-
1
-
-
84885191168
-
Fatigue behavior of porous biomaterials manufactured using selective laser melting
-
Amin Yavari S., Wauthle R., van der Stok J., Riemslag A., Janssen M., Mulier M., Kruth J., Schrooten J., Weinans H., Zadpoor A. Fatigue behavior of porous biomaterials manufactured using selective laser melting. Mater. Sci. Eng.: C 2013, 33:4849-4858.
-
(2013)
Mater. Sci. Eng.: C
, vol.33
, pp. 4849-4858
-
-
Amin Yavari, S.1
Wauthle, R.2
van der Stok, J.3
Riemslag, A.4
Janssen, M.5
Mulier, M.6
Kruth, J.7
Schrooten, J.8
Weinans, H.9
Zadpoor, A.10
-
2
-
-
84859104708
-
Mechanical properties of open-cell rhombic dodecahedron cellular structures
-
Babaee S., Jahromi B.H., Ajdari A., Nayeb-Hashemi H., Vaziri A. Mechanical properties of open-cell rhombic dodecahedron cellular structures. Acta Mater. 2012, 60:2873-2885.
-
(2012)
Acta Mater.
, vol.60
, pp. 2873-2885
-
-
Babaee, S.1
Jahromi, B.H.2
Ajdari, A.3
Nayeb-Hashemi, H.4
Vaziri, A.5
-
3
-
-
84858120113
-
Development and mechanical characterization of porous titanium bone substitutes
-
Barbas A., Bonnet A.S., Lipinski P., Pesci R., Dubois G. Development and mechanical characterization of porous titanium bone substitutes. J. Mech. Behav. Biomed. Mater. 2012, 9:34-44.
-
(2012)
J. Mech. Behav. Biomed. Mater.
, vol.9
, pp. 34-44
-
-
Barbas, A.1
Bonnet, A.S.2
Lipinski, P.3
Pesci, R.4
Dubois, G.5
-
5
-
-
84875543515
-
Mechanical properties of open-cell metallic biomaterials manufactured using additive manufacturing
-
Campoli G., Borleffs M., Amin Yavari S., Wauthle R., Weinans H., Zadpoor A. Mechanical properties of open-cell metallic biomaterials manufactured using additive manufacturing. Mater. Des. 2013, 49:957-965.
-
(2013)
Mater. Des.
, vol.49
, pp. 957-965
-
-
Campoli, G.1
Borleffs, M.2
Amin Yavari, S.3
Wauthle, R.4
Weinans, H.5
Zadpoor, A.6
-
6
-
-
84875543515
-
Mechanical properties of open-cell metallic biomaterials manufactured using additive manufacturing
-
Campoli G., Borleffs M.S., Amin Yavari S., Wauthle R., Weinans H., Zadpoor A.A. Mechanical properties of open-cell metallic biomaterials manufactured using additive manufacturing. Mater. Des. 2013, 49:957-965.
-
(2013)
Mater. Des.
, vol.49
, pp. 957-965
-
-
Campoli, G.1
Borleffs, M.S.2
Amin Yavari, S.3
Wauthle, R.4
Weinans, H.5
Zadpoor, A.A.6
-
8
-
-
0037393191
-
Graphic-based musculoskeletal model for biomechanical analyses and animation
-
Chao E. Graphic-based musculoskeletal model for biomechanical analyses and animation. Med. Eng. Phys. 25 2003, 201-212.
-
(2003)
Med. Eng. Phys. 25
, pp. 201-212
-
-
Chao, E.1
-
9
-
-
77549086659
-
Effect of cell seeding and mechanical loading on vascularization and tissue formation inside a scaffold: a mechano-biological model using a lattice approach to simulate cell activity
-
Checa S., Prendergast P.J. Effect of cell seeding and mechanical loading on vascularization and tissue formation inside a scaffold: a mechano-biological model using a lattice approach to simulate cell activity. J. Biomech. 2010, 43:961-968.
