Intravital imaging of orthotopic and ectopic bone

被引:0
作者
Kunihiko Hashimoto
Takashi Kaito
Junichi Kikuta
Masaru Ishii
机构
[1] Osaka University,Department of Orthopedic Surgery, Graduate School of Medicine
[2] Osaka University,Department of Immunology and Cell Biology, Graduate School of Medicine & Frontier Biosciences
来源
Inflammation and Regeneration | / 40卷
关键词
Intravital imaging; Multiphoton microscopy; Regeneration; Bone; Ectopic bone;
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摘要
Bone homeostasis is dynamically regulated by a balance between bone resorption by osteoclasts and bone formation by osteoblasts. Visualizing and evaluating the dynamics of bone cells in vivo remain difficult using conventional technologies, including histomorphometry and imaging analysis. Over the past two decades, multiphoton microscopy, which can penetrate thick specimens, has been utilized in the field of biological imaging. Using this innovative technique, the in vivo dynamic motion of bone metabolism-related cells and their interactions has been revealed. In this review, we summarize previous approaches used for bone imaging and provide an overview of current bone tissue imaging methods using multiphoton excitation microscopy.
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[1]  
Lambers FM(2011)Mouse tail vertebrae adapt to cyclic mechanical loading by increasing bone formation rate and decreasing bone resorption rate as shown by time-lapsed in vivo imaging of dynamic bone morphometry Bone. 49 1340-1350
[2]  
Schulte FA(2015)Monitoring in vivo (re)modeling: A computational approach using 4D microCT data to quantify bone surface movements Bone. 75 210-221
[3]  
Kuhn G(2015)Longitudinal Sci Rep. 5 10238-595
[4]  
Webster DJ(2013) evaluation of bone regeneration by combined measurement of multi-pinhole SPECT and micro-CT for tissue engineering Bone. 52 587-901
[5]  
Müller R(2005)Longitudinal in vivo imaging of bone formation and resorption using fluorescence molecular tomography Bone. 36 893-7785
[6]  
Birkhold AI(2015)Composition of bone and apatitic biomaterials as revealed by intravital Raman microspectroscopy Anal Bioanal Chem. 407 7775-438
[7]  
Razi H(2008)The biocompatibility of carbon hydroxyapatite/β-glucan composite for bone tissue engineering studied with Raman and FTIR spectroscopic imaging Joint Bone Spine. 75 432-227
[8]  
Weinkamer R(2016)In vivo MR imaging tracking of magnetic iron oxide nanoparticle labeled, engineered, autologous bone marrow mesenchymal stem cells following intra-articular injection Allergol Int. 65 225-1592
[9]  
Duda GN(2017)Intravital imaging technology reveals immune system dynamics in vivo Nat Commun. 8 2153-298
[10]  
Checa S(2017)Longitudinal intravital imaging of the femoral bone marrow reveals plasticity within marrow vasculature Leukemia. 31 1582-873
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