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BioMEMS and Biomedical Nanotechnology - Volume III: Therapeutic Micro/Nanotechnology (Hardcover, 2007 ed.): Tejal Desai BioMEMS and Biomedical Nanotechnology - Volume III: Therapeutic Micro/Nanotechnology (Hardcover, 2007 ed.)
Tejal Desai; Edited by (editors-in-chief) Mauro Ferrari; Edited by Sangeeta N. Bhatia
R4,343 Discovery Miles 43 430 Ships in 10 - 15 working days

Less than twenty years ago photolithography and medicine were total strangers to one another. They had not yet met, and not even looking each other up in the classi?eds. And then, nucleic acid chips, micro?uidics and microarrays entered the scene, and rapidly these strangers became indispensable partners in biomedicine. Asrecentlyastenyearsagothenotionofapplyingnanotechnologytothe?ghtagainstd- ease was dominantly the province of the ?ction writers. Thoughts of nanoparticle-vehicled deliveryoftherapeuticalstodiseasedsiteswereanexerciseinscienti?csolitude,andgrounds for questioning one's ability to think "like an established scientist". And today we have nanoparticulate paclitaxel as the prime option against metastatic breast cancer, proteomic pro?lingdiagnostictoolsbasedontargetsurfacenanotexturing,nanoparticlecontrastagents for all radiological modalities, nanotechnologies embedded in high-distribution laboratory equipment, and no less than 152 novel nanomedical entities in the regulatory pipeline in the US alone. Thisisatransformingimpact,byanymeasure,withclearevidenceoffurtheracceleration, supported by very vigorous investments by the public and private sectors throughout the world. Even joining the dots in a most conservative, linear fashion, it is easy to envision scenarios of personalized medicine such as the following: patient-speci?c prevention supplanting gross, faceless intervention strategies; early detection protocols identifying signs of developing disease at the time when the disease is most easily subdued; personally tailored intervention strategies that are so routinely and inexpensively realized, that access to them can be secured by everyone; technologies allowing for long lives in the company of disease, as good neighbors, without impairment of the quality of life itself.

BioMEMS and Biomedical Nanotechnology - Volume I: Biological and Biomedical Nanotechnology (Hardcover, 2006 ed.): Abraham P Lee BioMEMS and Biomedical Nanotechnology - Volume I: Biological and Biomedical Nanotechnology (Hardcover, 2006 ed.)
Abraham P Lee; Edited by (editors-in-chief) Mauro Ferrari; Edited by James Lee
R5,602 Discovery Miles 56 020 Ships in 10 - 15 working days

Focusing on synthetic nanodevices and the synthesis of nanomaterials, this book examines polymeric microspheres and nanostructures, carbon nanotubes, silicon, silicon dioxide, and iron oxide. There is also a chapter on the characterization of critical nanostructures for biological applications.

BioMEMS and Biomedical Nanotechnology - Volume II: Micro/Nano Technologies for Genomics and Proteomics (Paperback, Softcover... BioMEMS and Biomedical Nanotechnology - Volume II: Micro/Nano Technologies for Genomics and Proteomics (Paperback, Softcover reprint of the original 1st ed. 2007)
Mihrimah Ozkan; Edited by (editors-in-chief) Mauro Ferrari; Edited by Michael Heller
R5,622 Discovery Miles 56 220 Ships in 10 - 15 working days