-
(2010)
J. Biomech.
, vol.43
, pp. 961-968
-
-
Checa, S.1
Prendergast, P.J.2
-
11
-
-
0020477533
-
The mechanics of two-dimensional cellular materials
-
Gibson L.J., Ashby M.F., Schajer G.S., Robertson C.I. The mechanics of two-dimensional cellular materials. Proc. R. Soc. Lond. Ser A, Math. Phys. Sci. 1982, 382:25-42.
-
(1982)
Proc. R. Soc. Lond. Ser A, Math. Phys. Sci.
, vol.382
, pp. 25-42
-
-
Gibson, L.J.1
Ashby, M.F.2
Schajer, G.S.3
Robertson, C.I.4
-
12
-
-
33644807709
-
High strength, low stiffness, porous NiTi with superelastic properties
-
Greiner C., Oppenheimer S.M., Dunand D.C. High strength, low stiffness, porous NiTi with superelastic properties. Acta Biomater. 2005, 1:705-716.
-
(2005)
Acta Biomater.
, vol.1
, pp. 705-716
-
-
Greiner, C.1
Oppenheimer, S.M.2
Dunand, D.C.3
-
13
-
-
36649038367
-
Custom-designed orthopedic implants evaluated using finite element analysis of patient-specific computed tomography data: femoral-component case study
-
Harrysson O.L., Hosni Y.A., Nayfeh J.F. Custom-designed orthopedic implants evaluated using finite element analysis of patient-specific computed tomography data: femoral-component case study. BMC. Musculoskelet. Disord. 2007, 8:91.
-
(2007)
BMC. Musculoskelet. Disord.
, vol.8
, pp. 91
-
-
Harrysson, O.L.1
Hosni, Y.A.2
Nayfeh, J.F.3
-
14
-
-
55349138081
-
Selective electron beam melting of cellular titanium: mechanical properties
-
Heinl P., Körner C., Singer R.F. Selective electron beam melting of cellular titanium: mechanical properties. Adv. Eng. Mater. 2008, 10:882-888.
-
(2008)
Adv. Eng. Mater.
, vol.10
, pp. 882-888
-
-
Heinl, P.1
Körner, C.2
Singer, R.F.3
-
15
-
-
46749127071
-
Cellular Ti-6Al-4V structures with interconnected macro porosity for bone implants fabricated by selective electron beam melting
-
Heinl P., Müller L., Körner C., Singer R.F., Müller F.A. Cellular Ti-6Al-4V structures with interconnected macro porosity for bone implants fabricated by selective electron beam melting. Acta Biomater. 2008, 4:1536-1544.
-
(2008)
Acta Biomater.
, vol.4
, pp. 1536-1544
-
-
Heinl, P.1
Müller, L.2
Körner, C.3
Singer, R.F.4
Müller, F.A.5
-
16
-
-
85016033318
-
Mechanical loading of Branemark implants affects interfacial bone modeling and remodeling
-
Hoshaw S.J., Brunski J.B., Cochran G.V. Mechanical loading of Branemark implants affects interfacial bone modeling and remodeling. Int. J. Oral Maxillofac. Implants 1994, 9:345-360.
-
(1994)
Int. J. Oral Maxillofac. Implants
, vol.9
, pp. 345-360
-
-
Hoshaw, S.J.1
Brunski, J.B.2
Cochran, G.V.3
-
17
-
-
80054107089
-
Compression-compression fatigue of selective electron beam melted cellular titanium (Ti-6Al-4V)
-
Hrabe N.W., Heinl P., Flinn B., Körner C., Bordia R.K. Compression-compression fatigue of selective electron beam melted cellular titanium (Ti-6Al-4V). J. Biomed. Mater. Res. - Part B Appl. Biomater. 99 B 2011, 313-320.
-
(2011)
J. Biomed. Mater. Res. - Part B Appl. Biomater. 99 B
, pp. 313-320
-
-
Hrabe, N.W.1
Heinl, P.2
Flinn, B.3
Körner, C.4
Bordia, R.K.5
-
18
-
-
84894294787
-
-
ISO. Mechanical testing of metals - Ductility testing - Compression test for porous and cellular metals (ISO 13314:2011).
