1 November 2010 Optical fiber probe spectroscopy for laparoscopic monitoring of tissue oxygenation during esophagectomies
Author Affiliations +
Abstract
Anastomotic complication is a major morbidity associated with esophagectomy. Gastric ischemia after conduit creation contributes to anastomotic complications, but a reliable method to assess oxygenation in the gastric conduit is lacking. We hypothesize that fiber optic spectroscopy can reliably assess conduit oxygenation, and that intraoperative gastric ischemia will correlate with the development of anastomotic complications. A simple optical fiber probe spectrometer is designed for nondestructive laparoscopic measurement of blood content and hemoglobin oxygen saturation in the stomach tissue microvasculature during human esophagectomies. In 22 patients, the probe measured the light transport in stomach tissue between two fibers spaced 3-mm apart (500- to 650-nm wavelength range). The stomach tissue site of measurement becomes the site of a gastroesophageal anastamosis following excision of the cancerous esophagus and surgical ligation of two of the three gastric arteries that provide blood perfusion to the anastamosis. Measurements are made at each of five steps throughout the surgery. The resting baseline saturation is 0.51±0.15 and decreases to 0.35±0.20 with ligation. Seven patients develop anastomotic complications, and a decreased saturation at either of the last two steps (completion of conduit and completion of anastamosis) is predictive of complication with a sensitivity of 0.71 when the specificity equaled 0.71.
© (2010) Society of Photo-Optical Instrumentation Engineers (SPIE)
Daniel S. Gareau, Daniel S. Gareau, Frederic Truffer, Frederic Truffer, Kyle Perry, Kyle Perry, Thai Pham, Thai Pham, C. Kristian Enestvedt, C. Kristian Enestvedt, James Dolan, James Dolan, John G. Hunter, John G. Hunter, Steven L. Jacques, Steven L. Jacques, } "Optical fiber probe spectroscopy for laparoscopic monitoring of tissue oxygenation during esophagectomies," Journal of Biomedical Optics 15(6), 061712 (1 November 2010). https://doi.org/10.1117/1.3512149 . Submission:
JOURNAL ARTICLE
6 PAGES


SHARE
Back to Top