publications by Adam P. Wax.
Papers Published
- Terry, NG; Zhu, Y; Rinehart, MT; Brown, WJ; Gebhart, SC; Bright, S; Carretta, E; Ziefle, CG; Panjehpour, M; Galanko, J; Madanick, RD; Dellon, ES; Trembath, D; Bennett, A; Goldblum, JR; Overholt, BF; Woosley, JT; Shaheen, NJ; Wax, A, Detection of dysplasia in Barrett's esophagus with in vivo depth-resolved nuclear morphology measurements.,
Gastroenterology, vol. 140 no. 1
(January, 2011),
pp. 42-50 [doi] .
(last updated on 2023/06/01)Abstract:
Background & aims
Patients with Barrett's esophagus (BE) show increased risk of developing esophageal adenocarcinoma and are routinely examined using upper endoscopy with biopsy to detect neoplastic changes. Angle-resolved low coherence interferometry (a/LCI) uses in vivo depth-resolved nuclear morphology measurements to detect dysplasia. We assessed the clinical utility of a/LCI in the endoscopic surveillance of patients with BE.Methods
Consecutive patients undergoing routine surveillance upper endoscopy for BE were recruited at 2 endoscopy centers. A novel, endoscope-compatible a/LCI system measured the mean diameter and refractive index of cell nuclei in esophageal epithelium at 172 biopsy sites in 46 patients. At each site, an a/LCI measurement was correlated with a concurrent endoscopic biopsy specimen. Each biopsy specimen was assessed histologically and classified as normal, nondysplastic BE, indeterminate for dysplasia, low-grade dysplasia (LGD), or high-grade dysplasia (HGD). The a/LCI data from multiple depths were analyzed to evaluate its ability to differentiate dysplastic from nondysplastic tissue.Results
Pathology characterized 5 of the scanned sites as HGD, 8 as LGD, 75 as nondysplastic BE, 70 as normal tissue types, and 14 as indeterminate for dysplasia. The a/LCI nuclear size measurements separated dysplastic from nondysplastic tissue at a statistically significant (P < .001) level for the tissue segment 200 to 300 μm beneath the surface with an accuracy of 86% (147/172). A receiver operator characteristic analysis indicated an area under the curve of 0.91, and an optimized decision point gave 100% (13/13) sensitivity and 84% (134/159) specificity.Conclusions
These preliminary data suggest a/LCI is accurate in detecting dysplasia in vivo in patients with BE.