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Intraoperative spectroscopic evaluation of sentinel lymph nodes in breast cancer surgery (2024)
Journal Article
Barkur, S., Boitor, R. A., Mihai, R., Raja Gopal, N. S., Leeney, S., Koloydenko, A. A., Khout, H., Rakha, E., & Notingher, I. (2024). Intraoperative spectroscopic evaluation of sentinel lymph nodes in breast cancer surgery. Breast Cancer Research and Treatment, https://doi.org/10.1007/s10549-024-07349-z

Background and objectives: Sentinel lymph node (SLN) biopsy is a standard procedure for patients with breast cancer and normal axilla on imaging. Positive SLNs on histological examination can lead to a subsequent surgery for axillary lymph node clear... Read More about Intraoperative spectroscopic evaluation of sentinel lymph nodes in breast cancer surgery.

Diagnostic accuracy of autofluorescence-Raman microspectroscopy for surgical margin assessment during Mohs micrographic surgery of basal cell carcinoma (2024)
Journal Article
Boitor, R. A., Varma, S., Sharma, A., Odedra, S., Elsheikh, S., Eldib, K., Patel, A., Koloydenko, A., Gran, S., De Winne, K., Koljenovic, S., Williams, H. C., & Notingher, I. (2024). Diagnostic accuracy of autofluorescence-Raman microspectroscopy for surgical margin assessment during Mohs micrographic surgery of basal cell carcinoma. British Journal of Dermatology, 191(3), 428-436. https://doi.org/10.1093/bjd/ljae196

Background

Autofluorescence (AF)–Raman microspectroscopy is a technology that can detect residual basal cell carcinoma (BCC) on the resection margin of fresh, surgically excised tissue specimens. The technology does not require tissue fixation, st... Read More about Diagnostic accuracy of autofluorescence-Raman microspectroscopy for surgical margin assessment during Mohs micrographic surgery of basal cell carcinoma.

MicrobioRaman: an open-access web repository for microbiological Raman spectroscopy data (2024)
Journal Article
Lee, K. S., Landry, Z., Athar, A., Alcolombri, U., Pramoj Na Ayutthaya, P., Berry, D., de Bettignies, P., Cheng, J.-X., Csucs, G., Cui, L., Deckert, V., Dieing, T., Dionne, J., Doskocil, O., D’Souza, G., García-Timermans, C., Gierlinger, N., Goda, K., Hatzenpichler, R., Henshaw, R. J., …Stocker, R. (2024). MicrobioRaman: an open-access web repository for microbiological Raman spectroscopy data. Nature Microbiology, 9(5), 1152–1156. https://doi.org/10.1038/s41564-024-01656-3

Ex vivo assessment of basal cell carcinoma surgical margins in Mohs surgery by autofluorescence-Raman spectroscopy: A pilot study (2023)
Journal Article
Boitor, R., Varma, S., Sharma, A., Elsheikh, S., Kulkarni, K., Eldib, K., Jerrom, R., Odedra, S., Patel, A., Koloydenko, A., Williams, H., & Notingher, I. (2024). Ex vivo assessment of basal cell carcinoma surgical margins in Mohs surgery by autofluorescence-Raman spectroscopy: A pilot study. JEADV Clinical Practice, 3(2), 498-507. https://doi.org/10.1002/jvc2.336

Background: Autofluorescence (AF)‐Raman spectroscopy is a technology that can detect tumour tissue in surgically excised skin specimens. The technique does not require tissue fixation, staining, labelling or sectioning, and provides quantitative diag... Read More about Ex vivo assessment of basal cell carcinoma surgical margins in Mohs surgery by autofluorescence-Raman spectroscopy: A pilot study.

Optimization of diffuse Raman spectroscopy for in-vivo quantification of foreign body response in a small animal model (2023)
Journal Article
Dooley, M., Luckett, J., Alexander, M. R., Matousek, P., Dehghani, H., Ghaemmaghami, A. M., & Notingher, I. (2023). Optimization of diffuse Raman spectroscopy for in-vivo quantification of foreign body response in a small animal model. Biomedical Optics Express, 14(12), 6592-6606. https://doi.org/10.1364/boe.512118

Diffuse Raman spectroscopy (DRS) allows subsurface molecular analysis of optically turbid samples. Numerical modeling of light propagation was used as a method for improving the design of an DRS instrument to maximize the signal to noise ratio (SNR)... Read More about Optimization of diffuse Raman spectroscopy for in-vivo quantification of foreign body response in a small animal model.

