Relapsing/remitting type 1 diabetes.

AIMS/HYPOTHESIS: Type 1 diabetes is believed to be an autoimmune disease associated with irreversible loss of insulin secretory function that follows a chronic progressive course. However, it has been speculated that relapsing/remitting disease progression may occur in type 1 diabetes. METHODS: We report the case of an 18-year-old girl with Graves' disease, chronic inflammatory demyelinating polyneuropathy (CIDP) and multiple islet autoantibodies, presenting with relapsing/remitting hyperglycaemia. Peripheral blood mononuclear cells were analysed for islet autoimmunity. RESULTS: There were two instances of hyperglycaemia relapse during CIDP flare-ups that required insulin therapy and remitted after i.v. immunoglobulin (IVIG) therapy improving neurological symptoms. A diagnosis of type 1 diabetes was assigned on the basis of insulin need, HbA1c and islet autoantibodies. Insulin requirements disappeared following IVIG treatment and peaked during CIDP flare-ups. Pro- and anti-inflammatory cytokine responses were noted against islet autoantigens. CONCLUSIONS/INTERPRETATION: We provide clinical evidence of relapsing/remitting type 1 diabetes associated with IVIG treatment and the regulation of islet autoimmunity. Despite sufficient residual beta cell mass, individuals can experience episodes of impaired glycaemia control. This disconnect between beta cell mass and function highlighted by our case may have implications for the use of beta cell function as the primary endpoint for immune intervention trials aiming to protect beta cell mass rather than function. Immune modulation may restore beta cell function and glycaemic control.

Transverse Myelitis as Manifestation of Celiac Disease in a Toddler.

We present a 17-month-old girl with rapidly progressive unwillingness to sit, stand, play, and walk. Furthermore, she lacked appetite, vomited, lost weight, and had an iron deficiency. Physical examination revealed a cachectic, irritable girl with a distended abdomen, dystrophic legs with paraparesis, disturbed sensibility, and areflexia. An MRI scan revealed abnormal high signal intensity on T2-weighted images in the cord on the thoracic level, without cerebral abnormalities, indicating transverse myelitis (TM). Laboratory investigations revealed elevated immunoglobulin A antibodies against gliadin (1980.0 kU/L; normal, 0-10.1 kU/L) and tissue transglutaminase (110.0 kU/L; normal, 0-10.1 kU/L). Gastroscopy revealed villous atrophy in the duodenal biopsies and lymphocytic gastritis according to Marsh IIIb, compatible with celiac disease (CD). After the start of a gluten free diet and methylprednisolone, she recovered completely. To our knowledge, this is the first pediatric case of TM as manifestation of CD. We suggest that all children with TM or other neurologic manifestations of unknown origin should be screened for CD.

Partial inhibition of nitric oxide synthesis in vivo does not inhibit glucose production in man.

In the liver, paracrine interaction between Kupffer cells and hepatocytes influences glucose metabolism. In vitro in rats, nitric oxide (NO), a paracrine mediator, inhibits several pathways of hepatic glucose production. The role of NO on glucose production has not been studied in vivo in humans. Glucose production was measured during N(G)-monomethyl-L-arginine, monoacetate salt (L-NMMA) infusion, an inhibitor of NO synthesis in vivo, in 6 healthy men fasting 23 hours in a saline-controlled crossover study. During L-NMMA infusion, NO output decreased 40% to 50%, peripheral vascular resistance increased approximately 22%, and cardiac output (CO) decreased approximately 14%. The decrease in glucose production was not different between L-NMMA and saline. Glucose concentration, substrate supply, and glucoregulatory hormone concentrations were not different; epinephrine was lower with L-NMMA. A 40% to 50% inhibition of NO synthesis in vivo in humans does not affect glucose production during short-term fasting. The hypothesis that NO is an important modulator of basal glucose production in healthy humans in vivo should therefore be rejected.