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🔥+ symptomsdiabeteshaving 09 Jul 2020 diet, fasting, intermittent fasting, obesity, type 2 diabetes, weight loss. Introduction. The increasing prevalence of obesity and type 2 diabetes in recent decades ...

symptomsdiabeteshaving REFERENCES: The National Institute of Diabetes and Digestive and Kidney Diseases. Causes of Diabetes. June 2014. 9 May 2016 . American Diabetes ...

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    Reviewsymptomsdiabeteshaving warning signs (☑ kids) | symptomsdiabeteshaving therapyhow to symptomsdiabeteshaving for   |   September 2008
    Type 2 Diabetes Mellitus in Childhood: Obesity and Insulin Resistance
    symptomsdiabeteshaving yo mama (🔥 sugar) | symptomsdiabeteshaving prevalencehow to symptomsdiabeteshaving for Malcolm S. Schwartz, DO; Anila Chadha, MD
    Author Notes
    • Address correspondence to Malcom S. Schwartz, DO, The Children''https://doi.org/10.7556/jaoa.2008.108.9.518''https://doi.org/10.7556/jaoa.2008.108.9.518''https://doi.org/10.7556/jaoa.2008.108.9.518''s medical records, Pinhas-Hamiel et al4 found that type 2 diabetes accounted for 33% of all new diagnoses in individuals aged between 10 and 19 years. In fact, the number of patients from birth to age 19 who received this diagnosis increased from 4% in 1982 to 16% in 1994. 
    Pediatric onset of type 2 diabetes mellitus increases the risk of micro- and macrovascular complications arising later in life,5 imparting new urgency to early diagnosis and treatment. 
    Epidemiology
    In the United States, the overall incidence of type 2 diabetes is higher among racial and ethnic minority populations than non-Hispanic whites (Figure 1).6 The same is true regarding individuals younger than 20 years.7 
    According to the SEARCH for Diabetes in Youth Study Group,8 incidence rates among American Indians aged 15 to 19 years is 49.4%, compared to 5.6% in non-Hispanic whites of the same age group. Among youth in the United States, Pima Indian adolescents have the highest reported prevalence of type 2 diabetes mellitus. For Pima Indian children aged 5 to 9 years, the incidence rate is less than 0.5%; for children and adolescents aged 10 to 14 years, 1.5% to 3%; and for adolescents and young adults aged 15 to 19 years, 4% to 5%.7 
    Pathophysiology
    The etiologic process in type 2 diabetes mellitus begins with obesity and insulin resistance, which in turn leads to inflammation and destruction of the pancreas'' offices with glycosuria without ketonuria, absent or mild polyuria and polydipsia, and little or no weight loss. However, up to 33% of these children have ketonuria at diagnosis, and 5% to 25% of patients who are subsequently classified as having type 2 diabetes mellitus have ketoacidosis at initial presentation.3 
    Laboratory Studies
    All laboratory studies should be individualized to the clinical situation. The test of fasting plasma glucose (FPG) and/or the oral glucose tolerance test (OGTT) are generally used to diagnose diabetes mellitus. In 1997, the ADA determined that the OGTT should not be used for routine diagnosis, which led to much debate. In 2003, the ADA32 concluded that inadequate evidence exists to determine which test is superior for diagnostic purposes. While the OGTT is more sensitive, results from the FPG test are more reliable, convenient, and inexpensive.32 
    Diabetes mellitus may be diagnosed (Figure 2) using the results of one of three tests: for 1 last update 09 Jul 2020   
    • FPG level ≥126 mg/dL
    • results from OGTT (2 hours postload) with glucose concentration levels ≥200 mg/dL
    • hyperglycemic symptoms and casual plasma glucose concentration levels ≥200 mg/dL33
    The first two methods must be repeated at least once at a different time of day to confirm diagnosis. For the third method, “casual” is defined as occurring at any time of the day—regardless of meal times.33 After obese children receive a 2-hour postload OGTT, their insulin levels should also be measured for insulin resistance, glucose intolerance, and diabetes mellitus. Insulin levels are especially relevant when fasting glucose and insulin levels do not show insulin resistance. 
    Differential Diagnosis
    In addition, the differential diagnosis for type 2 diabetes mellitus may include gestational diabetes, maturity-onset diabetes of youth, prediabetes, and type 1 diabetes mellitus. 
