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          mach-1厚度 3D軟骨壓痕儀

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          • 公司名稱(chēng) 世聯(lián)博研(北京)科技有限公司
          • 品牌 Biomomentum
          • 型號(hào) mach-1厚度
          • 產(chǎn)地 加拿大biomomentum
          • 廠商性質(zhì) 代理商
          • 更新時(shí)間 2019/12/30 15:24:35
          • 訪問(wèn)次數(shù) 1201

          聯(lián)系方式:李勝亮查看聯(lián)系方式

          聯(lián)系我們時(shí)請(qǐng)說(shuō)明是化工儀器網(wǎng)上看到的信息,謝謝!


          世聯(lián)博研(北京)科技有限公司(Bio Excellence International Tech Co.,Ltd)簡(jiǎn)稱(chēng)為世聯(lián)博研。世聯(lián)博研是一家集進(jìn)口科研儀器代理銷(xiāo)售以及實(shí)驗(yàn)技術(shù)服務(wù)于一體的技術(shù)公司。世聯(lián)博研專(zhuān)注生物力學(xué)和3D生物打印前沿科研設(shè)備代理銷(xiāo)售及科研實(shí)驗(yàn)項(xiàng)目合作服務(wù),內(nèi)容涵蓋了血管力學(xué)生物學(xué)、生物力學(xué)建模仿真與應(yīng)用、細(xì)胞分子生物力學(xué)、組織修復(fù)生物力學(xué)、骨與關(guān)節(jié)生物力學(xué)、口腔力學(xué)生物學(xué)、眼耳鼻咽喉生物力學(xué)、康復(fù)工程生物力學(xué)、生物材料力學(xué)與仿生學(xué)、人體運(yùn)動(dòng)生物力學(xué)等生物力學(xué)研究以及生物材料打印、打印樣品生物力學(xué)性能測(cè)試分析的前沿領(lǐng)域科研利器和科研服務(wù)。

          世聯(lián)博研的客戶(hù)范圍:
          科研院所單位、生物醫(yī)學(xué)科研高校、醫(yī)院基礎(chǔ)科研單位等。

          世聯(lián)博研公司代理的品牌具有:
          1)近10年長(zhǎng)期穩(wěn)定的貨源
          2)以生物力學(xué)、細(xì)胞力學(xué)、細(xì)胞生物分子學(xué)、生物醫(yī)學(xué)組織工程、生物材料學(xué)為主,兼顧其他相關(guān)產(chǎn)品線(xiàn)
          3)提供專(zhuān)業(yè)產(chǎn)品培訓(xùn)和銷(xiāo)售培訓(xùn)
          4)良好的技術(shù)支持
          5)已成交老客戶(hù)考證
          6)每年新增的貨源。

          細(xì)胞應(yīng)力加載儀,3細(xì)胞打印機(jī),NanoTweezer新型激光光鑷系統(tǒng),PicoTwist磁鑷,美國(guó)NeuroIndx品牌Kuiqpick單細(xì)胞捕獲切割系統(tǒng)

          產(chǎn)地類(lèi)別 進(jìn)口 價(jià)格區(qū)間 面議
          應(yīng)用領(lǐng)域 醫(yī)療衛(wèi)生,食品,化工,生物產(chǎn)業(yè),農(nóng)業(yè)

          3D軟骨壓痕儀,3D曲面壓痕儀-3D壓痕映射和厚度測(cè)試分析儀 
          -多載荷多物理場(chǎng)耦合微觀力學(xué)性能原位測(cè)試系統(tǒng)

          biomomentum mach-1

          該系統(tǒng)是模塊化集成壓縮、張力、剪切、摩擦、扭轉(zhuǎn)和2D/3D壓痕、3D輪廓及多力混合耦連測(cè)試的一體化微觀力學(xué)測(cè)試裝置。能對(duì)生物組織、聚合物、凝膠、生物材料、膠囊、粘合劑和食品進(jìn)行精密可靠的機(jī)械刺激和表征。允許表征的機(jī)械性能包括剛度、強(qiáng)度、模量、粘彈性、塑性、硬度、附著力、腫脹和松弛位移控制運(yùn)動(dòng)。

          特點(diǎn)

          1、適用樣品范圍廣:

          1.1、從骨等硬組織材料到腦組織、眼角膜等軟組織材料

          1.2、從粗椎間盤(pán)的樣品到極細(xì)纖維絲

          2、通高量壓痕測(cè)試分析

                ◆無(wú)需表面平坦,可在不規(guī)則表面壓痕

                ◆壓痕同時(shí)可測(cè)量厚度信息

                ◆壓痕不要求壓縮軸垂直于樣品表面對(duì)齊

                ◆紅寶石壓頭,堅(jiān)固不易斷,使用成本低

                ◆樣品不需要從組織中收集

                ◆組織的破壞小

                ◆維持被測(cè)材料的機(jī)械環(huán)境及其與周?chē)牧系南嗷プ饔?/strong>

                ◆自動(dòng)mapping

                ◆亞微米分辨率

                ◆樣品范圍廣:極軟腦組織泡沫到陶瓷、金屬

                ◆力范圍廣5pa到500Gpa

                ◆可以在將樣品浸入溶液中的情況下進(jìn)行

          2.1、三維法向壓痕映射非平面樣品整個(gè)表面的力學(xué)特性

          2.2、48孔板中壓痕測(cè)試分析

          3、力學(xué)類(lèi)型測(cè)試分析功能齊全

          模塊化集成壓縮、張力、剪切、摩擦、扭轉(zhuǎn)、穿刺、摩擦和2D/3D壓痕、3D表面輪廓、3D厚度等各種力學(xué)類(lèi)型支持,微觀結(jié)構(gòu)表征及動(dòng)態(tài)力學(xué)分析研究

          4、高分辨率:

          4.1、位移分辨率達(dá)0.1um

          4.2、力分辨率 達(dá)0.025mN

          5、 行程范圍廣:50-250mm

          6、體積小巧、可放入培養(yǎng)箱內(nèi)

