Working without accumulation membrane in flow field-flow fractionation. Effect of sample loading on retention.

Membraneless hyperlayer flow field-flow fractionation (Hyp FIFFF) has shown improved performance with respect to Hyp FIFFF with membrane. The conditions for high recovery and recovery independent of sample loading in membraneless Hyp FIFFF have been previously determined. The effect of sample loading should be also investigated in order to optimize the form of the peaks for real samples. The effect of sample loading on peak retention parameters is of prime importance in applications such as the conversion of peaks into particle size distributions. In this paper, a systematic experimental work is performed in order to study the effect of sample loading on retention parameters. A procedure to regenerate the frit operating as accumulation wall is described. High reproducibility is obtained with low system conditioning time.

Spectroscopic study on the enzymatic degradation of a biodegradable composite periodontal membrane.

The enzymatic in vitro degradation of a commercial biodegradable hydroxyapatite (HA)-polymer (poly(epsilon-caprolactone)-poly(oxyethylene)(POE)-poly(epsilon-caprolactone) block copolymer) composite membrane was investigated by Raman and IR spectroscopies in two enzymatic solutions at 37 degrees C: esterase and alpha-chymotrypsin in saline phosphate buffer (SPB, pH 7.4). The degradation was found to be faster in the enzymatic medium than in SPB and alkaline solutions. The fastest degradation rate was observed in esterase solution. The trend of properly chosen Raman and IR intensity ratios was evaluated to go deeper inside the degradation mechanism: both polymeric and apatitic components were found to be involved in degradation. The former underwent preferential degradation of POE blocks, while HA is removed by the degradation medium faster than the polymer. Vibrational spectroscopy proved a valid tool for investigating the degradation of the membrane.

A new method for isolation of polyethylene wear debris from tissue and synovial fluid.

Sub-micron-sized ultrahigh molecular-weight polyethylene (PE) debris is generated in the joint space as a result of articulation and cyclic loading of an orthopaedic implant. Its characterization requires isolation and subsequent analysis by ultra-structural methods. An innovative method based on the digestion of paraffin-embedded tissue samples was proposed. Tissue slices were digested with sodium hypochlorite directly on polycarbonate filter. The same procedure could be applied also to fresh synovial fluid. Plastic particles were not lost or damaged during treatment. Chemical identification of particles was done by micro-Raman spectroscopy that confirmed purity of retrieved PE particles. Size and shape of PE particles were characterised using scanning electron microscopy and were comparable in number and morphology to the retrieval by other authors. Equivalent diameter ranged from 0.48 to 0.95microm and particle number ranged from 9 to 23x10(9)/cm(3).

Troglitazione affects survival of human osteosarcoma cells.

Activation of PPAR gamma, a transcription factor member of the family of peroxisome proliferator-activated receptors, induces apoptosis in several normal and tumor cell lines. In our study, we investigated whether treatment with troglitazone (TRO), a known PPAR gamma agonist, induced apoptosis in the human osteosarcoma (OS) cell lines G292, MG63, SAOS and U2OS that express PPAR gamma. In our experiments, TRO never induced apoptosis of OS cells; on the contrary, TRO increased cell number, based on MTT proliferation assay. Remarkably, the TRO-induced cell number increase depended on a decrease of apoptosis that naturally occurred in the culture and was not due to an increased cell proliferation rate. TRO also prevented staurosporin-induced apoptosis. The TRO-mediated survival effect correlated with the activation of Akt, a well-known mediator of survival stimuli. Our work describes a new function for TRO and indicates that the Akt survival pathway may be a mediator of TRO-induced increase of survival.