C Bateman scite author profile

A B S T R A C T In studies with pyridoxine and other B6 compounds in blood, the active forms pyridoxal and pyridoxal phosphate were measured by differential assays using Lactobacillus casei. Red cell uptake of tritiated pyridoxine was also measured. A new metabolic pathway for conversion of pyridoxine to active forms was demonstrated in red cells.In vivo studies in normal subjects suggested that pyridoxine was taken up by red cells where it was converted to pyridoxal phosphate and then pyridoxal, followed by gradual release of a proportion of pyridoxal into plasma. In vitro incubation of pyridoxine with blood confirmed this observation.Increasing amounts of pyridoxine were taken up and converted as the amount added to blood was increased, and only very small numbers of red cells were needed to convert appreciable amounts. Conversion was markedly inhibited at temperatures lower than 370C, and stopped altogether at -20'C.Release of pyridoxal into plasma was always directly proportional to the amount of pyridoxal formed and to the volume of plasma present. That pyridoxal phosphate was not released into plasma was demonstrated in stored blood, for pyridoxine was converted mainly only as far as pyridoxal phosphate, probably due to inactivation of the phosphatase. Pyridoxal phosphate remained in the red cells.Pyridoxine was converted when incubated with washed red cells in saline or phosphate buffer suspension (0.08 M). In saline suspension, pyridoxal formed but was not released in the absence of plasma. In phosphate buffer suspension, pyridoxal phosphate was formed but was not changed to pyridoxal, probably due to inactivation of phosphatase by excess phosphate.This work was presented in part at the 8th International

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Anaesthesia for patients with sickle cell disease or other haemoglobinopathies

Haxby

Flynn

Bateman

2007

Anaesthesia & Intensive Care Medicine

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Pulmonary toxicity of malaria prophylaxis.

Davidson¹,

Bateman²,

Shovlin³

et al. 1988

BMJ

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Lung protective ventilatory strategies—will these prevail in the next millennium?

Keogh

Bateman

1999

British Journal of Anaesthesia

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C Bateman

Conversion of vitamin B6 compounds to active forms in the red blood cell

Anaesthesia for patients with sickle cell disease or other haemoglobinopathies

Pulmonary toxicity of malaria prophylaxis.

Lung protective ventilatory strategies—will these prevail in the next millennium?

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