          7 、高變分辨率成像跟蹤分析

          8、多軸向、多力偶聯(lián)刺激

          9、活性組織電位分布測(cè)試分析

          10、產(chǎn)品成熟,文獻(xiàn)量達(dá) 上千篇

          背景介紹:

                  機(jī)械壓痕是一種快速、無(wú)損的生物組織評(píng)價(jià)技術(shù)。近,Biomomentum對(duì)這項(xiàng)技術(shù)進(jìn)行了改進(jìn)和擴(kuò)充,它既具有映射繪圖能力,又解決了垂直性問(wèn)題,這仍然妨礙了納米壓痕等其他方法。利用這些突破,新的研究設(shè)計(jì)的效率大大提高。壓痕通常要求被測(cè)試的表面是平坦的,并且還需要垂直于關(guān)節(jié)表面的壓縮軸。多軸機(jī)械試驗(yàn)機(jī)MACH-1 V500 CSS的3D“正常壓痕”函數(shù)地檢測(cè)XY位置處的表面高度和方向,并記錄載荷(多軸向載荷單元),同時(shí)以不同速度移動(dòng)測(cè)試儀的三個(gè)階段,以便以預(yù)定義的方式移動(dòng)球形壓頭。沿著垂直于樣品表面的虛擬軸的位移分布。利用MACH-1 V500 CSS測(cè)試器*的多軸能力,生物顯微鏡已經(jīng)開(kāi)發(fā)出新的功能,允許壓痕測(cè)試的所有優(yōu)點(diǎn),同時(shí)克服了傳統(tǒng)的局限性。這一技術(shù)進(jìn)步依賴(lài)于在Mach-1運(yùn)動(dòng)軟件中增加兩個(gè)功能:“掃描XY”和“正常壓痕”。在每個(gè)位置執(zhí)行一系列功能之前,“掃描XY”功能在預(yù)定義位置移動(dòng)測(cè)試儀的X和Y水平級(jí)。應(yīng)該提到的是,這樣的位置列表可以很容易地生成使用Biomomentum的“軟骨映射”軟件處理樣本的俯視圖。“正??s進(jìn)”函數(shù)地檢測(cè)出XY位置上的表面的高度和方向,并記錄負(fù)載(多軸載荷單元),同時(shí)以不同的速度移動(dòng)測(cè)試儀的三個(gè)階段,以便沿著一個(gè)正常的法線(xiàn)的虛擬軸在樣品表面移動(dòng)球形壓頭。


          纖維絲張力和扭力測(cè)

          自動(dòng)法向壓痕和厚度映射

          脛骨三維輪廓測(cè)試

          機(jī)電活性材料(如結(jié)締組織、帶電水凝膠等)壓縮過(guò)程中電位分布

          英文描述:

           

          軟骨力學(xué)特性其他案例:


           

           

          3D法向壓痕測(cè)試典型文獻(xiàn)參考

          Sensitivity of indentation testing to step-off edges and interface integrity in cartilage repairBae W, Law A, Amiel D and Sah RAnn Biomed Eng, 32(3), 360-369. (2004)

          Changes in Free Calcium Alter the Mechanical Properties of the Intervertebral DiscI. Hadjab, M.P. Grant, L.M. Epure, M. Garon, E. Quenneville, J. Anthoniou, F. Mwale and M.D. BuschmannInternational Conference on the Mechanics of Biomaterials and Tissues, Hawaii, USA, 1 2 Dec 2017, Podium O.48. Presented by E. Quenneville

          The effect of in vivo chondrocyte depletion on the structural and functional properties of murine articular cartilageA.O. Masson, J.M. Corpuz, W.B. Edwards and R.J. KrawetzOsteoarthritis and Cartilage, April 2019, Volume 27, Supplement 1, Page S80

          Quantifying vocal fold wound?healing biomechanical property changesG. R. Dion, T. Guda, S. Mukudai, R.Bing, J-F. Lavoie and R.C. BranskiLaryngoscope. 2019 May 6. doi: 10.1002/lary.27999

          Setting up a pre-clinical human model for mechanical induced osteoarthritis to investigate potential pharmacological agentsE. Houtman, M. van Hoolwerff, R. Coutinho De Almeida, A. Rodriguez Ruiz, N. Lakenberg, H.E. Suchiman, M. Tuerlings, R.G. Timmermans, R.G. Nelissen, Y.F. Ramos and I. MeulenbeltOsteoarthritis and Cartilage, April 2019, Volume 27, Supplement 1, Pages S80–S81. doi.org/10.1016/j.joca.2019.02.114

          Moderate exercise prevents cartilage softening and muscle structural changes in a rat model of obesityJ.L. Rios, J.W. Mather, J. Michaiel, S.M. Mattiello and W. HerzogOARSI Journal, April 2019 Volume 27, Supplement 1, Page S155

          Bottlebrush polymer compositions, lubricating fluid, porous materials comprising said compositions, and surface bearing said compositionsX. Banquy, J. Faivre, B.R.Shrestha, K. Matyjaszewski, J.Burdynska and F. MoldovanUS Patent App. 16/095,051, 2019

          A Col1a2 Mutation Reveals Bone Fragility, Hyperelasticity of Skin and Degeneration of Articular Cartilage in MiceS. Sim, A. Blease, M. Garon, E. Quenneville and P. PotterPoster SUN-053. American Society for Bone and Mineral Research, 22 Sep 2019, Orlando, Florida, USA

          Biomechanical characterization of tibial articular cartilage in Hyp mice, a murine model of osteoarthritis in X-linked hypophosphatemiaMichael J. Desimone, Steven M. Tommasini, Christopher Cape and Carolyn M. MacicaPoster SUN-929. American Society for Bone and Mineral Research, 22 Sep 2019, Orlando, Florida, USA

          Automated Indentation of Femoral and Temporomandibular Joints for Characterization of Cartilage Tissue Quality in Fgf2 KO Mice.Tannin SchmidtPoster SAT-996. American Society for Bone and Mineral Research, 21 Sep 2019, Orlando, Florida, USA

          Viscoelasticity and histology of the human cartilage in healthy and degenerated conditions of the kneeMichael Seidenstuecker, Julius Watrinet , Anke Bernstein, Norbert P. Suedkamp , Sergio H. Latorre Anastasija Maks and Hermann O. MayrJournal of Orthopaedic Surgery and Research, November 2019, 14:256. DOI: 10.1186/s13018-019-1308-5

          Bioinspired lubrication: from fundamentals to joint protectionX. Banquy, J. Faivre, G. Xie, K. Matyjaszewski, T. Delair, L. David, J. Burdynska, F. Moldovan, S. Benayoun, B. ShresthaICoBT, Montreal, Canada, September 27 2018. Oral presentation S8.1.