    Gestational diabetes is a form of diabetes that is defined as any degree of glucose intolerance beginning or first recognized during pregnancy. Based on ADA33 recommendations, an OGTT must be used to diagnose gestational diabetes mellitus. the 1 last update 09 Jul 2020   
    Maturity-onset diabetes of youth (MODY) is a genetically inherited form of the disease that is the result of defects in β cell function.3 This condition most commonly arises before age 25 years.34 
    Figure 2.
    Parameters for fasting plasma glucose and oral glucose tolerance values at 2 hours postload by diagnosis. All diagnoses are provisional and must be confirmed through one repeat testing at a different time of day. 33
    Figure 2.
    Parameters for fasting plasma glucose and oral glucose tolerance values at 2 hours postload by diagnosis. All diagnoses are provisional and must be confirmed through one repeat testing at a different time of day. 33
     
    Although at least six types of MODY exist, types 1, 2, and 3 involve deficient insulin secretion with normal insulin sensitivity. African Americans affected by MODY have low insulin concentrations, do not have associated obesity, and exhibit mitochondrial defects.34 In addition, patients with MODY may be distinguished from patients with type 2 diabetes mellitus with fasting insulin, C-peptide, or β cell autoantibody measurements.3 
    Prediabetes, which is often a precursor to type 2 diabetes mellitus, is denoted by an FPG level between 100 mg/dL and 125 mg/dL (impaired fasting glucose). If an OGTT is used, a 2-hour postload glucose concentration level between 140 mg/dL and 199 mg/dL (impaired glucose tolerance) is suggestive of this clinical condition. Patients with prediabetes have an increased risk for type 2 diabetes mellitus as well as macrovascular disease.33 
    Type 1 diabetes mellitus, a form of diabetes resulting from β cell destruction, may be difficult to distinguish from type 2 diabetes mellitus. A fasting C-peptide level greater than 1 ng/dL in a patient who has had diabetes mellitus for more than 1 year is suggestive of type 2 diabetes mellitus (ie, residual β cell function). Islet-cell autoantibodies are present in the early type 1 form of the disease, but not in type 2 diabetes mellitus. 
    Measurement of these autoantibodies within 6 months of diagnosis can help clinicians differentiate between type 1 and type 2 diabetes mellitus because titers usually decrease after 6 months. Antiglutamate decarboxylase antibodies may be present at the diagnosis of type 1 diabetes mellitus and in the future. If the diagnosis is unclear, insulin therapy should be implemented until the type can be determined. 
    Complications
    In addition to hyperglycemia and hypoglycemia, diabetes mellitus can cause micro- and macrovascular complications, including retinopathy, nephropathy, neuropathy, and cardiovascular disease.35 As a result of these associated complications in individuals aged 20 to 74 years, diabetes mellitus is the leading cause of new cases of blindness, nontraumatic lower-extremity amputation, and kidney disease.6 Diabetes mellitus can also lead to dental disease.35 In children, micro- and macrovascular complications must be considered and treated appropriately. 
    Urinary microalbumin excretion, fasting lipid levels, and dilated retinal examination by an ophthalmologist should be obtained at the time of diagnosis and annually thereafter to detect complications. Patients showing any signs of hypertension or renal disease should be placed on an angiotensin-converting enzyme inhibitor or angiotensin II–receptor blockers, respectively. These medications may also reduce risk of coronary artery disease independent of its effects on blood pressure. Statins may be administered for hyperlipidemia.35symptomsdiabeteshaving lipid (🔥 brochure) | symptomsdiabeteshaving wild ricehow to symptomsdiabeteshaving for  
    Chronic hyperglycemia is associated with an increased risk of microvascular complications, as shown in the Diabetes Control and Complications Trial (DCCT)36 for type 1 diabetes mellitus and the United Kingdom Prospective Diabetes Study (UKPDS)37 for type 2 diabetes mellitus. 
