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Antidiabetic Drugs

Antidiabetic Drugs. Nursing 3703 Pharmacology By Linda Self. Diabetes Mellitus. Chronic systemic disease characterized by metabolic and vascular abnormalities Disorder of carbohydrate metabolism Results from inadequate production or underutilization of insulin. Diabetes Mellitus.

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Antidiabetic Drugs

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  1. Antidiabetic Drugs Nursing 3703 Pharmacology By Linda Self

  2. Diabetes Mellitus • Chronic systemic disease characterized by metabolic and vascular abnormalities • Disorder of carbohydrate metabolism • Results from inadequate production or underutilization of insulin

  3. Diabetes Mellitus • Characterized by glucosuria and hyperglycemia • Two forms—Type 1 and Type 2 • Type 1—patient secretes no insulin. Cause is felt to be autoimmune. • Type 2- patient secretes insufficient amounts of insulin and insulin receptors are resistant to existent circulating insulin

  4. Diabetes Mellitus • Symptoms: hyperglycemia, glucosuria, polyuria, polydipsia, polyphagia, and possibly itching. • Fasting blood glucose is higher than 126 • Manifested by: weight loss, weakness, increased frequency of infections, poly’s

  5. Diabetes Mellitus • Without intervention, significant complications will ensue. • Include: retinopathies, glaucoma, neuropathies, cardiovascular disease.PVD. Increased incidence of toxemia of pregnancy.

  6. Pathophysiology • Insulin secreted by beta cells • Insulin binds with and activates 80% of cells • Liver, muscle, and fat cells are primary tissues for insulin action • With insulin receptor binding, cell membranes permeable to glucose into the cells

  7. Pathophysiology cont. • Increased cell permeability also allows for amino acids, fatty acids and electrolytes to enter cells • Changes cause anabolism and inhibit catabolism

  8. Pathophysiology cont.Carbohydrate metabolism • Insulin increases glucose transport into liver, skeletal muscle, adipose tissue, the heart, and even uterus. • Must be present for muscle and fat tissues to use glucose for energy • Insulin regulates glucose metabolism to produce energy for cellular functions

  9. Pathophysiology cont.Fat Metabolism • Insulin promotes glucose into fat cells where it is broken down • One of breakdown products is A-glycerophosphate, combines with fatty acids which ultimately forms triglycerides • This is the mechanism by which insulin promotes fat storage

  10. Fat Metabolism • When insulin is lacking, fat is released into the bloodstream as free fatty acids. • Blood concentrations of triglycerides, cholesterol and phospholipids are also increased

  11. Protein Metabolism • Insulin increases the total amount of body protein by increasing transport of amino acids into cells and synthesizing protein within the cells • Insulin potentiates the effects of growth hormone • Lack of insulin causes protein breakdown into amino acids

  12. Endogenous Insulin • Glucose is the major stimulus of insulin secretion • Oral glucose is more effective than intravenous glucose because glucose in digestive tract increases the release of gastrin, secretin, chlecystokinin, and gastric inhibitory peptide • Also stimulates vagal activity

  13. Endogenous Insulin Other hormones that raise blood glucose levels include: • Cortisol • Glucagon • Growth hormone • Epinephrine • Estrogen • Progesterone

  14. Endogenous Insulin Factors that inhibit insulin secretion include: • Hypoxia • Hypothermia • Stimulation of alpha adrenergic 2 receptors

  15. Classification of Two Types of Diabetes • Type 1 diabetes results from an autoimmune disorder that destroys pancreatic beta cells • Usually has sudden onset • Associated with high incidence of complications • Requires exogenous insulin • 10% of those with diabetes are type I

  16. Diabetic Ketoacidosis (DKA) • Life-threatening complication occurs with insulin deficiency • Glucose cannot be used by body cells for energy so fat is mobilized for this purpose • Mobilized fat is then extracted by liver and broken down into glycerol and fatty acids • Fatty acids further broken down into ketones

  17. DKA • Accumulation of ketones results in acidemia • Attempts to buffer acidic H+occurs by ionic exchange, intracellular potassium exits cells. H+ ions enter cells. Result is excretion of potassium in urine. • Kidneys attempt to buffer by excreting ketones • Pulmonary attempt to buffer by Kussmaul breathing