          Quantifying the Effects of Different Treadmill Training Speeds and Durations on the Health of Rat Knee JointsRios, Jaqueline Lourdes; Boldt, Kevin Rudi; Mather, James William; Seerattan, Ruth Anne; Hart, David Arthur; Herzog, WalterSports Medicine - Open 2018 4:15   doi.org/10.1186/s40798-018-0127-2

          Investigating the role of in vivo cell cycle activation within mesenchymal stem cells in the regenerative potential of articular cartilage after injuryMasson, A. O.; Underhill, T. M.; Edwards, W. B.; Krawetz, R. J.Osteoarthritis and Cartilage 26 (2018) S38 doi.org/10.1016/j.joca.2018.02.092

          Glycation marker glucosepane increases with the progression of osteoarthritis and correlates with morphological and functional changes of cartilage in vivoLegrand, Catherine; Ahmed, Usman; Anwar, Attia; Rajpoot, Kashif; Pasha, Sabah; Lambert, Cecile; Davidson, Rose K.; Clark, Ian M.; Thornalley, Paul J.; Henrotin, YvesArthritis Research & Therapy 2018 20:131  doi.org/10.1186/s13075-018-1636-6

          Contrast-Enhanced Computed Tomography (CECT) attenuation is associated with stiffness of intact knee cartilageNickmanesh, Reza; Stewart, Rachel C.; Snyder, Brian D.; Grinstaff, Mark W.; Masri, Bassam A.; Wilson, David R.J. Orthop. Res. First published: 17 April 2018 doi:10.1002/jor.24022

          Automated Indentation Mapping of Vocal Fold Structure and Cover Properties across SpeciesGregory R. Dion, MD, Jean-Francois Lavoie, PhD, Paulo Coelho, DDS, PhD, Milan R. Amin, MD, Ryan C. Branski, PhDLaryngoscope. 2018 Nov 8. doi: 10.1002/lary.27341

          Study of the evolution of the osteoarthritis pathology and the mechanical properties of cartilage in a spontaneous osteoarthritis model in the Dunkin-Hartley guinea pigs.Legrand C, Centonze P, Comblain F, Lambert C, Sanchez C and Henrotin YOsteoarthritis and Cartilage, 25, s314-s315.

          Electromechanical probe and automated indentation maps are sensitive techniques in assessing early degenerated human articular cartilageSim S, Chevrier A, Garon M, Quenneville E, Lavigne P, Yaroshinsky A, Hoemann CD and Buschmann MDJ Orthop Res, 35(4) 858-867. (2017) Epub 2016 Jun 22

          Combined Mechanical Characterizations Increases Sensitivity in the Assessment of Human Cartilage DegenerationSim S, Hadjab I, Chevrolat L-A, Masse M, Tong AL, Lavigne P, Garon M, Quenneville E and Buschmann MDAccepted for a podium presentation at ORS 2017

          Indentation and Thickness Mapping of Articular Surfaces through Manual Positioning (Protocol Template AAAX1 v1) Biomomentum Inc. Laval (QC), Canada, Effective Date: December 6th, 2016.

          Mach-1 Analysis - Extraction of Elastic Model Parameters Following an Automated Indentation Mapping (SW186-SOP01-D v1)Sim S and Quenneville EBiomomentum Inc. Laval (QC), Canada, Effective Date: April 17th, 2015

          Mach-1 – Automated Indentation Mapping (MA056-SOP01-D v2)Sim S and Quenneville EBiomomentum Inc. Laval (QC), Canada, Effective Date: April 7th, 2015

          Guidelines for an optimized indentation protocol for measurement of cartilage stiffness - The effects of spatial variation and indentation parametersMoshtagh PR, Pouran B, Korthagen NM, Zadpoor AA and Weinans HJournal of Biomechanics 49(14) · September 2016 DOI: 10.1016/j.jbiomech.2016.09.020

          Ermittlung mechanischer Kennwerte mittels IndentationSeidenstucker MBioNanoMat. 2015; 16 (2-3): 152–156 DOI 10.1515/bnm-2015-9014

          Evaluation of a novel technique to map the mechanical properties of an entire articular surface in indentationSim S, Quenneville E, Garon M, Hoemann CD, Hurtig M and Buschmann MDInternational Cartilage Repair Society (ICRS), Turkey, 2013, Podium presentation (11.2.9)

          Novel Technique to Map the Biomechanical Properties of Entire Articular Surfaces Using Indentation to Identify Osteoarthritis-like RegionsSim S, Chevrier A, Garon M, Quenneville E and Buschmann MDTransactions of the 60th Annual Meeting of the Orthopaedic Research Society, 2014, New Orleans, LA, USA, 2015, Poster #2015

          Correlation of Non-destructive Electromechanical Probe (Arthro-BST) Assessment with Histological Scores, Biochemical Composition and Mechanical Properties in Human Knee JointsSim S, Chevrier A, Quenneville E, Garon M and Buschmann MDTransactions of the 60th Annual Meeting of the Orthopaedic Research Society, New Orleans, LA, USA, Poster 0439, 2014

