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Haemochromatosis

Essentials

In hereditary haemochromatosis, disturbed regulation of iron absorption causes accumulation of iron in the body.
Classic haemochromatosis should be suspected particularly in middle-aged men presenting with excessive fatigue, decreased libido, loss of body hair, diabetes, hepatomegaly, joint symptoms, pigmentation of the skin or an unexplained increase of plasma aminotransferase concentrations.
Diagnosis is based on determination of iron parameters in serum or plasma and on detection of a gene mutation predisposing to the disease.
Liver biopsy is nowadays only rarely needed for confirmation of the diagnosis and for differential diagnostics.
Repeated venesections are an effective, cheap and safe form of treatment.
By sufficiently early diagnosis and treatment it is possible to prevent the development of late complications of the disease.
Secondary haemochromatosis is usually seen in chronic anaemias which are associated with reduced erythropoiesis and the need for repeated red cell transfusions.

Terminology

Haemochromatosis denotes an excessive and harmful accumulation of iron in the body.
Hereditary haemochromatosis is currently divided into 5 types (table T1).
Types 1, 2, 3 and 4B are characterised by excessive iron absorption in relation to the total body iron content. This will lead to large amounts of iron accumulating in tissues causing fibrotic tissue changes predominantly affecting the liver, pancreas and heart.
In types 4A and 5 cellular iron release is impaired, leading to increased iron deposits particularly in the macrophages. Both the clinical picture and treatment differ from those of classic haemochromatosis.
Secondary haemochromatosis is usually seen in patients with chronic anaemia (e.g. sideroblastic anaemia or thalassaemia) and in patients who have received repeated blood transfusions for reasons other than iron deficiency anaemia.
- Causes of secondary haemochromatosis
  - Iron accumulation in association with
    - anaemias (e.g. thalassaemia Thalassaemias, sideroblastic anaemia)
    - blood transfusions
    - dietary factors
    - chronic liver diseases (e.g. hepatitis C, alcoholic liver cirrhosis, non-alcoholic steatohepatitis [NASH])
  - Porphyria cutanea tarda (picture 1)

Genetics of haemochromatosis

The classification of hereditary haemochromatosis into 5 types is presented in table T1. Haemochromatosis is inherited in an autosomal recessive pattern, except Type 4 (ferroportin disease) which is distinguished by its autosomal dominant inheritance pattern.
Most cases of haemochromatosis are due to three genetic mutations (C282Y, H63D and S65C) of the HFE protein.
Heterozygotes, i.e. carriers of the genetic defect, are usually healthy.
Haemochromatosis types 2-5 appear to be significantly rarer than type 1, but the prevalence of the disease is not yet fully known.

Classification of hereditary haemochromatosis 1

	Type	Mutated protein	Clinical picture
1	Classic haemochromatosis	HFE	Classic
2A	Juvenile haemochromatosis	Haemojuvelin	Onset of symptoms when aged < 30 years
2B	Juvenile haemochromatosis	Hepcidin	Onset of symptoms when aged < 30 years
3	Haemochromatosis	Transferrin receptor 2	Classic
4B	Haemochromatosis	Ferroportin	Classic
4A	Haemochromatosis	Ferroportin	Macrophage iron deposits
5	Aceruloplasminaemia	Ceruloplasmin	Anaemia, neurological symptoms

Signs and symptoms

The symptoms and signs of classic haemochromatosis: see table T2.
Hepatomegaly
- Signs of chronic liver disease such as jaundice, ascites and portal hypertension are less common.
Two-thirds of the patients develop diabetes, which may lead to retinopathy, nephropathy or neuropathy.
Pigmentation of the skin. Skin may appear metallic grey ("bronze diabetes").
Lowered libido, testicular atrophy. In rare cases, insufficiency of the pituitary, thyroid or parathyroid gland may develop. Addison's disease may also rarely occur.
Fatigue
Cardiac involvement: right heart failure, arrhythmias
Arthralgia
- Pain or inflammation in the index (2nd) and middle (3rd) MCP joints is a typical articular symptom, but virtually any joint may be affected.
If the disease has progressed into cirrhosis, there is an increased risk of hepatoma.
In juvenile haemochromatosis, the accumulation of iron begins early and progresses rapidly, usually leading to symptom onset before the age of 30. Early symptoms include abdominal pain, diabetes, hypogonadism and cardiac symptoms, whereas signs and symptoms of a liver disease may be less prominent.
The clinical picture of type 4B is classic. However, in type 4A iron accumulates in macrophages and the spleen whilst the iron saturation may remain normal, at least at the early stages of the disease, despite increased ferritin values. Mild anaemia has also been described.
The clinical picture of type 5 includes anaemia and neurological symptoms in addition to iron accumulation.

Symptoms and signs of classic haemochromatosis

Symptoms	Clinical findings	Laboratory examinations and findings
Fatigue Feeling of weakness Weight loss Apathy Joints Pain Liver Upper abdominal pain Heart Arrhythmias Symptoms of heart failure Hormonal Diabetes Loss of libido Impotence Amenorrhoea Gynaecomastia Loss of body hair	Joints Inflammation Swelling Cartilage calcifications Liver Hepatomegaly Pancreas Diabetes Exocrine insufficiency Spleen Splenomegaly Skin Hyperpigmentation Hormonal Diabetes Testicular atrophy Hypogonadism Hypothyroidism Heart Dilated cardiomyopathy Congestive heart failure	Blood Increased iron parameters: fasting plasma iron, fasting plasma transferrin saturation and/or plasma ferritin concentration HbA_1C, glucose tolerance test Increased aminotransferase concentrations (plasma ALT and/or AST) Discretionary: faecal elastase concentration, hormone measurements Liver biopsy Increased amount of iron in a stained sample Increased hepatic iron content (HIC) and/or hepatic iron index (HII) Fibrosis, cirrhosis HCC (hepatocellular carcinoma)

