Infratentorial superficial siderosis: Classification, diagnostic criteria, and rational investigation pathway.

Central nervous system infratentorial superficial siderosis (iSS) is increasingly detected by blood-sensitive magnetic resonance imaging (MRI) sequences. Despite this, there are no standardized diagnostic criteria, and the clinical-radiological spectrum, causes, and optimum investigation strategy are not established. We reviewed clinical and radiological details of patients with iSS assessed at a specialist neurological center during 2004-2016 using predefined standardized radiological criteria. All imaging findings were rated blinded to clinical details. We identified 65 patients with iSS, whom we classified into 2 groups: type 1 (classical) and type 2 (secondary) iSS. Type 1 (classical) iSS included 48 patients without any potentially causal radiologically confirmed single spontaneous or traumatic intracranial hemorrhage, of whom 39 (83%) had hearing loss, ataxia, or myelopathy; type 2 (secondary) iSS included 17 patients with a potentially causal radiologically confirmed spontaneous or traumatic intracranial hemorrhage, of whom none had hearing loss, ataxia, or myelopathy. Of the patients with type 1 (classical) iSS, 40 (83%) had a potentially causal cranial or spinal dural abnormality, 5 (11%) had an alternative cause, and 3 (6%) had no cause identified. Intra-arterial digital subtraction angiography did not identify any underlying causal lesions for type 1 iSS. Type 1 (classical) iSS, defined using simple radiological criteria, is associated with a characteristic neurological syndrome. Rational investigation, including spinal MRI, nearly always reveals a potential cause, most often a dural abnormality. Catheter angiography appears to be unhelpful, suggesting that classical iSS is not associated with macrovascular arterial pathology. Recognition of type 1 (classical) iSS should allow timely diagnosis and early consideration of treatment. Ann Neurol 2017;81:333-343.

Evaluation and interpretation of iron in the liver.

Faced with hepatic siderosis, the pathologist must (1) determine the parenchymal, mesenchymal, or mixed type of iron overload; (2) quantify liver iron by either histology or biochemistry; (3) seek for associated iron-related lesions, especially sideronecrosis, fibrosis, and iron-free-foci; and (4) assess any other liver damage. The discovery of the HFE gene has modified the management of hemochromatosis. Because homozygosity for the C282Y mutation is diagnostic of the condition regardless of the liver iron concentration-to-age ratio, indication for liver biopsy in C282Y homozygotes is restricted to the assessment of prognostic lesions, such as fibrosis and iron-free-foci. In patients with a phenotype compatible with hemochromatosis but nonhomozygous for the C282Y mutation, liver biopsy remains mandatory to assess nonhemochromatosis causes of iron overload (rare hereditary defects of iron metabolism and transport and iron overload secondary to polymetabolic syndrome, to porphyria cutanea tarda, or to cirrhosis). The evaluation of iron distribution within liver cells and throughout lobules and the assessment of associated lesions are the most important features that allow for correct classification of nonhemochromatosis iron-overload syndromes.

The clinical manifestations of chronic iron overload.

Primary or genetic haemochromatosis is an inherited disease characterized by an inappropriate degree of iron absorption with accumulation of excessive amounts of tissue iron. Parenchymal iron accumulation results in the typical clinical features of the disease including hepatic cirrhosis, diabetes, testicular atrophy and skin pigmentation. The disease is inherited in an autosomal recessive manner. The gene for the disease has not been identified but is tightly linked to the A locus of the histocompatibility complex on chromosome 6. The approximate homozygote frequency in Caucasians is 0.3% with an equal sex ratio. Excessive body iron stores have been described in a number of other conditions, particularly alcoholic liver disease. There is increasing evidence that many of these individuals are in fact also suffering from genetic haemochromatosis. Diagnostic tests including serum iron, transferrin saturation, serum ferritin and liver iron concentration make it possible to detect sufferers of the disease. Screening relatives of affected individuals with these tests allows a diagnosis to be made before permanent tissue damage has occurred. Removal of excess iron stores by repeated phlebotomy is the primary treatment. If iron is removed before significant tissue damage has occurred, the complications and natural course of the disease will be prevented provided reaccumulation of iron does not occur. Excessive iron accumulation with resultant organ damage also occurs in anaemias associated with ineffective erythropoiesis and after excessive parenteral iron administration or repeated blood transfusions. Similar clinical features may be seen. Chelation therapy is the mainstay of treatment in these cases where long-term venesection is not possible.

[Idiopathic pulmonary hemosiderosis in children. A report on 7 cases (author's transl)]. / Hémosidérose pulmonaire idiopathique chez l'enfant. A propos de 7 observations.

The authors describe 7 cases of idiopathic pulmonary hemosiderosis occurring in children, and emphasize the diagnostic value of the association of pulmonary and anemic manifestations, one of which could appear to be an isolated finding and thus delay diagnosis. Complementary investigations are discussed and the relative inocuity of a lung biopsy with a Gerbeaux needle, and the greater value of bronchoscopic samples over those obtained by gastric intubation for evaluating the presence of siderophagic activity emphasized. Functional pulmonary tests, especially for blood gases and ventilatory function, were also conducted. The difficulties in classifying the various types of pulmonary hemosiderosis, especially the "idiopathic" form in children, are outlined. Immunological disorders must be systematically searched for in order to choose the most effective therapy: corticoids or immunodepressants.