Fluorescence Imaging and Biological Quantification
Coordonnateurs : Seruca Raquel, Suri Jasjit S., Sanches J. Miquel
This comprehensive reference work details the latest developments in fluorescence imaging and related biological quantification. It explores the most recent techniques in this imaging technology through the utilization and incorporation of quantification analysis which makes this book unique. It also covers super resolution microscopy with the introduction of 3D imaging and high resolution fluorescence. Many of the chapter authors are world class experts in this medical imaging technology.
Confocal microscopy in the life sciences; Imaging flow cytometry for quantification of cellular parameters; Live-cell imaging: Seeing is believing; Atomic force microscopy: A tool for imaging, manipulating biomolecules, and quantifying single-molecule interactions in biological systems; Confocal Raman microscopy: Imaging the chemistry; Tracking cancer: In vivo imaging techniques; Quantum dots: Concepts, imaging, and therapeutic applications in cancer; Selecting the appropriate in situ proximity ligation assay protocol; Cell detection and joint shape tracking using local image filters; Studying subcellular signaling events in living microglial cells using fluorescence resonance energy transfer-based nanosensors; Membrane trafficking under the microscope, what new imaging technologies have brought to light; Illuminating the cycle of life; Methods for the visualization of circadian rhythms: From molecules to organisms; Measurement of lysosomal ion homeostasis by fluorescence microscopy; Capturing quantitative features of protein expression from in situ fluorescence microscopic images of cancer cell populations; Cancer cell invadopodia: Visualization and quantification tools.
Raquel Seruca, MD, PhD, is a Professor at Medical Faculty of Porto, vice-president of Ipatimup and Coordinator of the Cancer research program at i3s, both located in Porto, Portugal. Dr. Seruca is an expert in oncobiology with a specific interest in the role of adhesion molecules in cancer and molecular genetics of gastrointestinal cancer. She has more than 200 publications in international peer-review journals, with an h-index of 52, and several national and international awards by her relevant contributions for science and society.
Jasjit S. Suri, PhD, MBA, Fellow AIMBE, is an innovator, visionary scientist, and an internationally known world leader. Dr. Suri was crowned with the Director General’s Gold medal in 1980 and elected as a Fellow of American Institute of Medical and Biological Engineering (AIMBE), awarded by National Academy of Sciences in Washington DC in 2004. Dr. Suri has held executive positions, been the Chairman of the IEEE Denver section, and won over 50 awards during his career.
João M. Sanches, PhD, is a Professor at the Bioengineering Department (DBE) of the Instituto Superior Técnico (IST), Univers. of Lisbon, and Member of the board of directors of the Institute for Systems and Robotics (ISR/IST). Professor Sanches has about 150 international publications in Biomedical Engineering in statistical signal and image processing methods for biological and medical diagnosis. He is senior member of the IEEE Engineering in Medicine and Biology Society and Member of the Bio Imaging and Signal Processing Technical Committee (BISP-TC) of the IEEE Signal Processing Society.
Date de parution : 12-2019
17.8x25.4 cm
Date de parution : 10-2017
17.8x25.4 cm
Thèmes de Fluorescence Imaging and Biological Quantification :
Mots-clés :
Extracellular Vesicles; DNA Ploidy Status; Fluorescence Imaging; Super-resolution Structured Illumination Microscopy; High Resolution Imaging; Imaging Flow Cytometry; 3D Medical Imaging; MMP Activity; Biomedical Imaging Computation; TIRF Microscopy; Quantitative Fluorescence Imaging; Invadopodia Formation; Miguel Aroso; COPI Vesicles; M; Gomez-Lazaro; Circulating Tumor Cells; Catarina R; Almeida; Clem; Patrícia Castro; RCA Product; Patrícia Carneiro; Live Cell Imaging; Catarina S; Lopes; Super-resolution Microscopy; Filomena A; Carvalho; Sample Preparation; Nuno C; Santos; Quantum Dots; A; Freitas; Sift Descriptor; C.C; Ribeiro; Cell Cycle Progression; Patrícia Carvalho; Proximity Probes; André Roma; Invadopodia Assembly; Sérgia Velho; DNA Content; Maria Sofia Fernandes; intra-Golgi Transport; Anabela Ferro; WFM; João M; Sanches; DNA Content Analysis; Doroteya Raykova; SCN Slice; Linda Arngården; Golgi Stack; Axel Klaesson; Johan Heldin; Ola Söderberg; Tiago Esteves; Pedro Quelhas; Renato Socodato; Camila C; Portugal; Paula Sampaio; João B; Relvas; Julia Fernandez-Rodriguez; Tommy Nilsson; Tânia Mestre; Ivan Sahumbaiev; Rukeia El-Athman; Jeannine Mazuch; Luise Fuhr; Mnica Abreu; Nikolai Genov; Angela Relgio; Benjamin König; Lisa von Kleist; Tobias Stauber; Joana Figueiredo; Ana Sofia Ribeiro; Sofia Esménio; Martina Fonseca; Joana Paredes; Angela Margarida Costa; Maria José Oliveira