Part I. Application of Microarray Technologies: Electronic Microarray Technology and Applications in Genomics and Proteomics.- Gene Expression Profiling Utilizing Microarray Technology and RT-PCR.- Microarray and Fluidic Chip for Extracellular Sensing.- Cell Physiometry Tools Based on Dielectrophoresis.- Hitting the Spot: The Promise of Protein Microarrays.- Use of Electric Field Array Devices for Assisted Assembly of DNA Nanocomponents and Other Nanofabrication Applications.- Peptide Arrays in Proteomics and Drug Discovery.- From One-bead One-compound Combinatorial Libraries to Chemical Microarrays.- Part II. Advanced Microfluidic Devices and Human Genome Project.- Plastic Microfluidic Devices for DNA and Protein Analyses.- Centrifuge Based Fluidic Platforms.- Sequencing the human genome: A historical perspective on challenges for systems integration.- Part III. Nanoprobes for Imaging, Sensing and Therapy.- Hairpin Nanoprobes for Gene Detection.- Fluorescent Lanthanide Labels with Time-resolved Fluorometry in DNA Analysis.- Role of SNPs and Haplotypes in Human Disease and Drug Development.- Control of Biomolecular Activity by Nanoparticle Antennas.- Sequence-dependent Rigidity of DNA: Influence on DNA-protein interactions and DNA in Nanochannels.- Engineered Ribozymes: Efficient Tools for Molecular Gene Therapy and Gene Discovery

BioMEMS and Biomedical Nanotechnology - Volume IV: Biomolecular Sensing, Processing and Analysis (Paperback, Softcover reprint... BioMEMS and Biomedical Nanotechnology - Volume IV: Biomolecular Sensing, Processing and Analysis (Paperback, Softcover reprint of the original 1st ed. 2007)
Rashid Bashir; Edited by (editors-in-chief) Mauro Ferrari; Edited by Steven T. Wereley
R4,358 Discovery Miles 43 580 Ships in 10 - 15 working days

Part I. Micro and Nanoscale Biosensors and Materials: Biosensors and Biochips.- Cantilever Assays: A Universal Platform for Multi-plexed Label-Free Bioassays.- An On-chip Artificial Pore For Molecular Sensing.- Cell Based Chemical Sensing Technologies.- Fabrication issues of Biomedical Micro Devices.- Intelligent Polymeric Networks in Biomolecular Sensing.- Part II Processing and Integrated Systems: A Multi-Functional Micro Total Analysis System ( TAS) Platform for Transport and Sensing of Biological Fluids using Microchannel Parallel Electrodes.- Dielectrophoretic Traps for Cell Manipulation.- BioMEMS for Cellular Manipulation and Analysis.- Implantable Wireless Microsystems.- Microfluidic Tectonics: An integrated organic autonomous platform.- AC Electrokinetic Stirring and Focusing of Nanoparticles.- Part III. Micro-fluidics and Characterization: Particle Dynamics in a Dielectrophoretic Microdevice.- Microfluidics Simulations I.- Modeling Electroosmotic Flow in Nanochannels.- Nano-Particle Image Velocimetry: A Near-Wall Velocimetry Technique with Submicron Spatial Resolution.- Optical MEMS-Based Sensor Development with Applications to Microfluidics.- Vascular Cell Responses to Fluid Shear Stress.

BioMEMS and Biomedical Nanotechnology - Volume I: Biological and Biomedical Nanotechnology (Paperback, 2006 ed.): Abraham P Lee BioMEMS and Biomedical Nanotechnology - Volume I: Biological and Biomedical Nanotechnology (Paperback, 2006 ed.)
Abraham P Lee; Edited by (editors-in-chief) Mauro Ferrari; Edited by James Lee
R5,502 Discovery Miles 55 020 Ships in 10 - 15 working days

blends materials, fabrication, and structure issues of developing nanobio devices in a single volume. treats major nanobio application areas such as drug delivery, molecular diagnostics, and imaging. chapters written by the leading researchers in the field.

Advances in Doublet Mechanics (Paperback, Softcover reprint of the original 1st ed. 1997): Mauro Ferrari, Vladimir T. Granik,... Advances in Doublet Mechanics (Paperback, Softcover reprint of the original 1st ed. 1997)
Mauro Ferrari, Vladimir T. Granik, Ali Imam, Joseph C. Nadeau
R1,452 Discovery Miles 14 520 Ships in 10 - 15 working days

