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Biophotonics for medical ap...
Biophotonics for Medical Applications presents information on the interface between laser optics and cell biology/medicine. The book discusses the development and application of photonic techniques that aid the diagnosis and therapeutics of biological tissues in both healthy and diseased states. Chapters cover the fundamental technologies used in biophotonics and a wide range of therapeutic and diagnostic applications. Presents information on the interface between laser optics and cell biology/medicineDiscusses the development and application of photonic techniques which aid the diagnosis
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monografia Rebiun18302257 https://catalogo.rebiun.org/rebiun/record/Rebiun18302257 m o d cr cnu|||unuuu 150709s2015 enk o 001 0 eng d 913696270 9780857096746 electronic bk.) 0857096745 electronic bk.) 9780857096623 UPNA0463061 UPCT u417788 N$T. eng. rda. pn. N$T. OPELS. N$T. EBLCP. DEBSZ. IDEBK. YDXCP. ABH. OCLCQ. OCLCO. OCLCF. OCLCQ HEA. 012000 bisacsh HEA. 020000 bisacsh MED. 004000 bisacsh MED. 101000 bisacsh MED. 109000 bisacsh MED. 029000 bisacsh MED. 040000 bisacsh MED. 092000 bisacsh Biophotonics for medical applications Recurso electrónico-En línea] edited by Igor Meglinski Cambridge, UK Woodhead Publishing is an imprint of Elsevier 2015 Cambridge, UK Cambridge, UK Woodhead Publishing is an imprint of Elsevier 1 online resource 1 online resource Text txt rdacontent computer c rdamedia online resource cr rdacarrier Woodhead Publishing series in biomaterials number 82 Front Cover; Biophotonics for Medical Applications; Copyright; Contents; Contributors; Woodhead Publishing Series in Biomaterials; Part One: Materials, technologies, and processes; Chapter 1: Multimodal diffuse optical imaging for biomedical applications; 1.1. Introduction; 1.1.1. Light interaction with biological tissue; 1.1.2. Multimodal approaches in optical imaging; 1.2. Optical imaging platforms for multimodal imaging; 1.2.1. Optical imaging instrumentation; 1.2.2. Multimodal optical platforms; 1.2.2.1. Optical-MRI platforms; 1.2.2.2. Optical-CT platforms; 1.2.2.3. Optical-US platforms 1.2.2.4. Fusion of optical imaging with PET1.3. Theoretical considerations; 1.3.1. Forward modeling methods; 1.3.2. Multimodality optical imaging and use of structural priors; 1.4. Clinical applications of multimodal optical imaging; 1.5. Future perspectives in multimodal optical imaging; References; Chapter 2.3. Potential applications2.3.1. Switchable wettability on photoresponsive surfaces; 2.3.2. Optical switches; 2.3.3. Optobioelectronic devices; 2.3.4. Biocatalysts; 2.3.5. Biosensors; 2.3.6. Biomedical engineering; 2.4. Conclusions and future trends; References; Chapter 3: Optical fibres and sensors for biomedical applications; 3.1. Optical fibres; 3.1.1. Geometry and refractive index; 3.1.2. Propagation; 3.1.3. Fabrication and materials; 3.1.4. Optical fibre sensor technologies; 3.1.4.1. Intensity-modulated sensors; 3.1.4.2. Phase-modulated sensors; 3.1.5. Micro/nanofibres 3.1.6. Photonic crystal fibres3.2. Optical fibre sensors; 3.2.1. Biomolecular sensors; 3.2.2. Cellular microenvironment sensors; 3.2.3. Temperature sensors; 3.2.4. pH sensors; 3.2.5. Gas sensors; 3.2.5.1. Oxygen sensors; 3.2.5.2. Carbon dioxide sensors; 3.2.6. Blood flow sensors; 3.2.7. Pressure sensors; References; Chapter 4: Laser processing of medical devices; 4.1. Introduction; 4.2. Laser cutting; 4.2.1. Introduction; 4.2.2. CO2 laser cutting of metals; 4.2.3. CO2 laser cutting of non-metals; 4.2.4. Nd:YAG laser cutting; 4.2.5. Fibre laser cutting; 4.2.6. Ultrafast lasers 4.2.7. Materials and applications4.3. Laser drilling; 4.3.1. Introduction; 4.3.2. Pulsed Nd:YAG laser drilling; 4.3.3. Other laser drilling processes; 4.4. Micromachining; 4.4.1. Introduction; 4.5. Surface texturing; 4.5.1. Introduction; 4.5.2. Formation of textured surfaces; 4.6. Conclusions; References; Part Two: Applications in therapeutics and diagnostics; Chapter 5: Biomedicine with surface enhanced Raman scattering (SERS); 5.1. Introduction; 5.2. Surface enhanced Raman scattering; 5.3. Theory of surface enhanced Raman scattering; 5.3.1. Electromagnetic SERS (EM-SERS) enhancement Accesible sólo para usuarios de la UPV Recurso a texto completo Biophotonics for Medical Applications presents information on the interface between laser optics and cell biology/medicine. The book discusses the development and application of photonic techniques that aid the diagnosis and therapeutics of biological tissues in both healthy and diseased states. Chapters cover the fundamental technologies used in biophotonics and a wide range of therapeutic and diagnostic applications. Presents information on the interface between laser optics and cell biology/medicineDiscusses the development and application of photonic techniques which aid the diagnosis Reproducción electrónica Forma de acceso: Web Elsevier. Suscripción Biomedical engineering Photobiology Photonics Diagnostic Imaging Biosensing Techniques methods Optical Imaging Optics and Photonics methods Photons Biosensing techniques Diagnostic imaging Methods Photonics HEALTH & FITNESS Holism HEALTH & FITNESS Reference MEDICAL Alternative Medicine MEDICAL Atlases MEDICAL Essays MEDICAL Family & General Practice MEDICAL Holistic Medicine MEDICAL Osteopathy Biomedical engineering. Photobiology. Photonics. Electronic books Meglinski, Igor editor ScienceDirect (Servicio en línea) Print version Meglinski, Igor. Biophotonics for Medical Applications. -- Burlington : Elsevier Science, 2015 9780857096623 Woodhead Publishing series in biomaterials no. 82