The invention is characterised in that it includes a truncated contact lens (1) having a truncation plane parallel to the base of the contact lens and a centrally disposed polymer nanocomposite material (2) joined to the perimeter of the truncated zone, said material being sensitive to pressure changes, biocompatible and transparent and including contact electrodes (3). The invention is also characterised in that it includes means for transmitting intraocular pressure measurement data to an external system. The invention also relates to an intraocular pressure measurement method using said lens, consisting of: i) positioning the sensor contact lens on an eye in order to determine the intraocular pressure thereof; ii) supplying a direct current between the external electrodes; iii) measuring ?V between the internal electrodes; and iv) identifying if the value obtained is outside the linear response expressed as changes in resistivity of the polymer nanocomposite material. The invention further relates to a telemetry system including said lens.
本发明的特征在于,它包括一个截断式隐形眼镜(1),该隐形眼镜具有一个平行于隐形眼镜基底的截断平面,以及一个与截断区周边相连的集中布置的聚合物纳米复合材料(2),所述材料对压力变化敏感,具有
生物相容性和透明性,并包括接触电极(3)。本发明的另一个特点是,它包括将眼内压测量数据传输到外部系统的装置。本发明还涉及一种使用所述镜片的眼内压测量方法,包括:i) 将传感器隐形眼镜置于眼睛上,以确定其眼内压;ii) 在外部电极之间提供直流电;iii) 测量内部电极之间的电压;iv) 确定所获得的值是否超出了以聚合物纳米复合材料电阻率变化表示的线性响应范围。本发明还涉及一种包括上述透镜的遥测系统。