    In the 7-year DCCT, intensive therapy to maintain normal blood glucose levels greatly reduced the onset and progression of retinopathy, microalbuminuria, proteinuria, and neuropathy. Intensive therapy was not associated with a significant difference in either mortality or in incidence rates for major macrovascular events. Intensive therapy also did not decrease patient quality of life—though it did increase the likelihood of severe hypoglycemic episodes. for 1 last update 09 Jul 2020   
    In the 15-year UKPDS,37 more than 5000 patients with type 2 diabetes mellitus were observed. Subjects in the intensive therapy group had a significantly lower rate of progressive microvascular complications than those receiving standard care. Rates of macrovascular disease were not altered except in the metformin monotherapy arm of the study, in which the risk of myocardial infarction was significantly decreased. Moreover, severe hypoglycemia occurred less often than it did for patients with type 1 diabetes mellitus in the DCCT. Immunologic, reproductive, and teratogenic complications were common for patients with type 2 diabetes mellitus in the UKPDS.37 the 1 last update 09 Jul 2020   
    Therapeutic Options
    Therapeutic options can be grouped into three categories: (1) weight control through diet and exercise, (2) hypoglycemic agents, and (3) insulin therapy. 
    Weight Control Through Diet and Exercise
    Treatment of type 2 diabetes mellitus necessitates a multidisciplinary approach that includes the physician, diabetes nurse educator, dietician, exercise physiologist or personal trainer, social worker, and psychologist.36 Family involvement is essential to initiate and maintain the lifestyle changes required for managing type 2 diabetes mellitus, especially in pediatric patients.38symptomsdiabeteshaving symptoms women (🔴 quizlet) | symptomsdiabeteshaving linkhow to symptomsdiabeteshaving for  
    Skeletal muscle training leads to altered expression of insulin-signaling elements, in particular glucose transporters with increased glucose uptake and glycogen synthesis. Exercise leads to release of bradykinin locally, which has been shown to have stimulatory effects on glucose uptake. Evidence exists that insulin resistance of the liver can be improved as well. In addition, a reduction of hepatic glucose production occurs after endurance training. Likewise, insulin responsiveness toward glucose uptake can be enhanced in adipocytes after exercise.28,39-41 
    Hypoglycemic Agents
    Pharmacotherapy can be used to decrease blood glucose by increasing insulin secretion, increasing insulin action, decreasing hepatic glucose output, decreasing nutrient absorption, or sensitizing tissue to insulin.42 Of the hypoglycemic agents that are used to treat patients with diabetes mellitus, only metformin, a biguanide, has been approved for use in children by the US Food and Drug Administration (FDA).43 In adolescents, other medications are used, sometimes off-label, and often in combination therapy for patients whose conditions are difficult to control. 
    Oral hypoglycemic agents consist of biguanides, thiazolidinediones, sulfonylureas, meglitinides, and alpha-glucosidase inhibitors (AGIs).42 Hypoglycemic agents, such as incretin mimetics, dipeptidyl peptidase-4 inhibitors, and amylin analogues are also useful in adults and may soon be tested in children.44-46 
    Biguanides, such as phenformin and metformin, increase peripheral sensitivity to insulin and decrease hepatic glucose output. They also stimulate weight loss and improve lipid profile.42 Phenformin has been associated with lactic acidosis. Metformin, the only FDA-approved oral medication for children aged 10 years and older with type 2 diabetes mellitus, very rarely causes lactic acidosis (0.03 cases per 1000 patient-years).42 Adverse effects of metformin can include hypoglycemia as well as gastrointestinal upset.47 Malabsorption of vitamin B12 and anemia are less common adverse effects.42 
    Thiazolidinediones, such as pioglitazone and rosiglitazone, are agents that increase peripheral insulin sensitivity by increasing transcription of peroxisome proliferator-activated receptor-γ that helps increase uptake of glucose, probably with effects on free fatty acid levels. Their major effects are to stimulate glucose uptake in skeletal muscle and adipose tissue and to lower plasma insulin levels.48 Two or 3 months of treatment are needed to achieve maximal antihypoglycemic effect. 