In 1991, my newly formed researchgroupat Berkeley was working intensely in the area of continuum-level constitutive relationships that could be obtained in a deductive mannerfrom microstructuralinformationthroughthemethods of homogenization theory. Of particular interest was the application of such methods to structural problems in the blossoming field of micromechanical devices. In this context it was becoming evident that we needed to learn to navigate through the continuum/discrete interface. Such were the circumstances when Vladimir Granik came to visit us at Berkeley for the first time. It is probably not surprising that we received with great enthusiasm his offer to join forces and develop a mechanics .of solid structures that would be based on a discrete representation of matter. Vladimir had established the foundations for such an endeavor with his work at Moscow University in the late 1970s. Since that first meeting, and with ever-increasing enthusiasm, it has been a great privilege for me to collaborate with Vladimir. We first applied the formalism of what has become known as "doublet mechanics" to the microstructure-based theory of failure of solids and worked on the paral- lels and differences between the doublet approach and homogenization, to- gether with Kevin Mon and Derek Hansford. Plane elastodynamics followed after Francesco Maddalena had proposed doublet viscoelesticity. The consti- tutive relationships in doublet mechanics were laid on a firm thermodynami- cal foundation through the work of Kevin Mon, while Miqin Zhang analyzed free boundary effects on multi-scale plane elastic waves in discrete domains.

BioMEMS and Biomedical Nanotechnology - Volume III: Therapeutic Micro/Nanotechnology (Paperback, Softcover reprint of hardcover... BioMEMS and Biomedical Nanotechnology - Volume III: Therapeutic Micro/Nanotechnology (Paperback, Softcover reprint of hardcover 1st ed. 2007)
Tejal Desai; Edited by (editors-in-chief) Mauro Ferrari; Edited by Sangeeta N. Bhatia
R4,274 Discovery Miles 42 740 Ships in 10 - 15 working days

Less than twenty years ago photolithography and medicine were total strangers to one another. They had not yet met, and not even looking each other up in the classi?eds. And then, nucleic acid chips, micro?uidics and microarrays entered the scene, and rapidly these strangers became indispensable partners in biomedicine. Asrecentlyastenyearsagothenotionofapplyingnanotechnologytothe?ghtagainstd- ease was dominantly the province of the ?ction writers. Thoughts of nanoparticle-vehicled deliveryoftherapeuticalstodiseasedsiteswereanexerciseinscienti?csolitude,andgrounds for questioning one's ability to think "like an established scientist". And today we have nanoparticulate paclitaxel as the prime option against metastatic breast cancer, proteomic pro?lingdiagnostictoolsbasedontargetsurfacenanotexturing,nanoparticlecontrastagents for all radiological modalities, nanotechnologies embedded in high-distribution laboratory equipment, and no less than 152 novel nanomedical entities in the regulatory pipeline in the US alone. Thisisatransformingimpact,byanymeasure,withclearevidenceoffurtheracceleration, supported by very vigorous investments by the public and private sectors throughout the world. Even joining the dots in a most conservative, linear fashion, it is easy to envision scenarios of personalized medicine such as the following: patient-speci?c prevention supplanting gross, faceless intervention strategies; early detection protocols identifying signs of developing disease at the time when the disease is most easily subdued; personally tailored intervention strategies that are so routinely and inexpensively realized, that access to them can be secured by everyone; technologies allowing for long lives in the company of disease, as good neighbors, without impairment of the quality of life itself.

BioMEMS and Biomedical Nanotechnology - Volume IV: Biomolecular Sensing, Processing and Analysis (Hardcover): Rashid Bashir BioMEMS and Biomedical Nanotechnology - Volume IV: Biomolecular Sensing, Processing and Analysis (Hardcover)
Rashid Bashir; Edited by (editors-in-chief) Mauro Ferrari; Edited by Steven T. Wereley
R4,356 Discovery Miles 43 560 Ships in 10 - 15 working days

