ABSTRACT
BACKGROUND: Within Europe, the management of pyridoxine (B6) non-responsive homocystinuria (HCU) may vary but there is limited knowledge about treatment practice. AIM: A comparison of dietetic management practices of patients with B6 non-responsive HCU in European centres. METHODS: A cross-sectional audit by questionnaire was completed by 29 inherited metabolic disorder (IMD) centres: (14 UK, 5 Germany, 3 Netherlands, 2 Switzerland, 2 Portugal, 1 France, 1 Norway, 1 Belgium). RESULTS: 181 patients (73% >16 years of age) with HCU were identified. The majority (66%; n=119) were on dietary treatment (1-10 years, 90%; 11-16 years, 82%; and >16 years, 58%) with or without betaine and 34% (n=62) were on betaine alone. The median natural protein intake (g/day) on diet only was, by age: 1-10 years, 12 g; 11-16 years, 11 g; and >16 years, 45 g. With diet and betaine, median natural protein intake (g/day) by age was: 1-10 years, 13 g; 11-16 years, 20 g; and >16 years, 38 g. Fifty-two percent (n=15) of centres allocated natural protein by calculating methionine rather than a protein exchange system. A methionine-free l-amino acid supplement was prescribed for 86% of diet treated patients. Fifty-two percent of centres recommended cystine supplements for low plasma concentrations. Target treatment concentrations for homocystine/homocysteine (free/total) and frequency of biochemical monitoring varied. CONCLUSION: In B6 non-responsive HCU the prescription of dietary restriction by IMD centres declined with age, potentially associated with poor adherence in older patients. Inconsistencies in biochemical monitoring and treatment indicate the need for international consensus guidelines.
Subject(s)
Diet, Protein-Restricted , Homocystinuria/diet therapy , Pyridoxine/metabolism , Adolescent , Adult , Betaine/administration & dosage , Child , Child, Preschool , Europe , Female , Homocysteine/blood , Homocystinuria/blood , Homocystinuria/epidemiology , Homocystinuria/pathology , Humans , Infant , Male , Methionine/metabolism , Surveys and Questionnaires , Treatment OutcomeABSTRACT
Careful weaning is particularly important in phenylketonuria (PKU). Dietary phenylalanine intake is severely restricted, and the diet is supplemented with phenylalanine-free amino acids and special low protein foods. In PKU, there are no evidence-based weaning guidelines and no studies assessing the introduction of solid foods. We critically review the literature and examine current UK weaning practices. Ideally, weaning in PKU should closely reflect the 'model' for healthy infants. However, the requirement for optimal blood phenylalanine control and the demands of diet therapy overshadow the social aspects of weaning. Solid food intake is established with very low protein foods first, and then 50 mg phenylalanine exchanges (equivalent to 1 g of intact protein) gradually replace breast/formula feeds. Introducing solids before the recommended 6 months of age may be advantageous because there is a less persistent neophobic food response, possibly leading to better food acceptance. Infants with PKU also require a special phenylalanine-free protein substitute. Between 6 and 12 months, a second concentrated source of phenylalanine-free protein substitute is required. This is commonly given as an additional liquid, although the prescribed volume may adversely affect appetite. Alternatively, a second-stage protein substitute administered as a paste may better suit feeding development. Further research aiming to examine the weaning process in PKU with a focus on biological, maternal, infant, social and environmental factors is required. This will help provide evidence for the effect of protein substitute on appetite and help in the development of evidence-based guidelines.
