dc.availability.bitstream	embargoed
dc.check.date	2024-05-31
dc.contributor.advisor	Andersson-Engels, Stefan	en
dc.contributor.advisorexternal	O'Riordain, Micheal	en
dc.contributor.author	Saito Nogueira, Marcelo
dc.contributor.funder	Science Foundation Ireland	en
dc.contributor.funder	Mercy Hospital Foundation	en
dc.date.accessioned	2023-01-27T14:34:43Z
dc.date.available	2023-01-27T14:34:43Z
dc.date.issued	2021-11-10
dc.date.submitted	2021-11-10
dc.description.abstract	Clinical interventions have been significantly improved by recent advances in devices for disease detection, monitoring, diagnosis and surgical guidance. However, most of the current imaging technologies provide primarily morphological/structural information on analyzed subjects or samples, which is insufficient to detect early-stage diseases and identify tissue structures with enough contrast. Optical spectroscopy and imaging can solve this insufficiency by providing molecular-sensitive tools for applications involving screening, diagnosis, monitoring vital signs, treatment planning and guidance, treatment-outcome prediction, and others. These tools provide non-invasive, real-time, cost-effective, and in situ interrogation of biological samples. Key advantages can be added to optical tools upon their miniaturization and integration into existing medical instruments, wearables and portable test kits, as patient prognosis can be improved by increasing the contrast of identification between vital structures and tissues to be resected, as well as by enabling telehealth solutions via remote monitoring individual health status. Such identification and monitoring can be achieved by extracting information on sample microstructure, biochemistry, and associated quantities. The thesis investigates the feasibility of using optical spectroscopy as an optical technique for application in cancer detection and delineation, specifications of next generation optical devices for this application, as well as tissue microstructural and biochemical features associated with carcinogenesis and organ viability for transplantation. Previous studies cover the selection and optimization optical techniques for a limited number of applications and parameters. Most studies of this thesis optimize diffuse reflectance spectroscopy (DRS) parameters for colorectal and organ preservation applications, while instruments developed for other optical techniques and associated analysis methods can be used for a wide range of applications. In particular, the clinical need for CRC diagnosis, surgery and therapy is accurately locating and completely removing premalignant lesions and surrounding compromised tissue. Since clinical procedures have limited time, tools providing endoscopy and surgical guidance must enable real-time detection of CRC and premalignancies. Therefore, we have validated DRS and fluorescence spectroscopy (FS) as optical techniques which could fulfil the clinical need for CRC applications, as well as be integrated into medical devices via fiber optic probes with <4mm source-detector distances (SDD). This validation was performed through pre-clinical and clinical studies and required accuracies and/or area under the receiver operating characteristic curve (AUC) >90% to be used in the clinic. Thesis resources could potentially be used to develop a probe for CRC detection during colonoscopy, laparoscopy, intestinal anastomosis and CRC surgery with the aim of real-time automated tissue classification by using machine learning models coupled with DRS instruments capable of displaying the results of a single reading in 2-3 seconds, and potentially coupled with methods to quantify early-stage cancer biomolecules. To the best of our knowledge, this thesis shows (1) the first DRS study to investigate the potential of probing tissue layers up to 2mm deep by using larger (>600 μm) SDD probes for CRC detection during colonoscopy. (2) the first study evaluating the benefit of the extended DRS wavelength range between 350-1919 nm in colorectal tissues through intra- and inter-study comparison of achieved tissue classification performance metrics, (3) the first study to evaluate biomolecule concentrations and scattering properties of superficial and deeper tissue layers for CRC detection in the luminal wall, (4) the first study evaluating solely the cooling effect on multiple tissue microstructural and biochemical parameters such as blood oxygenation, concentrations of blood, methemoglobin, water, lipid, and bile as well as scattering amplitude, Mie scattering power and fraction of Rayleigh scattering, (5) one of the first studies extracting tissue microstructural and biochemical parameters over extended wavelength ranges between 450-1590 nm by using a spectral fitting based on Monte Carlo simulations of light propagation in complex media, (6) some of the scarce broadband DRS studies investigating tissue measurables such as reflectance and optical properties over wavelengths ranging from 350-1919 nm, and (7) some of the scarce broadband DRS studies combining machine learning methods with algorithms determining tissue microstructural and biochemical parameters.	en
dc.description.status	Not peer reviewed	en
dc.description.version	Accepted Version	en
dc.format.mimetype	application/pdf	en
dc.identifier.citation	Saito Nogueira, M. 2021. Optical spectroscopy for biological and biomedical applications: potentially impacting future of healthcare with research, clinical translation and education. PhD Thesis, University College Cork.	en
dc.identifier.endpage	787	en
dc.identifier.uri	https://hdl.handle.net/10468/14150
dc.language.iso	en	en
dc.publisher	University College Cork	en
dc.relation.project	info:eu-repo/grantAgreement/SFI/SFI Research Professorship Programme/15/RP/2828/IE/Novel applications and techniques for in vivo optical imaging and spectroscopy/	en
dc.rights	© 2021, Marcelo Saito Nogueira.	en
dc.rights.uri	https://creativecommons.org/licenses/by-nc-sa/4.0/	en
dc.subject	Biomedical optics	en
dc.subject	Biophotonics education	en
dc.subject	Multidisciplinary	en
dc.subject	Diffuse reflectance spectroscopy	en
dc.subject	Oral cancer	en
dc.subject	Colorectal cancer	en
dc.subject	Near-infrared spectroscopy	en
dc.subject	Endoscopy	en
dc.subject	Laparoscopy	en
dc.subject	Colonoscopy	en
dc.subject	MedTech	en
dc.subject	Healthcare	en
dc.subject	HealthTech	en
dc.subject	DeepTech	en
dc.subject	Machine learning	en
dc.subject	TeleHealth	en
dc.subject	Intestinal anastomosis	en
dc.subject	Optical treatments	en
dc.subject	Phototherapy	en
dc.subject	Photodynamic therapy	en
dc.subject	Fluorescence spectroscopy	en
dc.subject	Fluorescence lifetime spectroscopy	en
dc.subject	Time-resolved spectroscopy	en
dc.subject	Time-domain optical spectroscopy	en
dc.subject	Frequency domain diffuse optical spectroscopy	en
dc.subject	Optical frequency-domain imaging	en
dc.subject	Monte Carlo simulations	en
dc.subject	Light tissue interactions	en
dc.subject	Optical imaging	en
dc.subject	Microscopy	en
dc.subject	Stochastic modelling	en
dc.subject	Light propagation in complex media	en
dc.subject	Innovation	en
dc.subject	Commercialization	en
dc.subject	Policy making	en
dc.subject	Gastrointestinal cancer	en
dc.subject	Medical technology	en
dc.subject	Digital health	en
dc.subject	STEM education	en
dc.subject	Artificial intelligence	en
dc.subject	Data processing	en
dc.subject	Multivariate analysis	en
dc.subject	Statistical analysis	en
dc.subject	Spatial frequency domain imaging	en
dc.subject	Tissue optics	en
dc.title	Optical spectroscopy for biological and biomedical applications: potentially impacting future of healthcare with research, clinical translation and education	en
dc.title.alternative	Espectroscopia óptica para aplicações biológicas e biomédicas: transformando o futuro da assistência médica por meios de pesquisa, educação e implementação clínica de novas tecnologias	en
dc.type	Doctoral thesis	en
dc.type.qualificationlevel	Doctoral	en
dc.type.qualificationname	PhD - Doctor of Philosophy	en

Optical spectroscopy for biological and biomedical applications: potentially impacting future of healthcare with research, clinical translation and education

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