  18. Clinical S/S of DKA • Kussmaul breathing • Nausea and vomiting • Thirst • Polydipsia, polyphagia and polyuria • Hypotension • Tachycardia • shock

  19. Type 2 Diabetes Mellitus • Characterized by hyperglycemia and insulin resistance • Results from increased production of glucose by liver and decreased uptake of glucose in liver, muscle and fat cells • Insulin resistance—higher than usual concentrations of insulin are required

  20. Type 2 Diabetes Mellitus • Occurs at any age • Gradual onset • Less severe symptoms initially • Easier to control • More MIs and strokes • 90% of those with diabetes are Type 2 • multifactorial

  21. Hyperosmolar hyperglycemia nonketotic coma (HHNC) • Occurs in Type 2 Diabetes • Because patient has some endogenous insulin, no ketosis develops • Blood sugars can be >800-1000 • Can result in hypovolemic shock, renal problems, stroke, coma and even death

  22. Metabolic Syndrome or Syndrome X • Comprised of a set of risk factors which include: • Central abdominal adiposity (men waist size greater than 40 inches, women greater than 35 inches • Fasting triglycerides greater > or equal to 150 mg/dl • HDL cholesterol (less than 40 in men, less than 50 mg/dl in women

  23. Metabolic Syndrome cont. 4. Blood pressure greater than or equal to 130/85 5. Fasting glucose greater than or equal to 110mg/dL Also possess prothrombotic and proinflammatory tendencies

  24. Metabolic Syndrome cont. • All factors are interrelated • Obesity and lack of exercise tend to lead to insulin resistance • Insulin resistance has a negative effect on lipid production. Increase VLDL, LDL, TG and decreasing the HDL. • Insulin resistance leads to increased insulin and glucose levels in blood.

  25. Hypoglycemic Drugs • Insulin lower glucose levels by increasing glucose uptake by cells • Indicated for Type 1 DM, often in Type 2 DM, in those with chronic pancreatitis, in those on TPN, to treat hyperkalemia (infusion with dextrose and insulin) • Available insulins are pork and human

  26. Age-Related considerations Type 1 DM in children • Consistent diet, blood glucose monitoring, insulin injections and exercise • Blood sugar control essential to maintain normal growth and development • Infections and illnesses can cause wide fluctuations

  27. Type 1 DM in children cont. • Children highly susceptible to dehydration • Rotation of sites is very important • Avoiding hypoglycemia is a major goal in infants and young children d/t damaging effects on growth and development

  28. Type 1 DM in children • s/s of hypoglycemia include: hunger, sweating, tachcardia, irritability and lethargy.

  29. Age related considerations in older adults • Close monitoring of blood glucose levels • Visual impairment may affect their ability to self administer medication • May have renal insufficiency so caution w/certain antidiabetic meds a concern • Caution with metformin if renal impairment • Glitazones can predispose to fluid retention and heart failure

  30. Insulin • Human insulin is chemically identical to endogenous insulin but it is not derived from the human pancreas • Cannot be given orally • Insulins differ in onset and duration of action. Ultra-short, short, intermediate and long acting.

  31. Rapid acting insulin • Insulin lispro (Humalog) or insulin aspart (Novolog) are very shorting acting insulins • More effective in decreasing post-prandial hyperglycemia • Less likely to cause hypoglycemia before the next meal • Onset is 15’, peaks in 1-3 hours, duration is 3-5 hours

  32. Insulin cont. • Short acting Insulins • Regular Iletin II, Humulin R, Novolin R • May be given sub Q or IV • May be given as a continuous IV drip • The only insulin that may be given IV • Onset is ½-1 hour, peak is 2-3 hours and duration is 5-7 hours

  33. Intermediate-acting Insulins • Isophane insulin suspension (NPH, NPH Iletin II, Humulin N, Novolin N) • Onset is 1-1.5 hours, peaks in 8-12 hours and duration is 18-24

  34. Long-acting Insulin • Extended insulin zinc suspension • Onset is 4-8 hours, peaks in 10-30 hours and duration is 36+ hours