          Cartilage Stiffness and Thickness Distributions Revealed by an Automated Indentation Technique in the Temporomandibular JointSim S, Matuska A, Garon M, Quenneville E, McFetridge P and Buschmann MDTMJ Bioengineering Conference - V, September 12-13, 2016, Barcelona, Spain

          Development of a Sequence of Mechanical Tests for Articular Cartilage at a Single LocationSim S, Chartrand A, Lavallee AP, Tessier J, Garon M, Quenneville E and Buschmann MDOrthopeadic Research Society Annual Meeting in Orlando, 2016

          Wound Healing Revealed by a Novel Automated Indentation TechniqueSim S, Garon M, Quenneville E and Buschmann MDCanadian Connective Tissue Conference 2015 in Quebec, Canada

          Evaluation of Entire Ovine Cartilage Repair Articular Surfaces: Mechanical and Electromechanical AssessmentSim S, Hadjab I, Garon M, Quenneville E, Hurtig MB, Buschmann MD and Hoemann CDTransactions of International Cartilage Repair Society (ICRS), Chicago, 2015, 7-11 May 2015, e-Poster: P87

          Relevance of the Spatial Distribution of Mechanical Properties of Articular Cartilage in Animal StudiesSim S, Hadjab I, Garon M, Quenneville E, and Buschmann MDOrthopeadic Research Society Annual Meeting in Las Vegas, 2015, Poster 0359

          Indentation Method to Map Mechanical Properties of Articular Surface to Identify Degenerated RegionsSim S, Chevrier A, Garon M, Quenneville E and Buschmann MD2014 Annual Meeting of the Biomedical Engineering Society, 2014, San Antonio, TX, USA. Podium presentation (ID: OP-Sat-3-4)

          Novel Technique to Map the Biomechanical Properties of Entire Articular Surfaces Using Indentation to Identify Degenerated (Osteoarthritis-like) CartilageSim S, Chevrier A, Garon M, Quenneville E and Buschmann MD7th World Congress on Biomechanics, 2014, Boston, MA, USA. Poster 2229

          Novel Technique to Map the Biomechanical Properties of Entire Mice Articular Surfaces Using IndentationSim S, Lavoie JF, Moreau A, Quenneville E, Garon M, and Buschmann MDOsteoarthritis and Cartilage, 22(1), 541. World Congress on Osteoarthritis, April 2014, Paris, France.

          Growth Factor Stimulation Improves the Structure and Properties of Scaffold-Free Engineered Auricular Cartilage ConstructsRosa RG, Joazeiro PP, Bianco J, Kunz M, Weber JF, et alPLoS ONE 9(8): e105170. doi:10.1371/journal.pone.0105170. (2014)

          Contrast-Enhanced Computed Tomography Reflects Stiffness of Intact Articular CartilageNickmanesh R, Stewart R, Snyder B, Grinstaff M and Wilson DISMRM Workshop on Imaging Based Measures of Osteoarthritis. Sept 11-14, 2015. Pacific Grove, CA, USA. Presentation on Sept 13 at 14:39.

          Mapping Articular Cartilage Biomechanical Properties of Normal and Osteoarthritic Mice Using IndentationLavoie JF, Sim S, Quenneville E, Garon M, Moreau A, Buschmann MD and Aubin CEOsteoarthritis and Cartilage 23 Suppl. 2, p. A254 (2015)

          Mapping Articular Cartilage Biomechanical Properties of Normal and Osteoarthritic Mice Using Indentation (OARSI Poster)Lavoie JF, Sim S, Quenneville E, Garon M, Moreau A, Buschmann MD and Aubin CEOsteoarthritis Research Society International (OARSI), 2015 April 30, Seattle, WA, United States

          Mapping Articular Cartilage Biomechanical Properties of Normal and Osteoarthritis Mice Using IndentationLavoie JF, Sim S, Quenneville E, Garon M, Moreau A, Buschmann MD and Aubin CE2015 International Cartilage Repair Society, May 7-11 2015, Chicago, Illinois, USA. Podium presentation (ID: 23.2.9)

          Micro-CT visualization and indentation properties of whole meniscus following mercury exposureKolaczek S, Changoor A, Hurtig M, Gordon K and Getgood AAnnual Meeting of the ORS, New Orleans, Louisiana, USA, March 15-18, 2014.

          Assessment of Human Articular Cartilage Issued from Asymptomatic & TKR DonorsHadjab I, Sim S, Quenneville E, Garon M and Buschmann MDBiomedical Engineering Society 2015 in Tampa, Floride

          Development and Validation of Large-Sized Engineering Cartilage Constructs in Full-Thickness Chondral Defects in a Rabbit ModelBrenner JMaster thesis Queen's University. (2012)

          Indentation probing of human articular cartilage: effect on chondrocyte viabilityBae W, Schumacher B and Sah ROsteoarthritis and Cartilage, 15(1), 9-18. (2007)

          硬度微壓痕測(cè)試文獻(xiàn)

          Mach-1 - Hardness Testing (MA056-SOP12-D v1)Gilbert N and Quenneville EBiomomentum Inc. Laval (QC), Canada, Effective Date: December 9th, 2016

          Purpose: This procedure describes a standard method to realize an indentation hardness test on a material sample using the Mach-1 mechanical tester. 

          Scope: This procedure can be applied on any type of material with shape and dimension compatible with the specifications presented in the material section while the expected hardness results remain within tester..

          .

          ASTM E384 - Standard Test Method for Microindentation Hardness of Materials ASTM International, West Conshohocken, PA, 2016, 

          Significance and Use

           

          5.1 Hardness tests have been found to be very useful for materials evaluation, quality control of manufacturing processes and research and development efforts. Hardness, although empirical in nature, can be correlated to tensile strength for many metals and alloys, and is also an indicator of machinability, wear resistance, toughness and ductility.

