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DAY 4
上午
K4‐Cytotoxicity and antibacterial propertyof Mg‐Ag alloys
ZLiu1, R Willumeit‐Römer1,N Hort2, R Schade3,F Feyerabend1
1MetallicBiomaterials; 2MagIC – Magnesium InnovationCenter, Helmholtz‐Zentrum
Geesthacht;3Institute for Bioprocessing andAnalytical Measurement Techniques, Heilbad
Heiligenstadt,Germany
Limitation of Silver in human body, 5-6g
Mg-6Ag Mg-8Ag
Extrusion, extrusion +T4
Adhesion test (9 days)
Bioreactor testing
Ti, glass, Cu, pure Mg, Mg-6Ag, Mg-8Ag
O18‐Molecular pathways involved in theimmune response on magnesium alloys
MDCostantino1, BJC Luthringer2,R Willumeit‐Römer1
1Helmholtz‐ZentrumGeesthacht, Zentrum für Material‐ und Küstenforschung, Germany
Cells against biomaterial
Nat rev Mol Cell Biol 4(11) 2003, pp897-901
Macrophage
Elimination foreign agent—inflammatory cytokines
Cell proliferation---anti-inflammatory cytokines
Mg, Mg-2Ag, Mg-10Gd
O19‐Alter increased Magnesium levels thecell functionality in vitro?
ABruinink1, Y Elbs‐Glatz1
1Labfor Biointerfaces, Empa, St. Gallen, Switzerland
Mg2+ alters differention of fibroblast
Affect Mg2+ ions the polarization state of M1 macrophages
SOP27‐Influence of magnesium alloysdegradation on human undifferentiated cells
FCecchinato1, N Ahmad2,F Feyerabend2, R Jimbo1,R Willumeit‐Römer2, A Wennerberg1
1Departmentof Prosthodontics, Faculty of Odontology, Malmö, Sweden; 2Helmholtz‐
ZentrumGeesthacht, Germany
Mg2Ag, Mg10Gd, Mg4Y3RE, with 99.97% Pure Mg
Surface degradation ---atomic force microscopy
SOP28‐Effects of magnesium alloys onchondrogenic differentiation of HUCPV
AHMartínez‐Sánchez1, F Feyerabend1,B Luthringer1, R Willumeit‐Römer1
1Helmholtz‐ZentrumGeesthacht: Zentrum für Material‐ und Küstenforschung GmbH,
Germany
Mg extract showed no effect on chondrogenicdifferentiation
O20‐In vitro cytotoxicity evaluation ofvascular cells after exposure to zinc
ERShearier1, PK Bowen2,J Drelich2, J Goldman1,F Zhao1
1Departmentof Biomedical Engineering; 2Departmentof Materials Science and Engineering,
MichiganTechnological University, Houghton, Michigan, USA
ZnCl2sait was incompatible wthe culture bufferingenvironment, cuased immediate precipitation of ZnO/Zn(OH)2
Direct culture on metallic Zn foil
Cells donot like to direct attached to Zn
Zn discs were modified by attaching collagen sheet ofcontrolled thickness.
Zn2+ induces a dose-dependent inhibition of cell adhesionand migration
O21‐Hemocompatibility of newly designedbioabsorbable Zn/ZnO composites
HTYang1, ZH Wang2(co‐firstauthor), HF Li1, YF Zheng1,*,YW Li2 and R Li2
1Departmentof Materials Science and Engineering, College of Engineering, PekingUniversity,
Beijing100871, China; 2Department of General Surgery,Zhengzhou University Affiliated
LuoyangCentral Hospital, Luoyang 471009, China
SOP30‐In vitro degradation of PLA/Mgcomposites: Relevance of matrix and filler nature
S.C.Cifuentes1,2, M. Lieblich1,R. Benavente2, J.L. González‐Carrasco1,3
1CentroNacional de Investigaciones Metalúrgicas CENIM‐CSIC, Spain; 2Institutode Ciencia y
Tecnologíade Polímeros ICTP‐CSIC, Spain; 5Centrode Investigación Biomédica en Red de
Bioingeniería,Biomateriales y Nanomedicina CIBER‐BBN, Spain
Matrix: crystalline and amorpous
Filler: Mg, Mg-5Zn
The composite can be tailored by controllingcrystallinity degree of the matrix and Mg particle nature/shape.
SOP32‐Comparison of crystalline and amorphousversions of a magnesium‐based alloy: corrosion and cellresponse
JByrne1, ED O Cearbhaill1,DJ Browne1
1Schoolof Mechanical and Materials Engineering, University College Dublin, Ireland
Mg-5Zn-Ca
BMG/ Crystalline
72h in DMEM
O22‐The response of human endothelial andsmooth muscle cells to high concentrations of magnesium
SCastiglioni1, A Cazzaniga1,JA Maier1
1Universitàdi Milano, Milano, Italy
An ideal stent would
1 do its job and then disappear
2 have adequate radial force to prevent collapsing
3 be made of biocompatible materials to prevent vesselirritation and actually
4 promote the restoration of the damaged artery to ahealthy artery.
High Mg promotes the growth and migration of endothelialcells.