Symptoms

Clinical findings

Laboratory examinations and findings

Fatigue
Feeling of weakness
Weight loss
Apathy
Joints

Pain

Liver

Upper abdominal pain

Heart

Arrhythmias
Symptoms of heart failure

Hormonal

Diabetes
Loss of libido
Impotence
Amenorrhoea
Gynaecomastia
Loss of body hair

Joints

Inflammation
Swelling
Cartilage calcifications

Liver

Hepatomegaly

Pancreas

Diabetes
Exocrine insufficiency

Spleen

Splenomegaly

Skin

Hyperpigmentation

Hormonal

Diabetes
Testicular atrophy
Hypogonadism
Hypothyroidism

Heart

Dilated cardiomyopathy
Congestive heart failure

Blood

Increased iron parameters: fasting plasma iron, fasting plasma transferrin saturation and/or plasma ferritin concentration
HbA_1C, glucose tolerance test
Increased aminotransferase concentrations (plasma ALT and/or AST)
Discretionary: faecal elastase concentration, hormone measurements

Liver biopsy

Increased amount of iron in a stained sample
Increased hepatic iron content (HIC) and/or hepatic iron index (HII)
Fibrosis, cirrhosis
HCC (hepatocellular carcinoma)

Source: Arkkila P, Åberg F, Arola J, Nieminen U. Hemokromatoosi - yleisin perinnöllinen maksasairauden aiheuttaja [Hemocromatosis - the most common hereditary cause of liver disease]. Finnish Medical Journal Duodecim 2018;134(24):2444-53. http://www.duodecimlehti.fi/duo14678

Diagnosis

Diagnosis of hereditary haemochromatosis: see picture 2.

Findings in classic haemochromatosis: see table T2.
A fasting plasma iron concentration exceeding 27 µmol/l and fasting plasma transferrin iron saturation exceeding 60% in men, and 50% in women, strongly suggest haemochromatosis.
Plasma ferritin concentration is also increased (350-500 µg/l) in haemochromatosis. Ferritin is an acute phase protein and therefore its concentration also increases in many other diseases, particularly inflammatory and hepatic diseases.
Determining liver enzyme concentrations is of little benefit in diagnosis, unless the disease has progressed to cirrhosis. Serum aminotransferase concentrations usually increase only a little, < 100 U/l (ALT > AST).
The diagnosis is at present confirmed by gene testing; the patient is usually tested for HFE gene mutation.
If the diagnosis cannot be confirmed with HFE genotyping or if any other cause for excessive iron accumulation cannot be found, a liver biopsy is taken. It may also be necessary for exclusion of other liver diseases (e.g. NASH).
- In haemochromatosis, liver iron concentration is usually over 150 µmol/g of dry weight (normal reference range 5-40 µmol/g). The iron content of the liver can also be estimated by magnetic resonance imaging.
First-degree relatives of patients who are homozygous for C282Y, or combined heterozygotes (C282Y/H63D, C282Y/S65C), should be screened for HFE gene mutations. However, the ethical considerations related to screening should be kept in mind.
- Screening of the asymptomatic general population for haemochromatosis with DNA testing is not recommended at present.

Treatment

Ferritin concentration of over 300 μg/l in men and over 200 μg/l in women is considered as the threshold for initiating treatment in hereditary haemochromatosis.
The treatment aims at removing excessive iron from the body. The amount of iron overload varies between 10 and 45 g.
In classic haemochromatosis, venesection is the most effective and safest form of treatment. The treatment is started in specialized care, but further treatment can be carried out in primary health care.
Induction therapy
- Venesection is performed once or twice weekly (500 ml of blood at a time) until plasma ferritin concentration is < 50 µg/l.
- Treatment duration is 2-3 years.
- Haematocrit level is checked before each venesection. If the level is < 32%, the treatment is postponed, and the frequency is reduced by a week.
- Plasma ferritin concentration is determined initially at 1-2-month intervals.
- After venesection, adequate hydration should be ensured and strenuous physical exertion for the next 24 hours avoided.
Maintenance therapy
- Typically, venesection is performed 2-4 times per year.
- Target ferritin concentration is 50-100 µg/l.
  - A lower ferritin concentration may lead to iron deficiency symptoms, increased iron absorption and increased need for venesections.
Severe anaemia, cardiac symptoms or hypoproteinaemia may prevent the performance of venesections. In such a case, parenteral desferrioxamine may be used for chelating iron. It removes about 10-20 mg of iron daily. In addition, oral iron chelators (deferasirox, deferiprone) are available.
The use of iron preparations should absolutely be avoided.
The use of excessive amounts of vitamin C (increases iron absorption) and alcohol (increases liver toxicity of iron) should be avoided.

Follow-up and prognosis

Follow-up of a patient with hereditary haemochromatosis
- Basic blood count with platelets, plasma ferritin, fasting plasma transferrin saturation
  - Treatment target: serum ferritin concentration 50-100 µg/l, ferritin saturation < 30%
- Ultrasonography
- In cirrhosis: serum AFP and ultrasonography every 6-12 months
The most severe complications are insulin-dependent diabetes, heart disease, cirrhosis and hepatoma.
The prognosis of untreated patients is poor, but improves significantly with treatment. Five-year survival is 70-90%.
Removing iron does not reduce the risk of hepatoma in patients with haemochromatosis that has progressed to cirrhosis.

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