Rodolfo Pescador scite author profile

The drug named defibrotide (DFT) has been studied for many years. It has been shown to possess many activities: profibrinolytic, antithrombotic-thrombolytic, antiischemic (heart, liver, kidney, skin, brain), antishock, antiatherosclerotic, antirejection and anti-angiogenic. The previously displayed activities, as antithrombotic, profibrinolytic and anti-inflammatory, suggested its use in vascular disorders, as in the treatment of peripheral obliterative arterial disease and in thrombophlebitis. Some years after, the use of DFT in hepatic veno-occlusive disease has been also proposed. Even if DFT was considered for long time a multi-target drug, now it could be considered on the whole as a drug able to protect endothelium against activation. The present work reviews the more important experimental and clinical studies performed to detect DFT effects.

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Antithrombotic activity of a polydeoxyribonucleotidic substance extracted from mammalian organs: A possible link with prostacyclin

Niada¹,

Mantovani²,

Prino³

et al. 1981

Thrombosis Research

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PGI2-generation and antithrombotic activity of orally administered defibrotide

Niada¹,

Mantovani²,

Prino³

et al. 1982

Pharmacological Research Communications

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Antithrombin Activity of an Algal Polysaccharide

Trento

Cattaneo

Pescador

et al. 2001

Thrombosis Research

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Human Pharmacokinetics of Glycosaminoglycans Using Deuterium-Labeled and Unlabeled Substances: Evidence for Oral Absorption

Silvestro¹,

Lanzarotti²,

Marchi³

et al. 1994

Semin Thromb Hemost

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In the present study, the pharmacokinetics of extractive GAGs used as therapeutic agents have been studied after intravenous and oral administration on volunteers. The use of native or deuterium-labeled compounds, followed by HPLC/MS detection, allowed the quantitation of exogenous heparin and DS as major disaccharide fragments, obtained either by enzymatic or chemical depolymerization. In particular the high level of labeling reached in DS allowed its differentiation from structurally related endogenous species. The estimated plasmatic bioavailability was about 18% for DS. Notwithstanding the impossibility of evaluating the same parameters for heparin species, due to the interferences of endogenous GAGs, the results obtained provided clear evidence of oral availability of heparin and DS through detection and quantitation of structures specifically related to these GAGs. Due to the selectivity of the lyases used, the enzymatic degradation specifically allowed the detection of both DS and heparin species still retaining the original sulfation pattern. Additionally, the chemical degradation could detect the main metabolites of the drugs, consisting of partially to totally desulfated GAGs showing a more or less marked reduction in their molecular weight.

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