          ASTM C1327 - Standard Test Method for Vickers Indentation Hardness of Advanced Ceramics ASTM International, West Conshohocken, PA, 2015, 

          剛度壓痕測(cè)試文獻(xiàn)

          Sensitivity of indentation testing to step-off edges and interface integrity in cartilage repairBae W, Law A, Amiel D and Sah RAnn Biomed Eng, 32(3), 360-369. (2004)

          Indentation probing of human articular cartilage: effect on chondrocyte viabilityBae W, Schumacher B and Sah ROsteoarthritis and Cartilage, 15(1), 9-18. (2007)

          Novel Biomechanical Indentation Test Demonstrates Joint Surface Weakening in Mice Lacking Fibroblast Growth Factor Receptor 3 (FGFR3)Binette JS, Laflamme F, Li W, Valverde-Franco G, Tran-Khanh N, Quenneville E, Henderson JE and Buschmann MDPaper presented at the 11th Canadian Connective Tissue Conference, Montreal, QC, Canada. (2005)

          Development and Validation of Large-Sized Engineering Cartilage Constructs in Full-Thickness Chondral Defects in a Rabbit ModelBrenner JMaster thesis Queen's University. (2012)

          Association of 3-dimensional cartilage and bone structure with articular cartilage properties in and adjacent to autologous osteochondral grafts after 6 and 12 months in a goat modelChan EF, Liu IL, Semler EJ, Aberman HM, Simon TM, Chen AC, Truncale KG and Sah RLCartilage, 3(3), 255-266. (2012)

          Development of scaffold-free elastic cartilaginous constructs with structural similarities to auricular cartilageGiardini-Rosa R, Joazeiro PP, Thomas K, Collavino K, Weber J and Waldman SDTissue Engineering Part A. Volume 20, Numbers 5 and 6, 2014, pp 1012-26 (2014)

          Engineering of Hyaline Cartilage with a Calcified Zone Using Bone Marrow Stromal CellsLee WD, Hurtig MB, Pilliar RM, Stanford WL and Kandel RAOsteoarthritis and Cartilage (2015), doi: 10.1016/j.joca.2015.04.010

          Soft Tissue Phantoms for Realistic Needle Insertion - A Comparative StudyLeibinger A, Forte AE, Tan Z, Oldfield MJ, Beyrau F, Dini D and Rodriguez y Baena FAnnals of Biomedical Engineering. pp 1-11 (2015)

          Characterization of the effect of microfracture surgery and angle of incidence on the structural properties of femoral boneLiang LD, Wagner A, Steeds J, Hurtig M and Gordon KStudies by Undergraduate Researchers at Guelph, 7(1), 56-61. (2013)

          Low Magnitude High Frequency Vibration Accelerated Cartilage Degeneration but Improved Epiphyseal Bone Formation in Anterior Cruciate Ligament Transect Induced Osteoarthritis Rat ModelQin J, Chow S KH, Guo A, Wong WN., Leung KS and Cheung WHOsteoarthritis and Cartilage. July 2014, Vol.22(7):1061–1067. (2014)

          Growth Factor Stimulation Improves the Structure and Properties of Scaffold-Free Engineered Auricular Cartilage ConstructsRosa RG, Joazeiro PP, Bianco J, Kunz M, Weber JF, et alPLoS ONE 9(8): e105170. doi:10.1371/journal.pone.0105170. (2014)

          Relevance of the Spatial Distribution of Mechanical Properties of Articular Cartilage in Animal StudiesSim S, Hadjab I, Garon M, Quenneville E, and Buschmann MDOrthopeadic Research Society Annual Meeting in Las Vegas, 2015, Poster 0359

          Evaluation of Entire Ovine Cartilage Repair Articular Surfaces: Mechanical and Electromechanical AssessmentSim S, Hadjab I, Garon M, Quenneville E, Hurtig MB, Buschmann MD and Hoemann CDTransactions of International Cartilage Repair Society (ICRS), Chicago, 2015, 7-11 May 2015, e-Poster: P87

          Wound Healing Revealed by a Novel Automated Indentation TechniqueSim S, Garon M, Quenneville E and Buschmann MDCanadian Connective Tissue Conference 2015 in Quebec, Canada

          Cartilage Stiffness and Thickness Distributions Revealed by an Automated Indentation Technique in the Temporomandibular JointSim S, Matuska A, Garon M, Quenneville E, McFetridge P and Buschmann MDTMJ Bioengineering Conference - V, September 12-13, 2016, Barcelona, Spain

          Elastic modulus of 316 stainless steel lattice structure fabricated via binder jetting processTang Y, Zhou Y, Hoff T, Garon M and Zhao FYMaterials Science and Technology 32(7):1743284715Y.000 · June 2015 DOI: 10.1179/1743284715Y.0000000084

          Defective Bone Mineralization and Osteopenia in Young Adult Fgfr3-/- MiceValverde-Franco G, Liu H, Davidson D, Chai S, Valderrama-Carvajal H, Goltzman D, Ornitz DM and Henderson JEHum Mol Genet, 13(3), 271-284

          Defects in articular cartilage metabolism and early arthritis in fibroblast growth factor receptor 3 deficient miceValverde-Franco G, Binette JS, Li W, Wang H, Chai S, Laflamme F, Tran-Khanh N, Quenneville E, Meijers T, Poole AR, Mort JS, Buschmann MD and Henderson JEHuman molecular genetics, 15(11), 1783-1792. (2006)

          The Effects of Oxidative Stress on the Compressive Damage Thresholds of C2C12 Mouse Myoblasts: Implications for Deep Tissue InjuryYao Y, Xiao Z, Wong S, Hsu YC, Cheng T, Chang CC, Bian L and Mak AFAnn Biomed Eng. 2015 Feb;43(2):287-96. doi: 10.1007/s10439-014-1239-6. Epub 2015 Jan 6.

