I. M. Surplice scite author profile

I. M. Surplice

4Publications

32Citation Statements Received

86Citation Statements Given

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Birmingham Children's Hospital

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Analysis of urinary cathepsin C for diagnosing Papillon–Lefèvre syndrome

et al. 2016

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Papillon–Lefèvre syndrome (PLS) (OMIM: 245000) is a rare disease characterized by severe periodontitis and palmoplantar keratoderma. It is caused by mutations in both alleles of the cathepsin C (CatC) gene CTSC that completely abrogate the proteolytic activity of this cysteine proteinase. Most often, a genetic analysis to enable early and rapid diagnosis of PLS is unaffordable or unavailable. In this study, we tested the hypothesis that active CatC is constitutively excreted and can be easily traced in the urine of normal subjects. If this is true, determining its absence in the urine of patients would be an early, simple, reliable, low‐cost and easy diagnostic technique. All 75 urine samples from healthy control subjects (aged 3 months to 80 years) contained proteolytically active CatC and its proform, as revealed by kinetic analysis and immunochemical detection. Of the urine samples of 31 patients with a PLS phenotype, 29 contained neither proteolytically active CatC nor the CatC antigen, so that the PLS diagnosis was confirmed. CatC was detected in the urine of the other two patients, and genetic analysis revealed no loss‐of‐function mutation in CTSC, indicating that they suffer from a PLS‐like condition but not from PLS. Screening for the absence of urinary CatC activity soon after birth and early treatment before the onset of PLS manifestations will help to prevent aggressive periodontitis and loss of many teeth, and should considerably improve the quality of life of PLS patients.

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Relationship between plasma and red cell biopterins in acute and chronic hyperphenylalaninaemia

Leeming

Hall

Surplice

et al. 1989

J of Inher Metab Disea

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Biopterin concentrations in red blood cells were higher in patients with chronic hyperphenylalaninaemia than following a single oral dose of phenylalanine, although the plasma concentrations were similar. These findings suggest that tetrahydrobiopterin is synthesized in immature red blood cells in response to hyperphenylalaninaemia. The less marked increase in plasma biopterin suggests slow release from a tissue reservoir. The maintenance of a differential between erythrocyte and plasma biopterin concentrations suggests that some mechanism retains biopterin intracellularly.

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Dihydropteridine reductase activity in eluates from dried blood spots: Automation of an assay for a national screening service

Surplice

Griffiths

Green

et al. 1989

J of Inher Metab Disea

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We describe the automation, using a Cobas Bio centrifugal analyser, of a method for dihydropteridine reductase (DHPR) assay in eluates from dried blood spots. This is used as part of a routine screening service of neonates with hyperphenylalaninaemia in the United Kingdom. Automation reduced reagent volumes and analysis time by about 80% and improved the precision of the assay. Relating DHPR activity to haemoglobin concentration of the eluate further improved the precision of the assay and removed some differences in 'apparent' DHPR activity between samples from different countries and different age groups.

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The challenges of vitamin and mineral supplementation in children with inherited metabolic disorders: a prospective trial

Daly

Evans

Chahal

et al. 2016

J Human Nutrition Diet

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I. M. Surplice

Analysis of urinary cathepsin C for diagnosing Papillon–Lefèvre syndrome

Relationship between plasma and red cell biopterins in acute and chronic hyperphenylalaninaemia

Dihydropteridine reductase activity in eluates from dried blood spots: Automation of an assay for a national screening service

The challenges of vitamin and mineral supplementation in children with inherited metabolic disorders: a prospective trial

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