-
ISO, 2011. Mechanical testing of metals - Ductility testing - Compression test for porous and cellular metals (ISO 13314:2011).
-
(2011)
-
-
-
19
-
-
38749109650
-
On the microstructure of open-cell foams and its effect on elastic properties
-
Jang W.-Y., Kraynik A.M., Kyriakides S. On the microstructure of open-cell foams and its effect on elastic properties. Int. J. Solids Struct. 2008, 45:1845-1875.
-
(2008)
Int. J. Solids Struct.
, vol.45
, pp. 1845-1875
-
-
Jang, W.-Y.1
Kraynik, A.M.2
Kyriakides, S.3
-
20
-
-
10044275513
-
Growth factor-loaded scaffolds for bone engineering
-
Jansen J., Vehof J., Ruhe P., Kroeze-Deutman H., Kuboki Y., Takita H., Hedberg E., Mikos A. Growth factor-loaded scaffolds for bone engineering. J. Controll. Release 2005, 101:127-136.
-
(2005)
J. Controll. Release
, vol.101
, pp. 127-136
-
-
Jansen, J.1
Vehof, J.2
Ruhe, P.3
Kroeze-Deutman, H.4
Kuboki, Y.5
Takita, H.6
Hedberg, E.7
Mikos, A.8
-
21
-
-
13844276569
-
Binding mechanisms in selective laser sintering and selective laser melting
-
Kruth J.-P., Mercelis P., Van Vaerenbergh J., Froyen L., Rombouts M. Binding mechanisms in selective laser sintering and selective laser melting. Rapid Prototyp. J. 2005, 11:26-36.
-
(2005)
Rapid Prototyp. J.
, vol.11
, pp. 26-36
-
-
Kruth, J.-P.1
Mercelis, P.2
Van Vaerenbergh, J.3
Froyen, L.4
Rombouts, M.5
-
22
-
-
0042388582
-
Effect of porosity on the osteointegration and bone ingrowth of a weight-bearing nickel-titanium bone graft substitute
-
Kujala S., Ryhänen J., Danilov A., Tuukkanen J. Effect of porosity on the osteointegration and bone ingrowth of a weight-bearing nickel-titanium bone graft substitute. Biomaterials 2003, 24:4691-4697.
-
(2003)
Biomaterials
, vol.24
, pp. 4691-4697
-
-
Kujala, S.1
Ryhänen, J.2
Danilov, A.3
Tuukkanen, J.4
-
23
-
-
80052910934
-
Non-periodic space structures
-
Lalvani H. Non-periodic space structures. Int. J. Space Struct. 2011, 26:139-154.
-
(2011)
Int. J. Space Struct.
, vol.26
, pp. 139-154
-
-
Lalvani, H.1
-
24
-
-
2942752083
-
Effects of pore morphology and bone ingrowth on mechanical properties of microporous titanium as an orthopaedic implant material
-
Li H., Oppenheimer S.M., Stupp S.I., Dunand D.C., Brinson L.C. Effects of pore morphology and bone ingrowth on mechanical properties of microporous titanium as an orthopaedic implant material. Mater. Trans. 2004, 45:1124-1131.
-
(2004)
Mater. Trans.
, vol.45
, pp. 1124-1131
-
-
Li, H.1
Oppenheimer, S.M.2
Stupp, S.I.3
Dunand, D.C.4
Brinson, L.C.5
-
25
-
-
74549125438
-
Fabrication and compressive properties of Ti6Al4V implant with honeycomb-like structure for biomedical applications
-
Li X., Wang C., Zhang W., Li Y. Fabrication and compressive properties of Ti6Al4V implant with honeycomb-like structure for biomedical applications. Rapid Prototyp. J. 2010, 16:44-49.
-
(2010)
Rapid Prototyp. J.
