[Recurrent pericardial effusion as first manifestation of Erdheim-Chester disease]. / Rezidivierender Perikarderguss als Erstmanifestation eines Morbus Erdheim-Chester.

HISTORY AND ADMISSION FINDINGS: A 65-year-old woman presented with reduced general condition and dyspnoea that was progressive over the last months. Clinical findings revealed an exophthalmus on the right, xanthelasm and mild peripheral oedema. Previously, a pericardiocentesis had been performed due to a large pericardial effusion. A previous CT scan showed a mass attached to the pericardium extending through the atrio-ventricular groove and a thickened aorta. In addition, a retroperitoneal fibrosis and an occlusion of both Aa. iliacae internae were found. INVESTIGATIONS: The ECG showed sinus rhythm. Laboratory findings demonstrated a microcytic anemia and a renal failure. Chest radiography showed a large cardiac silhouette, while the transthoracic echocardiography revealed a recurrent large pericardial effusion. A PET/CT scan of the chest and abdomen showed a tissue infiltration of the retroperitoneal structures, a mass surrounding the right coronary artery and the right orbita. Finally, a femur biopsy confirmed the diagnosis of Erdheim-Chester disease. DIAGNOSIS, TREATMENT AND COURSE: With the diagnosis Erdheim-Chester disease we started a high dose immunsuppressive therapy using glucocorticoids and interferon-a. Tumour size slightly decreased during the following 2 months, however the patient developed a severe urosepsis and died from multiorgan failure. CONCLUSIONS: We report a case of an Erdheim-Chester disease with cardiovascular involvement primarily diagnosed due to a recurrent large pericardial effusion. In case of cardial tumors with interatrial septum or coronary artery involvement together with cerebral manifestations, an Erdheim-Chester disease should be taken into account.

Insulin-mediated cortical activity in the slow frequency range is diminished in obese mice and promotes physical inactivity.

AIMS/HYPOTHESIS: There is evidence from mouse models and humans that alterations in insulin action in the brain are accompanied by an obese phenotype; however, the impact of insulin with regard to behavioural aspects such as locomotion is unknown. METHODS: To address insulin action in the brain with regard to cortical activity in distinct frequency bands and the behavioural consequences, the insulin signalling pathway was followed from the receptor to electrical activity and locomotion. Western blot analysis, electrocorticograms with intracerebroventricular (i.c.v.) application of insulin, and measurements of locomotor activity were performed in lean and obese, as well as Toll-like receptor (TLR) 2/4-deficient, mice. RESULTS: We show that insulin application i.c.v. into lean mice was accompanied by a profound increase in cortical activity in the slow frequency range, while diet-induced obese mice displayed insulin resistance. In parallel, insulin administered i.c.v. increased locomotor activity in lean mice, whereas a phosphatidylinositol-3 (PI3) kinase inhibitor or obesity abolished insulin-mediated locomotion. A potential candidate that links insulin signalling to locomotion is the Kv1.3 channel that is activated by PI3-kinase. Pharmacological inhibition of Kv1.3 channels that bypassed insulin receptor activation promoted activity. Moreover, mice deficient in TLR2/4-dependent signalling displayed an increase in cortical activity in the slow frequency range that was correlated with improved spontaneous and insulin-mediated locomotor activity. CONCLUSIONS/INTERPRETATION: Our data provide functional evidence for a direct effect of insulin on brain activation patterns in the slow frequency bands and locomotor activity in lean mice, while in obese mice, insulin-mediated locomotion is blunted and further aggravates physical inactivity.