E-Book, Englisch, 1708 Seiten
Bawa / Audette / Rubinstein Handbook of Clinical Nanomedicine
Erscheinungsjahr 2016
ISBN: 978-981-4669-21-4
Verlag: Taylor & Francis
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
Nanoparticles, Imaging, Therapy, and Clinical Applications
E-Book, Englisch, 1708 Seiten
Reihe: Pan Stanford Series on Nanomedicine
ISBN: 978-981-4669-21-4
Verlag: Taylor & Francis
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
The exciting advances in nanomedicine in the past two decades highlight the growing need for an authoritative and comprehensive reference that can be relied upon by scientists, clinicians, academics, industry, students, lawyers, and policy-makers alike. With this in mind, the Handbook of Clinical Nanomedicine: Nanoparticles, Imaging, Therapy, and Clinical Applications and its related companion volumes in the series aim to provide a broad survey of interconnected topics pertaining to clinical nanomedicine. This is the first volume in the series. Each volume is intended to be a stand-alone reference source, presented in a user-friendly format for easy access.
This handbook provides a comprehensive roadmap of basic research in nanomedicine as well as clinical applications. Unlike other handbooks in nanomedicine, it not only highlights current advances in diagnostics and therapies but also explores related issues such as nomenclature, terminology, regulatory aspects, and personalized medicine. All chapters contain keywords, figures in full color, author biographies, and an extensive list of references. The handbook is essential reading for both the novice and the expert in medicine, FDA law, intellectual property, biotechnology, pharmaceutical sciences, engineering, policy, future studies, ethics, licensing, commercialization, and toxicology. While bridging the gap between basic biomedical research, engineering, medicine, and law, the handbook provides a thorough understanding of nano’s potential to address medical problems from both the patient and the health provider’s perspective and current applications and their potential in a healthcare setting.
The editors have curated each chapter to reflect the most relevant and current information possible. Diversity within the evolving fields of nanomedicine and nanotherapy is reflected in the expertise of the distinguished contributing authors. As a result, the handbook’s multidisciplinary approach will attract a global audience. In short, the Handbook of Clinical Nanomedicine: Nanoparticles, Imaging, Therapy, and Clinical Applications promises to be a standard reference on any shelf in the expanding arena of nanomedicine. It will serve as a catalyst to further stimulate interest in this blossoming field.
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Section I – Introduction and Beginnings
Science at the nanoscale: introduction and historical perspective; Shong, Haur, and Wee
Nanomedicine: dynamic integration of nanotechnology with biomedical science; Lee, Solanki, Kim, and Jung
A small introduction to the world of nanomedicine; Ellis-Behnke
Top ten recent nanomedical advances; Swan
The coming era of nanomedicine; Allhoff
What’s in a name? Defining "nano" in the context of drug delivery; Bawa
Section II – Nanoparticles, Nanodevices and Imaging
Properties of nanoparticulate materials; Tsuzuki
Solid drug nanoparticles: methods for production and pharmacokinetic benefits; Owen and Rannard
Design and development of approved nanopharmaceutical products; Mansour, Park, and Bawa
Nanonsizing approaches in drug delivery; Chavhan, Petkar, and Sawant
Multilayered nanoparticles for personalized medicine: translation into clinical markets; Movia, Poland, Tran, Volkov, and Prina-Mello
Nanomaterials for pharmaceutical applications; Loretz, Jain, Dandekar, Thiele, Hiroe, Mostaghaci, Lian, and Lehr