, vol.16
, pp. 44-49
-
-
Li, X.1
Wang, C.2
Zhang, W.3
Li, Y.4
-
26
-
-
35048867515
-
Structural and mechanical evaluations of a topology optimized titanium interbody fusion cage fabricated by selective laser melting process
-
Lin C.Y., Wirtz T., LaMarca F., Hollister S.J. Structural and mechanical evaluations of a topology optimized titanium interbody fusion cage fabricated by selective laser melting process. J. Biomed. Mater. Res. A. 2007, 83:272-279.
-
(2007)
J. Biomed. Mater. Res. A.
, vol.83
, pp. 272-279
-
-
Lin, C.Y.1
Wirtz, T.2
LaMarca, F.3
Hollister, S.J.4
-
27
-
-
0032170254
-
Titanium alloys in total joint replacement - a materials science perspective
-
Long M., Rack H. Titanium alloys in total joint replacement - a materials science perspective. Biomaterials 1998, 19:1621-1639.
-
(1998)
Biomaterials
, vol.19
, pp. 1621-1639
-
-
Long, M.1
Rack, H.2
-
28
-
-
65949109480
-
Selective Laser Melting: A regular unit cell approach for the manufacture of porous, titanium, bone in-growth constructs, suitable for orthopedic applications
-
Mullen L., Stamp R.C., Brooks W.K., Jones E., Sutcliffe C.J. Selective Laser Melting: A regular unit cell approach for the manufacture of porous, titanium, bone in-growth constructs, suitable for orthopedic applications. J. Biomed. Mater. Res. Part B: Appl. Biomater. 2009, 89:325-334.
-
(2009)
J. Biomed. Mater. Res. Part B: Appl. Biomater.
, vol.89
, pp. 325-334
-
-
Mullen, L.1
Stamp, R.C.2
Brooks, W.K.3
Jones, E.4
Sutcliffe, C.J.5
-
29
-
-
79952041031
-
An improved cost function for modeling of muscle activity during running
-
Nikooyan A.A., Zadpoor A.A. An improved cost function for modeling of muscle activity during running. J. Biomech. 2011, 44:984-987.
-
(2011)
J. Biomech.
, vol.44
, pp. 984-987
-
-
Nikooyan, A.A.1
Zadpoor, A.A.2
-
30
-
-
84857617437
-
Effects of muscle fatigue on the ground reaction force and soft-tissue vibrations during running: a model study
-
Nikooyan A.A., Zadpoor A.A. Effects of muscle fatigue on the ground reaction force and soft-tissue vibrations during running: a model study. IEEE Trans. Biomed. Eng. 2012, 59:797-804.
-
(2012)
IEEE Trans. Biomed. Eng.
, vol.59
, pp. 797-804
-
-
Nikooyan, A.A.1
Zadpoor, A.A.2
-
31
-
-
0141510037
-
Mechanical properties of porous titanium compacts prepared by powder sintering
-
Oh I.-H., Nomura N., Masahashi N., Hanada S. Mechanical properties of porous titanium compacts prepared by powder sintering. Scr. Mater. 2003, 49:1197-1202.
-
(2003)
Scr. Mater.
, vol.49
, pp. 1197-1202
-
-
Oh, I.-H.1
Nomura, N.2
Masahashi, N.3
Hanada, S.4
-
32
-
-
80051664691
-
A design for the additive manufacture of functionally graded porous structures with tailored mechanical properties for biomedical applications
-
Parthasarathy J., Starly B., Raman S. A design for the additive manufacture of functionally graded porous structures with tailored mechanical properties for biomedical applications. J. Manuf. Process. 2011, 13:160-170.
-
(2011)
J. Manuf. Process.
, vol.13
, pp. 160-170
-
-
Parthasarathy, J.1
Starly, B.2
Raman, S.3
-
33
-
-
75149134663
-
Mechanical evaluation of porous titanium (Ti6Al4V) structures with electron beam melting (EBM)
-
Parthasarathy J., Starly B., Raman S., Christensen A. Mechanical evaluation of porous titanium (Ti6Al4V) structures with electron beam melting (EBM). J. Mech. Behav. Biomed. Mater. 2010, 3:249-259.
