Gene/Protein
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Drug
Enzyme
Compound
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Target Concepts:
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Query: UMLS:C0018099 (
gout
)
5,192
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The hyperuricemia responsible for the development of gouty arthritis results from a wide range of environmental factors and underlying genetically determined aberrations of metabolism. 31P magnetic resonance spectroscopy studies of children with
hereditary fructose intolerance
revealed a readily detectable rise in phosphomonoesters with a marked fall in inorganic phosphate in their liver in vivo and a rise in serum urate in response to very low doses of oral fructose. Parents and some family members heterozygous for this enzyme deficiency showed a similar pattern when given a substantially larger dose of fructose. Three of the nine heterozygotes thus identified also had clinical
gout
, suggesting the possibility of this defect being a fairly common cause of
gout
. In the present study this same noninvasive technology was used to identify the same spectral pattern in 2 of the 11 families studied with hereditary
gout
. In one family, the index patient's three brothers and his mother all showed the fructose-induced abnormality of metabolism, in agreement with the maternal inheritance of the
gout
in this family group. The test dose of fructose used produced a significantly larger increment in the concentration of serum urate in the patients showing the changes in 31P magnetic resonance spectra than in the other patients with familial
gout
or in nonaffected members, thus suggesting a simpler method for initial screening for the defect.
...
PMID:Fructose-induced aberration of metabolism in familial gout identified by 31P magnetic resonance spectroscopy. 223 43
The effect of fructose on liver metabolism in patients with
hereditary fructose intolerance
(HFI) and in heterozygotes for HFI was studied by 31P magnetic resonance spectroscopy (31P-MRS). In patients with HFI (n = 5) ingestion of small amounts of fructose was followed by an increase in sugar phosphates and decrease in inorganic phosphate (Pi) in the liver that could be detected by 31P-MRS. 31P-MRS could be used to diagnose fructose intolerance and to monitor the patients' compliance with a fructose-restricted diet. In heterozygotes (n = 8) 50 g fructose given orally led to accumulation of sugar phosphates and depletion of Pi in the liver. Fructose also induced a larger increase in plasma urate in heterozygotes than in control subjects. The effect of fructose on liver Pi and plasma urate was most pronounced in heterozygotes with
gout
(n = 3). Heterozygosity for HFI may predispose to hyperuricaemia.
...
PMID:Study of hereditary fructose intolerance by use of 31P magnetic resonance spectroscopy. 288 61
We present the case of a 17-year-old male who was diagnosed at birth with
hereditary fructose intolerance
(HFI). The patient complained of morning-time asthenia and post-prandial drowsiness despite a correct sleep pattern. The physical examination and biological check-up only showed severe vitamin C deficiency (<10 mol/l; normal range: 26-84). The patient's tiredness was attributed to this vitamin C deficiency, which is a frequent side-affect of the fructose-free diet. A change in diet associated with a supplementation in vitamin C was advised, with an increase in vegetable intake, principally avoiding carrots, onions, leaks and tinned sweet-corn. This case offers the opportunity for a review of this rare disease. Two kinds of fructose metabolism disorders (both autosomal recessive) are recognized: 1) essential fructosuria caused by a deficiency of fructokinase, which has no clinical consequence and requires no dietary treatment; 2) HFI, linked to three main mutations identified in aldolase B gene that may be confirmed by fructose breath test, intravenous fructose tolerance test, and genetic testing. In HFI, fructose ingestion generally induces gastro-intestinal (nausea and vomiting, abdominal pain, meteorism) and hypoglycemic symptoms. Fasting is well tolerated. If the condition remains undiagnosed, it leads to liver disease with hepatomegaly, proximal tubular dysfunction, and slow growth and weight gain. In conclusion, endocrinologists should be aware of this rare metabolic disease in order to provide careful follow-up, particularly important when the patient reaches adulthood. Moreover, hypoglycemia induced by fructose absorption, unexplained liver disease, irritable bowel syndrome or familial
gout
in an adult is suggestive of the diagnosis.
...
PMID:Doctor, my son is so tired... about a case of hereditary fructose intolerance. 1803 30