  35. Insulins cont. Insulin Mixtures • NPH 70/30 (Humulin or Novolin 70/30) • Durations of actions same as individual components

  36. Insulins cont. • Insulin Analogs • Lispro and aspart as previously described • Insulin glargine (Lantus)-once daily at bedtime. Onset is 1.1 hours, peak is none, duration is 24 hours • Must not be diluted or mixed with any other insulin or solutions

  37. Oral Hypoglycemic Drugs • Five types used to treat Type 2 DM • Sulfonylureas—oldest. Increase release of insulin. Also decrease production of glucose in the liver, increase the number of insulin receptors and increase peripheral use of glucose. Effective only if have functioning beta cells. • Primary side effect is hypoglycemia

  38. Sulfonylureas cont. • First generation are essentially obsolete • Use 2nd generation agents • Are glipizide (Glucotrol), glyburide (Diabeta)and glimepiride (Amaryl) • Can be used with metformin, glitazones, insulin or acarbones • Caution w/renal or hepatic impairment. Not used in pregnancy.

  39. Alpha glucosidase Inhibitors • Acarbose (Precose) and miglitol (Glyset) inhibit alpha-glucosidase enzymes (maltase, amylase, sucrase) in GI tract. Delays absorption of complex CHO and simple sugars • Can be combined therapy w/insulin or w/sulfonylurea • Contraindicated in cirrhosis, malabsorption, severe renal impairment

  40. Alpha-glucosidase Inhibitors • Take at beginning of each meal • Can cause bloating and diarrhea

  41. Biguanides • Metformin (Glucophage) increases the use of glucose by muscle and fat cells, decreases hepatic glucose production, and decreases intestinal absorption of glucose • Does not cause hypoglycemia • May be used alone or in combination • Contraindicated in liver or renal impairment. Can result in lactic acidosis.

  42. Biguanides cont. • Must check renal function before beginning this medication • Caution with parenteral radiographic contrast media containing iodine. May cause renal failure and has been associated with lactic acidosis.

  43. Glitazones • Pioglitazone (Actos) and rosiglitazone (Avandia) are also called thiazolidinediones or TZDs • Are insulin sensitizers • Decrease insulin resistance. Stimulate receptors on muscle, fat, and liver cells. Results in increased uptake of glucose in periphery and decreased production by the liver.

  44. Glitazones • Contraindicated in patients with liver disease or who have ALT levels > 2.5 of normal • May be used as monotherapy or in combination with insulin, metformin (Glucophage) or a sulfonylurea • Caution in patients with heart failure • Ensure baseline LFTs are performed

  45. Meglitinides • Nateglinide and repaglinide are nonsulfonylureas that lower blood sugar by stimulating pancreatic secretion of insulin • Monotherapy or in combination with metformin • Should be taken before or up to 30 minutes before a meal. Dosage and frequency is flexible depending on food intake.

  46. Herbals and Dietary Supplements that affect blood glucose levels • Bee pollen, gingko biloba and glucosamine are thought to increase blood sugars or may potentially affect beta-cell function and insulin secretions (see p. 378) • Basil and bay leaf may cause hypoglycemia • Chromium may increase production of insulin receptors and increase insulin effectiveness

  47. DKA • IV fluids to rehydrate • No use of hypotonic solutions at this time • Potassium supplementation • IV insulin drip with gradual lowering of blood sugars • Judicious administration of sodium bicarbonate

  48. HHNC • Treatment similar to that of DKA

  49. Diabetic management “pearls” • When mixing insulins, draw up the regular insulin first • Tid glucose monitoring is highly recommended • Allow mild hyperglycemia for the patient undergoing surgery—treat with short acting insulins • For elective surgery, schedule patient early in day to avoid prolonged fasting

  50. “Pearls” • Use U-100 syringes for U-100 vials • In patients with insulin pumps, use regular insulin or insulin aspart. Generally will deliver one unit per hour w/bolus insulin before meals • Tight glycemic control can reduce the complications of diabetes. • Use ACE inhibitors to delay nephropathy • Limit dietary intake of protein

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