-
(2010)
J. Mech. Behav. Biomed. Mater.
, vol.3
, pp. 249-259
-
-
Parthasarathy, J.1
Starly, B.2
Raman, S.3
Christensen, A.4
-
34
-
-
34147152190
-
Animal models for implant biomaterial research in bone: a review
-
Pearce A., Richards R., Milz S., Schneider E., Pearce S. Animal models for implant biomaterial research in bone: a review. Eur. Cell Mater. 2007, 13:1-10.
-
(2007)
Eur. Cell Mater.
, vol.13
, pp. 1-10
-
-
Pearce, A.1
Richards, R.2
Milz, S.3
Schneider, E.4
Pearce, S.5
-
35
-
-
0020617863
-
Powder metal-made orthopedic implants with porous surface for fixation by tissue ingrowth
-
Pilliar R. Powder metal-made orthopedic implants with porous surface for fixation by tissue ingrowth. Clin. Orthop. Relat. Res. 1983, 176:42-51.
-
(1983)
Clin. Orthop. Relat. Res.
, vol.176
, pp. 42-51
-
-
Pilliar, R.1
-
36
-
-
84877806368
-
Patient-specific finite element modeling of bones
-
Poelert S., Valstar E., Weinans H., Zadpoor A.A. Patient-specific finite element modeling of bones. Proc. Inst. Mech. Eng., Part H: J. Eng. Med. 2013, 227:464-478.
-
(2013)
Proc. Inst. Mech. Eng., Part H: J. Eng. Med.
, vol.227
, pp. 464-478
-
-
Poelert, S.1
Valstar, E.2
Weinans, H.3
Zadpoor, A.A.4
-
37
-
-
0036131812
-
Elastic properties of model random three-dimensional open-cell solids
-
Roberts A.P., Garboczi E.J. Elastic properties of model random three-dimensional open-cell solids. J. Mech. Phys. Solids. 2002, 50:33-55.
-
(2002)
J. Mech. Phys. Solids.
, vol.50
, pp. 33-55
-
-
Roberts, A.P.1
Garboczi, E.J.2
-
38
-
-
0031080798
-
A musculoskeletal model of the knee for evaluating ligament forces during isometric contractions
-
Shelburne K.B., Pandy M.G. A musculoskeletal model of the knee for evaluating ligament forces during isometric contractions. J. Biomech. 1997, 30:163-176.
-
(1997)
J. Biomech.
, vol.30
, pp. 163-176
-
-
Shelburne, K.B.1
Pandy, M.G.2
-
39
-
-
38649126898
-
A general tetrakaidecahedron model for open-celled foams
-
Sullivan R.M., Ghosn L.J., Lerch B.A. A general tetrakaidecahedron model for open-celled foams. Int. J Solids Struct. 2008, 45:1754-1765.
-
(2008)
Int. J Solids Struct.
, vol.45
, pp. 1754-1765
-
-
Sullivan, R.M.1
Ghosn, L.J.2
Lerch, B.A.3
-
40
-
-
2942534210
-
Mechanics considerations for microporous titanium as an orthopedic implant material
-
Thelen S., Barthelat F., Brinson L.C. Mechanics considerations for microporous titanium as an orthopedic implant material. J. Biomed. Mater. Res. A. 2004, 69A:601-610.
-
(2004)
J. Biomed. Mater. Res. A.
, vol.69 A
, pp. 601-610
-
-
Thelen, S.1
Barthelat, F.2
Brinson, L.C.3
-
41
-
-
77950388666
-
Elastic properties of open-cell foams with tetrakaidecahedral cells using finite element analysis
-
Thiyagasundaram P., Sankar B.V., Arakere N.K. Elastic properties of open-cell foams with tetrakaidecahedral cells using finite element analysis. AIAA J. 2010, 48:818-828.
-
(2010)
AIAA J.
