R. P. Franke scite author profile

Hydroxyapatite (Hap) is a calcium phosphate with a chemical formula that closely resembles that of the mineral constituents found in hard tissues, thereby explaining its natural biocompatibility and wide biomedical use. Nanostructured Hap materials appear to present a good performance in bone tissue applications because of their ability to mimic the dimensions of bone components. However, bone cell response to individual nanoparticles and/or nanoparticle aggregates lost from these materials is largely unknown and shows great variability. This work addresses the preparation and characterization of two different Hap nanoparticles and their interaction with osteoblastic cells. Hap particles were produced by a wet chemical synthesis (WCS) at 378C and by hydrothermal synthesis (HS) at 1808C. As the ultimate in vivo applications require a sterilization step, the synthesized particles were characterized 'as prepared' and after sterilization (autoclaving, 1208C, 20 min). WCS and HS particles differ in their morphological (size and shape) and physicochemical properties. The sterilization modified markedly the shape, size and aggregation state of WCS nanoparticles. Both particles were readily internalized by osteoblastic cells by endocytosis, and showed a low intracellular dissolution rate. Concentrations of WCS and HS particles less than 500 mg ml 21 did not affect cell proliferation, F-actin cytoskeleton organization and apoptosis rate and increased the gene expression of alkaline phosphatase and BMP-2. The two particles presented some differences in the elicited cell response. In conclusion, WCS and HS particles might exhibit an interesting profile for bone tissue applications. Results suggest the relevance of a proper particle characterization, and the interest of an individual nanoparticle targeted research.

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Lipid globule size in total nutrient admixtures prepared in three-chamber plastic bags

Driscoll

Thoma

Franke

et al. 2009

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Sensitivity of femoral strain pattern analyses to resultant and muscle forces at the hip joint

Lengsfeld

Kaminsky

Merz

et al. 1996

Medical Engineering & Physics

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Non-destructive and non-invasive observation of friction and wear of human joints and of fracture initiation by acoustic emission

Schwalbe

Bamfaste

Franke³

1999

Proc Inst Mech Eng H

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Quality control in orthopaedic diagnostics according to DIN EN ISO 9000ff requires methods of non-destructive process control, which do not harm the patient by radiation or by invasive examinations. To obtain an improvement in health economy, quality-controlled and non-destructive measurements have to be introduced into the diagnostics and therapy of human joints and bones. A non-invasive evaluation of the state of wear of human joints and of the cracking tendency of bones is, as of today's point of knowledge, not established. The analysis of acoustic emission signals allows the prediction of bone rupture far below the fracture load. The evaluation of dry and wet bone samples revealed that it is possible to conclude from crack initiation to the bone strength and thus to predict the probability of bone rupture.

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R. P. Franke

The influence of medium-chain triglycerides on the stability of all-in-one formulations

Relevance of the sterilization-induced effects on the properties of different hydroxyapatite nanoparticles and assessment of the osteoblastic cell response

Lipid globule size in total nutrient admixtures prepared in three-chamber plastic bags

Sensitivity of femoral strain pattern analyses to resultant and muscle forces at the hip joint

Non-destructive and non-invasive observation of friction and wear of human joints and of fracture initiation by acoustic emission

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