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主营产品: Flexcell细胞力学和regenhu细胞3D生物打印机销售技术服务: 美国Flexcell品牌FX-5000T细胞牵张应力加载培养系统,FX-5K细胞显微牵张应力加载培养系统,Tissue Train三维细胞组织培养与测试系统,FX-5000C三维细胞组织压应力加载培养系统,STR-4000细胞流体剪切应力加载培养系统,德国cellastix品牌Optical Stretcher高通量单细胞牵引应变与分析系统 Regenhu品牌3D discovery细胞友好型3D生物打印机,piuma细胞纳米压痕测试分析、aresis多点力学测试光镊,MagneTherm细胞肿瘤电磁热疗测试分析系统
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BioDent,OsteoProbe®骨骼组织机械性质分析系统

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  • 产品名称:BioDent,OsteoProbe®骨骼组织机械性质分析系统
  • 产品型号:BioDent,OsteoProbe® RUO
  • 产品展商:active life scientific
  • 产品文档:无相关文档
简单介绍

BioDent,OsteoProbe®利用参考点压痕量测技术检测活体内骨骼组织之机械性质! BioDent™ 骨等组织参考点压痕测试分析系统可以测量骨和其他组织的力学特性,具有离体测量和在体测量两种模式,可以直接在活体动物上在体测试分析骨等组织等力学特性;能获得以前无法获得的临床数据,如骨和其他组织的材料性质,对骨等组织尤为适用。 OsteoProbe® RUO为便携式在体/离体骨组织测量

产品描述

 

 BioDent,OsteoProbe®利用参考点压痕量测技术检测活体内骨骼组织之机械性质!

 BioDent™ 骨等组织参考点压痕测试分析系统可以测量骨和其他组织的力学特性,具有离体测量和在体测量两种模式,可以直接在活体动物上在体测试分析骨等组织等力学特性;能获得以前无法获得的临床数据,如骨和其他组织的材料性质,对骨等组织尤为适用。 OsteoProbe® RUO为便携式在体/离体骨组织测量仪为BioDent™ 骨等组织参考点压痕测试分析系统手持版本

 

 

BioDent使用设计独特的微探针在微米水平上对组织施压。探针处于一个小套管内部(2 A),套管可在组织上或组织内部建立参考点,然后便可测量软、硬材料和生物材料的凹陷距离、相对刚度和能量耗散,从而**地检测材料力学性质(2 B)。在恒力工作模式下,BioDent测量探针相对于参考点移动的距离,作为在此压力下材料发生的形变。在恒定距离工作模式(即将推出)下,BioDent测量使材料发生此种程度的形变时需要的力。

 

BioDent可临床测量材料性质作为健康或病变组织的指标。这些组织通常由不同的软硬组织在微米尺度上组合形成(图3),BioDent可在微米和毫米尺度上进行测量,以用于不同的生物材料。

 

 

 

 

  

 

 

 OsteoProbe® RUO是在体测量骨组织材料性质的**仪器,是实验室和临床研究中测量骨质量的有力工具。OsteoProbe® RUO是一种便携式单手操作微压痕仪,与测量骨密度的放射性方法(X射线、DXACT)具有不同的原理,它使用参考点压痕技术来检测材料对局部压力的抵抗性。

 

OsteoProbe® RUO使用特别设计的探针来进行皮下测量,无须切开组织。探针刺空软组织达到骨表面建立一个参考点,当探针受力达到一个预先设定的阈值后会自动触发更大的力进行测量。软件会记录下来凹陷深度和力之间的函数关系,然后用聚甲基丙烯酸甲酯作为参照材料进行校准来获得BMSi(材料强度指数)。

 

  

相关文献:

Reference Point Indentation Publications by Year

(69) “Application of reference point indentation for micro-mechanical surface characterization of calcium silicate based dental materials
Antonijević, D., et al.
Biomedical Microdevices 2015.
RPI TechnologyBioDent™

(68) “A direct role of collagen glycation in bone fracture
Poundarik, A., et al.
Journal of the Mechanical Behavior of Biomedical Materials 2015.
RPI TechnologyBioDent™