, vol.48
, pp. 818-828
-
-
Thiyagasundaram, P.1
Sankar, B.V.2
Arakere, N.K.3
-
42
-
-
52049098001
-
Direct laser metal sintering as a new approach to fabrication of an isoelastic functionally graded material for manufacture of porous titanium dental implants
-
Traini T., Mangano C., Sammons R., Mangano F., Macchi A., Piattelli A. Direct laser metal sintering as a new approach to fabrication of an isoelastic functionally graded material for manufacture of porous titanium dental implants. Dent. Mater. 2008, 24:1525-1533.
-
(2008)
Dent. Mater.
, vol.24
, pp. 1525-1533
-
-
Traini, T.1
Mangano, C.2
Sammons, R.3
Mangano, F.4
Macchi, A.5
Piattelli, A.6
-
43
-
-
84857783703
-
Prediction of permeability of regular scaffolds for skeletal tissue engineering: A combined computational and experimental study
-
Truscello S., Kerckhofs G., Van Bael S., Pyka G., Schrooten J., Van Oosterwyck H. Prediction of permeability of regular scaffolds for skeletal tissue engineering: A combined computational and experimental study. Acta Biomater. 2012, 8:1648-1658.
-
(2012)
Acta Biomater.
, vol.8
, pp. 1648-1658
-
-
Truscello, S.1
Kerckhofs, G.2
Van Bael, S.3
Pyka, G.4
Schrooten, J.5
Van Oosterwyck, H.6
-
44
-
-
84861603798
-
The effect of pore geometry on the in vitro biological behavior of human periosteum-derived cells seeded on selective laser-melted Ti6Al4V bone scaffolds
-
Van Bael S., Chai Y.C., Truscello S., Moesen M., Kerckhofs G., Van Oosterwyck H., Kruth J.P., Schrooten J. The effect of pore geometry on the in vitro biological behavior of human periosteum-derived cells seeded on selective laser-melted Ti6Al4V bone scaffolds. Acta Biomater. 2012, 8:2824-2834.
-
(2012)
Acta Biomater.
, vol.8
, pp. 2824-2834
-
-
Van Bael, S.1
Chai, Y.C.2
Truscello, S.3
Moesen, M.4
Kerckhofs, G.5
Van Oosterwyck, H.6
Kruth, J.P.7
Schrooten, J.8
-
45
-
-
84875209842
-
Selective laser melting-produced porous titanium scaffolds regenerate bone in critical size cortical bone defects
-
Van der Stok J., Van der Jagt O., Amin Yavari S., De Haas M., Waarsing J., Jahr H., Van Lieshout E., Patka P., Verhaar J., Zadpoor A., Weinans H. Selective laser melting-produced porous titanium scaffolds regenerate bone in critical size cortical bone defects. J. Orthop. Res. 2012, 31:792-799.
-
(2012)
J. Orthop. Res.
, vol.31
, pp. 792-799
-
-
Van der Stok, J.1
Van der Jagt, O.2
Amin Yavari, S.3
De Haas, M.4
Waarsing, J.5
Jahr, H.6
Van Lieshout, E.7
Patka, P.8
Verhaar, J.9
Zadpoor, A.10
Weinans, H.11
-
46
-
-
84889801229
-
Enhanced bone regeneration of cortical segmental bone defects using porous titanium scaffolds incorporated with colloidal gelatin gels for time-and dose-controlled delivery of dual growth factors
-
19, 2605-2614
-
Van der Stok J., Wang H., Amin Yavari S., Siebelt M., Sandker M., Waarsing J.H., Verhaar J.A., Jahr H., Zadpoor A.A., Leeuwenburgh S.C. Enhanced bone regeneration of cortical segmental bone defects using porous titanium scaffolds incorporated with colloidal gelatin gels for time-and dose-controlled delivery of dual growth factors. Tissue Eng. Part A 2013, 19, 2605-2614.
