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Optical Spectroscopy and Imaging for Cancer Diagnostics: Fundamentals, Progress, and Challenges

✍ Scribed by Noureddine Melikechi (editor)

Publisher
World Scientific
Year
2023
Tongue
English
Leaves
559
Category
Library
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✦ Synopsis

This is an interdisciplinary book that presents the applications of novel laser spectroscopy and imaging techniques for the detection of cancers recently developed by some of the world's most renown researchers. The book consists of three parts and a total of 16 chapters. Each chapter is written by leading experts who are actively seeking to develop novel spectroscopic and analytical methods for cancer detection and diagnosis.In Part I, the authors present fundamentals on optics, atoms and molecules, biophysics, cancer and machine learning. These chapters are intended for those who are not experts in the field but wish to learn about fundamentals' aspects of some of the key topics that are addressed in this book. Particular attention has been given to providing key references for those who wish to go further into the fundamental aspects of atoms and molecules, light-matter interaction, optical instrumentation, machine learning and cancer.In Part II, the authors present key applications of various laser spectroscopic methods in cancer diagnosis. They have provided recent progress in cancer diagnostics obtained by combining laser spectroscopy and machine learning for the analysis of the spectra acquired from biomedical tissues and biofluids.In Part III, the authors present chapters that discuss key developments in the applications of various laser imaging techniques for cancer detection.This is one of the few books that addresses cancer detection and diagnosis using laser spectroscopic and imaging tools with an eye on providing the reader the scientific tools, including machine learning ones.

✦ Table of Contents

Dedication
Epigraph
Foreword β€’ Steven J. Rehse
Preface β€’ Noureddine Melikechi
Contents
Contributing Authors
Part I: Fundamentals
1 Cancer biology and the optical assessment of human tumors β€’ Michael J. Morin
2 Light interaction with atoms and molecules ‒ S. Burçin Bayram, A. Marjatta Lyyra and Noureddine Melikechi
3 Biomedical optics in a nutshell β€’ Caroline Boudoux
4 Fundamentals of Optical Instrumentation for Spectroscopic and Imaging Applications β€’ Sabrina Messaoud Aberkane, El-Hachemi Amara and Noureddine Melikechi
5 Cancer diagnosis using optical methods: Fundamentals of classification with machine learning β€’ David D. Pokrajac
Part II: Optical Spectroscopy
6 Exogenous fluorescence polarization imaging for cancer detection β€’ Androniki Mitrou and Anna N. Yaroslavsky
7 Laser-ablation spectroscopy for imaging of tumor markers and nanoparticle labels β€’ Pavel PoΕ™Γ­zka, PavlΓ­na ModlitbovΓ‘, Noureddine Melikechi and Jozef Kaiser
8 Application of ATR-FTIR spectroscopy to the study of blood sera of patients with breast cancer β€’ Vera Sitnikova, Tatiana Nosenko and Mayya Uspenskaya
9 Diagnosis and staging of cancers using laser-induced breakdown spectroscopy and machine learning β€’ Xue Chen, Xiaohui Li and Noureddine Melikechi
10 Raman spectroscopy and machine learning for diagnosis and monitoring of cancer β€’ Michael Greenop, Carlos A. Meza Ramirez and Ihtesham Ur Rehman
Part III Optical Imaging
11 Application of fluorescence lifetime imaging in cancer diagnosis β€’ Lixin Liu, Ping Xue and Junle Qu
12 The role of machine learning and time-resolved autofluorescence imaging for intraoperative cancer margin delineation β€’ Jakob Unger, Mark Marsden, Takanori Fukazawa and Laura Marcu
13 Laser Induced Breakdown Imaging of Biomedical Samples: A Short Review and Perspectives β€’ Vincent Motto-Ros, Lucie Sancey, Vincent Bonneterre and Benoit Busser
14 Raman imaging, deep learning, and applications to cancer detection β€’ Daniel Greenfield, Saara Luna, Fotis Iliopoulos, Maria Alice Maciel Tabosa and Conor L. Evans
15 Skin cancer detection using optical coherence tomography β€’ Brandon Lukas, Julia Roma May, Maria tsoukas and Kamran Avanaki
16 White light interference phase microscopy with machine learning model for the study of biological cells and tissues β€’ Dalip Singh Mehta
Index

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