    Thiazolidinediones can be used as monotherapy or in combination with other hypoglycemic agents. Drug-induced hypoglycemia may occur when thiazolidinediones are combined with sulfonylureas. Particular care should be taken with patients who have a history of anemia, cardiac failure, edema, or liver dysfunction.42 Adverse effects of these medications include risk of fracture and may also include fluid retention and peripheral edema as well as upper respiratory tract infection, sinusitis, and muscle or tooth pain.42,49,50 
    Sulfonylureas can increase insulin secretion by enhancing pancreatic β cell responsiveness to glycemic stimuli. They attach to β cell surface receptors (ATP-dependent potassium channels), causing depolarization, calcium influx, and stimulation of insulin release.51 
    Drug-induced hypoglycemia is a potential effect of first-(chlorpropamide) and second-generation sulfonylureas (glyburide, glipizide, glimepiride).52-55 A high mortality rate has been shown when glyburide is used in combination with metformin.56 Adverse effects may include skin sensitivity, yellowing of skin or eyes, light-colored stools, dark urine, unusual bleeding or bruising, fever, sore throat, jaundice, hematologic complications, hyponatremia and fluid retention.42,52,53 
    Meglitinide agents, such as repaglinide and nateglinide, are short-acting prandial insulin secretagogues. They also act on the ATP-dependent potassium channels in pancreatic β cells, allowing calcium channels to open and increasing insulin release.57 Repaglinide and nateglinide may cause hypoglycemia as well as headache, nasal congestion, joint aches, back pain, constipation, and diarrhea.58,59 Nateglinide also may cause runny nose and cough.58 for 1 last update 09 Jul 2020   
    Alpha-glucosidase inhibitors, such as acarbose, are complex oligosaccharides that delay the digestion of ingested carbohydrates. Their major effect is to lower postprandial glucose levels. They are used as monotherapy or in combination with other hypoglycemic agents.60 Alone, AGIs do not cause hypoglycemia.42 Adverse gastrointestinal effects can be minimized by taking AGIs with a diet that is high in complex carbohydrates.42 
    The goal of oral hypoglycemic therapy is to lower blood glucose levels to near-normal preprandial levels (ie, between 80 mg/dL and 140 mg/dL), to reduce glycosylated hemoglobin levels to less than 7%, and to maintain these levels for the patient''s glucose production and delaying gastric emptying. The manufacturer of sitagliptin will be testing this product in children in the near future.45 Adverse effects of sitagliptin may include stuffy or runny nose, sore throat, headache, stomach pain, and diarrhea.62 
    Amylin analogs, like pramlintide, delay gastric emptying, decrease postprandial glucagon release, and regulate food intake. Amylin is a hypoglycemic hormone co-secreted with insulin by the β cells, but it is degraded too quickly to have clinical applications. Amylin analogs may be used to treat type 1 or type 2 diabetes mellitus in combination with insulin.46 Adverse effects of pramlintide include gastrointestinal upset; excessive tiredness or dizziness; coughing or sore throat; joint pain; and redness, swelling, bruising, or itching at the injection site.63 
    These agents have not been tested in large-scale studies with children.64 Additional research is needed to determine efficacy for this patient population. the 1 last update 09 Jul 2020   
    Insulin Therapy
    If acceptable target glucose levels are not achieved with these medications, once-daily long-acting insulin, such as glargine or determir, should be instituted.65 If a regimen combining oral agents and long-acting insulin fails to bring glucose levels into normal range, patients should be switched to a daily multiple-injection schedule with premeal very rapid–acting insulin and longer acting basal insulin.42 In some cases, patients should be treated with a subcutaneous continuous insulin infusion pump.66 
    Prevention
    Efforts to reduce childhood obesity could play an important role in preventing the spread of type 2 diabetes mellitus in the pediatric population. Government entities and communities should take care to cultivate environments where children are encouraged to make healthy lifestyle choices. 
    In-school intervention efforts may range from eliminating candy and soda in cafeterias and vending machines to mandating 30 to 45 minutes of vigorous physical activity two or three times per week. 
    Children should be educated on appropriate diet and exercise habits from preschool through high school. Education on appropriate dietary habits should include information on how to shop for and prepare healthy, well-balanced meals.symptomsdiabeteshaving breakfast recipes (☑ treatment) | symptomsdiabeteshaving case studyhow to symptomsdiabeteshaving for  
    Serious long-term approaches for primary prevention are needed to address this growing problem. We are obligated to protect young people from the grim outcomes of this disease constellation. 
     Editor''s Diabetes Mellitus. New York, NY: Elsevier; 1990:363 .
