Vascular grafts are artificial conduits properly designed to substitute a diseased blood vessel. However prosthetic fail can occur without premonitory symptoms. Continuous monitoring of the system can provide useful information not only to extend the graft’s life but also to optimize the patient’s therapy. In this respect, various techniques have been used, but all of them affect the mechanical properties of the artificial vessel. To overcome these drawbacks, an ultrathin and flexible smart patch based on piezoelectric Aluminum Nitride (AlN) integrated on the extraluminal surface of the prosthesis is presented. The sensor can be conformally wrapped around the external surface of the prosthesis. Its design, mechanical properties and dimensions are properly characterized and optimized in order to maximize performances and to avoid any interference with the graft structure during its activity. The sensorized graft is tested in vitro using a pulsatile recirculating flow system that mimics the physiological and pathological blood flow conditions. In this way, the ability of the device to measure real-time variations of the hemodynamics parameters has been tested. The obtained high sensitivity of 0.012 V Pa−1 m−2, joint to the inherent biocompatibility and non-toxicity of the used materials, demonstrates that the device can successfully monitor the prosthesis functioning under different conditions, opening new perspectives for real-time vascular graft surveillance.
展开▼
机译:血管移植物是经过适当设计以替代病变血管的人工导管。但是,如果没有先兆症状,就可能发生假体失败。对该系统的持续监控不仅可以提供有用的信息,从而延长移植物的寿命,而且可以优化患者的治疗方法。在这方面,已经使用了各种技术,但是所有这些技术都会影响人造血管的机械性能。为了克服这些缺点,提出了一种基于压电氮化铝(AlN)的超薄且灵活的智能贴片,该贴片集成在假体的腔外表面上。传感器可以保形地包裹在假体的外表面周围。对其设计,机械性能和尺寸进行适当表征和优化,以使性能最大化并避免在移植过程中对移植物结构产生任何干扰。使用模拟生理和病理性血流状况的脉动循环血流系统在体外测试感测到的移植物。以这种方式,已经测试了该装置测量血液动力学参数的实时变化的能力。获得的0.012 V Pa −1 m −2 的高灵敏度与所用材料的固有生物相容性和无毒性相结合,证明该设备可以成功地监测假体在不同条件下起作用,为实时血管移植物监测开辟了新的前景。
展开▼
