PEDIATRIC ENDOCRINE DISORDERS

1. PEDIATRIC ENDOCRINE DISORDERS

2. Pediatric Differences in theEndocrine System • The endocrine system is less developed at birth than any other body system • Hormonal control of many body functions is lacking until 12-18 months of age • Infants might manifest imbalances in concentration of fluids, electrolytes, amino acids, glucose, and trace substances

3. Understanding the Endocrine System in Children • Puberty brings many changes • ↑GH released • ↑ production of LH and FSH in girls • Development of sexual characteristics • Feedback mechanism in place

4. Collecting data during an Endocrine Assessment • Percentiles on weight and height • Distinguishing facial features, abdominal fat • Onset of puberty • Routine NB screening • Blood glucose levels • Detection of chromosomal disorders

5. Phenylketonuria (PKU) • Genetic metabolic disorder characterized by absence of enzyme phenylalanine hydroxylase to breakdown phenylalanine to the amino acid Tyrosine. • As a result, excessive phenylalanine builds up in the blood stream causing permanent damage to brain

6. Phenylketonuria (PKU) • Clinical Manifestations • Musty or Mousey body and urine odor • Irritability, hyperactivity • Vomiting • Hypertonia, hyperreflexivity • Complication • Seizure disorder • Untreatable mental retardation

7. Goal of Therapy Keep serum phenylalanine level at 2-6mg/dl

8. Newborn Screening • Required by state law • Should not be done until feeding on breast milk or formula • Should be done ~48 hrs. after birth • If test shows elevated levels of plasma phenylalanine, repeat test done and if that is elevated, treatment started.

9. Treatment and Nursing Care for PKU • Special low-phenylalanine formula - Lofenalac, Minafen, and Albumaid XP • Diet low in phenylalanine – for life • Avoid high-protein foods such as meats, fish, eggs, cheese, milk, and legumes. • Avoid aspartame • Take a phenylalanine-free protein supplement to maintain growth • Family support

10. Treatment for PKU

11. Galactosemia Maple syrup urine Tay-Sachs disease Inborn Errors Of Metabolism

12. Galactosemia Carbohydrate metabolic dysfunction Related to a liver enzyme deficiency (GALT) Leads to accumulation of galactose metabolites in the eyes, liver, kidney and brain

13. Galactosemia • Signs and Symptoms • Poor sucking • Failure to gain weight / IUGR • Vomiting and diarrhea • Hypotonia • Cataracts • Infections • Treatment • Lactose-free formula and diet

14. Maple Syrup Urine Disease • Disorder of amino acid metabolism • Diagnosis made by UA • Signs and Symptoms: • Poor appetite • Lethargy • Vomiting • High-pitched cry • Seizures • Sweet odor of maple syrup in body fluids • Treatment/management • Removal of the amino acids and metabolites • Diet low in proteins and amino acids

15. Tay-Sachs Disease • Deadly inherited disease • No treatment • Death by age 4 • Eastern European Ashkenazi Jews • Absence of hexosaminidase A, a protein in nerve tissue which breaks down gangliosides (fatty substances that build up in nerve cells of the brain)

16. Tay-Sachs Disease • Signs & Symptoms • Deafness • Blindness • Decrease muscle tone • Loss of motor skills • Delayed mental & social skills • Dementia • Paralysis • Seizures

17. Nursing Measures for Metabolic Disorders Genetic counseling Dietary teaching and compliance Mixing special preparations Mainly supportive

18. Diabetes – Type 1 Inability of the body to produce or excrete insulin

19. When are Children most likely to be diagnosed with Diabetes? • Peak incidence is: • 5-7 years of age • Puberty It can occur at any age.

20. Emerging Trends of Diabetes • Incidence of Type 1 diabetes increasing, the etiology is unknown. This trend is most apparent in very young children • Obesity is causing increased incidence of Type 2 diabetes in children and teens • As children with chronic illness survive longer(i.e. cystic fibrosis)with more extreme measures and (i.e. transplants), diabetes becomes another side effect of their illness

21. Etiology • Autoimmune process • Inflammatory process in the insulin secreting islet cells of the pancreas • Destruction of the islet cells • Failure to produce or excrete insulin

22. Pathophysiology Failure to produce insulin leads to elevated blood glucose HYPERGLYCEMIA

23. Clinical Manifestations Three P’s

24. How would you tell polyuria in a toddler? Answer: Enuresis in a toilet-trained child

25. Other manifestations of hyperglycemia • Fatigue – unexplained • Weight Loss (gradual, over several weeks) • Blurred vision • Headache • Hunger

26. Diagnosis Symptoms of diabetes plus Plasma Glucose Levels of: • Fasting plasma glucose ≥ 126 mg/dl or • Two-hour plasma glucose ≥200 mg/dl or • Random serum glucose concentration ≥200 mg/dl **Ketonuria is a frequent finding**

27. Therapeutic Management Managed and educated by a multidisciplinary team of experts in pediatric diabetes

28. Goals of Diabetic Management

29. These Goals are Met by: • Insulin Administration • Regulations of nutrition and exercise • Stress Management • Blood glucose and urine ketone monitoring