Less than twenty years ago photolithography and medicine were total strangers to one another. They had not yet met, and not even looking each other up in the classi?eds. And then, nucleic acid chips, micro?uidics and microarrays entered the scene, and rapidly these strangers became indispensable partners in biomedicine. Asrecentlyastenyearsagothenotionofapplyingnanotechnologytothe?ghtagainstd- ease was dominantly the province of the ?ction writers. Thoughts of nanoparticle-vehicled deliveryoftherapeuticalstodiseasedsiteswereanexerciseinscienti?csolitude,andgrounds for questioning one's ability to think "like an established scientist". And today we have nanoparticulate paclitaxel as the prime option against metastatic breast cancer, proteomic pro?lingdiagnostictoolsbasedontargetsurfacenanotexturing,nanoparticlecontrastagents for all radiological modalities, nanotechnologies embedded in high-distribution laboratory equipment, and no less than 152 novel nanomedical entities in the regulatory pipeline in the US alone. Thisisatransformingimpact,byanymeasure,withclearevidenceoffurtheracceleration, supported by very vigorous investments by the public and private sectors throughout the world. Even joining the dots in a most conservative, linear fashion, it is easy to envision scenarios of personalized medicine such as the following: patient-speci?c prevention supplanting gross, faceless intervention strategies; early detection protocols identifying signs of developing disease at the time when the disease is most easily subdued; personally tailored intervention strategies that are so routinely and inexpensively realized, that access to them can be secured by everyone; technologies allowing for long lives in the company of disease, as good neighbors, without impairment of the quality of life itself.

BioMEMS and Biomedical Nanotechnology - Volume II: Micro/Nano Technologies for Genomics and Proteomics (Hardcover, 2007 ed.):... BioMEMS and Biomedical Nanotechnology - Volume II: Micro/Nano Technologies for Genomics and Proteomics (Hardcover, 2007 ed.)
Mihrimah Ozkan; Edited by (editors-in-chief) Mauro Ferrari; Edited by Michael Heller
R5,608 Discovery Miles 56 080 Ships in 10 - 15 working days

Less than twenty years ago photolithography and medicine were total strangers to one another.Theyhadnotyetmet,andnotevenlookingeachotherupintheclassi?eds.And then,nucleicacidchips,micro?uidicsandmicroarraysenteredthescene,andrapidlythese strangersbecameindispensablepartnersinbiomedicine. Asrecentlyastenyearsagothenotionofapplyingnanotechnologytothe?ghtagainstd- easewasdominantlytheprovinceofthe?ctionwriters.Thoughtsofnanoparticle-vehicled deliveryoftherapeuticalstodiseasedsiteswereanexerciseinscienti?csolitude,andgrounds for questioning one's ability to think "like an established scientist". And today we have nanoparticulatepaclitaxelastheprimeoptionagainstmetastaticbreastcancer,proteomic pro?lingdiagnostictoolsbasedontargetsurfacenanotexturing,nanoparticlecontrastagents forallradiologicalmodalities,nanotechnologiesembeddedinhigh-distributionlaboratory equipment, and no less than 152 novel nanomedical entities in the regulatory pipeline in theUSalone. Thisisatransformingimpact,byanymeasure,withclearevidenceoffurtheracceleration, supported by very vigorous investments by the public and private sectors throughout the world. Even joining the dots in a most conservative, linear fashion, it is easy to envision scenariosofpersonalizedmedicinesuchasthefollowing: patient-speci?cpreventionsupplantinggross,facelessinterventionstrategies; early detection protocols identifying signs of developing disease at the time when thediseaseismosteasilysubdued; personally tailored intervention strategies that are so routinely and inexpensively realized,thataccesstothemcanbesecuredbyeveryone; technologiesallowingforlonglivesinthecompanyofdisease,asgoodneighbors, withoutimpairmentofthequalityoflifeitself. Thesevisionswillbecomereality.Thecontributionsfromtheworldsofsmall-scalete- nologies are required to realize them. Invaluable progress towards them was recorded by the very scientists that have joined forces to accomplish the effort presented in this 4-volume collection. It has been a great privilege for me to be at their service, and at the service of the readership, in aiding with its assembly. May I take this oppor- nity to express my gratitude to all of the contributing Chapter Authors, for their - spired and thorough work. For many of them, writing about the history of their s- cialty?eldsofBioMEMSandBiomedicalNanotechnologyhasreallybeenreportingabout their personal, individual adventures through scienti? c discovery and innovation-a sort xxii FOREWORD of family album, with equations, diagrams, bibliographies and charts replacing Holiday pictures...

