Age ≥10 years or children <10 years of age in whom puberty has begun

Overweight (body mass index [BMI] >85th percentile for age and sex, weight for height >85th percentile, or weight >120 percentile of ideal for height)

Any two of the following risk factors:

Virtually all children identified with type 2 diabetes will have a family history of type 2 diabetes, and most will have a parent with type 2 diabetes. Type 2 diabetes is felt to be a multigenic disorder; that is, it is caused by the combined effects of a number of genes (and the effects of environmental factors) rather than being the result of a mutation of a single gene. Although a number of genes have now been implicated as potential contributors to the genetic risk of type 2 diabetes (including the genes for the peroxisome proliferator-activated receptor-gamma [PPAR-gamma]; the beta-3-adrenergic receptor; calpain-10; and insulin receptor substrate 1 [IRS-1]), current knowledge of the identity of type 2 diabetes genes is very incomplete. Notably, many genes in the glucose metabolism, insulin secretion, and insulin signaling pathways have been investigated and excluded as significant type 2 diabetes genes. Individuals with homozygous or compound heterozygous mutations of the insulin receptor do have syndromes with extreme insulin resistance, but these are distinct from type 2 diabetes. The phenotype associated with these mutations varies from relatively normal glucose control (rarely) or diabetes identified in adolescence (type A insulin resistance) to more severe phenotypes evident in infancy (Rabson-Mendenhall syndrome and leprechaunism, which is usually fatal in infancy).

There is a type of non–insulin-dependent diabetes for which the genetic cause is known. These are the single gene mutations that lead to maturity-onset diabetes in youth (MODY), inherited in an autosomal dominant manner and resulting in diabetes that usually has its onset before age 25 years. Six separate MODY types have been identified. These are due to mutations in the genes for glucokinase (MODY2) and for transcription factors: hepatocyte nuclear factor (HNF)-4-alpha (MODY1); HNF-1-alpha (MODY3); insulin promoter factor-1 (IPF1; MODY4); HNF-1-beta (MODY5); and neurogenic differentiation 1/beta-cell E-box transactivator 2 (NeuroD1/BETA2; MODY6). These genes are all expressed in the pancreatic beta cell, and heterozygous mutations cause a deficiency in insulin secretion. Because insulin resistance is not part of the pathophysiology, obesity is not a feature of MODY. The severity of the insulin deficiency varies for the different MODY types, and consequently the severity of the untreated diabetes can vary from mild, sometimes unrecognized hyperglycemia with little risk of long-term microvascular diabetic complications to severe hyperglycemia with a very high risk of microvascular complications. However, in contrast to the ultimately total insulin deficiency of type 1 diabetes, there is generally sufficient insulin secretion in MODY to prevent ketosis. It is necessary to emphasize that the recent increased prevalence of non–insulin-dependent diabetes in children is not due to children with MODY. MODY is a relatively uncommon cause of diabetes, responsible for less than 5% of adult cases of diabetes. As in adults, the vast majority of children and adolescents with non–insulin-dependent diabetes have type 2 diabetes.

Genetic and environmental factors affecting fetal growth may also alter the risk for the development of type 2 diabetes. Intrauterine growth restriction (IUGR) is associated with an increased risk of type 2 diabetes in adulthood, and children with a history of IUGR have decreased insulin sensitivity. As other environmental factors increase the risk of diabetes, the increased insulin resistance in these children is likely to further increase their risk of developing type 2 diabetes during childhood. At the opposite extreme, overnutrition of the fetus, as occurs in infants born to diabetic mothers, also increases the risk of type 2 diabetes for the offspring. From a public health perspective, this is very concerning, given the increasing prevalence of diabetes in younger individuals, the result of which potentially will lead to more pregnancies in women with diabetes, setting the stage for an explosion of the type 2 diabetes epidemic.