High Mg inhibits inflammation
Mg stimulates the synthesis of prostacyclin and nitricoxide
High Mg inhibits the migration of vascular smooth musclecells.
High Mg promotes the growth of vascular smooth musclecells
co-culture endothelial/vascular smooth muscle cells
Conditioned media transwell
Mg
Prevention of clot formation
Reduction of inflammation
Promotion of endothelialaztion
O23‐Analysis of the response of bone cellstowards magnesium alloys by proteomics
HSchlüter1, M Omidi1,M Kwiatkowski1, M Wurlitzer1,A Burmester2, Berengere Luthringer2,
RRömer‐Willumeit
1MassSpectrometric Proteomics, Department of Clinical Chemistry & Laboratory Medicine
UniversityMedical Center Hamburg‐Eppendorf, Hamburg; 2Centrefor Materials and Coastal
Research,Helmholtz‐Zentrum Geesthacht, Geesthacht, Germany
Proteomics can give information about the kind ofresponse of cells to perturbations.
Huang Y FASEB J 2007 21:732-742
AHANAK can modulate Ca2+ channels
Information about the response to elevated Mg2+
Kwlatkowski et al. Angew Chem Int Ed 2015, 54
SOP35‐Investigation the impact of magnesium‐implants compared to titaniumimplant
on protein composition in culturedosteoblast by label free quantification
MOmidi1, A Burmester2,P Kiani1, M Kwiatkowski1,B Luthringer2, R Willumeit2,H Schlüter1
1MassSpectrometric Proteomics, Department of Clinical Chemistry & LaboratoryMedicine,
UniversityMedical Center Hamburg‐Eppendorf, Hamburg, Germany; 2Centrefor Materials
andCoastal Research, Helmholtz‐Zentrum Geesthacht, Geesthacht, Germany
SOP33‐Understanding the response of skeletaltissue to Magnesium alloy corrosion
DMaradze1, M Lewis2,Y Zheng3, Y Liu1,
1WolfsonSchool of Mechanical and Manufacturing Engineering, Loughborough University,
UK;2School of Sport, Exercise andHealth Science, Loughborough University, UK; 3Collegeof
Engineering,Peking University, Beijing, China
Myoblast were cultured and allowed to fuse into maturemyotubes, then were maintained in Mg conditioned medium.
SOP34‐Evaluation of murine adipose derivedmesenchymal stem cell behaviour on PCL and P(3HB)/P(4HB) coated magnesiumscaffolds
MGrau¹, J Matena¹, L Roland¹, M Gieseke², M Teske³, S Petersen4,A Kampmann5, I Linke5,H
MuruaEscobar6, NC Gellrich5,H Haferkamp7, I Nolte¹
¹SmallAnimal Clinic, University of Veterinary Medicine Hannover Foundation; ²Laser
ZentrumHannover e.V.; ³Institute for Biomedical Engineering, Rostock UniversityMedical
Center;4Fakultaet Ingenieurwissenschaftenund Informatik, University of Applied Sciences,
Osnabrueck;5Department of Oral andMaxillofacial Surgery, Hannover Medical School;
6Divisionof Medicine Clinic III, Hematology, Oncology and Palliative Medicine, Rostock
UniversityMedical Center; 7Institut fuerWerkstoffkunde, Leibniz Universitaet Hannover,
Germany
Dip coating
Keep the degradation products on the surface of PCL andP(3HB)/P(4HB)
下午
K5‐Overview of long term clinical studyperformed in Korea
HSHan1, HK Seok 1,2,YC Kim 1,2
1Centerfor bio‐materials, Korea Institute of Science and Technology, Korea; 2Departmentof
Bio‐medicalEngineering, University of Science & Technology, Korea
Mg-2Ca-Zn
0 month-12month
2013.07.09开始,53 patient
All cases show bone growth after 1 year.
K6‐Vascularized bone grafting fixed bybiodegradable magnesium screw for treating osteonecrosis of the femoral head – a pilot clinical trial
XZhang1, D Zhao1,B Wang1, S Huang1,Faqiang‐Lu1, L Qin2*,Y Li3
1Departmentof Orthopedics, Affiliated Zhongshan Hospital of Dalian University,Dalian;
2MusculoskeletalResearch Laboratory, Department of Orthopaedics& Traumatology, The
ChineseUniversity of Hong Kong, Hong Kong SAR; 3DongguanYi'an Technology, China
Over 80 cases with the longest observation time of 24months
99.99Mg
Screw shaft 4mm, length 30-45mm
Fixation of bone flap
Femoral neck fracture
24 months post operation
Ankle fractures
3moths
Metatarsal fractures
3 months
O24‐Corrosion behaviour of 3 Mg‐alloys in bone: a high‐resolutioninvestigation
SGalli1, JU Hammel2,J Herzen3, G Szakács2,F Lukáč4, M Vlček4,I Marco5, A Wennerberg1,R
Willumeit‐Römer2,R Jimbo1
1MalmöUniversity, Sweden; 2Helmholtz‐ZentrumGeesthacht, Germany; 3Technical
Universityof Munich, Germany; 4CharlesUniversity, Prague, Czech Republic; 5KULeuven,
Belgium
Mg10Gd Mg2Ag Mg4Y3RE
20 rats
Synchrotron-base microCT
Edge enhanced
Due to inhomogeneous corrosion in surface area of thesamples increase with times.