-
(2013)
Tissue Eng. Part A
-
-
Van der Stok, J.1
Wang, H.2
Amin Yavari, S.3
Siebelt, M.4
Sandker, M.5
Waarsing, J.H.6
Verhaar, J.A.7
Jahr, H.8
Zadpoor, A.A.9
Leeuwenburgh, S.C.10
-
47
-
-
0346761904
-
Automatic generation of accurate subject-specific bone finite element models to be used in clinical studies
-
Viceconti M., Davinelli M., Taddei F., Cappello A. Automatic generation of accurate subject-specific bone finite element models to be used in clinical studies. J. Biomech. 2004, 37:1597-1605.
-
(2004)
J. Biomech.
, vol.37
, pp. 1597-1605
-
-
Viceconti, M.1
Davinelli, M.2
Taddei, F.3
Cappello, A.4
-
48
-
-
67649841597
-
Rapid prototyping: porous titanium alloy scaffolds produced by selective laser melting for bone tissue engineering
-
Warnke P.H., Douglas T., Wollny P., Sherry E., Steiner M., Galonska S., Becker S.T., Springer I.N., Wiltfang J., Sivananthan S. Rapid prototyping: porous titanium alloy scaffolds produced by selective laser melting for bone tissue engineering. Tissue Eng. Part C: Methods 2008, 15:115-124.
-
(2008)
Tissue Eng. Part C: Methods
, vol.15
, pp. 115-124
-
-
Warnke, P.H.1
Douglas, T.2
Wollny, P.3
Sherry, E.4
Steiner, M.5
Galonska, S.6
Becker, S.T.7
Springer, I.N.8
Wiltfang, J.9
Sivananthan, S.10
-
49
-
-
0036806731
-
Novel titanium foam for bone tissue engineering
-
Wen C., Yamada Y., Shimojima K., Chino Y., Hosokawa H., Mabuchi M. Novel titanium foam for bone tissue engineering. J. Mater. Res. 2002, 17:2633-2639.
-
(2002)
J. Mater. Res.
, vol.17
, pp. 2633-2639
-
-
Wen, C.1
Yamada, Y.2
Shimojima, K.3
Chino, Y.4
Hosokawa, H.5
Mabuchi, M.6
-
50
-
-
14844322862
-
Bone tissue engineering using polycaprolactone scaffolds fabricated via selective laser sintering
-
Williams J.M., Adewunmi A., Schek R.M., Flanagan C.L., Krebsbach P.H., Feinberg S.E., Hollister S.J., Das S. Bone tissue engineering using polycaprolactone scaffolds fabricated via selective laser sintering. Biomaterials 2005, 26:4817-4827.
-
(2005)
Biomaterials
, vol.26
, pp. 4817-4827
-
-
Williams, J.M.1
Adewunmi, A.2
Schek, R.M.3
Flanagan, C.L.4
Krebsbach, P.H.5
Feinberg, S.E.6
Hollister, S.J.7
Das, S.8
-
51
-
-
84872596819
-
Neural network prediction of load from the morphology of trabecular bone
-
Zadpoor A.A., Campoli G., Weinans H. Neural network prediction of load from the morphology of trabecular bone. Appl. Math. Model. 2013, 37:5260-5276.
-
(2013)
Appl. Math. Model.
, vol.37
, pp. 5260-5276
-
-
Zadpoor, A.A.1
Campoli, G.2
Weinans, H.3
-
52
-
-
70350389828
-
A 2D/3D correspondence building method for reconstruction of a patient-specific 3D bone surface model using point distribution models and calibrated X-ray images
-
Zheng G., Gollmer S., Schumann S., Dong X., Feilkas T., González Ballester M.A. A 2D/3D correspondence building method for reconstruction of a patient-specific 3D bone surface model using point distribution models and calibrated X-ray images. Med. Image. Anal. 2009, 13:883-899.
-
(2009)
Med. Image. Anal.
, vol.13
, pp. 883-899
-
-
Zheng, G.1
Gollmer, S.2
Schumann, S.3
Dong, X.4
Feilkas, T.5
González Ballester, M.A.6
|