The study suggests that women with PKU should start a Phe-restricted diet before conception. Maintenance of maternal blood Phe within the target range predicts good offspring outcomes, but variations even within that range should be avoided.
There are significant challenges in studying people with intellectual disabilities and considerable difficulties in instituting phenylalanine-restricted diet in this population. However, if attempted, there are potential benefits to quality of life for the individuals with PKU and their carers.
More women with phenylketonuria are becoming pregnant and need appropriate management to avoid the effects of raised phenylalanine on the fetus: facial dysmorphism, microcephaly, growth retardation, developmental delay and congenital heart disease. Here we describe our experiences from a single centre gained over almost three decades. A series of six cases is presented to illustrate key points in management. Ideally, phenylalanine-restricted diet is started before conception in a planned fashion, but some women present pregnant and blood phenylalanine must be lowered rapidly. The aims of management are to maintain blood phenylalanine concentration in the target range (100-250 micromol/L) before and throughout the pregnancy, and to ensure adequate maternal nutrition and appropriate weight gain. Blood phenylalanine is monitored twice, three times a week, before and after conception respectively. Weight is monitored on a weekly basis and key micronutrients are monitored every 6-8 weeks in clinic. From the second trimester onwards, dietary phenylalanine intake has to be promptly increased, as phenylalanine tolerance increases rapidly. Postnatal management includes a neurological assessment of the infant at 4-8 weeks and an echocardiogram for infants conceived off diet. Subsequently, offspring are seen at 1 year, 4 years, 8 years and 14 years for neuropsychometric evaluations. Regular follow-up of the mother remains important whether on or off a phenylalanine-restricted diet.
Some people with phenylketonuria who were born before screening began were
never treated and are still alive. Here we report that far fewer people with
untreated phenylketonuria were detected than are thought to exist (about
2000). The majority of those traced had high support needs, challenging
behaviour and other symptoms of phenylketonuria. No significant differences
were found between those who had or had not tried the phenylalanine-restricted
diet. A randomised controlled trial is required to examine the effect of
trying the low-phenylalanine diet for people with untreated
phenylketonuria.
BackgroundUncooked corn-starch (UCCS) has been the mainstay of therapy for the hepatic glycogen storage diseases (GSD) but is not always effective. A new starch (WMHMS) has demonstrated a more favourable short-term metabolic profile.ObjectiveTo determine efficacy and safety of a new uncooked starch (WMHMS) compared to UCCS over 16 weeks treatment with each.MethodA double-blind cross-over study of 10 adults (aged 16 – 38 years, six male) with GSD Ia and Ib. After an individualised fast, subjects were randomised to take a 50 g starch-load of either WMHMS or UCCS. Starch-loads terminated when blood glucose was < 3.0 mmol/L or the subject felt subjectively hypoglycaemic. Anonymous biochemical profiles were assessed by 2 investigators and a starch administration schedule recommended. Each starch was delivered in coded sachets and intake was monitored for the following 16 weeks. After a washout period, the protocol was repeated with the alternative product.Results4 subjects failed to establish therapy on the cross-over limb. Data from 7 paired starch load showed: longer median fasting duration with WMHMS (7.5 versus 5 hours; p = 0.023), slower decrease in the glucose curve (0.357 versus 0.632 mmol/hr p = 0.028) and less area under insulin curves for the first 4 hours (p = 0.03). Two of six subjects took 50% or less WMHMS compared to UCCS and one took more. Plasma triglycerides, cholesterol and uric acid were unchanged after each study phase.ConclusionWMHMS leads to significant reduction in insulin release and reduced starch use in some GSD patients.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.