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Precision-Microfabricated Fiber-Optic Probe for Intravascular Pressure and Temperature Sensing.

Authors :
Poduval, Radhika K.
Coote, Joanna M.
Mosse, Charles A.
Finlay, Malcolm C.
Desjardins, Adrien E.
Papakonstantinou, Ioannis
Source :
IEEE Journal of Selected Topics in Quantum Electronics; Jul/Aug2021, Vol. 27 Issue 4, p1-12, 12p
Publication Year :
2021

Abstract

Small form-factor sensors are widely used in minimally invasive intravascular diagnostic procedures. Manufacturing complexities associated with miniaturizing current fiber-optic probes, particularly for multi-parameter sensing, severely constrain their adoption outside of niche fields. It is especially challenging to rapidly prototype and iterate upon sensor designs to optimize performance for medical devices. In this work, a novel technique to construct a microscale extrinsic fiber-optic sensor with a confined air cavity and sub-micron geometric resolution is presented. The confined air cavity is enclosed between a 3 μm thick pressure-sensitive distal diaphragm and a proximal temperature-sensitive plano-convex microlens segment unresponsive to changes in external pressure. Simultaneous pressure and temperature measurements are possible through optical interrogation via phase-resolved low-coherence interferometry (LCI). Upon characterization in a simulated intravascular environment, we find these sensors capable of detecting pressure changes down to 0.11 mmHg (in the range of 760 to 1060 mmHg) and temperature changes of 0.036 °C (in the range 34 to 50 °C). By virtue of these sensitivity values suited to intravascular physiological monitoring, and the scope of design flexibility enabled by the precision-fabricated photoresist microstructure, it is envisaged that this technique will enable construction of a wide range of fiber-optic sensors for guiding minimally invasive medical procedures. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
1077260X
Volume :
27
Issue :
4
Database :
Complementary Index
Journal :
IEEE Journal of Selected Topics in Quantum Electronics
Publication Type :
Academic Journal
Accession number :
151777590
Full Text :
https://doi.org/10.1109/JSTQE.2021.3054727