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Microfluidic devices. --- Biomedical materials. --- Bioartificial materials --- Biocompatible materials --- Biomaterials (Biomedical materials) --- Hemocompatible materials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- Fluidic devices --- Microtechnology --- Microfluidic Analytical Techniques.

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Microfluidics or lab-on-a-chip (LOC) is an important technology suitable for numerous applications from drug delivery to tissue engineering. Microfluidic devices for biomedical applications discusses the fundamentals of microfluidics and explores in detail a wide range of medical applications.The first part of the book reviews the fundamentals of microfluidic technologies for biomedical applications with chapters focussing on the materials and methods for microfabrication, microfluidic actuation mechanisms and digital microfluidic technologies. Chapters in part two examine applications

Biosensors. --- Microfluidic devices. --- Systems on a chip -- Design. --- Microfluidic devices --- Biomedical materials --- Electrical Equipment and Supplies --- Microtechnology --- Rheology --- Microchip Analytical Procedures --- Investigative Techniques --- Technology --- Manufactured Materials --- Chemistry Techniques, Analytical --- Physics --- Miniaturization --- Technology, Industry, and Agriculture --- Equipment and Supplies --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Natural Science Disciplines --- Technology, Industry, Agriculture --- Disciplines and Occupations --- Biomedical Technology --- Microfluidics --- Microfluidic Analytical Techniques --- Micro-Electrical-Mechanical Systems --- Methods --- Mechanical Engineering --- Health & Biological Sciences --- Engineering & Applied Sciences --- Biomedical Engineering --- Mechanical Engineering - General --- Fluidic devices --- Biomedical materials.

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Microfluidics-based biochips, also known as lab-on-a-chip or bio-MEMS, are becoming increasingly popular for DNA analysis, clinical diagnostics, and the detection/manipulation of bio-molecules. As the use of microfluidics-based biochips increases, their complexity is expected to become significant due to the need for multiple and concurrent assays on the chip, as well as more sophisticated control mechanisms for resource management. Time-to-market and fault tolerance are also expected to emerge as design considerations. As a result, current full-custom design techniques will not scale well for larger designs. There is a need to deliver the same level of CAD support to the biochip designer that the semiconductor industry now takes for granted. Design Automation Methods and Tools for Microfluidics-Based Biochips deals with all aspects of design automation for microfluidics-based biochips. Experts have contributed chapters on various aspects of biochip design automation. Topics include device modeling; adaptation of bioassays for on-chip implementations; numerical methods and simulation tools; architectural synthesis, scheduling and binding of assay operations; physical design and module placement; fault modeling and testing; reconfiguration methods.

Biochips. --- Microfluidics. --- Fluidics --- Nanofluids --- Bioreactors --- Molecular computers --- Combinatorial chemistry --- Biochips --- Microfluidics --- Computer aided design --- Microfluidic Analytical Techniques --- methods --- Electronics. --- Biomedical engineering. --- Systems engineering. --- Biotechnology. --- Hydraulic engineering. --- Electronics and Microelectronics, Instrumentation. --- Biomedical Engineering and Bioengineering. --- Circuits and Systems. --- Engineering Fluid Dynamics. --- Biological and Medical Physics, Biophysics. --- Engineering, Hydraulic --- Engineering --- Fluid mechanics --- Hydraulics --- Shore protection --- Chemical engineering --- Genetic engineering --- Engineering systems --- System engineering --- Industrial engineering --- System analysis --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Medicine --- Electrical engineering --- Physical sciences --- Design and construction --- Microelectronics. --- Electronic circuits. --- Fluid mechanics. --- Biophysics. --- Biological physics. --- Biological physics --- Biology --- Medical sciences --- Physics --- Hydromechanics --- Continuum mechanics --- Electron-tube circuits --- Electric circuits --- Electron tubes --- Electronics --- Microminiature electronic equipment --- Microminiaturization (Electronics) --- Microtechnology --- Semiconductors --- Miniature electronic equipment --- Microfluidics - methods

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Femtosecond laser micromachining of transparent material is a powerful and versatile technology. In fact, it can be applied to several materials. It is a maskless technology that allows rapid device prototyping, has intrinsic three-dimensional capabilities and can produce both photonic and microfluidic devices. For these reasons it is ideally suited for the fabrication of complex microsystems with unprecedented functionalities. The book is mainly focused on micromachining of transparent materials which, due to the nonlinear absorption mechanism of ultrashort pulses, allows unique three-dimensional capabilities and can be exploited for the fabrication of complex microsystems with unprecedented functionalities.This book presents an overview of the state of the art of this rapidly emerging topic with contributions from leading experts in the field, ranging from principles of nonlinear material modification to fabrication techniques and applications to photonics and optofluidics.