(67) “Strain differences in the attenuation of bone accrual in a young growing mouse model of insulin resistance.”
Rendina-Ruedy, E., et al.
Journal of Bone and Mineral Metabolism 2015.
RPI TechnologyBioDent™

(66) “Adverse Effects of Diabetes Mellitus on the Skeleton of Aging Mice.”
Portal-Núñez, S., et al.
The Journals of Gerontology Series A: Biological Sciences and Medical Sciences 2015.
RPI TechnologyBioDent™

(65) “Estimation of local anisotropy of plexiform bone: Comparison between depth sensing micro-indentation and Reference Point Indentation.”
Dall’Ara, E. et al.
Journal of Biomechanics 2015.
RPI TechnologyBioDent™

(64) “Bone material strength is associated with areal BMD but not with prevalent fractures in older women.”
Rudäng, R., et al.
Osteoporosis International 2015.
RPI TechnologyOsteoProbe®

(63) “A High Amount of Local Adipose Tissue is Associated with High Cortical Porosity and Low Bone Material Strength in Older Women.”
Sundh, D., et al.
Journal of Bone and Mineral Research 2015.
RPI TechnologyOsteoProbe®

(62) “Age-related changes in the fracture resistance of male Fischer F344 rat bone.”
Uppuganti, S., et al.
Bone 2015.
RPI Technology: BioDent™

(61) “Effect of various testing conditions on results for a handheld reference point indentation instrument in horses.”
Lescun, Timothy B., et al.
American Journal of Veterinary Research 2015.
RPI TechnologyOsteoProbe®

(60) “Site Dependent Reference Point Microindentation Complements Clinical Measures for Improved Fracture Risk Assessment at the Human Femoral Neck.”
Thurner, P. J., et al.
Journal of Bone and Mineral Research 2015.
RPI TechnologyBioDent™

(59) “Determinants of bone strength and quality in diabetes mellitus in humans.”
Khosla, S., et al.
Bone 2015.
RPI TechnologyOsteoProbe®

(58) “Microstructure and wettability of root canal dentine and root canal filling materials after different chemical irrigation.”
Busse, B., et al.
Applied Surface Science 2015.
RPI Technology
BioDent™

(57) “In vivo reference point indentation measurement variability in skeletally mature inbred mice.”
Organ, J., et al.
BoneKEy Reports 2015.
RPI Technology
BioDent™

(56) “Multiscale Predictors of Femoral Neck in situ Strength in Aging Women: Contributions of BMD, Cortical Porosity, Reference Point Indentation, and Nonenzymatic Glycation.
Abraham, A. C., et al.
Journal of Bone and Mineral Research 2015.
RPI Technology
BioDent™

(55)”Toughness and damage susceptibility in human cortical bone is proportional to mechanical inhomogeneity at the osteonal-level.
Orestis L. Katsamenis, Thomas Jenkins b, Philipp J. Thurner.
Bone 2015.
RPI Technology:
 
BioDent™

(54) “Are the High Hip Fracture Rates Among Norwegian Women Explained by Impaired Bone Material Properties?”
Daysi Duarte Sosa, Laila Vilaplana, Roberto Güerri, Xavier Nogues, Morten Fagerland, Adolfo Diez-Perez, Erik Eriksen.
JBMR 2015.
RPI Technology: 
OsteoProbe®

(53) “Bone Material Strength as measured by microindentation in vivo is decreased in patients with fragility fractures independently of Bone Mineral Density.” Malgo, F., N. A. T. Hamdy, S. E. Papapoulos and N. M. Appelman-Dijkstra.
The Journal of Clinical Endocrinology & Metabolism 2015.
RPI Technology: 
OsteoProbe®

(52) “Bone Tissue Properties Measurement by Reference Point Indentation in Glucocorticoid-Induced Osteoporosis.
Mellibovsky, L., D. Prieto-Alhambra, F. Mellibovsky, R. Güerri-Fernández, X. Nogués, C. Randall, P. K. Hansma and A. Díez-Perez
Journal of Bone and Mineral Research. 2015 
RPI Technology: 
OsteoProbe®