Polysaccharides as nanomaterials for therapeutics; Mizrahy and Peer
Lipid-like delivery materials for efficient siRNA delivery; Dahlman, Langer, and Goldberg
Applications of nanoparticles in medical imaging; Dearling and Packard
Nanoimaging for nanomedicine; Lyubchenko, Zhang, Krasnoslobodtsev, and Rochet
Nanoparticles for multi-modality diagnostic imaging and drug delivery; Lockhart and Ho
Magnetic nanoparticles in magnetic resonance imaging: a translational push toward theranostics; Ortega, Yankeelov, and Giorgio
First-in-human molecular targeting and cancer imaging using ultrasmall dual-modality C-dots; Bradbury and Wiesner
Atomic Force Microscopy for nanomedicine; Sharma and Gimzewski
Atomic Force Microscopy imaging and probing of amyloid nanoaggregates; Lyubchenko and Shlyakhtenko
Image-based high-content analysis, stem cells and nanomedicines: a novel strategy for drug discovery; Solomesky, Adalist, and Weil
Viral nanoparticles: tools for materials science and biomedicine; Steinmetz and Manchester
Bacterial secretion systems: nanomachines for infection and genetic diversity; Shala, Ferarro, and Audette
The vascular cartographic scanning nanodevice; Boehm
Advancements in ophthalmic glucose nanosensors for diabetes management; Domschke
Section III – Clinical Applications of Nanotherapeutics
Nanoscale therapeutics: introductory overview of key issues; Bawa, Szebeni, Bawa, and Mehra
Copaxone® in the era of biosimilars and nanosimilars; Conner, Bawa, Nicholas, and Weinstein
Doxil®: the first FDA-approved nano-drug; Barenholz
Nanotechnology and the skin barrier: topical and transdermal nanocarrier-based delivery; Labouta and Schneider
Application of nanotechnology in non-invasive topical gene therapy; Elsabahy, Jimena Loureiro, and Foldvari
Nanocarriers in the therapy of inflammatory disease; Lamprecht
Nanoparticles for targeting T cells in allergy and inflammatory airway conditions; Bear, Carpin, Cruz, Drezek, and Fostera
Nanomedicine for acute lung injury/acute respiratory distress syndrome: a shifting paradigm?; Sadikot and Rubinstein
Nanoviricides: targeted anti-viral nanomaterials; Barton, Tatake, and Diwan
Nanotechnology in tissue engineering for orthopaedics; Hamming and Hamming
Applications of nanomaterials in dentistry; Jurczyk and Jurczyk
Biomimetic applications in regenerative medicine: scaffolds, transplantation modules, tissue homing devices, and stem cells; Green and Ben-Nissan
Potential applications of nanotechnology in the nutraceutical sector; Wang and Zhang
Designing nanocarriers for the effective treatment of cardiovascular diseases; Vaidya and Vyas
Carbon nanotubes as substrates for neuronal growth; Ménard-Moyon
Polymeric nanoparticles for cancer therapeutics; Verma, Rosen, Meerasa, Yoffe, and Gu
Nanotechnology for radiation oncology; Sridhar, Berbeco, Cormack, and Makrigiorgos
Gold against cancer; Comenge, Romero, Conill, and Puntes
Solid lipid nanoparticles and nanostructured lipid carriers for cancer therapy; Uner
Nanomedicine targeted to aberrant cancer signalling and epigenetics; Ratnakumari, Chandran, Malarvizhi, Nair, and Koyakutty
Biodegradable nanoparticle-based antiretroviral therapy across the blood brain barrier; Mahajan, Yu, Aalinkeel, Reynolds, Nair, Mammen, Ignatowski, Cheng, and Schwartz
HIV-specific immunotherapy with synthetic pathogen-like nanoparticles; Lorincz and Lisziewicz
Nanotechnology toward advancing personalized medicine; Sakamoto, Godin, Hu, Blanco, van de Ven, Vellaichamy, Murphy, Francesca, Schuenemeyer, Given, Meyn, and Ferrari
Nanotechnology-based systems for microbicide development; Nunes, Sousa, Sarmento, and das Neves
Nanotechnology based solutions to combat the emerging threat of superbugs: current scenario and future prospects; Kalarickal and Mahajan
Nanolithography and biochips’ role in viral detection; Tsarfati-BarAd and Gheber