Laser pulses, Ultrashort. --- Lasers -- Industrial applications. --- Micromachining. --- Micromachining --- Femtosecond lasers --- Microfluidic devices --- Wave guides --- Lasers --- Transparent solids --- Miniaturization --- Microchip Analytical Procedures --- Natural Science Disciplines --- Optical Devices --- Radiation Equipment and Supplies --- Equipment and Supplies --- Disciplines and Occupations --- Technology --- Investigative Techniques --- Chemistry Techniques, Analytical --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Technology, Industry, and Agriculture --- Technology, Industry, Agriculture --- Microfluidic Analytical Techniques --- Microtechnology --- Mechanical Engineering --- Engineering & Applied Sciences --- Mechanical Engineering - General --- Applied Physics --- Industrial applications --- Femtosecond lasers. --- Industrial applications. --- Physics. --- Semiconductors. --- Microwaves. --- Optical engineering. --- Structural materials. --- Optical materials. --- Electronic materials. --- Optics, Lasers, Photonics, Optical Devices. --- Microwaves, RF and Optical Engineering. --- Optical and Electronic Materials. --- Structural Materials. --- Materials. --- Optics --- Materials --- Hertzian waves --- Electric waves --- Electromagnetic waves --- Geomagnetic micropulsations --- Radio waves --- Shortwave radio --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Lasers. --- Photonics. --- Architectural materials --- Architecture --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Crystalline semiconductors --- Semi-conductors --- Semiconducting materials --- Semiconductor devices --- Crystals --- Electrical engineering --- Electronics --- Solid state electronics --- Electronic materials --- Mechanical engineering --- New optics --- Light amplification by stimulated emission of radiation --- Masers, Optical --- Optical masers --- Light amplifiers --- Light sources --- Optoelectronic devices --- Nonlinear optics --- Optical parametric oscillators

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Patient-Specific Modeling. --- Models, Theoretical. --- Biomedical Research. --- Microfluidics. --- Biosensing Techniques. --- Neoplasms. --- Benign Neoplasms --- Malignancy --- Malignant Neoplasms --- Neoplasia --- Neoplasm --- Neoplasms, Benign --- Cancer --- Tumors --- Benign Neoplasm --- Cancers --- Malignancies --- Malignant Neoplasm --- Neoplasias --- Neoplasm, Benign --- Neoplasm, Malignant --- Neoplasms, Malignant --- Tumor --- Medical Oncology --- Biosensing Technics --- Bioprobes --- Biosensors --- Electrodes, Enzyme --- Bioprobe --- Biosensing Technic --- Biosensing Technique --- Biosensor --- Electrode, Enzyme --- Enzyme Electrode --- Enzyme Electrodes --- Technic, Biosensing --- Technics, Biosensing --- Technique, Biosensing --- Techniques, Biosensing --- Wearable Electronic Devices --- Microchemistry --- Microfluidic --- Rheology --- Microfluidic Analytical Techniques --- Experimental Medicine --- Investigational Medicine --- Investigative Medicine --- Research, Biomedical --- Research, Medical --- Medical Research --- Medicine, Experimental --- Medicine, Investigational --- Medicine, Investigative --- Animals, Laboratory --- Experimental Model --- Experimental Models --- Mathematical Model --- Model, Experimental --- Models (Theoretical) --- Models, Experimental --- Models, Theoretic --- Theoretical Study --- Mathematical Models --- Model (Theoretical) --- Model, Mathematical --- Model, Theoretical --- Models, Mathematical --- Studies, Theoretical --- Study, Theoretical --- Theoretical Model --- Theoretical Models --- Theoretical Studies --- Computer Simulation --- Systems Theory --- Patient-Specific Computational Modeling --- Physiome --- Computational Modeling, Patient-Specific --- Modeling, Patient-Specific --- Patient Specific Computational Modeling --- Patient Specific Modeling --- Physiomes --- Models, Biological --- Precision Medicine --- Biosensors. --- Research. --- Fluidics --- Nanofluids --- Cancer research --- Biodetectors --- Biological detectors --- Biological sensors --- Biomedical detectors --- Biomedical sensors --- Detectors --- Medical instruments and apparatus --- Physiological apparatus