Screening for idiopathic hemochromatosis among diabetic patients

Importance of hereditary haemochromatosis in the care of diabetes mellitus

Szerzők a vas- és a szénhidrátanyagcsere kapcsolatait vizsgálták saját és irodalmi eredmények tükrében. Különös hangsúlyt fektettek a szabad gyökös folyamatok ismertetésére, mivel a hereditaer haemochromatosis és a diabetes mellitus is, mint a vas- és a szénhidrátanyagcsere-zavarok leggyakoribbjai oxidatív stressz keltése révén vezetnek szövődményekhez. A nagy vér és szöveti glükózkoncentráció elektronfelesleget eredményez. Ez redukálhatja a redox ciklusban részt vevő, transzport- vagy raktárfehérjéhez nem kötött vasat, és ez vezet az oxidatív stresszhez. A hereditaer haemochromatosis mind a válogatás nélküli, mind pedig a diabeteses populációban a szöveti redox-aktív vas szintjének emelkedését okozhatja. A hereditaer haemochromatosis leggyakoribb mutációit hordozók aránya hazánkban, szelekció nélküli népességben 30,4%-ot és diabetesben 35,8%-ot tesz ki. Az irodalom adatai szerint feltételezhető, hogy már a hereditaer haemochromatosis leggyakoribb mutációi (HFE-C282Y és HFE-H63D) szempontjából heterozigotákban is megemelkedik a szöveti vasszint, bár a fenotípusban a hereditaer haemochromatosis ilyenkor általában nem jelenik meg, mivel penetranciája alacsony. Mégis, ez a megemelkedett vas-ellátottság a már más okból – például diabetes mellitus miatt – károsodott szövetek betegségének progresszóját okozhatja. Másrészt a hereditaer haemochromatosis olyan endothelkárosodáshoz vezethet, ami miatt – a diabetes mellitus manifesztálódását megelőzően – hypertonia alakulhat ki. Feltételezhető, hogy a vérnyomásemelkedés a hereditaer haemochromatosis egyik legkorábbi klinikai jele. Nehezen beállítható hypertonia és szénhidrátanyagcsere-zavar esetén érdemes gondolni a hereditaer haemochromatosis lehetőségére.

Review article: targeted screening for hereditary haemochromatosis in high-risk groups

Patients with hereditary haemochromatosis are at risk for significant morbidity from iron overload as well as reduced life-expectancy once cirrhosis is established. Although inexpensive, sensitive screening tests and effective therapy are available, there is continued debate regarding the utility of screening for this condition because of recent data suggesting that the homozygous haemochromatosis mutation (C282Y) is associated with low penetrance and mild expressivity when identified in population screening studies. In this review, we examine the published data related to general population screening for haemochromatosis, as well as the evidence for screening selected 'high-risk' populations. We also suggest possible screening strategies based on the available evidence.

Population-based screening for hemochromatosis using phenotypic and DNA testing among employees of health maintenance organizations in Springfield, Missouri

BACKGROUND

Hemochromatosis reportedly affects 3 to 8 persons per 1,000 and is associated with an elevated risk of morbidity and mortality. We sought to ascertain its prevalence in a community and to assess the association between phenotype and genotype.

METHODS

All health maintenance organization employees were invited to participate in hemochromatosis screening using a repeated elevation of the transferrin saturation test as the case definition (> or = 50% in women and > or = 60% in men with no other cause). Iron overload from hemochromatosis was defined as serum ferritin concentration > or = 95th percentile and mobilizable iron > or = 99th percentile for age and sex, or hepatic iron index > or = 1.9. The HFE gene was analyzed for mutations.

RESULTS

Participation among employees was 28% (1,653 of 6,000); 83% were women. The prevalence of hemochromatosis was 8 per 1,000 (13 of 1,653), and the prevalence of iron overload from hemochromatosis was 4 per 1,000 (5 of 1,653). Compared with those who had no HFE mutation, the relative risk (RR) for hemochromatosis was greatest for C282Y homozygotes (RR = 147), compound heterozygotes (RR = 19), and H63D homozygotes (RR = 9). Overall, 38% of participants had at least one HFE mutation. Screening based on an initial elevated transferrin saturation test had the best sensitivity, whereas DNA testing offered the best specificity and predictive value positive for iron overload disease.

