Osteoconduction at porous hydroxyapatite with various pore configurations

To assess the histological response and the reinforcing effects of bone ingrowth within porous hydroxyapatite (HA) implants depending on pore geometry, four kinds of cylindrical-type with parallel linear pores ( φ50, 100, 300, 500 μm), one kind of sponge-type with irregular interconnecting pores ( φ...

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Bibliographic Details
Published in:	Biomaterials Vol. 21; no. 12; pp. 1291 - 1298
Main Authors:	Chang, Bong-Soon, Lee, >>>inits>C.K.>>>fnm>Choon-Ki, Hong, Kug-Sun, Youn, Hyuk-Joon, Ryu, Hyun-Seung, Chung, Sung-Soo, Park, Kun-Woo
Format:	Journal Article
Language:	English
Published:	Oxford Elsevier Ltd 01-06-2000 Elsevier Science
Subjects:	Animals Biological and medical sciences Biomechanics Bone Substitutes - chemistry Bone Substitutes - pharmacology Calcium compounds Cell Adhesion Compression testing Compressive Strength Durapatite - chemistry Durapatite - pharmacology Geometry Hydroxyapatite Materials Testing Medical sciences Microscopy, Electron, Scanning Morphology Orthopedic surgery Osseointegration Osteoconduction Phosphate minerals Pore Porosity Porous materials Rabbits Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases Tibia - surgery Tibia - ultrastructure Geometry Hydroxyapatite Pore Osteoconduction Rabbit Histology Bone remodeling Lagomorpha Porous material Biomechanics Osteoarticular system Implanted material Vertebrata Orthopedic surgery Mammalia Animal Geometrical factor Biomedical engineering
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Summary:	To assess the histological response and the reinforcing effects of bone ingrowth within porous hydroxyapatite (HA) implants depending on pore geometry, four kinds of cylindrical-type with parallel linear pores ( φ50, 100, 300, 500 μm), one kind of sponge-type with irregular interconnecting pores ( φ250 μm) and one cross-type with crossing linear pores ( φ100×120 μm) of porous HA were prepared. Eighty-four rabbits were divided into six groups, and a 5×5×7 mm sized porous HA block was inserted through the medial cortical window of the proximal tibia. Histomorphological changes were examined using light and scanning electron microscopy. A biomechanical compression test was performed using material test machines. After implantation, the implants showed different histological changes depending on pore geometry. Active osteoconduction was also found in the φ50 μm sized cylindrical-type porous HA. Evidence of remodeling of new bone and bone marrow formation within porous HA was found in the larger cylindrical-types ( φ300, 500 μm), and the sponge- and cross-types. The biomechanical test showed that the ultimate compressive strength increased significantly in the φ300 μm sized cylindrical-type, and in the sponge- and cross-types eight weeks after implantation. Porous HA with cylindrical pores could be a useful graft material due to its strength, osteoconductivity and the ease with which its pore geometry can be controlled.
Bibliography:	ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 23 ObjectType-Article-1 ObjectType-Feature-2
ISSN:	0142-9612 1878-5905
DOI:	10.1016/S0142-9612(00)00030-2