Lars Nimb scite author profile

The aim of the present study was to compare the anchorage of TiO2-blasted screw and cylindrical implants with conventionally used machine-produced screw and cylindrical implants inserted immediately in extraction sockets on dogs. 6 adult mongrel dogs had 3rd and 4th mandibular premolars extracted bilaterally and 24 commercial pure titanium implants were placed immediately in extraction sockets and covered with mucoperiosteum. Each dog had inserted 4 implants: 1 screw implant and 1 cylindrical implant blasted with titanium-dioxide-particles; 1 screw implant and 1 cylindrical implant with machine-produced (m.p.) surface (controls). After a healing period of 12 weeks, 16 implants from 4 animals were used for removal torque test, which demonstrated that significantly higher removal torque force was needed to unscrew the implants blasted with titanium-dioxide-particles, than the normal m.p. implants. The medians for the TiO2-blasted screw and cylindrical implants were > 150 Ncm and 105 Ncm, respectively, while the values for the m.p. implants were 60 Ncm and 35 Ncm, respectively. The SEM investigation demonstrated a high irregularity of the TiO2-blasted surface compared to the machined surface. The Ra and Rz values for surface roughness were higher for the TiO2-blasted implants than for the normal m.p. implants. Histomorphometrically, the arithmetic mean of the direct bone-implant contact fraction was 69%. There was no significant difference in direct bone-implant contact length fraction between TiO2-blasted implants and the control implants. The implants blasted with titanium-dioxide-particles in this study showed a better anchorage than implants with a machine-produced surface. The screw implants showed a better anchorage than the cylindrical implants.

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Evaluation of guided bone generation around implants placed into fresh extraction sockets: An experimental study in dogs

Gotfredsen¹,

Nimb²,

Buser³

et al. 1993

Journal of Oral and Maxillofacial Surgery

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Immediate implant placement using a biodegradable barrier, polyhydroxybutyrate‐hydroxyvalerate reinforced with polyglactin 910. An experimental study in dogs.

Gotfredsen

Nimb²,

Hjörting-Hansen

1994

Clinical Oral Implants Res

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The purpose of this study was to evaluate the use of a biodegradable membrane of polyhydroxybutyrate-hydroxyvalerate copolymer reinforced with polyglactin 910 fibers, as an occlusive barrier over implants placed into fresh extraction sockets. Ten dogs had the 3rd and 4th mandibular premolars extracted bilaterally. Each dog had 4 Astra Dental Implants placed directly into the fresh extraction sockets. The top of the fixtures was placed at the same level as the top of the buccal cortical bone. The two implants in the right side were covered with the hydrolyzable polyester material (polyhydroxybutyrate-hydroxyvalerate reinforced with polyglactin 910 fibers; PHB-HV/PG), and the 2 implants in the left side were controls without occlusive membranes. Soft tissue dehiscences were registered for half of the implants in the test side but were not noted in the control side. The histomorphological measurements after 12 weeks showed that the mean distance from the top of the fixtures to the first bone-to-implant contact was significantly greater than for the control side. The membrane-covered implants without dehiscences showed also significantly less bone fill compared with the control side. Inflammatory cell infiltrates were seen adjacent to all PHB-HV/PG membranes, and frequently the membrane material was surrounded by a fibrous tissue capsule. The polyester membranes used in this study interfered with the marginal bone healing adjacent to the immediately placed implants. An increased inflammatory reaction and significantly less marginal bone healing was registered in the membrane side compared with the control side.

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Effects of polymerization heat and monomers from acrylic cement on canine bone

Stürup

Nimb

Kramhøft

et al. 1994

Acta Orthopaedica Scandinavica

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We investigated the effects of polymerization heat and toxicity of polymethylmetacrylate bone cement in the canine tibial diaphysis. Heat was studied by filling the tibias with either bone cement or bone wax contained in a monomer tight membrane pouch. Toxicity was studied by filling both tibias with cement, with the control side contained in the membrane pouch. Bone blood perfusion was measured by microsphere technic, and bone remodeling by 99mTc-methylene diphosphonate uptake and by histologic technique. In bone exposed to the combination of polymerization heat and monomer, both perfusion and remodeling were impaired. We did not find any effects of polymerization heat alone. We conclude that hot toxic chemicals from bone cement during polymerization may inhibit bone blood perfusion and remodeling, whereas heat alone seems to be of minor importance for the regenerative processes in cemented diaphyseal bone.

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Lars Nimb

Histomorphometric and removal torque analysis for TiO₂hyphen;blasted titanium implants. An experimental study on dogs.

Evaluation of guided bone generation around implants placed into fresh extraction sockets: An experimental study in dogs

Immediate implant placement using a biodegradable barrier, polyhydroxybutyrate‐hydroxyvalerate reinforced with polyglactin 910. An experimental study in dogs.

Effects of polymerization heat and monomers from acrylic cement on canine bone

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Lars Nimb

Histomorphometric and removal torque analysis for TiO2hyphen;blasted titanium implants. An experimental study on dogs.

Evaluation of guided bone generation around implants placed into fresh extraction sockets: An experimental study in dogs

Immediate implant placement using a biodegradable barrier, polyhydroxybutyrate‐hydroxyvalerate reinforced with polyglactin 910. An experimental study in dogs.

Effects of polymerization heat and monomers from acrylic cement on canine bone

Contact Info

Product

Resources

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Histomorphometric and removal torque analysis for TiO₂hyphen;blasted titanium implants. An experimental study on dogs.