(51) “True Gold or Pyrite: A Review of Reference Point Indentation for Assessing Bone Mechanical Properties In Vivo.”
Allen, M. R., et al.
Journal of Bone and Mineral Research. 2015
RPI Technology: 
OsteoProbe® and BioDent™
Letter to the Editor Regarding Allen et al.” Khosla, Sundeep. JBMR. 2015
Reply to Letter to the Editor.” Allen, Matt R. JBMR. 2015

(50) “Variability in reference point micro-indentation and Recommendations for testing cortical bone: Location, thickness and orientation heterogeneity.
Coutts, L. V., T. Jenkins, T. Li, D. G. Dunlop, R. O. C. Oreffo, C. Cooper, N. C. Harvey, P. J. Thurner, N. K. Arden, J. M. Latham, P. Taylor, M. Baxter, N. Moss, C. Ball and K. Chan.
Journal of the Mechanical Behavior of Biomedical Materials 2015.
RPI Technology: 
BioDent

(49) “Variability in reference point microindentation and recommendations for testing cortical bone: Maximum load, sample orientation, mode of use, sample preparation and measurement spacing.
Jenkins, T., L. V. Coutts, D. G. Dunlop, R. O. C. Oreffo, C. Cooper, N. C. Harvey and P. J. Thurner.
Journal of the Mechanical Behavior of Biomedical Materials 2015. 42(0): 311-324
RPI Technology: 
BioDent™

(48) “Lack of prolidase causes a bone phenotype both in human and in mouse.”
Besio, R., et al.
Bone 2015.
RPI TechnologyBioDent™

(47) “Study of indentation of a sample equine bone using finite element simulation and single cycle reference point indentation.
Hoffseth, K., C. Randall, P. Hansma and H. T. Y. Yang
Journal of the Mechanical Behavior of Biomedical Materials 2015. 
RPI Technology
OsteoProbe®

(46) Identifying novel clinical surrogates to assess human bone fracture toughness.
Granke, M., A. J. Makowski, S. Uppuganti, M. D. Does and J. S. Nyman
Journal of Bone and Mineral Research 2015.
RPI Technology: 
BioDent™

(45) “Multi-level characterization of human femoral cortices and their underlying osteocyte network reveal trends in quality of young, aged, osteoporotic and antiresorptive-treated bone.
Milovanovic, P., E. A. Zimmermann, C. Riedel, A. v. Scheidt, L. Herzog, M. Krause, D. Djonic, M. Djuric, K. Püschel, M. Amling, R. O. Ritchie and B. Busse
Biomaterials 2015.
RPI Technology: 
BioDent™

(44) “Characterization of Damage Mechanisms Associated with Reference Point Indentation in Human Bone.”
Bryan G. Beutel, Oran D. Kennedy
Bone 2015.
RPI TechnologyBioDent™

(43) “Biomechanical Mechanisms: Resolving the Apparent Conundrum of Why Individuals with Type II Diabetes Show Increased Fracture Incidence Despite Having Normal BMD.”
Jepson, K., Schlecht, S.
Journal of Bone and Mineral Research 2014.
RPI TechnologyOsteoProbe®

(42) “The Primary Function of gp130 Signaling in Osteoblasts Is To Maintain Bone Formation and Strength, Rather Than Promote Osteoclast Formation.”
Johnson, R. W., H. J. Brennan, C. Vrahnas, I. J. Poulton, N. E. McGregor, T. Standal, E. C. Walker, T.-T. Koh, H. Nguyen, N. C. Walsh, M. R. Forwood, T. J. Martin and N. A. Sims.
Journal of Bone and Mineral Research 2014. 29(6): 1492-1505.
RPI Technology: 
BioDent™

(41) “Nanoscale changes in collagen are reflected in physical and mechancial properties of bone at the microscale in diabetic rats
Max A. Hammond a, Maxime A. Gallant b, David B. Burr b,d, Joseph M. Wallace
Bone 2014.
RPI Technology: 
BioDent™

