Relative carnitine insufficiency in children with type I diabetes mellitus.

Recognizing the similarity of type I diabetes mellitus to inborn errors of metabolism that have responded to carnitine therapy, we initiated a study of 54 children with type I diabetes mellitus. Examining a fasting blood sample for levels of carnitine, glucose, and glycosylated hemoglobin A1c, and a urine sample for levels of ketones and glucose, we found 13 children were deficient of free carnitine (less than 20 mumol/L) and 30 had elevated acyl carnitine levels (greater than 11 mumol/L). Statistical tests confirmed a significant difference between the diabetic population and normal population for reduced free carnitine, elevated acyl carnitine, and an elevated ratio of acyl carnitine to free carnitine. Also, a significant correlation was found between the levels of urine glucose and ketones and the level of acyl carnitine. Our data indicate that carnitine deficiency and relative insufficiency may be an overlooked component in the management of diabetes.

Plasma carnitine deficiency. Clinical observations in 51 pediatric patients.

We studied the clinical spectrum associated with secondary plasma carnitine deficiency in 51 pediatric patients. Forty-three patients had total plasma carnitine values below 20 mumol/L and an additional eight patients had total values above 20 mumol/L but had low free plasma carnitine levels. The clinical presentation in the patients with total plasma carnitine deficiency included hypotonia (34 of 43), failure to thrive (27 of 43), recurrent infections (27 of 43), encephalopathy (six of 43), nonketotic hypoglycemia (seven of 43), and cardiomyopathy (nine of 43). Of the eight patients with low free and elevated esterified carnitine levels, the signs and symptoms at presentation included hypotonia (six of eight), recurrent infections (six of eight), failure to thrive (six of eight), encephalopathy (three of eight), nonketotic hypoglycemia (one of eight), and cardiomyopathy (one of eight). All patients were treated with L-carnitine. Treatment time varied from one month to 24 months (average, four months). A subjective improvement in muscle tone was seen in 24 of 38 patients, 22 of 33 patients showed acceleration of incremental growth, and infection frequency appeared to decrease in 18 of 33 patients. After therapy, the echocardiograms of all patients with cardiomyopathy normalized. There were no further hypoglycemic episodes. Of the nine patients with encephalopathy, eight showed improvement in their mental status. Three patients died of complications of their primary disorder. In our experience, secondary plasma carnitine deficiency is a common pediatric finding. The presence of failure to thrive, recurrent infections, hypotonia, encephalopathy, cardiomyopathy, or nonketotic hypoglycemia requires investigation of carnitine status.