Optimisation of diffuse Raman spectroscopy for in-vivo quantification of foreign body response in small animal model (2023)
Journal Article
Dooley, M., Luckett, J., Alexander, M. R., Matousek, P., Dehghani, H., Ghaemmaghami, A. M., & Notingher, I. (2023). Optimisation of diffuse Raman spectroscopy for in-vivo quantification of foreign body response in small animal model. Biomedical Optics Express, 14(12), 6592-6606. https://doi.org/10.1364/BOE.512118

Diffuse Raman spectroscopy (DRS) allows subsurface molecular analysis of optically turbid samples. Numerical modelling of light propagation was used as a method for improving the design of an DRS instrument to maximize the signal to noise ratio (SNR)... Read More about Optimisation of diffuse Raman spectroscopy for in-vivo quantification of foreign body response in small animal model.

Real-time ex-vivo assessment of basal cell carcinoma surgical margins in Mohs surgery by autofluorescence-Raman spectroscopy: a pilot study (2023)
Journal Article
Boitor, R., Varma, V., Sharma, A., Elsheikh, S., Kulkarni, K., Eldib, K., Jerrom, R., Odedra, S., Patel, A., Koloydenko, A., Williams, H., & Notingher, I. (in press). Real-time ex-vivo assessment of basal cell carcinoma surgical margins in Mohs surgery by autofluorescence-Raman spectroscopy: a pilot study. Journal of the European Academy of Dermatology and Venereology,

Background
Autofluorescence (AF)-Raman spectroscopy is a technology that can detect tumour tissue in surgically excised skin specimens. The technique does not require tissue fixation, staining, labelling or sectioning, and provides quantitative diag... Read More about Real-time ex-vivo assessment of basal cell carcinoma surgical margins in Mohs surgery by autofluorescence-Raman spectroscopy: a pilot study.

Autofluorescence-Raman Spectroscopy for Ex Vivo Mapping Colorectal Liver Metastases and Liver Tissue (2023)
Journal Article
Corden, C., Boitor, R., Dusanjh, P. K., Harwood, A., Mukherjee, A., Gomez, D., & Notingher, I. (2023). Autofluorescence-Raman Spectroscopy for Ex Vivo Mapping Colorectal Liver Metastases and Liver Tissue. Journal of Surgical Research, 288, 10-20. https://doi.org/10.1016/j.jss.2023.02.014

Introduction: Identifying colorectal liver metastases (CRLM) during liver resection could assist in achieving clear surgical margins, which is an important prognostic variable for both disease-free and overall survival. The aim of this study was to i... Read More about Autofluorescence-Raman Spectroscopy for Ex Vivo Mapping Colorectal Liver Metastases and Liver Tissue.

Quantification of Drugs in Brain and Liver Mimetic Tissue Models Using Raman Spectroscopy (2022)
Journal Article
Woodhouse, N., Majer, J., Marshall, P., Hood, S., & Notingher, I. (2022). Quantification of Drugs in Brain and Liver Mimetic Tissue Models Using Raman Spectroscopy. Applied Spectroscopy, https://doi.org/10.1177/00037028221139494

Quantitative analysis of drug delivery with in biological systems is an integral challenge in drug development. Analytical techniques are important for assessing both drug target delivery, target action, and drug toxicology. Using mimetic tissue mode... Read More about Quantification of Drugs in Brain and Liver Mimetic Tissue Models Using Raman Spectroscopy.

Model-Based Optimization of Laser Excitation and Detection Improves Spectral Contrast in Noninvasive Diffuse Raman Spectroscopy (2022)
Journal Article
Dooley, M. J., Paterson, T., Dexter, L., Matousek, P., Dehghani, H., & Notingher, I. (2022). Model-Based Optimization of Laser Excitation and Detection Improves Spectral Contrast in Noninvasive Diffuse Raman Spectroscopy. Applied Spectroscopy, 76(7), 801-811. https://doi.org/10.1177/00037028211072900

Spatially offset Raman spectroscopy (SORS) is a powerful technique for subsurface molecular analysis of optically turbid samples. Numerical modeling of light propagation has been used to investigate opportunities for improving spectral contrast and s... Read More about Model-Based Optimization of Laser Excitation and Detection Improves Spectral Contrast in Noninvasive Diffuse Raman Spectroscopy.