(40) “Nano-structural, compositional and micro-architectural signs of cortical bone fragility at the superolateral femoral neck in elderly hip fracture patients vs. healthy aged controls
Milovanovic, P.; Rakocevic, Z.; Djonic, D.; Zivkovic, V.; Hahn, M.; Nikolic, S.; Amling, M.; Busse, B.; Djuric, M.
Experimental Gerontology 2014.
RPI Technology: 
BioDent™

(39) “Multi-scale analysis of bone chemistry, morphology and mechanics in the oim model of osteogenesis imperfecta.” Bart, Z. R., M. A. Hammond and J. M. Wallace.
Connective Tissue Research 2014.
RPI Technology: 
BioDent™

(38) “Towards a standardized reference point indentation testing procedure
Setters, A.; Jasiuk, I.
Journal of the Mechanical Behavior of Biomedical Materials 2014, 34, 57-65.
RPI Technology: 
BioDent™

(37) “Insights into Reference Point Indentation Involving Human Cortical Bone: Sensitivity to Tissue Anisotropy and Mechanical Behavior.
Granke, M., A. Coulmier, S. Uppuganti, J. A. Gaddy, M. D. Does and J. S. Nyman
Journal of the Mechanical Behavior of Biomedical Materials 2014.
RPI Technology: 
BioDent™

(36) “Cortical Bone Mechanical Properties Are Altered in an Animal Model of Progressive Chronic Kidney Disease.” Newman, C. L., S. M. Moe, N. X. Chen, M. A. Hammond, J. M. Wallace, J. S. Nyman and M. R. Allen. 
PLoS ONE 2014.
RPI Technology: 
BioDent™

(35) “EphrinB2 signaling in osteoblasts promotes bone mineralization by preventing apoptosis.
Tonna, S., F. M. Takyar, C. Vrahnas, B. Crimeen-Irwin, P. W. M. Ho, I. J. Poulton, H. J. Brennan, N. E. McGregor, E. H. Allan, H. Nguyen, M. R. Forwood, L. Tatarczuch, E. J. Mackie, T. J. Martin and N. A. Sims.
 The FASEB Journal. 2014.
RPI Technology: 
BioDent™

(34) “Reference point indentation is not indicative of whole mouse bone measures of stress intensity fracture toughness.”
Carriero, A., et al.
Bone 2014.
RPI TechnologyBioDent™

(33) “Caspase-2 Maintains Bone Homeostasis by Inducing Apoptosis of Oxidatively-Damaged Osteoclasts
Sharma, R.; Callaway, D.; Vanegas, D.; Bendele, M.; Lopez-Cruzan, M.; Horn, D.; Guda, T.; Fajardo, R.; Abboud-Werner, S.; Herman, B.
PLoS ONE 2014.
RPI Technology: 
BioDent™

(32) “Variability of in vivo reference point indentation in skeletally mature inbred rats.”
Allen, M. R., C. L. Newman, E. Smith, D. M. Brown and J. M. Organ.
Journal of Biomechanics 2014.
RPI Technology
BioDent™

(31) “Hyperlipidemia affects multiscale structure and strength of murine femur.
Ascenzi, M.-G., A. Lutz, X. Du, L. Klimecky, N. Kawas, T. Hourany, J. Jahng, J. Chin, Y. Tintut, U. Nackenhors and J. Keyak.
Journal of Biomechanics 2014.
RPI Technology: 
BioDent™

(30)  “Role of donor and host cells in muscle-derived stem cell-mediated bone repair: differentiation vs. paracrine effects.”
Gao, X., A. Usas, J. D. Proto, A. Lu, J. H. Cummins, A. Proctor, C.-W. Chen and J. Huard.
The FASEB Journal 2014, 28(8): 3792-3809.
RPI Technology: 
BioDent™

(29) “Antagonizing the αvβ3 Integrin Inhibits Angiogenesis and Impairs Woven but Not Lamellar Bone Formation Induced by Mechanical Loading
Tomlinson, R. E.; Schmieder, A. H.; Quirk, J. D.; Lanza, G. M.; Silva, M. J.
Journal of Bone and Mineral Research 2014,
RPI Technology
BioDent™

