BACKGROUND: Oxygen-dependent quenching of luminescence using transparent planar sensor foils was shown to overcome the limitations of the polarographic electrode technique in an animal model. This method was then transferred to a clinical setting to measure the transcutaneous pO(2) (p(tc)O(2)). METHODS: In six healthy subjects, a cuff on the upper arm was occluded up to 20 mmHg above systolic pressure and released after 8 min. P(tc)O(2) was measured at the lower arm every 30 s before, during, and up to 20 min after cuff occlusion (40 degrees C applied skin temperature) using luminescence lifetime imaging (LLI) of platinum(II)-octaethyl-porphyrin immobilized in a polystyrene matrix. For validation, the polarographic Clark electrode technique was applied in close proximity, and measurements were conducted simultaneously. RESULTS: P(tc)O(2) measurements before (70.8+/-19.1 vs. 66.2+/-7.7 mmHg) and at the end of ischemic (2.7+/-1.2 vs. 3.6+/-1.7 mmHg) and reperfusion phases (72.2+/-3.6 vs. 68.4+/-8.9 mmHg) did not differ significantly using the Clark electrode vs. LLI. At both the initial ischemic and the reperfusion phases, the Clark electrode measured a faster decrease or increase, respectively, in p(tc)O(2) because of the oxygen consumption occurring in this method. CONCLUSION: The presented method provides accurate and reproducible p(tc)O(2) values under changing microcirculatory conditions. The lack of oxygen consumption during measurement allows both a more realistic estimation of p(tc)O(2) than compared with the gold standard and permanent use in regions with critical oxygen supply.
BACKGROUND:Oxygen-dependent quenching of luminescence using transparent planar sensor foils was shown to overcome the limitations of the polarographic electrode technique in an animal model. This method was then transferred to a clinical setting to measure the transcutaneous pO(2) (p(tc)O(2)). METHODS: In six healthy subjects, a cuff on the upper arm was occluded up to 20 mmHg above systolic pressure and released after 8 min. P(tc)O(2) was measured at the lower arm every 30 s before, during, and up to 20 min after cuff occlusion (40 degrees C applied skin temperature) using luminescence lifetime imaging (LLI) of platinum(II)-octaethyl-porphyrin immobilized in a polystyrene matrix. For validation, the polarographic Clark electrode technique was applied in close proximity, and measurements were conducted simultaneously. RESULTS: P(tc)O(2) measurements before (70.8+/-19.1 vs. 66.2+/-7.7 mmHg) and at the end of ischemic (2.7+/-1.2 vs. 3.6+/-1.7 mmHg) and reperfusion phases (72.2+/-3.6 vs. 68.4+/-8.9 mmHg) did not differ significantly using the Clark electrode vs. LLI. At both the initial ischemic and the reperfusion phases, the Clark electrode measured a faster decrease or increase, respectively, in p(tc)O(2) because of the oxygen consumption occurring in this method. CONCLUSION: The presented method provides accurate and reproducible p(tc)O(2) values under changing microcirculatory conditions. The lack of oxygen consumption during measurement allows both a more realistic estimation of p(tc)O(2) than compared with the gold standard and permanent use in regions with critical oxygen supply.
Authors: Christopher A DeRosa; Scott A Seaman; Alexander S Mathew; Catherine M Gorick; Ziyi Fan; James N Demas; Shayn M Peirce; Cassandra L Fraser Journal: ACS Sens Date: 2016-11-14 Impact factor: 7.711
Authors: Stephen C Kanick; Peter A Schneider; Bruce Klitzman; Natalie A Wisniewski; Kerstin Rebrin Journal: Microvasc Res Date: 2019-02-08 Impact factor: 3.514
Authors: Maciej M Kmiec; Huagang Hou; M Lakshmi Kuppusamy; Thomas M Drews; Anjali M Prabhat; Sergey V Petryakov; Eugene Demidenko; Philip E Schaner; Jay C Buckey; Aharon Blank; Periannan Kuppusamy Journal: Magn Reson Med Date: 2019-02-13 Impact factor: 4.668
Authors: Xingjun Fan; David R Sell; Jianye Zhang; Ina Nemet; Mathilde Theves; Jie Lu; Christopher Strauch; Marc K Halushka; Vincent M Monnier Journal: Free Radic Biol Med Date: 2010-06-09 Impact factor: 7.376
Authors: Maciej M Kmiec; Huagang Hou; M Lakshmi Kuppusamy; Thomas M Drews; Anjali M Prabhat; Sergey V Petryakov; Eugene Demidenko; Philip E Schaner; Jay C Buckey; Aharon Blank; Periannan Kuppusamy Journal: Magn Reson Med Date: 2018-09-11 Impact factor: 4.668