Your search keyword '"Barneveld, Ab"' showing total 3 results

1. Computerised analysis of standardised ultrasonographic images to monitor the repair of surgically created core lesions in equine superficial digital flexor tendons following treatment with intratendinous platelet rich plasma or placebo.

Author

Bosch, Gerco, van Weeren, P. René, Barneveld, Ab, and van Schie, Hans T. M.

Subjects

*FLEXOR tendons, *ULTRASONIC imaging, *HORSE diseases, *BLOOD platelets, *PLACEBOS, *DISEASES

Abstract

The effectiveness of new therapies to treat tendon injuries is difficult to determine and is often based on semi-quantitative methods, such as grey level analysis of ultrasonographic images or subjective pain scores. The alternatives are costly and long-lasting end-stage studies using experimental animals. In this study, a method of ultrasonographic tissue characterisation (UTC), using mathematical analysis of contiguous transverse ultrasonographic images, was used for intra-vital monitoring of the healing trajectory of standardised tendon lesions treated with platelet rich plasma (PRP) or placebo. Using UTC it was possible to detect significant differences between the groups in the various phases of repair. At end stage, over 80% of pixels showed correct alignment in the PRP group, compared with just over 60% in the placebo group (P < 0.05). UTC also showed significant differences in the course of the healing process between PRP treated and placebo treated animals throughout the experiment. It was concluded that computerised analysis of ultrasonographic images is an excellent tool for objective longitudinal monitoring of the effects of treatments for superficial digital flexor tendon lesions in horses. [ABSTRACT FROM AUTHOR]

Published

2011

2. Iron ions derived from the nitric oxide donor sodium nitroprusside inhibit mineralization

Author

Huitema, Leonie F.A., van Weeren, P. René, Barneveld, Ab, van de Lest, Chris H.A., Helms, J. Bernd, and Vaandrager, Arie B.

Subjects

*IRON ions, *NITRIC oxide, *SODIUM nitroferricyanide, *BIOMINERALIZATION

Abstract

Abstract: Sodium nitroprusside (SNP) is a nitric oxide (NO) donor drug, which is therapeutically used as a vasodilating drug in heart transplantations. In our previous study it was found that SNP at a concentration of 100 μM inhibited mineralization in a cell culture system, indicating that the beneficial effects of this drug may also include inhibition of vascular calcification. The aim of this study was to investigate which bioactive compounds generated from SNP inhibit mineralization. ATDC5 cells were grown for 14 days and mineralization was induced by addition of 5 mM phosphate for 24 h. Mineralization was determined by staining precipitated calcium with an alizarin red stain. It was found that the NO donors S-nitrosogluthatione and S-nitroso-N-acetylpenicillamine were not able to inhibit mineralization and NO scavengers could not antagonize the inhibiting effect of SNP on mineralization. The iron chelator deferoxamine (200 μM) antagonized the inhibiting effect on mineralization mediated by SNP and ammonium iron sulfate inhibited mineralization in a dose-dependent manner (10–100 μM). Furthermore, iron ions (30 μM) were detected to be released from SNP in the cell culture. These data show that the iron moiety of sodium nitroprusside, rather than nitric oxide inhibits mineralization. [Copyright &y& Elsevier]

Published

2006

3. Soluble factors released by ATDC5 cells affect the formation of calcium phosphate crystals

Author

Huitema, Leonie F.A., van Weeren, P. René, van Balkom, Bas W.M., Visser, Tom, van de Lest, Chris H.A., Barneveld, Ab, Helms, J. Bernd, and Vaandrager, Arie B.

Subjects

*BIOMINERALIZATION, *PROTEINS, *COATED vesicles, *CALCIUM phosphate, *PROTEOMICS, *BLOOD proteins

Abstract

Abstract: During biomineralization the organism controls the nature, orientation, size and shape of the mineral phase. The aim of this study was to investigate whether proteins or vesicles that are constitutively released by growing ATDC5 cells have the ability to affect the formation of the calcium phosphate crystal. Therefore, subconfluent cultured ATDC5 cells were incubated for 1 h in medium without serum. Subsequently, medium was harvested and incubated for 24 h in the presence of additional Pi. This resulted in the formation of flat mineralizing structures (FMS), consisting of complex irregularly shaped flat crystals, which occasionally contained fiber-like structures (∼40 μm in size). Without pre-incubation of medium with cells, only small punctate (dot like) calcium phosphate precipitates were observed. The formation of FMS was shown to be caused by soluble factors released by subconfluent ATDC5 cells. Proteomic analysis by mass spectrometry showed that FMS contained a specific set intracellular proteins, serum proteins, and extracellular matrix proteins. Bulk cytosolic proteins derived from homogenized cells or serum proteins did, however, not induce the formation of FMS. Conditioned medium from HeLa, CHO K1, RAW 264.7 and MDCK cells was also capable to form FMS under our experimental conditions. Therefore the formation of FMS seems to be caused by specific soluble factors constitutively released by ADTC5 and other cells. This in vitro model system can be used as a tool to identify factors that affect the shape of the biomineral phase. [Copyright &y& Elsevier]

Published

2007