(28) “Effect of sequential treatments with alendronate, parathyroid hormone (1–34) and raloxifene on cortical bone mass and strength in ovariectomized rats.
Amugongo, S. K., W. Yao, J. Jia, W. Dai, Y.-A. E. Lay, L. Jiang, D. Harvey, E. A. Zimmermann, E. Schaible, N. Dave, R. O. Ritchie, D. B. Kimmel and N. E. Lane
Bone 2014.
RPI Technology: 
BioDent™

(27) “Modifications to Nano- and Microstructural Quality and the Effects on Mechanical Integrity in Paget’s Disease of Bone.
Zimmermann, E. A., T. Köhne, H. A. Bale, B. Panganiban, B. Gludovatz, J. Zustin, M. Hahn, M. Amling, R. O. Ritchie and B. Busse.
Journal of Bone and Mineral Research 2014.
RPI Technology
BioDent™

(26) “Commentary on Sclerostin Deficiency is Linked to Altered Bone Composition 
Erik Fink Eriksen
Journal of Bone and Mineral Research 2014.
RPI Technology: 
OsteoProbe®

(25) “The use of traditional and novel techniques to determine the hardness and indentation properties of immature radicular dentin treated with antibiotic medicaments followed by ethylenediaminetetraacetic acid
Yassen ,G. H.; Al-Angari S. S.; Platt J. A.
European Journal of Dentistry 2014
RPI Technology:
 
BioDent™

(24) “Osteoblast-Specific Deletion of Pkd2 Leads to Low-Turnover Osteopenia and Reduced Bone Marrow Adiposity.”
Xiao, Z., et al.
PLoS ONE 2014.
RPI TechnologyBioDent™

(23) Microindentation for in vivo measurement of bone tissue material properties in atypical femoral fracture patients and controls
Güerri
Fernández, R. C.; Nogués, X.; Quesada Gómez, J. M.; Torres del Pliego, E.; Puig, L.; GarcíaGiralt, N.; Yoskovitz, G.; Mellibovsky, L.; Hansma, P. K.; DíezPérez, A.
Journal of Bone and Mineral Research 2013, 28, 162-168.
RPI Technology
BioDent™

(22) “RPI correlates with bone toughness assessed using whole bone tradiation mechanical testing
Maxime A. Gallant, Drew M. Brown, Jason M. Organ, Matthew R. Allen, David B. Burr
Bone  2013.
RPI Technology
BioDent™

(21) “In Vivo assessment of bone quality in postmenopausal women with type 2 diabetes
Farr, J. N.; Drake, M. T.; Amin, S.; Melton, L. J.; McCready, L. K.; Khosla, S.
Journal of Bone and Mineral Research 2013.
RPI Technology
OsteoProbe®

(20) “In vivo reference point indentation reveals positive effects of raloxifene on mechanical properties following 6 months of treatment in skeletally mature beagle dogs
Aref, M.; Gallant, M. A.; Organ, J. M.; Wallace, J. M.; Newman, C. L.; Burr, D. B.; Brown, D. M.; Allen, M. R.
Bone 2013.
RPI Technology: 
BioDent™

(19)”Reference point indentation study of age-related changes in porcine femoral cortical bone
Rasoulian, R.; Raeisi Najafi, A.; Chittenden, M.; Jasiuk, I.
Journal of biomechanics 2013.
RPI Technology: 
BioDent™

(18) “Applications of a new hand-held RPI instrament measuring bone material strength
A. Diez-Perez, P. Hansma
J. Med. Devices 2013.
RPI Technology
OsteoProbe®

(17) “Elevated Mechanical Loading When Young Provides Lifelong Benefits to Cortical Bone Properties in Female Rats Independent of a Surgically Induced Menopause
Stuart J. Warden, Matthew R. Galley, Andrea L. Hurd, Joseph M. Wallace, Maxime A. Gallant, Jeffrey S. Richard, and Lydia A. George
Endocrinology 2013.
RPI Technology: 
BioDent™

