Endocrine Stressors and Adaptation

1. Endocrine Stressors and Adaptation

2. Common Pediatric Endocrine Disorders • Type I Diabetes • Congenital Hypothyroidism • Acquired Hypothyroidism (Hashimoto’s Disease) • Hyperthyroidism (Graves disease) • Growth Hormone Deficiency

3. The Endocrine System • Glands- • Hormones- • Endocrine disorders • Hypofunction • Hyperfunction • Primary • Secondary

4. Pediatric Differences in the Endocrine 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

5. Type I Diabetes • Most common endocrine disorder in children • Pancreas becomes unable to produce and secrete insulin • Peak age: 5-7, or at puberty • Abrupt onset • Genetic link

6. Type 1 Diabetes • Beta cells- type of cell found in the Islets of Langerhans within the pancreas that make and release insulin. • Insulin is a hormone required to move the glucose into cells throughout the body. • If no insulin can be produced, the glucose stays in the blood instead, where it can cause serious damage to all the organ systems of the body.

7. Etiology • Autoimmune process causes destruction on insulin-secreting cells in the pancreas • At dx 90% of beta cells are destroyed

8. Type 1 Diabetes No cure, but JDRF is funding studies that perfect pancreas transplantation and regeneration the body’s own beta cells without islet transplantation

9. Serum Glucose Levels • Normal: 70-110mg/dl • Glycosated Hemoglobin Hgb A1C 1.8 to 4.0 is normal > 6.0 = DM • Diagnosis: • fasting: >126mg/dl • Random (non-fasting): ≥ 200mg/dl with classic signs (next slide)

10. Polyuria Polydipsia Polyphagia Fatigue Blurred vision Headache Shortened attention span Mood changes Signs & Symptoms

11. Diabetic Ketoacidosis(DKA) • Medical Emergency • As glucose levels rise, child will progress into DKA if not treated • Blood glucose levels > 300 • Cellular starvation leads to ketone production • Nausea, vomiting, abdominal pain • Acetone (fruity) breath odor • Dehydration • Kussmaul respirations • Coma if untreated

12. Juvenile Diabetes Treatment • Multidiscipline • Goal: Normal G & D, optimal glucose control, minimal complications, adjustment to disease • Treatment consists of: • Insulin replacement • Diet • BG monitoring • Exercise

13. Diet Therapy • well-balanced, enough caloric intake to support growth and development • three meals, snacks spaced throughout the day • no diet foods • don’t omit meals

14. Diet Therapy • No foods excluded, encourage good nutritional choices • learn dietary allowances outside of home • need to have consistent intake & timing of food to correspond to the time & effect of insulin prescribed

15. Exercise • Encouraged, never restricted • Lowers blood glucose levels, by aiding the body’s use of food • Decreases insulin requirements • Proper snack before Add an extra 15- to 30-g carbohydrate snack for each 45-60 minutes of exercise

16. BG Monitoring • Glucose monitoring • Urine testing for ketones • Record keeping • Self-management at age appropriate level • 2-6 choose food, clean finger for BG • 4-6 dip own urine • 6-8 BGM • 8-10 insulin injections, diary • 10-14 nutritional decisions • 12-18 full management

17. Insulin • Precise dose cannot be predicted • Amount is based upon average capillary or serum blood glucose levels • Will change based of G & D • Can be administered TID SQ by needle/syringe, pen or by insulin/portable pump

18. Types of Insulin Synthetic Human Insulin • Rapid acting • Lispro (Humalog) • Aspart (Novolog) • Fast acting • Regular ® • Intermediate • NPH (N) • Mixed (70/30) • Long Acting • Glargine (Lantus) • Ultra Lente

19. Typical Management • The peak of the insulin should occur Post-Prandial (after meal) to avoid hypoglycemia

20. Insulin • Alternate sites • Don’t inject extremity to be used in sports • Give at room temperature • Always draw regular up first if mixing • Many are using insulin pens

21. Pumps • Delivers fixed amounts of short-acting insulin continuously • Worn on a belt, the tubing & catheter are changed Q48 hours and taped in place • Should not be removed for > 1-2 hours • Subject to minimal malfunction • Self-motivated

22. Advantages Less scar tissue No daily injections Less to carry Private Sense of control Disadvantages Must wear continuously Need to carry extra battery Good BGM If insurance dose not cover $$$$$ Still need emergency needles, insulin, and remember how to inject Pumps

23. ILLNESS alters diabetic management • Dosage requirements may increase, decrease, or remain unchanged depending on the severity of the illness & the child’s appetite • Short-acting insulin used to manage hyperglycemia associated with illness • Monitor fluids, may require extra oral fluids while ill

24. Hyperglycemia BG > 160 • Gradual onset • Lethargic • Polyuria • Polydypsia • Dulled sensorium, confused • Weakness, fatigue, lethargy • Glucose 250 mg/dl • Large ketones in blood & urine • Blurred vision • Ketoacidosis • Coma

25. Commonly occurs before meals when the insulin effect is peaking burst of physical activity without additional food, delayed, omitted, or incompletely consumed means of snacks Too much insulin-wrong dose HypoglycemiaBG < 70

26. Rapid onset Irritable, nervousness Difficulty concentrating Shaky feeling, tremors, hunger Diplopia Pallor Weakness Headache, dizziness Sweating Unconsciousness and convulsions Signs & Symptomsof Hypoglycemia

27. Treatment of Hypoglycemia Simple concentrated sugar • Glucose gel or SL tablets • Hard candy • Sugar cubes • Low-fat milk or OJ Followed by a complex CHO & Protein • Slice of bread or cracker with peanut butter • Glucagon SQ for severe hypoglycemia (may cause vomiting, prevent aspiration)

