TY - JOUR
T1 - Method for high accuracy differential pressure measurements using fluid-filled catheters
AU - Rotman, Oren M.
AU - Zaretsky, Uri
AU - Shitzer, Avraham
AU - Einav, Shmuel
N1 - Funding Information:
The study was partially supported by Joseph Drown Foundation and Herbert Berman Fund.
PY - 2014/8
Y1 - 2014/8
N2 - The advantage of measuring differential pressure using fluid-filled catheters is that the system is relatively inexpensive, but the readings are not accurate and affected by the common mode pressure (CMP) distortion. High accuracy differential pressure measurements are required in various biomedical applications, such as in fluid-dynamic test rigs, or in the cath-lab, from cardiac valves efficacy to functional assessment of arterial stenoses. We have designed and built a unique system in which the pressure difference was measured along the fluid flow inside a rigid circular tube using a fluid-filled double-lumen catheter. The differential pressure measurements were taken across two side-holes near the catheter distal tip, spaced apart by 3 cm. The goal was to overcome the CMP error, which significantly distorted the output differential pressure signal and to formulate a restoration factor. A restoration formula was developed based on simultaneous gauge pressure measurements, and was tested in several different cases. Several representative cases are presented and show that the common mode artifact was reduced by factors of 12-27. The restored pressure gradient signal was validated using direct pressure drop measurements, and showed very good agreement.
AB - The advantage of measuring differential pressure using fluid-filled catheters is that the system is relatively inexpensive, but the readings are not accurate and affected by the common mode pressure (CMP) distortion. High accuracy differential pressure measurements are required in various biomedical applications, such as in fluid-dynamic test rigs, or in the cath-lab, from cardiac valves efficacy to functional assessment of arterial stenoses. We have designed and built a unique system in which the pressure difference was measured along the fluid flow inside a rigid circular tube using a fluid-filled double-lumen catheter. The differential pressure measurements were taken across two side-holes near the catheter distal tip, spaced apart by 3 cm. The goal was to overcome the CMP error, which significantly distorted the output differential pressure signal and to formulate a restoration factor. A restoration formula was developed based on simultaneous gauge pressure measurements, and was tested in several different cases. Several representative cases are presented and show that the common mode artifact was reduced by factors of 12-27. The restored pressure gradient signal was validated using direct pressure drop measurements, and showed very good agreement.
KW - Common mode error
KW - Common mode pressure
KW - Double-lumen catheter
KW - Dual-lumen catheter
KW - Pressure drop
KW - Pressure line
UR - http://www.scopus.com/inward/record.url?scp=84904392277&partnerID=8YFLogxK
U2 - 10.1007/s10439-014-1026-4
DO - 10.1007/s10439-014-1026-4
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AN - SCOPUS:84904392277
SN - 0090-6964
VL - 42
SP - 1705
EP - 1716
JO - Annals of Biomedical Engineering
JF - Annals of Biomedical Engineering
IS - 8
ER -