Heyns Ap scite author profile

Heyns Ap

2Publications

13Citation Statements Received

25Citation Statements Given

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University of the Free State

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Aspects of Folate Metabolism in Renal Failure

Retief

Oosthuizen

et al. 1977

Br J Haematol

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Plasma and urine folate fractions were evaluated after ingestion of radioactive N5-methyl-tetrahydrofolic acid by a normal control (subject I), a patient on maintenance haemodialysis for chronic glomerulonephritis (subject 2), and an anephric patient on haemodialysis (subject 3). In subjects 1 and 2 maximal plasma radiofolate peaks appeared within 1 h of isotope ingestion. In subject 3 the radiofolate peak was delayed for 6 h although the total biofolate fraction reached a maximum at 0.5 h (comparable with findings in subject 2). Sephadex DEAE A50 chromatography showed the radiofolate fraction in subject I to be compatible with N5-methyl-tetrahydrofolic acid (peak I). In subject 2 additional radiofolate peaks 2 and 3 were found. The nature of peak 2 is unknown but peak 3 may represent 10-formyl-tetrahydrofolate. Peak I was minimally present in subject 3. This limited study suggest a defect of methyl-tetrahydrofolate metabolism in the anephric state unassociated with defective renal excretion per se. In normal urine, peak 2 predominated while urine of subject 2 had a predominant peak 3 and lesser peaks I and 2. Compared with the control, uraemic subjects 2 and 3 showed greatly decreased dialysis-resistant (bound plasma radiofolate fractions; all urinary radiofolates were fully dialysable. The unexplained radiofolate 'binder' detected with haemoglobin-coated charcoal adsorption in urine (subject 2) and occasionally in plasma, probably represents an artefact. Plasma from 27 uraemic subjects showed no abnormal in vitro radiofolate binding capacity.

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The Inhibition of Platelet Aggregation by an Aorta Intima Extract

Ap¹,

Dj²,

Gm³

et al. 1974

Thromb Haemost

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SummaryThe platelet aggregating activity of extracts of different layers of the arterial wall was compared to that of Achilles tendon. Arterial media and tendon extracts, adjusted to equivalent protein content as an index of concentration, aggregated platelets to the same extent but an arterial intima extract did not aggregate platelets. Platelet aggregation induced by collagen could be inhibited by mixing with intima extract, but only to a maximum of about 80%. Pre-mixing adenosine diphosphate (ADP) with intima extracts diminished the platelet aggregation activity of the ADP. Depending on the relationship between ADP and intima extract concentrations aggregating activity could either be completely inhibited or inhibition abolished. Incubation of ADP with intima extract and subsequent separation of degradation products by paper chromatography, demonstrated a time-dependent breakdown of ADP with AMP, adenosine, inosine and hypoxanthine as metabolic products; ADP removal was complete. Collagen, thrombin and adrenaline aggregate platelets mainly by endogenous ADP of the release reaction. Results of experiments comparing inhibition of aggregation caused by premixing aggregating agent with intima extract, before exposure to platelets, and the sequential addition of first the intima extract and then aggregating agent to platelets, suggest that the inhibitory effect of intima extract results from ADP breakdown. It is suggested that this ADP degradation by intima extract may play a protective role in vivo by limiting the size of platelet aggregates forming at the site of minimal “wear and tear” vascular trauma.

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Heyns Ap

Aspects of Folate Metabolism in Renal Failure

The Inhibition of Platelet Aggregation by an Aorta Intima Extract

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