。本文采用多功能纳米材料结合运动康复训练方法，记录心血管疾病患者病后的身体状况。利用智能监护系统设计网络节点，利用网络技术对心血管疾病患者的身体状况进行实时数据传输，保证患者身体状况的实时传输，实现实时传输。及时了解心血管疾病患者的恢复状态，以及是否适应这种疗法。那么与传统心血管患者相比 自己的感受，来判断多功能纳米技术结合运动康复训练的可行性，从而对多功能纳米技术结合运动康复训练在心血管医学方面进行技术改进和升级。研究数据表明，多功能纳米材料结合运动康复训练，可以大大提高新血管疾病审查速度。研究数据表明，多功能纳米材料结合运动康复训练，将体内与疾病相关的蛋白质和核酸分子与精准靶向的纳米药物结合，同时将与功能相关的有机大分子和多肽转移到作用部位进行保护它被酶降解，不能免疫排斥，使它们跨越生物屏障，进而达到诊断和治疗心血管疾病的效果。提高了20%左右的治愈率，对促进心血管疾病的诊治具有重要作用。