BioMEMS and Biomedical Nanotechnology - VI: Biomedical & Biological Nanotechnology. V2: Micro/Nano Technology for Genomics and... BioMEMS and Biomedical Nanotechnology - VI: Biomedical & Biological Nanotechnology. V2: Micro/Nano Technology for Genomics and Proteomics. V3: Therapeutic Micro/Nanotechnology. V4: Biomolecular Sensing, Processing and Analysis (Hardcover, 2007 ed.)
Mauro Ferrari
R11,031 R10,380 Discovery Miles 103 800 Save R651 (6%) Out of stock

The frontiers of microtechnology and nanotechnology are changing the face of medicine through the efforts of researchers to build biomedical microelectromechanical systems, or bioMEMS - tiny working machines so small, they measure only a few millionths of a meter across. BIOMEMS AND BIOMEDICAL NANOTECHNOLOGY, edited by Mauro Ferrari, comprises the first comprehensive reference devoted to all aspects of research in the diagnostic and therapeutic applications of Micro-Electro-Mechanical Systems (MEMS), microfabrication, and nanotechnology. Contributions report on fundamental and applied investigations of the material science, biochemistry, and physics of biomedical microdevices. General subjects treated include the design, characterization, testing, modeling and clinical validation of microfabricated systems and their integration on-chip and in larger functional units. Intended to be accessible to professionals and researchers from both the center of this fast-developing technology and adjacent fields, BIOMEMS AND BIOMEDICAL NANOTECHNOLOGY delivers a valuable knowledge base of key research and applications articles from acknowledged experts on an international scope. Each volume is very well illustrated with many figures appearing in color. This major reference includes contributions from world renowned experts in the field and consists of four volumes: Volume I: BIOMEDICAL AND BIOLOGICAL NANOTECHNOLOGY (Volume Editors, Abraham Lee and James Lee) - focuses on synthetic nanodevices and the synthesis of nanomaterials and the generation of nanoscale features. The nanomaterials include polymeric microspheres and nanostructures, carbon nanotubes, silicon, silicon dioxide, and iron oxide. There is also a chapter on the characterization of critical nanostructures for bio applications such as nanochannels and nanopores. The second part involves hybrid synthetic-biomolecular nanodevices that utilize the self assembly properties of both biomolecules and synthetic materials. Volume II: MICRO/NANO TECHNOLOGY FOR GENOMICS AND PROTEOMICS (Volume Editors, Mihrimah Ozkan and Michael Heller) - reports on fundamental and applied investigations of the material science, biochemistry, and physics of biomedical microdevices with applications to Genomics and Proteomics. Topics include gene expression profiling utilizing microarray technology; imaging and sensing for gene detection and use in DNA analysis, and coverage of advanced microfluidic devices. Volume III: THERAPEUTIC MICRO/NANOTECHNOLOGY (Volume Editors, Tejal Desai and Sangeeta Bhatia) - treats the emerging area of therapeutic micro- and nanotechnology. Subjects covered include: cell-based therapeutics, regenerative medicine - merging cells with micro- and nanosystems, and integrating MEMS with cells and tissues; Drug delivery - intravascular nanoparticles for drug targeting and nonvascular delivery (implantable, oral, inhalable); molecular surface engineering for the biological interface, biomolecule patterning and cell patterning. Volume IV: BIOMOLECULAR SENSING, PROCESSING AND ANALYSIS (Volume Editors, Rashid Bashir and Steve Wereley) - is a balanced review of key aspects of BioMEMS sensors, including (i) BioMEMS sensors and materials, (ii) means of manipulating biological entities at the microscale, and (iii) micro-fluidics and characterization.

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