Reprint

Diet Therapy and Nutritional Management of Phenylketonuria

Edited by
September 2022
376 pages
  • ISBN978-3-0365-5319-1 (Hardback)
  • ISBN978-3-0365-5320-7 (PDF)

This is a Reprint of the Special Issue Diet Therapy and Nutritional Management of Phenylketonuria that was published in

Medicine & Pharmacology
Public Health & Healthcare
Summary

Phenylketonuria (PKU) is an established inherited amino acid disorder with a very traditional dietary therapy, but there is still more to learn and verify about its nutritional composition, application and overall effectiveness. Although in the 1950s, the first patient successfully treated with diet therapy patently established the role of a low phenylalanine protein substitute, in present times, it is still necessary to characterise the most effective source of artificial protein; defining its optimal amino acid profile; and identifying nutrient modulation that will improve the functionality of protein substitutes. It is also important to understand the impact of a life-long synthetic diet on gut microbiota, metabolomics and inflammatory status.

In early-treated patients with PKU, it is unclear if co-morbidities such as overweight, obesity, hypertension and diabetes are higher than in the general population and if these are associated with increased cardiovascular risk. It is also uncertain if overweight and obesity in PKU is related to early dietary practices, the nutritional composition of protein substitutes and special low-protein foods, impact of the dietary treatment on satiety, disordered eating patterns, non-adherence with the low phenylalanine diet and poor metabolic control, or if this is even a consequence of the disorder. In a generation of ageing patients, the impact of intermittent and suboptimal dietary adherence on nutritional status deserves systematic study.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
phenylketonuria; special low protein foods; nutritional composition; UK; macronutrients; phenylketonuria (PKU); consensus; Delphi method; food labelling; phenylalanine; Phe; protein; exchanges; phenylketonuria; PKU; glycomacropeptide; amino acid; absorption; phenylketonuria; diet therapy; phenylalanine; protein substitute; gastrointestinal symptoms; prolonged release; phenylketonuria; PKU; glycomacropeptide; satiety; phenylketonuria; PKU; glycomacropeptide; special low protein foods; macronutrient intake; protein substitute; phenylketonuria; food labelling; protein content; free from; gluten free; phenylketonuria; protein substitute; amino acid; glycomacropeptide; phenylketonuria; phenylalanine; aspartame; sugar tax; phenylalanine hydroxylase deficiency; hyperphenylalaninemia; PKU; protein substitute; medical formula; amino acid mixture; tetrahydrobiopterin; sapropterin; BH4; phenylketonuria; body composition; glycomacropeptide; protein substitute; PKU; bone mineral density; bone turnover markers; osteoporosis; blood biochemistry; casein glycomacropeptide; amino acid protein substitute; phenylketonuria; PKU; low-protein diet; newborn screening; phenylketonuria; phenylalanine; metabolic control; guidelines; phenylketonuria; nitrogen balance; amino acid catabolism; blood urea nitrogen; prolonged release; body mass index; obesity; overweight; phenylalanine restriction; phenylalanine-restricted diet; phenylketonuria; PKU; food; protein substitute; school; IHCP; parent/caregiver experiences; special low protein foods; phenylketonuria; England; prescribing patterns; costs; phenylketonuria; adult phenylketonuria; standard operating procedure; inherited metabolic disorders; dietary management; phenylalanine; protein substitute; phenylketonuria; eating out; low protein food; restaurants; glycomacropeptide; PKU; protein substitute; amino acids; adherence; epigenetics; health; phenylketonuria; preconception; women; phenylketonuria; food labelling; protein; phenylketonuria (PKU); dietary patterns; food frequency questionnaire; validation; reproducibility

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