          Correlation of Non-destructive Electromechanical Probe (Arthro-BST) Assessment with Histological Scores, Biochemical Composition and Mechanical Properties in Human Knee JointsSim S, Chevrier A, Quenneville E, Garon M and Buschmann MDTransactions of the 60th Annual Meeting of the Orthopaedic Research Society, New Orleans, LA, USA, Poster 0439, 2014

          A composite hydrogel for brain tissue phantomsForte AE, Galvan S, Manieri F,y Baena FR and Dini DMaterials & Design, 112, 227-238 (2016)

          Biomechanical Characterisation of the Human Auricular Cartilage - Implications for Tissue EngineeringGriffin MF, Premakumar Y, Seifalian M, Szarko and Butler PEMAnnals of Biomedical Engineering, 2016. Punlished online, 14Jul2016. DOI: 10.1007/s10439-016-1688-1

          Guidelines for an optimized indentation protocol for measurement of cartilage stiffness - The effects of spatial variation and indentation parametersMoshtagh PR, Pouran B, Korthagen NM, Zadpoor AA and Weinans HJournal of Biomechanics 49(14) · September 2016 DOI: 10.1016/j.jbiomech.2016.09.020

          Streaming Potential-Based Arthroscopic Device Discerns Topographical Differences In Cartilage Covered And Uncovered By Meniscus In Ovine Stifle JointsChangoor A, Quenneville E, Garon M, Cloutier L, Hurtig MB and Buschmann MDTransactions of the 53th Annual Meeting of the Orthopaedic Research Society, San Diego, CA, USA, 32:631. (2007)

          ASTM F2451-05 - Standard Guide for in vivo Assessment of Implantable Devices Intended to Repair or Regenerate Articular Cartilage ASTM International, West Conshohocken, PA, 2010, 

          Mach-1 Analysis - Extraction of Elastic Model Parameters Following an Automated Indentation Mapping (SW186-SOP01-D v1)Sim S and Quenneville EBiomomentum Inc. Laval (QC), Canada, Effective Date: April 17th, 2015

          Change in viability of C2C12 myoblasts under compression, shear and oxidative challengesHong Y, Yao Y, Wong S, Bian L and Mak AFJournal of biomechanics, 49(8), 1305-1310. (2016)

          The Verification of the Mechanical Properties of Binder Jetting Manufactured Parts by Instrumented Indentation TestingZhou Y, Tang Y, Hoff T, Garon M and Fiona Yaoyao Zhao43rd Proceedingsof the North American Manufacturing Research. Volume 1, Pages 327–342. (2014)

          Review Paper: Fifty years of brain tissue mechanical testing: From in vitro to in vivo investigationsChatelin S, Constantinesco A and Willinger RBiorheology 47 (2010) 255–276. DOI 10.3233/BIR-2010-0576

          Indentation and Thickness Mapping of Articular Surfaces through Manual Positioning (Protocol Template AAAX1 v1) Biomomentum Inc. Laval (QC), Canada, Effective Date: December 6th, 2016.

          Comparisons of Auricular Cartilage Tissues from Different SpeciesLLY Chiu, R Giardini-Rosa, JF Weber, SL Cushing and SD WaldmanAnn Otol Rhinol Laryngol. 2017 Dec;126(12):819-828. doi: 10.1177/0003489417738789. Epub 2017 Oct 27.

          Automated Indentation Mapping of Vocal Fold Structure and Cover Properties across SpeciesGregory R. Dion, MD, Jean-Francois Lavoie, PhD, Paulo Coelho, DDS, PhD, Milan R. Amin, MD, Ryan C. Branski, PhDLaryngoscope. 2018 Nov 8. doi: 10.1002/lary.27341

          In Situ Cross-Linking of Poly (vinyl alcohol)/Graphene Oxide–Polyethylene Glycol Nanocomposite Hydrogels as Artificial Cartilage Replacement: Intercalation Structure, Unconfined Compressive Behavior, and Biotribological BehaviorsMeng, Yeqiao; Ye, Lin; Coates, Phil; Twigg, PeterJ. Phys. Chem. C, 2018, 122 (5), pp 3157–3167 DOI: 10.1021/acs.jpcc.7b12465

          Optimising the decellularization of human elastic cartilage with trypsin for future use in ear reconstructionRahman, Shafiq; Griffin, Michelle; Naik, Anish; Szarko, Matthew; Butler, Peter EMScientific Reports (2018) 8:3097 DOI:10.1038/s41598-018-20592-x

          Long Term Efficacy of Cartilage Repair Induced By scSOX9 in Situ with Bone Marrow-Derived Mesenchymal Stem CellsZhang X, Wu S, Zhu Y, Chu CQArthritis Rheumatol. 2018; 70 (suppl 10). Abstract Number 850

          Dynamic covalent Schiff-base silicone polymers and elastomersRobert Bui and Michael A. BrookPolymer. Volume 160, 3 January 2019, Pages 282-290 doi.org/10.1016/j.polymer.2018.11.043

          Multi-modal characterization of polymeric gels to determine the influence of testing method on observed elastic modulusDavid M. Kingsley, Caitlin H.McCleery, Christopher D.L.Johnson, Michael T.K.Bramson, Deniz Rende, Ryan J.Gilbert, David T.CorrJournal of the Mechanical Behavior of Biomedical Materials, available online 10 January 2019, doi.org/10.1016/j.jmbbm.2019.01.003

          A study of saliva lubrication using a compliant oral mimicG. Carpenter, S. Bozorgi, S. Vladescu, A.E. Forte, C. Myant, R.V. Potineni, T. Reddyhoff, and S.K. BaierFood Hydrocolloids, Elsevier, Available online 23 January 2019, doi.org/10.1016/j.foodhyd.2019.01.049

          Intervertebral disc implantR Kandel, JP Santerre, SQ LiUS Patent App. 10195044, 2019

          Ultrashort Time to Echo Magnetic Resonance Evaluation of Calcium Pyrophosphate Crystal Deposition in Human MenisciFinkenstaedt T, Biswas R, Abeydeera NA, Siriwanarangsun P, Healey R, Statum S, Bae WC and Chung CBInvest Radiol. 2019 Jun. 54(6):349-355.

