Your search keyword '"Trautman, Jay"' showing total 3 results

1. Rapid intraoperative histology of unprocessed surgical specimens via fibre-laser-based stimulated Raman scattering microscopy

Author

Orringer, Daniel, Pandian, Balaji, Niknafs, Yashar, Hollon, Todd, Boyle, Julianne, Lewis, Spencer, Garrard, Mia, Hervey-Jumper, Shawn, Garton, Hugh, Maher, Cormac, Heth, Jason, Sagher, Oren, Wilkinson, D., Snuderl, Matija, Venneti, Sriram, Ramkissoon, Shakti, McFadden, Kathryn, Fisher-Hubbard, Amanda, Lieberman, Andrew, Johnson, Timothy, Xie, Xiaoliang Sunney, Trautman, Jay, Freudiger, Christian, and Camelo-Piragua, Sandra

Subjects

Biomedical engineering, CNS cancer, Image processing, Lasers, LEDs and light sources, Surgical oncology

Abstract

Conventional methods for intraoperative histopathologic diagnosis are labor- and time-intensive and may delay decision-making during brain tumor surgery. Stimulated Raman scattering (SRS) microscopy, a label-free optical process, has been shown to rapidly detect brain tumor infiltration in fresh, unprocessed human tissues. Previously, the execution of SRS microscopy in a clinical setting has not been possible. We report the first demonstration of SRS microscopy in an operating room using a portable fiber-laser-based microscope in unprocessed specimens from 101 neurosurgical patients. Additionally, we introduce an image-processing method, stimulated Raman histology (SRH), which leverages SRS images to create virtual hematoxylin and eosin- stained slides, revealing essential diagnostic features. In a simulation of intraoperative pathologic consultation in 30 patients, the concordance of SRH and conventional histology for predicting diagnosis was nearly perfect (κ>0.89) and accuracy exceeded 92%. We also built and validated a multilayer perceptron based on quantified SRH image attributes that predicts brain tumor subtype with 90% accuracy. This study provides insight into how SRH can now be used to improve the surgical care of brain tumor patients., Chemistry and Chemical Biology

Published

2017

2. Restoring visual function to the blind retina with a potent, safe and long-lasting photoswitch.

Author

Tochitsky, Ivan, Trautman, Jay, Gallerani, Nicholas, Malis, Jonatan G., and Kramer, Richard H.

Abstract

Photoswitch compounds such as DENAQ confer light-sensitivity on endogenous neuronal ion channels, enabling photocontrol of neuronal activity without genetic manipulation. DENAQ treatment restores both retinal light responses and visual behaviors in rodent models of Retinitis pigmentosa. However, retinal photosensitization requires a high dose of DENAQ and disappears within several days after treatment. Here we report that BENAQ, an improved photoswitch, is 20-fold more potent than DENAQ and persists in restoring visual responses to the retina for almost 1 month after a single intraocular injection. Studies on mice and rabbits show that BENAQ is non-toxic at concentrations 10-fold higher than required to impart light-sensitivity. These favorable properties make BENAQ a potential drug candidate for vision restoration in patients with degenerative blinding diseases. [ABSTRACT FROM AUTHOR]

Published

2017

3. Localization of protoporphyrin IX during glioma-resection surgery via paired stimulated Raman histology and fluorescence microscopy.

Author

Nasir-Moin M, Wadiura LI, Sacalean V, Juros D, Movahed-Ezazi M, Lock EK, Smith A, Lee M, Weiss H, Müther M, Alber D, Ratna S, Fang C, Suero-Molina E, Hellwig S, Stummer W, Rössler K, Hainfellner JA, Widhalm G, Kiesel B, Reichert D, Mischkulnig M, Jain R, Straehle J, Neidert N, Schnell O, Beck J, Trautman J, Pastore S, Pacione D, Placantonakis D, Oermann EK, Golfinos JG, Hollon TC, Snuderl M, Freudiger CW, Heiland DH, and Orringer DA

Subjects

Humans, Microscopy, Fluorescence methods, Aminolevulinic Acid metabolism, Female, Male, Protoporphyrins metabolism, Glioma pathology, Glioma metabolism, Glioma surgery, Glioma diagnostic imaging, Spectrum Analysis, Raman methods, Brain Neoplasms pathology, Brain Neoplasms metabolism, Brain Neoplasms surgery, Brain Neoplasms diagnostic imaging

Abstract

The most widely used fluorophore in glioma-resection surgery, 5-aminolevulinic acid (5-ALA), is thought to cause the selective accumulation of fluorescent protoporphyrin IX (PpIX) in tumour cells. Here we show that the clinical detection of PpIX can be improved via a microscope that performs paired stimulated Raman histology and two-photon excitation fluorescence microscopy (TPEF). We validated the technique in fresh tumour specimens from 115 patients with high-grade gliomas across four medical institutions. We found a weak negative correlation between tissue cellularity and the fluorescence intensity of PpIX across all imaged specimens. Semi-supervised clustering of the TPEF images revealed five distinct patterns of PpIX fluorescence, and spatial transcriptomic analyses of the imaged tissue showed that myeloid cells predominate in areas where PpIX accumulates in the intracellular space. Further analysis of external spatially resolved metabolomics, transcriptomics and RNA-sequencing datasets from glioblastoma specimens confirmed that myeloid cells preferentially accumulate and metabolize PpIX. Our findings question 5-ALA-induced fluorescence in glioma cells and show how 5-ALA and TPEF imaging can provide a window into the immune microenvironment of gliomas., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024