Diabetes & Thyroid Disorders PDF

Summary

This document provides an overview of diabetes and thyroid disorders. It details different types, risk factors, diagnosis, and treatment approaches. Information on the various complications and management strategies is included.

Full Transcript

Diabetes Mellitus
What is it?
Chronic multisystem disease characterized by hyperglycemia related to: abnormal insulin
production (type 1) , impaired insulin utilization (type 2), OR BOTH.
Very prevalent disease in the US - 8th leading cause of death
Leading cause of: end stage renal disease (people on dialysis), adult blindness, non
traumatic lower limb amputations.
Risk Factors
Family history
Gestational diabetes - could lead to diabetes, start living like you have diabetes.
Minority groups (American Indians, AA, Hispanics, Asian Americans)
Age > 35
Obesity (BMI of > 30)
Given birth to an infant > 9lbs
Inactivity
Etiology and Pathophysiology
Combination: genetic, autoimmune, environmental
Regardless of its cause, DM is mainly a disorder of glucose metabolism related to absent or
insufficient supply and/or ineffective use of available insulin.
Normal insulin metabolism
○ Produced by B cells in islets of Langerhans
○ Released continuously into bloodstream in small increments with larger amounts
released after food
○ Stabilizes glucose level in range of 70 to 120 mg/dL

**Insulin promotes glucose transport from the bloodstream across the cell membrane to the cytoplasm of
the cell.

GLUCOSE SHOULD BE IN THE CELL NOT IN THE BLOOD. INSULIN IS THE KEY TO ALLOW
GLUCOSE INTO THE CELL AND OUT OF THE BLOODSTREAM.

Other hormones (counterregulatory hormones): glucagon, epinephrine, GH, cortisol
○ Work against the effects of insulin
○ These hormones increase glucose levels by (1) stimulating glucose production and
release by the liver and (2) decreasing the movement of glucose into the cells.
○ Counterregulatory hormones and insulin work together to maintain glucose levels within
the normal range by regulating the release of glucose for energy during food intake and
periods of fasting.
○ Glucagon = opposite of insulin - release from the liver
Increase the amount of glucose in the bloodstream by:
Glycogenolysis: breakdown of stored glucose
Gluconeogenesis: the liver converts fats and proteins into glucose
○ Cortisol = rises with stress; rises in the morning; when cortisol is released, sugar goes up

Ketones, the result of the breakdown of fats are excreted in the urine
Protein metabolism causes an elevated Blood Urea Nitrogen (BUN)
Prediabetic
need to PREVENT diabetes, live life like a diabetic before complications occur.
At risk for type 2 diabetes
Defined as impaired glucose tolerance (IGT), impaired fasting glucose (IFG), or both.
Diagnosis of IGT is made if the 2-hour oral glucose tolerance test (OGTT) values are 140 to 199
IFG is diagnosed when fasting glucose levels are 100 to 125.
Usually no symptoms
Patient Teaching
○ Have glucose A1C checked regularly.
○ Monitor for symptoms of diabetes such as fatigue, frequent infections, or slow-healing
wounds.
○ Maintain a healthy weight, exercise regularly and make healthy food choices.

Type 1: insulin dependent (abnormal insulin production)
The result of the destruction of the beta cells in the pancreas, the only cells in the body that make
insulin
When beta cells are destroyed, insulin is no longer produced.
Signs/Symptoms
○ POLYDIPSIA- excessive thirst
○ POLYURIA - frequent urination
○ POLYPHAGIA- excessive hunger
○ fatigue/weakness due to the body’s inability to get energy from glucose
○ GI : N/V - body’s attempt to get rid of excess glucose
Treatment: must be on both a long acting and short acting insulin

Type 2: insulin resistant (impaired insulin utilization)
Combination of inadequate insulin secretion and insulin resistance. The pancreas usually makes
some endogenous insulin, but the body may not produce enough of it or use it effectively.
Signs/Symptoms
○ Slow onset of manifestations, the person may go for many years with undetected
hyperglycemia and few, if any, symptoms.
○ May have polyuria and polydipsia