(16) “A novel approach to evaluate the effect of medicaments used in endodontic regeneration on root canal surface indentation
Yassen, G. H.; Chu, T.-M. G.; Gallant, M. A.; Allen, M. R.; Vail, M. M.; Murray, P. E.; Platt, J. A.
Clinical oral investigations 2013.
RPI Technology
BioDent™

(15) “Measuring Bone Quality
Elisa Torres-del-Pliego & Laia Vilaplana & Roberto Güerri-Fernández & Adolfo Diez-Pérez
Current Rheumatology Reports 2013
RPI Technology
OsteoProbe®

(14) “Intervertebral discs from spinal nondeformity and deformity patients have different mechancial and matrix properties
Kevin K. Cheng, Sigurd H. Berven, Serena S. Hu,  Jeffrey C. Lotz
The Spine Journal 2013.
RPI Technology
BioDent™

(13) “Multi-scale analysis of bone chemistry, morphology and mechanics in the oim model of osteogenesis imperfecta.” Bart, Z. R., M. A. Hammond and J. M. Wallace.
Connective Tissue Research 2014.
RPI Technology: 
BioDent™

(12) “A new device for performing RPI without reference probe
Daniel Bridges, Connor Randall, and Paul K. Hansma.
Review of Scientific Instruments 2012.
RPI Technology
OsteoProbe®

(11) “The contribution of the extracellular matrix to the fracture resistance of bone
Jeffry S. Nyman & Alexander J. Makowski
Current Osteoporosis Reports
RPI Technology: 
BioDent™

(10) “The effects of freezing on the mechanical properties of bone
Bryan Kaye, Connor Randall, Daniel Walsh and Paul Hansma
Open Bone Journal,  2012.
RPI Technology: 
BioDent™

(9) “Local tissue properties of human osteoarthritic cartilage correlate with magnetic resonance T1rho relaxation times
Simon Y. Tang, Richard B. Souza, Michael Ries, Paul K. Hansma, Tamara Alliston, Xiaojuan Li
Journal of Orthopaedic Resesarch Month 2011.
RPI Technology: 
BioDent™

(8) “Validation of BioDent TDI as new clincal diagnostic method
Wade
Advanced Materials Research 2011.
RPI Technology: 
BioDent™

(7) “Microindentation for in vivo measurement of bone tissue mechanical properties in humans
Paul Hansma, et al.
Journal Bone Mineral Research  2010.
RPI Technology: 
BioDent™

(6) “In situ materials characterization using the tissue diagnostic instrument
Tang, S. Y.; Mathews, P.; Randall, C.; Yurtsev, E.; Fields, K.; Wong, A.; Kuo, A. C.; Alliston, T.; Hansma, P.
Polymer testing 2010.
RPI Technology: 
BioDent™

(5) “”The tissue diagnostic instrument
Hansma, P.; Yu, H.; Schultz, D.; Rodriguez, A.; Yurtsev, E. A.; Orr, J.; Tang, S.; Miller, J.; Wallace, J.; Zok, F.
Review of Scientific Instruments 2009.
RPI Technology: 
BioDent™

(4) “Skeletal changes associated with the onset of type 2 diabetes in the ZDF and ZDSD rodent models 
Susan Reinwald, Richard G. Peterson, Matt R. Allen and David B. Burr
Am. J. Physiol. Endocrinology and Metabolism 2009.
RPI Technology: 
BioDent™

(3) “The bone diagnostic instrument III: testing mouse femora
Randall, C.; Mathews, P.; Yurtsev, E.; Sahar, N.; Kohn, D.; Hansma, P.
Review of Scientific Instruments 2009.
RPI Technology: 
BioDent™

(2) “The effect of NaF in vitro on the mechanical and material properties trabecular and cortical bone
Philipp J. Thurner, Blake Erickson, Patricia Turner, Ralf Jungmann, Jason Lelujian, Alexander Proctor, James C. Weaver, Georg Schitter, Daniel E. Morse, and Paul K. Hansma
Advanced Materials 2009.
RPI Technology: 
BioDent™

(1) “Mechanical profiling of intervertebral discs
David S. Schultz
Journal of Biomechanics 2009.
RPI Technology: 
BioDent™

 

 

 

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