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Acute porphyrias: a German monocentric study of the biochemical, molecular genetic, and clinical data of 62 families.
Bronisch, O, Stauch, T, Haverkamp, T, Beykirch, MK, Petrides, PE
Annals of hematology. 2019;(12):2683-2691
Abstract
In Germany, analyses of clinical and laboratory features of patients with acute porphyrias are only available for hereditary coproporphyria (HCP) but not with other acute porphyrias, acute intermittent porphyria (AIP) and variegate porphyria (VP). The aim of the study was to analyze a large cohort of patients with particular focus upon quality of life aspects. Sixty-two individuals from separate families with acute porphyrias (57 AIP, 5 VP) were included into an observational study collecting biochemical, genetic, and clinical data. A questionnaire was designed to complete anamnestic information and to assess the influence on quality of life. Most frequent signs and symptoms or laboratory abnormalities were abdominal colicky pain, red coloration of urine, and hyponatremia. Depression or anxiety was reported by 61% or 52% individuals, respectively. Fatigue was mentioned as the most quality of life-limiting symptom. In 59/61 patients, mutations could be identified. 44% (20/45) had to be admitted to an intensive care unit. Heme arginate was used in 64% (29/45) of patients for treatment of acute attacks at least once and in 33% for long-term treatment with high frequency of administration. Serum creatinine values increased in 47% (7/17) of the patients with recurrent attacks. Our analysis confirms a substantial influence of the diseases on the quality of life on patients. Percentages of urine discoloration and intensive care unit admissions were much higher than in other reports. Long-term treatment with heme arginate requires careful monitoring of iron status and renal values.
2.
Placental expression of the heme transporter, feline leukemia virus subgroup C receptor, is related to maternal iron status in pregnant adolescents.
Jaacks, LM, Young, MF, Essley, BV, McNanley, TJ, Cooper, EM, Pressman, EK, McIntyre, AW, Orlando, MS, Abkowitz, JL, Guillet, R, et al
The Journal of nutrition. 2011;(7):1267-72
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Abstract
Little is known about the expression of heme transporters in human placenta and possible associations between these transporters and maternal or neonatal iron status. To address this area of research, relative protein expression of 2 heme transporters, Feline Leukemia Virus, Subgroup C, Receptor 1 (FLVCR1) and Breast Cancer Resistance Protein (BCRP), was assessed using Western-blot analysis in human placental tissue in relation to maternal/neonatal iron status and placental iron concentration. Placental FLVCR1 (n = 71) and BCRP (n = 83) expression were assessed at term (36.6-41.7 wk gestation) in a cohort of pregnant adolescents (13-18 y of age) at high-risk of iron deficiency. Both FLVCR1 and BCRP were detected in all placental samples assayed. Placental FLVCR1 expression was positively related to placental BCRP expression (n = 69; R(2) = 0.104; P < 0.05). Adolescents that were anemic at delivery had lower placental FLVCR1 expression (n = 49; P < 0.05). Placental FLVCR1 expression was positively associated with placental iron concentration at delivery (n = 61; R(2) = 0.064; P < 0.05). In contrast, placental BCRP expression was not significantly associated with maternal iron status or placental iron content. Both FLVCR1 and BCRP are highly expressed in human placental tissue, but only FLVCR1 was significantly inversely associated with maternal iron status and placental iron concentration. Further analysis is needed to explore potential functional roles of FLVCR1 in human placental iron transport.
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Iron sulfate supplementation decreases zinc protoporphyrin to heme ratio in premature infants.
Miller, SM, McPherson, RJ, Juul, SE
The Journal of pediatrics. 2006;(1):44-8
Abstract
OBJECTIVES To test the utility of zinc protoporphyrin to heme ratio (ZnPP/H) as an indicator of iron status in premature infants and to evaluate the effect of oral iron supplements on oxidative injury. We hypothesized that iron sulfate supplementation would decrease the ZnPP/H in preterm infants. STUDY DESIGN Infants eligible for this prospective study were: hospitalized, 24 to 32 weeks of gestation, 7 to 60 days old, feeding > or = 70 mL/kg/d, with a ZnPP/H > or = the mean for age. Iron dose was determined by the ZnPP/H. Iron status and oxidative injury were evaluated at study entry and completion. Concurrent control subjects met entry criteria but were not enrolled and were not treated with iron during the study interval. Statistical evaluation included repeated measures analysis of variance and Z-score conversions. RESULTS Entry ZnPP/H of iron-treated subjects (n = 16) and control subjects (n = 16) were not different. The ZnPP/H of iron-treated infants was lower at study end (P < .05) but did not change in control infants. Iron treatment (3 to 12 mg/kg/day) was not associated with changes in conventional measures of iron status nor in measures of oxidative injury. CONCLUSIONS Iron sulfate supplementation (3-12 mg/kg/d) decreases ZnPP/H, is tolerated, and is not associated with increased oxidative injury.