Subject(s)
Phenylalanine/administration & dosage , Phenylketonurias/diet therapy , Weaning , Appetite/physiology , Dietary Proteins/administration & dosage , Dietary Proteins/metabolism , Dietary Supplements , Growth and Development , Humans , Infant , Phenylalanine/adverse effects , Phenylalanine/metabolism , Phenylketonurias/metabolismABSTRACT
BACKGROUND: There is no published data describing UK dietary management of urea cycle disorders (UCD). The present study describes dietary practices in UK inherited metabolic disorder (IMD) centres. METHODS: Cross-sectional data from 16 IMD centres were collected by a questionnaire describing the management of UCD patients on prescribed protein-restricted diets. RESULTS: One hundred and seventy-five patients [N-acetylglutamate synthase deficiency, n = 3; carbamoyl phosphate synthase deficiency (CPS), n = 8; ornithine transcarbamoylase deficiency (OTC), n = 75; citrullinaemia, n = 41; argininosuccinic aciduria (ASA), n = 36; arginase deficiency, n = 12] were reported; 70% (n = 123) aged 0-16 years; 30% (n = 52) >16 years. Prescribed median protein intake decreased with age (0-6 months: 2 g kg(-1) day(-1); 7-12 months: 1.6 g kg(-1) day(-1); 1-10 years: 1.3 g kg(-1) day(-1); 11-16 years: 0.9 g kg(-1) day(-1) and >16 years: 0.8 g kg(-1) day(-1)) with little variation between disorders. Adult protein prescription ranged 0.4-1.2 g kg(-1) day(-1) (40-60 g day(-1)). In the previous 2 years, 30% (n = 53) were given essential amino acid supplements (EAAs) (CPS, n = 2; OTC, n = 20; citrullinaemia, n = 15; ASA, n = 7; arginase deficiency, n = 9). EAAs were prescribed for low plasma quantitative essential amino acids (n = 13 centres); inadequate natural protein intake (n = 11) and poor metabolic control (n = 9). From diagnosis, one centre prescribed EAAs for all patients and one centre for severe defects only. Only 3% (n = 6) were given branch chain amino acid supplements. Enteral feeding tubes were used by 25% (n = 44) for feeds and 3% (n = 6) for medications. Oral energy supplements were prescribed in 17% (n = 30) of cases. CONCLUSIONS: In the UK, protein restriction based on World Health Organization 'safe intakes of protein', is the principle dietary treatment for UCD. EAA supplements are prescribed mainly on clinical need. Multicentre collaborative research is required to define optimal dietary treatments.
Subject(s)
Urea Cycle Disorders, Inborn/diet therapy , Adolescent , Adult , Amino Acids, Branched-Chain/administration & dosage , Amino Acids, Essential/administration & dosage , Child , Child, Preschool , Cross-Sectional Studies , Dietary Proteins/administration & dosage , Dietary Supplements , Dietetics , Enteral Nutrition , Humans , Infant , Infant, Newborn , Nutritional Support/methods , Surveys and Questionnaires , United KingdomABSTRACT
The clastogenic potential of 4CMB was assessed in vitro in human lymphocytes from 4 donors (2 male and 2 female) both with and without auxiliary metabolic activation. Although there were some variation in the response of the cells from different donors to 4CMB using 2 criteria for interpretation of the results; it was concluded that 4CMB was a clastogen, but only at dose levels that caused some cytotoxicity. The response was amplified by the inclusion of chromatid and chromosome gaps in the analysis of chromosome damage.
Subject(s)
Biphenyl Compounds/pharmacology , Lymphocytes/physiology , Mutagens/pharmacology , Cell Division/drug effects , Cell Survival/drug effects , Cells, Cultured , Chromosome Aberrations , Female , Humans , Lymphocyte Activation , Lymphocytes/drug effects , MaleABSTRACT
Data are presented from the cytogenetic analysis of the peripheral lymphocytes from 94 male and 15 female donors. However, a much smaller number of regular donors were selected for regular use. A total of 28674 cells were analysed and these acted as negative and positive controls in the in vitro human lymphocyte tests accumulated in this laboratory over a 6-year period. The significant observations were:. (1) in untreated and solvent control treated cultures (a) no chromosomal interchanges were observed in 21570 cells; (b) the incidence of dicentrics was less than 1 per 10000 cells; (c) other types of aberrations were seen with an increased frequency, chromosomal gaps being the most variable. (2) The reference clastogens mitomycin C and cyclophosphamide produced high and remarkably consistent yields of all types of aberrations. It is concluded that when screening compounds in vitro for new genotoxins, aberrations such as chromosomal interchanges and dicentrics (due to their rarity in negative control cultures) should be accorded greater significance than the several other types of aberrations routinely seen. These conclusions emphasize the value of maintaining and updating adequate historical control records.