CONCLUSIONS

In this population, we found a greater than expected prevalence of hemochromatosis and demonstrated a clear association with the HFE genotype. Promotion of screening is complicated by controversies in case definition and the large number of persons who will be detected before they have clinically significant iron loading, in whom the risk of clinical disease is unknown. Larger screening studies in more diverse populations are necessary to characterize the burden of disease and to follow those at risk (based on HFE or iron status measures) to establish the natural history of hemochromatosis.

[Gastrointestinal complications of diabetes mellitus]

BACKGROUND

Diabetes mellitus leads to a broad spectrum of symptoms and manifestations in the field of gastroenterology.

BASIS

This article reviews the pathophysiology, differential diagnoses and secondary diseases of the gastrointestinal tract in diabetic patients.

CLINICAL APPEARANCE

Motility disorders, infectious complications, secondary diseases of the stomach, liver, pancreas, gall bladder, small and large bowel are considered and discussed. Diagnostic and therapeutic approaches for the management of diabetic enteropathy are presented.

CONCLUSION

The new strategies in diagnosis and therapy for a successful prevention or treatment of gastrointestinal complications due to diabetes mellitus need good cooperation of clinical specialties.

Haemochromatosis gene mutations Cys282Tyr and His63Asp are not increased in Type 2 diabetic patients compared with the Canterbury (New Zealand) general population

Genetic predisposition to haemochromatosis may be an important aetiological factor in some cases of Type 2 diabetes. Our aim was therefore to test the hypothesis that the haemochromatosis gene mutations Cys282Tyr and His63Asp are more prevalent in Type 2 diabetic patients compared with the Canterbury, New Zealand general population. We studied 230 consecutive patients referred to the Diabetes Services with age > or = 30 years and considered to have Type 2 diabetes. DNA was extracted from whole blood and amplified by polymerase chain reaction prior to restriction fragment length polymorphism analysis. The frequency of the mutations was compared with that observed previously in 1064 subjects from the Canterbury general population by chi2 testing. Iron was measured by a colorimetric method, transferrin by rate nephelometry and ferritin by immunoassay. There were 2/230 (0.8%) Cys282Tyr homozygous subjects in the diabetic group compared with 5/1064 (0.5%) NS in the general population. Although there was a trend to lower incidence of Cys282Tyr heterozygosity in the diabetic group, there was no significant difference for any of the six genotype frequencies between the two groups. Haemochromatosis gene mutations Cys282Tyr and His63Asp are therefore not increased in Type 2 diabetics compared with the general population. Transferrin saturation was a sensitive marker (100%) of genetic haemochromatosis, although ferritin had low specificity (77.8%). Genetic susceptibility to haemochromatosis is not an important aetiological factor for diabetes, and targeted screening of diabetic patients for haemochromatosis is not indicated.

Screening for hemochromatosis. A public health perspective

CONTEXT

The discovery of the HFE gene in 1996 has introduced DNA testing as a possible tool for screening and diagnosis of hemochromatosis and increased interest in the disorder. Population screening using transferrin saturation has been advocated by experts to permit early detection and treatment with phlebotomy before the onset of clinical disease.

METHODS

Based on a literature review, we consider the relative risks and merits of two screening tests as part of a broader look at the evidence required for the recommendation of universal screening for hemochromatosis.

RESULTS

Several questions must be answered before universal screening can be recommended. Uncertainties remain about the penetrance and preventable disease burden, laboratory standardization, and optimal strategies to minimize potential risks of screening for hemochromatosis.

CONCLUSIONS

As a common genetic disorder with simple, effective therapy, hemochromatosis offers a model for other genetically influenced chronic diseases that some day may have interventions to improve prognosis. Resolution of questions related to prevention of chronic diseases from hemochromatosis, therefore, will have broad usefulness in the future.

Testing for haemochromatosis in the diabetic clinic

Random serum transferrin saturation (TS) was measured in 1194 patients attending a diabetic clinic. Twenty-one patients had TS > 55% and in three of these patients repeat random TS was < 55%. Seventeen patients were recalled for fasting serum TS and ferritin measurement. Ten patients had fasting TS > 55%. The diagnosis of haemochromatosis was confirmed by liver biopsy in a total of six patients, three of whom were previously unsuspected. Haemochromatosis was the possible diagnosis in a further four patients. Family studies using HLA typing confirmed haemochromatosis in four family members, three of whom were asymptomatic. We conclude that measurement of TS is a simple and effective method of finding cases of haemochromatosis in the diabetic clinic.