30. Insulin Therapy • Goal of Insulin Therapy is to replace the insulin the child • is no longer able to make thereby: • Lower blood glucose levels • Stabilize glucose levels • Eliminate ketones

31. Goals of Insulin Therapy Maintain serum glucose levels from: • Toddlers and preschoolers • 100 – 180 before meals • 110-200 at bedtime • School-age • 90- 180 before meals • 100 – 180 at bedtime • Adolescents • 90 – 130 before meals • 90 – 150 at bedtime

32. Types of Insulin • Rapid (Lispro/Humalog) • Short acting (regular) • Intermediate acting (NPH, Lente) • Long acting (Lantus/Ultralente)

33. Basal-bolus Therapy • ADA recommendations for children Administration • Basal insulin administered once a day Glargine (Lantus) or twice daily (Humulin or Ultralente) • Bolus of rapid-acting insulin (Lispro or Aspart) given with each meal and snack or consumes carbohydrates

34. Route of Administration • Insulin Injections – usually 3 or more per day • Continuous Subcutaneous Insulin Pump Infusion

35. External Insulin Infusion Pumpin Children Disadvantages • Requires motivation • Requires willingness to be connected to device • Change sites every 2-4 days • More time/energy to monitor BS • Syringe, cath changes every 2-3 days Advantages • Delivers continuous infusion • Maintain better control •  # of injection sites • hypo/hyper episodes • More flexible lifestyle • Eat with more flexibility • Improves growth in child

36. Factors which may affect insulin dosage in children • Stress • Infection • Illness • Growth spurts (such as puberty) • Meal coverage for finicky toddlers • Adolescents concerned about weight gain not wanting to eat AM snack

37. Evaluation of Insulin Therapy • Monitored every 3 months • Draw glycosylated hemoglobin value (A1c) • Want the glycosylated hemoglobin value (A1c) to be no higher than 7.5%-8%.

38. Nutrition and Insulin Needs Children use carbohydrate counting: • 1 CHO choice =15 gm CHO • Young children consume 2-4 choices /meal • Older children and adolescents consume 6-8 choices /meal • **1 unit of insulin covers 8 Gm of CHO. So insulin dosing is based upon meal consumption and number of CHO choices • If >CHO choices are consumed= adjust insulin dose

39. About Insulin • Store insulin in a cool, dry place; do not freeze or expose to heat or agitation • Check the expiration date on the vial before using • Once opened, date the vial and discard as recommended • When mixing two different types of insulin, inject the appropriate amount of air into both vials, then withdraw the short-acting (clear) insulin first

40. Treatment and Nursing Care

41. Newly Diagnosed • Many times the newly diagnosed child is admitted to the hospital in ketoacidosis (DKA) Signs of DKA • Signs of hyperglycemia plus • Abdominal pain / “Stomachache” • Nausea and vomiting • Acetone (fruity)breath odor • Dehydration • Increasing lethargy • Kussmaul respirations • Coma

42. Treatment for DKA • IV Fluids (boluses) • IV insulin - Wean off IV insulin when clinically stable • Electrolyte replacement • Oral feedings introduced when alert • Prevention of future episodes

43. Nursing Management at the time of diagnosis • Child is admitted to hospital • Nursing assessments directed toward: • Vital Signs • LOC • Hydration • Hourly monitoring of BS ____________________________________ • Dietary and caloric intake • Ability of family to manage

44. Focus of Child and Parent Education • Signs and symptoms of hypoglycemia and hyperglycemia and related treatment • Blood-glucose monitoring / urine ketone monitoring • Administration of insulin • “Sick day” guidelines • Nutrition

45. Sick Day Guidelines • Monitor blood glucose levels more often • Test urine ketones when blood glucose is high • Do NOT skip doses of insulin • Usual doses of insulin may be increased • Encourage large fluid intake,

46. Hypoglycemia:Blood Sugar < 70mg/dl Symptoms: • Trembling • Sweating, clammy skin • Tachycardia • Pallor • Personality change/ irritable • Slurred speech Treatment: • 15g carbohydrate • Glucagon sub-q • IV glucose • OJ, sweet beverage, raisins, cheese and crackers, candy

47. HyperglycemiaBlood Sugar > 160mg/dl Symptoms: • Polyuria • Polydipsia • Fatigue • Weight Loss • Blurred vision • Emotional lability • Headache Treatment: • Insulin • Increase oral fluids

48. Home Teaching • Incorporate into the family lifestyle • “Honeymoon phase” • Community resources • Recognizing the cognitive levels at time of teaching

49. Nutrition for the Child withType I Diabetes Mellitis • Meals and snacks are balanced with insulin action • Both the timing of the meal or snack and the amount of food are important in avoiding hyperglycemia or hypoglycemia • Adherence to a daily schedule that maintains a consistent food intake combined with consistent insulin injections aids in achieving metabolic control

50. Exercise for the Child withType I Diabetes Mellitis • Exercise • Avoid exercising during insulin peak • Add an extra 15 to 30g carbohydrate snack for each 45-60 minutes of exercise