FT-IR imaging of native and tissue-engineered bone and cartilage
about
Techniques to assess bone ultrastructure organization: orientation and arrangement of mineralized collagen fibrilsPerspectives in multiphasic osteochondral tissue engineeringAmerican Society of Biomechanics Journal of Biomechanics Award 2013: cortical bone tissue mechanical quality and biological mechanisms possibly underlying atypical fractures.Medical hyperspectral imaging: a review.Specificity of Fourier Transform Infrared (FTIR) Microspectroscopy to Estimate Depth-Wise Proteoglycan Content in Normal and Osteoarthritic Human Articular CartilageVibrational spectroscopic imaging for the evaluation of matrix and mineral chemistryUltrasound can detect macroscopically undetectable changes in osteoarthritis reflecting the superficial histological and biochemical degeneration: ex vivo study of rabbit and human cartilageInvestigation of intervertebral disc degeneration using multivariate FTIR spectroscopic imagingImaging of Osteoarthritic Human Articular Cartilage using Fourier Transform Infrared Microspectroscopy Combined with Multivariate and Univariate AnalysisNondestructive Techniques to Evaluate the Characteristics and Development of Engineered Cartilage.Optical coherence tomography enables accurate measurement of equine cartilage thickness for determination of speed of sound.Effects of in-office and at-home bleaching on human enamel and dentin: an in vitro application of Fourier transform infrared study.Effect of in vivo loading on bone composition varies with animal ageThe contribution of bone and cartilage to the near-infrared spectrum of osteochondral tissueBenign odontogenic tumors versus histochemically related tissues: preliminary results from mid-infrared and solid-state nuclear magnetic resonance spectroscopy.Extracting knowledge from chemical imaging data using computational algorithms for digital cancer diagnosis.Quantitative mapping of matrix content and distribution across the ligament-to-bone insertionPostnatal development of depth-dependent collagen density in ovine articular cartilagePro416Arg cherubism mutation in Sh3bp2 knock-in mice affects osteoblasts and alters bone mineral and matrix propertiesMapping proteoglycan-bound water in cartilage: Improved specificity of matrix assessment using multiexponential transverse relaxation analysis.Improved specificity of cartilage matrix evaluation using multiexponential transverse relaxation analysis applied to pathomimetically degraded cartilage.Fourier transform infrared spectroscopy to quantify collagen and elastin in an in vitro model of extracellular matrix degradation in aorta.Imaging engineered tissues using structural and functional optical coherence tomography.Hypotonic challenge modulates cell volumes differently in the superficial zone of intact articular cartilage and cartilage explant.Comparative analysis of mouse-induced pluripotent stem cells and mesenchymal stem cells during osteogenic differentiation in vitroImproved MR-based characterization of engineered cartilage using multiexponential T2 relaxation and multivariate analysis.Fourier transform infrared spectroscopic imaging and multivariate regression for prediction of proteoglycan content of articular cartilage.Electrospinning collagen and hyaluronic acid nanofiber meshes.The effect of collagen degradation on chondrocyte volume and morphology in bovine articular cartilage following a hypotonic challenge.Aging and bone.Cannabidiol, a Major Non-Psychotropic Cannabis