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B01=Felicity R. Rose
B01=Stephen J. Matcher
B01=Stephen P. Morgan
Category1=Non-Fiction
Category=MQW
Category=PHJ
Category=PSA
Category=TGM
Category=THR
Category=TQ
COP=United States
Delivery_Pre-order
Language_English
PA=Temporarily unavailable
Price_€100 and above
PS=Active
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Optical Techniques in Regenerative Medicine

English

In regenerative medicine, tissue engineers largely rely on destructive and time-consuming techniques that do not allow in situ and spatial monitoring of tissue growth. Furthermore, once the therapy is implanted in the patient, clinicians are often unable to monitor what is happening in the body. To tackle these barriers, optical techniques have been developed to image and characterize many tissue properties, fabricate tissue engineering scaffolds, and characterize the properties of the scaffolds.

Optical Techniques in Regenerative Medicine illustrates how to use optical imaging techniques and instrumentation for the fabrication, assessment, and longitudinal monitoring of regenerative medicine therapies. The book covers optical coherence tomography, acousto-optic imaging, Raman spectroscopy, machine vision, bioluminescence, second harmonic generation microscopy, multi-photon microscopy, coherent anti-Stokes Raman scattering, fluorescence spectroscopy, and light scattering spectroscopy. Each chapter provides an overview of a particular technique, its advantages and limitations in terms of structural and functional information, and examples of applications in regenerative medicine.

The future evolution of regenerative medicine from academic research to viable clinical alternatives to conventional treatments is dependent on the development of non-destructive analytical techniques that can elucidate the stages of tissue development both in vitro and in vivo as well as track the fate of cells following injection. This practical book demonstrates the vital role of optical techniques in the dynamic field of regenerative medicine. It guides regenerative medicine researchers toward finding the most appropriate technique for their applications and helps biophotonics researchers see where their technologies can be applied.

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Current price €132.04
Original price €138.99
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Age Group_Uncategorizedautomatic-updateB01=Felicity R. RoseB01=Stephen J. MatcherB01=Stephen P. MorganCategory1=Non-FictionCategory=MQWCategory=PHJCategory=PSACategory=TGMCategory=THRCategory=TQCOP=United StatesDelivery_Pre-orderLanguage_EnglishPA=Temporarily unavailablePrice_€100 and abovePS=Activesoftlaunch

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Product Details
  • Weight: 975g
  • Dimensions: 178 x 254mm
  • Publication Date: 08 Aug 2013
  • Publisher: Taylor & Francis Inc
  • Publication City/Country: United States
  • Language: English
  • ISBN13: 9781439854952

About

Stephen P. Morgan PhD is a professor in biomedical engineering at the University of Nottingham. Since 1992 he has been developing novel optical techniques for imaging and spectroscopy of tissues with a particular interest in microcirculation. The imaging devices have been used in clinical studies and have led to a blood flow imager marketed under license to Moor Instruments. His other research interests include developing novel methods of imaging and sensing in regenerative medicine for in vivo and in vitro tissues. Felicity R.A.J. Rose PhD is an associate professor in tissue engineering at the University of Nottingham. Her research focuses on developing materials that can control stem and differentiated cell behavior during the tissue regeneration process to develop in vivo-like in vitro models for safety toxicity and drug screening applications and ultimately tissues for transplantation. Stephen J. Matcher PhD is a reader in biomedical engineering at the University of Sheffield. Since 1992 he has conducted research on the use of optical techniques to characterize tissue structure and function. He has developed optical and near-infrared spectroscopy as a tool for the non-invasive measurement of tissue oxygenation. His current research focuses on the use of optical coherence tomography and non-linear microscopy to characterize the structure of native biological tissues and tissue-engineered replacements.

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