O25‐Influence of trace impurities on the invivo degradation of biodegradable Mg–5Zn–0.3Ca
EMartinelli1, J Hofstetter2,S Pogatscher2, P Schmutz3,E Povoden‐Karadeniz4, J Eichler1,A
Myrissa1,T Kraus5, S Fischerauer1,P J Uggowitzer2, J F Löffler2,A Weinberg1
1Departmentof Orthopaedics, Medical University of Graz; 2Laboratoryof Metal Physics and
Technology,Department of Materials, ETH Zurich; 3Laboratoryfor Joining Technologies and
Corrosion,EMPA, Swiss Federal Laboratories for Materials Science and Technology;
4ChristianDoppler Laboratory for Early Stages of Precipitation, Vienna University of
Technology;5Department of Paediatric Orthopaedics,Medical University of Graz, Austria
CP ZX50
XHP ZX50
Cylinder
XHP ZX50 higher implant volume after 8 weeks, buy similarafter 12 weeks
O26‐Dual in vivo Behavior and BiologicalEffect of Mg in Bone
AChaya1,2, DT Chou2,D Hong2, S Yoshizawa1,3,K Verdelis1,3, P N. Kumta1,2,3,C Sfeir1,2,3
1Centerfor Craniofacial Regeneration; 2Departmentof Bioengineering; 3Department ofOral
Biology,University of Pittsburgh, USA
WXQK: 05<Y<4, 0<Ca<1, 0<Ag<0.25, 0<Zr<1
Increased porosity in bone overgrowth
Mg degradation can enhance periosteal bone formation
O27‐FACS based Analysis of the earlyinflammatory reaction to biodegradable and not biodegradable implantedmaterials in rats
MCHeinze1,2, T Schmidt1,2,S Krummsdorf 1,2, M Geiling 1,2, Z Kronbach1,2,F Witte1,2
1JuliusWolff Institute, Charité‐ Universitaetsmedizin Berlin; 2BerlinBrandenburg Center for
RegenerativeTherapies (BCRT), Charité‐ Universitaetsmedizin Berlin, Germany
Flow cytometry
PEEK, Polystrene(PS), Pure Mg capsule
1,3,7,14,21,28 days
Significant higher number of leukocytes for PS at earlystage.
Mg corrosion did not increase the number of inflammatorycells.
O28‐In vitro and In vivo characterizationof biodegradable Zinc coronary stent
JZhou1, H Gong1,X Miao1, Y Wang1,X Yan1, Y Zhang1,G Guo1, M Zhao1,G Qu1
1Xi'anAdvanced Medical Technology, China
In vitro immersion in SBF
Zn5(OH)8Cl2.H2O (>70%)and ZnO
Zn stent 22mg
Theoretically, 850mL of SBFcould dissolve a degraded Znstent
A degraded Zn stent release of 0.07mg Zn ion daily
Zn stent
Diameter 3mm length 12mm
Strut thickness : 160 micrometer
Profile 1mmelectrochemically polished
radicial force 49kPa
in vivo degradation products: ZnO Zn(OH)2 Zn3(PO4)2
minimal calcium
O29‐Ceramized magnesium scaffolds withsubmillimetre channel structures for bone reconstruction: In vitrocharacterization and preliminary in vivo results
AKopp1, O Jung2,P Hartjen2, H Hanken2,R Smeets2, C Ptock1,D Porchetta1, S Schneider3,A
Klink3,F Klocke3
1MeotecGmbH & Co. KG, Aachen; 2Departmentof Oral & Maxillofacial Surgery, University
MedicalCenter Hamburg‐Eppendorf; 3ManufacturingTechnology, Laboratory for Machine
Toolsand Production Engineering, Aachen University, Germany
Space for bone ingrowth and vasculariztion
Less Mg materials
Significant increased surface
Ceramic coating for degradation control
Porousity47~49%
PEO coating
WE43 with E6 PEO coating show similar degradation rate
SOP36‐Early experiences with thebiocompatibility of zinc and its alloys in the murine aorta
PKBowen1, RJ Guillory II2,ER Shearier2, J Drelich1,J Goldman2
1Departmentof Materials Science and Engineering; 2Departmentof Biomedical Engineering,
MichiganTechnological University, Houghton, MI, USA
Only minor neointimal growth apparent at 4 months
4N Zn in the lumen
SOP37‐Preliminary in vivo study on iron‐based alloy implantation in rat model
APurnama1,2, MC Drolet1,J Couet1, D Mantovani2
1InstitutUniversitaire de Cardiologie et de Pnemulogie de Québec, Department ofMedicine,
LavalUniversity, Canada 2Laboratory forBiomaterials and Bioengineering, Department
Min‐Met‐Materials,Laval University, Canada
SS316L, E-Fe, A-Fe, Fe-35Mn plate
Disc implantation were accompanied with imflammatorycells
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