    Klein BE, Klein R, Moss SE, Cruickshanks KJ. Parental history of diabetes in a population-based study. Diabetes Care. 1996;19:827-830.
    Poulsen P, Kyvik KO, Vaag A, Beck-Nielsen H. Heritability of type II (non–insulin-dependent) diabetes mellitus and abnormal glucose tolerance—a population-based twin study. Diabetologia. 1999;42:139-145. Available at: http://www.springerlink.com/content/rbxq5kl8mybf0gj5/fulltext.pdf. Accessed July 16, 2008.
    Legro RS, Kunselman AR, Dodson WC, Dunaif A. Prevalence and predictors of risk of diabetes mellitus and impaired glucose tolerance in polycystic ovary syndrome: a prospective study in 254 affected women. J Clin Endocrinol Metab. 2005;352:165-169. Available at: http://jcem.endojournals.org/cgi/content/full/84/1/165. Accessed July 16, 2008.
    Weiss R, Dufour S, Taksali SE, Tamborlane WV, Petersen KF, Bonadonna RC, et al. Prediabetes in obese youth: a syndrome of impaired glucose tolerance, severe insulin resistance, and altered myocellular and abdominal fat partitioning. Lancet. 2003;362:951-957. doi: 10.1016/S0140-6736(03)14364-4 .
    Gower BA, Nagy TR, Goran MI. Visceral fat, insulin sensitivity, and lipids in prepubertal children. Diabetes. 1999;48:1515-1521. Available at: http://diabetes.diabetesjournals.org/cgi/reprint/48/8/1515. Accessed July 16, 2008.
    Lipton RB, Drum M, Burnet D, Rich B, Cooper A, Baumann E, et al. Obesity at the onset of diabetes in an ethnically diverse population of children: what does it mean for epidemiologists and clinicians? Pediatr. 2005;115:e553-e560. Available at: http://pediatrics.aappublications.org/cgi/reprint/115/5/e553. Accessed July 16, 2008.
    Bacha F, Saad R, Gungor N, Janosky J, Arslanian SA. Obesity, regional fat distribution and syndrome X in obese black versus white adolescents: race differential in diabetogenic and atherogenic risk factors. J Clin Endocrinol Metab. 2003;88:2534-2540. Available at: http://jcem.endojournals.org/cgi/content/full/88/6/2534. Accessed July 16, 2008.
    Centers for Disease Control and Prevention. Prevalence of Overweight and Obesity Among Adults with Diagnosed Diabetes—United States, 1988–1994 and 1999–2002. MMRW Morb Mortal Wkly Rep. 2004;53:1066-1068. Available at: http://www.cdc.gov/mmwr/preview/mmwrhtml/mm5345a2.htm. July 16, 2008.
    Ogden CL, Flegal KM, Carroll MD, Johnson CL. Prevalence and trends in overweight among US children and adolescents, 1999-2000. JAMA. 2002;288:1728-1732. Available at: http://jama.ama-assn.org/cgi/content/full/288/14/1728. Accessed July 16, 2008.
    Goran MI, Ball GD, Cruz ML. Obesity and risk of type 2 diabetes and cardiovascular disease in children and adolescents [review]. J Clin Endocrinol Metab. 2003;88:1417-1427. Available at: http://jcem.endojournals.org/cgi/content/full/88/4/1417. Accessed July 16, 2008.
    Carter JS, Pugh JA, Monterrosa A. Non–insulin-dependent diabetes mellitus in minorities in the United States. Ann Intern Med. 1996;125:221-232. Available at: http://www.annals.org/cgi/content/full/125/3/221. Accessed July 16, 2008.
    Astrup A, Dyerberg J, Selleck M, Stender S. Nutrition transition and its relationship to the development of obesity and related chronic diseases [review]. Obes Rev. 2008;9(suppl 1):48-52. doi: 10.1111/j.1467-789X.2007.00438.x .
    Rodríguez-Morán M, Guerrero-Romero F, Brito-Zurita O, Rascón-Pacheco RA, Pérez-Fuentes R, Sánchez-Guillén MC, et al. Cardiovascular risk factors and acculturation in Yaquis and Tepehuanos Indians from Mexico. Arch Med Res. 2008;39:352-357. doi: 10.1016/j.arcmed.2007.12.003 .
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