          Simulation of Acoustic Propagation in 3D Viscoelastic Inhomogeneous Media with Application to Medical Shear Wave ElastographyP. S. Bidari, H. Assi, R. S. C. Cobbold, J. Alirezaie and J. TavakkoliJournal of Theoretical and Computational Acoustics Vol. 27, No. 03, 1950003 (2019) Research Papers, doi.org/10.1142/S2591728519500038

          Changes in Free Calcium Alter the Mechanical Properties of the Intervertebral DiscI. Hadjab, M.P. Grant, L.M. Epure, M. Garon, E. Quenneville, J. Anthoniou, F. Mwale and M.D. BuschmannInternational Conference on the Mechanics of Biomaterials and Tissues, Hawaii, USA, 1 2 Dec 2017, Podium O.48. Presented by E. Quenneville

          3D壓痕厚度測(cè)試文獻(xiàn)

          Sensitivity of indentation testing to step-off edges and interface integrity in cartilage repairBae W, Law A, Amiel D and Sah RAnn Biomed Eng, 32(3), 360-369. (2004)

          Development and Validation of Large-Sized Engineering Cartilage Constructs in Full-Thickness Chondral Defects in a Rabbit ModelBrenner JMaster thesis Queen's University. (2012)

          Assessment of Human Articular Cartilage Issued from Asymptomatic & TKR DonorsHadjab I, Sim S, Quenneville E, Garon M and Buschmann MDBiomedical Engineering Society 2015 in Tampa, Floride

          Micro-CT visualization and indentation properties of whole meniscus following mercury exposureKolaczek S, Changoor A, Hurtig M, Gordon K and Getgood AAnnual Meeting of the ORS, New Orleans, Louisiana, USA, March 15-18, 2014.

          Mapping Articular Cartilage Biomechanical Properties of Normal and Osteoarthritis Mice Using IndentationLavoie JF, Sim S, Quenneville E, Garon M, Moreau A, Buschmann MD and Aubin CE2015 International Cartilage Repair Society, May 7-11 2015, Chicago, Illinois, USA. Podium presentation (ID: 23.2.9)

          Mapping Articular Cartilage Biomechanical Properties of Normal and Osteoarthritic Mice Using IndentationLavoie JF, Sim S, Quenneville E, Garon M, Moreau A, Buschmann MD and Aubin CEOsteoarthritis and Cartilage 23 Suppl. 2, p. A254 (2015)

          Soft Tissue Phantoms for Realistic Needle Insertion - A Comparative StudyLeibinger A, Forte AE, Tan Z, Oldfield MJ, Beyrau F, Dini D and Rodriguez y Baena FAnnals of Biomedical Engineering. pp 1-11 (2015)

          Growth Factor Stimulation Improves the Structure and Properties of Scaffold-Free Engineered Auricular Cartilage ConstructsRosa RG, Joazeiro PP, Bianco J, Kunz M, Weber JF, et alPLoS ONE 9(8): e105170. doi:10.1371/journal.pone.0105170. (2014)

          Novel Technique to Map the Biomechanical Properties of Entire Mice Articular Surfaces Using IndentationSim S, Lavoie JF, Moreau A, Quenneville E, Garon M, and Buschmann MDOsteoarthritis and Cartilage, 22(1), 541. World Congress on Osteoarthritis, April 2014, Paris, France.

          Novel Technique to Map the Biomechanical Properties of Entire Articular Surfaces Using Indentation to Identify Degenerated (Osteoarthritis-like) CartilageSim S, Chevrier A, Garon M, Quenneville E and Buschmann MD7th World Congress on Biomechanics, 2014, Boston, MA, USA. Poster 2229

          Indentation Method to Map Mechanical Properties of Articular Surface to Identify Degenerated RegionsSim S, Chevrier A, Garon M, Quenneville E and Buschmann MD2014 Annual Meeting of the Biomedical Engineering Society, 2014, San Antonio, TX, USA. Podium presentation (ID: OP-Sat-3-4)

          Relevance of the Spatial Distribution of Mechanical Properties of Articular Cartilage in Animal StudiesSim S, Hadjab I, Garon M, Quenneville E, and Buschmann MDOrthopeadic Research Society Annual Meeting in Las Vegas, 2015, Poster 0359

          Evaluation of Entire Ovine Cartilage Repair Articular Surfaces: Mechanical and Electromechanical AssessmentSim S, Hadjab I, Garon M, Quenneville E, Hurtig MB, Buschmann MD and Hoemann CDTransactions of International Cartilage Repair Society (ICRS), Chicago, 2015, 7-11 May 2015, e-Poster: P87

          Wound Healing Revealed by a Novel Automated Indentation TechniqueSim S, Garon M, Quenneville E and Buschmann MDCanadian Connective Tissue Conference 2015 in Quebec, Canada

          Development of a Sequence of Mechanical Tests for Articular Cartilage at a Single LocationSim S, Chartrand A, Lavallee AP, Tessier J, Garon M, Quenneville E and Buschmann MDOrthopeadic Research Society Annual Meeting in Orlando, 2016

          Cartilage Stiffness and Thickness Distributions Revealed by an Automated Indentation Technique in the Temporomandibular JointSim S, Matuska A, Garon M, Quenneville E, McFetridge P and Buschmann MDTMJ Bioengineering Conference - V, September 12-13, 2016, Barcelona, Spain

          Cartilage Stiffness and Thickness Distributions Revealed by an Automated Indentation Technique in the Temporomandibular JointSim S, Matuska A, Garon M, Quenneville E, McFetridge P and Buschmann MDTMJ Bioengineering Conference - V, September 12-13, 2016, Barcelona, Spain

          Novel Technique to Map the Biomechanical Properties of Entire Articular Surfaces Using Indentation to Identify Osteoarthritis-like RegionsSim S, Chevrier A, Garon M, Quenneville E and Buschmann MDTransactions of the 60th Annual Meeting of the Orthopaedic Research Society, 2014, New Orleans, LA, USA, 2015, Poster #2015