Constituent Enhances Fracture Healing and Stimulates Lysyl Hydroxylase Activity in Osteoblasts.Infrared fiber optic probe evaluation of degenerative cartilage correlates to histological gradingEngineered cartilage using primary chondrocytes cultured in a porous cartilage-derived matrixMechano-regulation of collagen biosynthesis in periodontal ligament.Differences in infrared spectroscopic data of connective tissues in transflectance and transmittance modesFourier transform infrared imaging and infrared fiber optic probe spectroscopy identify collagen type in connective tissuesRaman spectroscopy detection of molecular changes associated with two experimental models of osteoarthritis in rats.Nondestructive assessment of engineered cartilage constructs using near-infrared spectroscopy.Material and mechanical properties of bones deficient for fibrillin-1 or fibrillin-2 microfibrilsFiber-optic Raman spectroscopy of joint tissues
P2860
Q26743359-08004F72-E480-4FEE-A767-DB2349CA2720Q26824967-FAB5AB3A-1444-41E3-8B2A-6C2BFC7BB8B4Q27027254-52F387B6-DB54-4475-A06B-804CFB28DC10Q28306103-B8134D3D-73A7-4FC5-8F47-0D4A7B505476Q28385981-4380B822-964A-4B9C-BB35-ED2CA326E8EDQ28393488-D312B6B0-66C0-4C10-A046-C7CAEE4CE305Q28540054-CA2BABE1-C6B7-477E-B41D-09DC84DCA78CQ28822618-53AB84D7-ED76-4D5C-909C-B7CBEB7A58DDQ28829274-ADD03B74-24B0-471A-9D8E-0D7E136EDCDFQ30362050-97772E16-1556-4A29-9BA6-92237F3B4C6DQ30365831-2AE7C8AE-8C04-4155-A336-2BC1336024D0Q30373306-F08C6C3A-1117-4C74-AC25-DF40318F68D1Q30389625-12B966E4-6237-495F-A6EE-28C4C98190E4Q30401702-A97BE61B-075C-4BBE-B48B-8546FC0FAD74Q30836104-5BB2B071-A425-4390-9166-2808CA72425BQ30961998-5F829C89-F0A1-4B70-93BC-99D189B419FFQ31137984-031656C5-C7E6-4272-9C1B-7B410B219CBCQ33726124-8F536C36-9502-420E-85DF-BF2956C48796Q33787888-3393B193-49EB-4024-8D4B-07006525512DQ33803033-E1A02F54-29E2-4CBC-A47D-797BD9C08B4DQ33862949-D9FCED76-A522-4CF3-94DF-0E78FBD88BF0Q33894279-C1FFE20D-8FB4-4411-992E-7A099D6BC16DQ33904312-11ECB6F0-1850-4F4D-9C59-6A25B18C839EQ34005630-506F0AF9-9698-478D-8845-8D5013C6E4CBQ34137629-3147ADCB-9FE6-4E1B-B1C9-F85DD7807C4FQ34144363-2EA34DDC-E669-4BB2-A1C7-93CBA03B30CFQ34168698-82B95F2F-76BA-41D6-B27B-ECEB8388EC1DQ34243136-8E39AE4A-0A1F-476D-8F17-5FFFB789E5BDQ34308308-9ECA3154-FCDD-46F0-BC97-D931C7EF2E3DQ34348145-7F555ADB-5F18-4267-B9EF-98858B6DF981Q34468292-3B9036CE-DE01-4DF5-9897-3517D65FFCFBQ34533294-2C1FF8E5-73C1-4723-8539-3CC3D1FAEB28Q34596955-16CEB62E-DC22-4480-86EB-4C46ACB87071Q34620621-8F8AFE89-36D2-4BD5-BBFC-6CFADBA6C6AAQ34714788-ED4E1850-6432-4B89-B0DA-CC6EEDB86DC5Q34746387-BD1E10C3-FAAA-4FEE-8472-6CDA829883A2Q34974707-F697D9B8-0CEB-4B6D-9A78-CEF7BE61845EQ34987249-59CCF692-D17D-44FD-90B2-FDFD38D037ECQ34990874-404319A8-4D9E-42C6-B02F-154ECF65A19EQ35026836-5A79DEAB-2FD1-4195-89CA-80A3371EC99A
P2860
FT-IR imaging of native and tissue-engineered bone and cartilage
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
FT-IR imaging of native and tissue-engineered bone and cartilage
@ast
FT-IR imaging of native and tissue-engineered bone and cartilage
@en
type
label
FT-IR imaging of native and tissue-engineered bone and cartilage
@ast
FT-IR imaging of native and tissue-engineered bone and cartilage
@en
prefLabel
FT-IR imaging of native and tissue-engineered bone and cartilage
@ast
FT-IR imaging of native and tissue-engineered bone and cartilage
@en
P2860
P1433
P1476
FT-IR imaging of native and tissue-engineered bone and cartilage
@en
P2093
Nancy Pleshko Camacho
P2860
P304
P356
10.1016/J.BIOMATERIALS.2006.11.043
P577
2006-12-18T00:00:00Z