28. Honeymoon Period • Blood glucose level initially regulated by insulin then the child may not need any insulin from one month to one year • Confuses child and parent • Some MD’s continue to give a very small amount of insulin during this time period so that a routine is established

29. Consequences of Poor Management • Cardiovascular more likely to have high cholesterol and hypertension, CAD • Nephropathyslow deterioration of kidney function, can eventually result in kidney failure, also known as end-stage renal disease, or ESRD. • Neuropathy nerve damage can range from slight inconvenience to major disability and even death. • Retinopathy progressive disease that destroys small blood vessels in the retina, eventually causing vision problems

30. The CDE • A diabetes nurse-educator role is as a resource for information on diabetes • "Certified Diabetes Educator" (CDE) indicates that the RN has received board certification. • Helps patients and families develop a management plan based child’s age, work/school schedule, activity level, and usual eating patterns

31. Education • Begins with survival education • Educate child & family regarding • Nature of disease, hypo/hyperglycemia • Meal planning (3 spaced meals, 3 snacks) • Wearing ID bracelet • Effective duration, onset & peak action of insulin • Injection procedure, rotate sites • Glucose monitoring, urine testing, record keeping • Exercise regime

32. Nursing Diagnosis • Risk for injury R/T:____________________ • Fear R/T :____________________________ • Risk for ineffective coping R/T:___________ _______________________________________ • Imbalanced nutrition: more than body requirements R/T_________________________________________

33. Nursing Diagnosis • Risk for non-compliance R/T _______________ • Risk for ineffective therapeutic management R/T ____________________________________________ • Knowledge deficit R/T_______________________ • Altered family processes R/T __________________

34. Future Diabetic Management • Insulin inhalers • Mouth sprays • Patches • Pills • Implantable pumps

35. Disorders of the Thyroid • Congential Hypothyroidism • Acquired Hypothyroidism • Hyperthyroidism

36. CONGENITAL HYPOTHYROIDISM • Disorder at birth • Body is producing insufficient thyroid hormone to meet metabolic needs caused by absent or underdeveloped thyroid gland • If not treated can lead to MR • Detected in Newborn Screen

37. Incidence and Etiology • Caused by defect in the embryonic period in thyroid glad production • Also caused by inborn error of thyroid hormone synthesis (an inherited autosomal recessive trait) • Can be secondary to pituitary dysfunction • Thyroid gland is unable to produce T3 and T4

38. CONGENITAL HYPOTHYROIDISM • Mottled skin • Large fontanel • Large tongue • Hypotonia/slow reflexes • Distended abdomen • Low T4 < 6, High TSH > 40

39. CONGENITAL HYPOTHYROIDISM • An infant with a low T4 <6 and a TSH value exceeding 40 mU/ml is considered to have primary hypothyroidism until proven otherwise

40. CONGENITAL HYPOTHYROIDISM • Treated with lifelong thyroid replacement therapy • Synthroid 10-15 mcg/kg/day • Monitor G&D and Thermoregulation • Labs q 2 wks then q 3 mos *** look for upper range of normal • Med compliance • Teach parents to monitor forhyperthyroidism

41. Outcome • Prevention of mental retardation – newborn screening on all babies • Early treatment has had significant impact on morbidity • Most children progress to within normal ranges on developmental assessment • Poor prognosis in more severe cases

42. Signs of Medication induced Hyperthyroidism • Nervousness/anxiety • Diarrhea • Heat intolerance • Weight loss • Increased HR

43. Acquired Hypothyroidism (Hashimoto’s disease) • Thyroid produces inadequate levels of thyroid hormone > age 2 • T4 decreases, TSH rises • Autoimune disorder • Antibodies and developed against thyroid gland • Gland becomes inflamed, infiltrated by antibodies and destroyed

44. Etiology • Primary (Hashimoto’s thyroiditis) • Most common • Autoimmune • Childhood, adolescents, females>males • Secondary • associated with other conditions that affect the thyroid • Pituitary and hypothalmic dysfunction • Tertiary • Radiation, surgery, trauma

45. Goiter Dry, thick skin Coarse but thinning hair Fatigue Cold intolerance Delayed puberty and menses Decelerated growth Edema around eyes, face and hands Constipation Sleepiness Mental decline but mental retardation or neurologic sequelae are not problem Acquired Hypothyroidism

46. Acquired HypothyroidismTreatment • Thyroid hormone replacement-Synthroid • Starting dose 10 -15 mcg/kg/day • Administration of increasing amounts over 4-8 weeks to avoid symptoms of hyperthyroidism • Taken 30-60 minutes before meals for optimal absorption • Repeat thyroid function test one month should see normalization of TSH • Requires lifetime follow up • Dose and adjustments based on clinical evaluation & TSH • Prognosis is good if kept euthyroid (normal)

47. Acquired Hyperthyroidism (Grave’s Disease) • A hyperfunction of the thyroid gland • Produces excessive circulating thyroid hormone (T3 and T4) • Four times more common in girls • Occurs between the ages of 12 – 14 yrs. (puberty) • Manifestations develop gradually with an interval between onset & diagnosis of 6 to 12 months • Genetics involved • Follows a viral illness or period of stress

48. Grave’s DiseaseCardinal Signs & Symptoms: • Emotional liability • Physical restlessness at rest • Decreased school performance • Excessive appetite without weight gain • Fatigue

49. Grave’s DiseasePhysical Signs & Symptoms: • Increased HR • Palpitations • Widened pulse pressure • Exothalmos • Hair fine, unable to curl • Diarrhea • Poor attention span

50. Grave’s DiseasePhysical Signs & Symptoms: • Wide-eyed expression with lid lag • Fine tremors • Increased perspiration/heat intolerance • Systolic murmurs • Emotional liability • Insomnia