          Evaluation of a novel technique to map the mechanical properties of an entire articular surface in indentationSim S, Quenneville E, Garon M, Hoemann CD, Hurtig M and Buschmann MDInternational Cartilage Repair Society (ICRS), Turkey, 2013, Podium presentation (11.2.9)

          Mach - Automated Thickness Mapping of an Articular Surface (MA056-SOP02-D v2)Sim S and Quenneville EBiomomentum Inc. Laval (QC), Canada, Effective Date: April 7th, 2015

          Mach-1 Analysis - Extraction of Thickness Values Following Automated Thickness Mapping of an Articular Surface (SW186-SOP02-D v1)Sim S, Lavoie JF and Quenneville EBiomomentum Inc. Laval (QC), Canada, Effective Date: April 22th, 2015

          Mach-1 Analysis - Extraction of Thickness Values Following Automated Thickness Mapping of an Articular Surface (SW186-SOP02-D v1)Sim S, Lavoie JF and Quenneville EBiomomentum Inc. Laval (QC), Canada, Effective Date: April 22th, 2015

          Combined Mechanical Characterizations Increases Sensitivity in the Assessment of Human Cartilage DegenerationSim S, Hadjab I, Chevrolat L-A, Masse M, Tong AL, Lavigne P, Garon M, Quenneville E and Buschmann MDAccepted for a podium presentation at ORS 2017

          Electromechanical probe and automated indentation maps are sensitive techniques in assessing early degenerated human articular cartilageSim S, Chevrier A, Garon M, Quenneville E, Lavigne P, Yaroshinsky A, Hoemann CD and Buschmann MDJ Orthop Res, 35(4) 858-867. (2017) Epub 2016 Jun 22

          Study of the evolution of the osteoarthritis pathology and the mechanical properties of cartilage in a spontaneous osteoarthritis model in the Dunkin-Hartley guinea pigs.Legrand C, Centonze P, Comblain F, Lambert C, Sanchez C and Henrotin YOsteoarthritis and Cartilage, 25, s314-s315.

          Contrast-Enhanced Computed Tomography (CECT) attenuation is associated with stiffness of intact knee cartilageNickmanesh, Reza; Stewart, Rachel C.; Snyder, Brian D.; Grinstaff, Mark W.; Masri, Bassam A.; Wilson, David R.J. Orthop. Res. First published: 17 April 2018 doi:10.1002/jor.24022

          Glycation marker glucosepane increases with the progression of osteoarthritis and correlates with morphological and functional changes of cartilage in vivoLegrand, Catherine; Ahmed, Usman; Anwar, Attia; Rajpoot, Kashif; Pasha, Sabah; Lambert, Cecile; Davidson, Rose K.; Clark, Ian M.; Thornalley, Paul J.; Henrotin, YvesArthritis Research & Therapy 2018 20:131 doi.org/10.1186/s13075-018-1636-6

          Investigating the role of in vivo cell cycle activation within mesenchymal stem cells in the regenerative potential of articular cartilage after injuryMasson, A. O.; Underhill, T. M.; Edwards, W. B.; Krawetz, R. J.Osteoarthritis and Cartilage 26 (2018) S38 doi.org/10.1016/j.joca.2018.02.092

          Quantifying the Effects of Different Treadmill Training Speeds and Durations on the Health of Rat Knee JointsRios, Jaqueline Lourdes; Boldt, Kevin Rudi; Mather, James William; Seerattan, Ruth Anne; Hart, David Arthur; Herzog, WalterSports Medicine - Open 2018 4:15 doi.org/10.1186/s40798-018-0127-2

          Bioinspired lubrication: from fundamentals to joint protectionX. Banquy, J. Faivre, G. Xie, K. Matyjaszewski, T. Delair, L. David, J. Burdynska, F. Moldovan, S. Benayoun, B. ShresthaICoBT, Montreal, Canada, September 27 2018. Oral presentation S8.1.

          Viscoelasticity and histology of the human cartilage in healthy and degenerated conditions of the kneeMichael Seidenstuecker, Julius Watrinet , Anke Bernstein, Norbert P. Suedkamp , Sergio H. Latorre Anastasija Maks and Hermann O. MayrJournal of Orthopaedic Surgery and Research, November 2019, 14:256. DOI: 10.1186/s13018-019-1308-5

          Automated Indentation of Femoral and Temporomandibular Joints for Characterization of Cartilage Tissue Quality in Fgf2 KO Mice.Tannin SchmidtPoster SAT-996. American Society for Bone and Mineral Research, 21 Sep 2019, Orlando, Florida, USA

          Bottlebrush polymer compositions, lubricating fluid, porous materials comprising said compositions, and surface bearing said compositionsX. Banquy, J. Faivre, B.R.Shrestha, K. Matyjaszewski, J.Burdynska and F. MoldovanUS Patent App. 16/095,051, 2019

          Moderate exercise prevents cartilage softening and muscle structural changes in a rat model of obesityJ.L. Rios, J.W. Mather, J. Michaiel, S.M. Mattiello and W. HerzogOARSI Journal, April 2019 Volume 27, Supplement 1, Page S155

          Setting up a pre-clinical human model for mechanical induced osteoarthritis to investigate potential pharmacological agentsE. Houtman, M. van Hoolwerff, R. Coutinho De Almeida, A. Rodriguez Ruiz, N. Lakenberg, H.E. Suchiman, M. Tuerlings, R.G. Timmermans, R.G. Nelissen, Y.F. Ramos and I. MeulenbeltOsteoarthritis and Cartilage, April 2019, Volume 27, Supplement 1, Pages S80–S81. doi.org/10.1016/j.joca.2019.02.114

          The effect of in vivo chondrocyte dsepletion on the structural and functional properties of murine articular cartilageA.O. Masson, J.M. Corpuz, W.B. Edwards and R.J. KrawetzOsteoarthritis and Cartilage, April 2019, Volume 27, Supplement 1, Page S80



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