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Items: 1 to 20 of 169

1.
2.

Autogeneic bone marrow and porous biphasic calcium phosphate ceramic for segmental bone defects in the canine ulna.

Grundel RE, Chapman MW, Yee T, Moore DC.

Clin Orthop Relat Res. 1991 May;(266):244-58.

PMID:
1850335
3.

Improved healing efficacy in canine ulnar segmental defects with increasing recombinant human bone morphogenetic protein-2/allograft ratios.

Jones CB, Sabatino CT, Badura JM, Sietsema DL, Marotta JS.

J Orthop Trauma. 2008 Sep;22(8):550-9. doi: 10.1097/BOT.0b013e318180f0f0.

PMID:
18758287
4.
5.

Osseointegration of hydroxyapatite and remodeling-resorption of tricalciumphosphate ceramics.

Draenert M, Draenert A, Draenert K.

Microsc Res Tech. 2013 Apr;76(4):370-80. doi: 10.1002/jemt.22176. Epub 2013 Feb 7.

PMID:
23390042
6.

Porous ceramics as bone graft substitutes in long bone defects: a biomechanical, histological, and radiographic analysis.

Johnson KD, Frierson KE, Keller TS, Cook C, Scheinberg R, Zerwekh J, Meyers L, Sciadini MF.

J Orthop Res. 1996 May;14(3):351-69.

PMID:
8676247
7.

Evaluation of a novel biphasic calcium phosphate in standardized bone defects: a histologic and histomorphometric study in the mandibles of minipigs.

Jensen SS, Yeo A, Dard M, Hunziker E, Schenk R, Buser D.

Clin Oral Implants Res. 2007 Dec;18(6):752-60. Epub 2007 Sep 20.

PMID:
17888014
8.
9.

Bone in-growth induced by biphasic calcium phosphate ceramic in femoral defect of dogs.

Manjubala I, Sastry TP, Kumar RV.

J Biomater Appl. 2005 Apr;19(4):341-60.

PMID:
15788429
10.
11.

Early weight bearing of porous HA/TCP (60/40) ceramics in vivo: a longitudinal study in a segmental bone defect model of rabbit.

Balçik C, Tokdemir T, Senköylü A, Koç N, Timuçin M, Akin S, Korkusuz P, Korkusuz F.

Acta Biomater. 2007 Nov;3(6):985-96. Epub 2007 Jun 15.

PMID:
17574942
12.

Behaviour of tricalcium phosphate and hydroxyapatite granules in sheep bone defects.

Gatti AM, Zaffe D, Poli GP.

Biomaterials. 1990 Sep;11(7):513-7.

PMID:
2242401
13.

[Effect of fibrin on osseointegration of bioactive glass-ceramic materials--experimental study].

Urban K, Povýsil C, Spelda S.

Acta Chir Orthop Traumatol Cech. 2001;68(3):168-75. Czech.

PMID:
11706539
14.

Comparison of plasma-sprayed hydroxyapatite coatings and hydroxyapatite/tricalcium phosphate composite coatings: in vivo study.

Lee TM, Wang BC, Yang YC, Chang E, Yang CY.

J Biomed Mater Res. 2001 Jun 5;55(3):360-7.

PMID:
11255189
16.

Radiological and histological analysis of synthetic bone grafts in recurring giant cell tumour of bone: a retrospective study.

Hattori H, Matsuoka H, Yamamoto K.

J Orthop Surg (Hong Kong). 2010 Apr;18(1):63-7.

PMID:
20427837
17.
18.

Inflammatory response and bone healing capacity of two porous calcium phosphate ceramics in critical size cortical bone defects.

Chatterjea A, van der Stok J, Danoux CB, Yuan H, Habibovic P, van Blitterswijk CA, Weinans H, de Boer J.

J Biomed Mater Res A. 2014 May;102(5):1399-407. doi: 10.1002/jbm.a.34815. Epub 2013 Jun 12.

PMID:
23733500
19.

Chitosan/gelatin/platelet gel enriched by a combination of hydroxyapatite and beta-tricalcium phosphate in healing of a radial bone defect model in rat.

Oryan A, Alidadi S, Bigham-Sadegh A, Meimandi-Parizi A.

Int J Biol Macromol. 2017 Aug;101:630-637. doi: 10.1016/j.ijbiomac.2017.03.148. Epub 2017 Mar 28.

PMID:
28363647
20.

Ingrowth and formation of bone in defects in an uncemented fiber-metal total hip-replacement model in dogs.

Kang JD, McKernan DJ, Kruger M, Mutschler T, Thompson WH, Rubash HE.

J Bone Joint Surg Am. 1991 Jan;73(1):93-105. Review.

PMID:
1985999

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