** To differentiate between type 1 and type 2, we can look at the beta cells and insulin.

Gestational
Develops during pregnancy
Increase risk for c-section and perinatal complications
Screen high risk patients at first visit; others at 24 - 28 weeks
Usually glucose levels normal 6 weeks postpartum

Diagnostics (Can be used for all types but mostly secondary onset)
Fasting plasma glucose (FPG)
○ Impaired fasting glucose: >100 and < 126
○ If glucose is greater than 126, DM is present
○ Goal = keep FPG of 99 or lower
Hemoglobin A1C
○ Gives an average of glucose levels for the past 3 months
 ○ Glucose “sticks” to red blood cells. RBCs last about 3 months
○ Goal: 6.5% - 7%
○ 6.5% or > = DIABETIC
Estimated Average Glucose (eAG)
○ A calculated conversion of HbA1c
○ It’s reported in mg/dL, the same units as their home blood glucose tests
○ Makes results more meaningful to patients
Urine glucose, ketone, and protein levels
○ The presence of glucose in the urine indicates hyperglycemia
○ Ketonuria occurs with the breakdown of fats
○ Albuminuria may indicate early onset of nephropathy
Serum cholesterol
○ Diabetics are at risk for atherosclerosis
○ Treatment goal is LDL < 100

Insulin - KNOW!

Mixing Insulin (NR -> RN)
Wipe off tops of vials with alcohol wipe
Draw air for NPH dose, inject air into NPH
Draw air for regular insulin, inject air into regular insulin
Draw back regular insulin
Draw back NPH
**draw clear then cloudy
Storage of Insulin
Do no heat/freeze
In-use vials may be left at room temperature for up to 4 weeks
Extra insulin should be refrigerated
Avoid exposure to direct sunlight, extreme heat or cold
Stored prefilled syringes upright for 1 week if two insulin
types; 30 days for one

Administration of Insulin
Typically given by subcutaneous injection.
Regular insulin can be given IV when immediate onset of
action is desired
Insulin is NOT taken orally because it is inactivated by
gastric fluids.
Absorption is the fastest from the abdomen,followed by
the arm, thigh, and buttock.
Teach patients to rotate the injection within and
between sites to prevent excess bruising.
Usually available as U100 insulin (1mL contains 100 U of
insulin)
Inject at 45 to 90 degree angle
NO alcohol swab for self injection; wash with soap and water - can dry out skin

Insulin Pump
Delivers a continuous subcutaneous insulin infusion through a small device worn on the belt, in
the pocket, or under clothing.
Deliver short-acting insulin
Preprogrammed to deliver varying hourly basal rates.
Ideal candidate
○ A person who has failed to control diabetes on other regimens
○ Pregnant
○ Desires increased daily flexibility
Very expensive ($7,000)
Risk of infection at site progressing to sepsis
Change the infusion site every 24-48 hours.

Problems with Insulin Therapy
Hypoglycemia
○ Treatment includes administering glucagon 0.5-2 mg IM. After 20 minutes of no
progression, administer again
○ When aroused, give 15 g of carbs and wait 15 minutes
Allergic reaction
○ Local inflammatory reactions to insulin may occur, such as itching, and burning around
the injection site.
○ Local reactions may be self-limiting within 1 to 3 months or may improve with a low dose
of antihistamine.
Lipodystrophy
○ Changes in subcutaneous tissue
○ May occur if the same injection sites are used frequently.
 Somogyi Effect
○ Hyperglycemia in the morning may be due to the Somogyi effect.
○ Pt takes insulin at night time, then in morning the sugar is very low
○ Rebound hyperglycemia occurs because a high dose of insulin causes a decline in
glucose levels overnight, and counterregulatory hormones are released.
Dawn Phenomenon
○ Also characterized by hyperglycemia that is present on awakening
○ Due to the release of counterregulatory hormones
○ Unrelated to amount of insulin given at night.
○ The treatment for the dawn phenomenon is an increase in insulin or an adjustment in
administration time.

Acute Complications
Diabetic ketoacidosis (DKA): associated excessive levels of ketones in the body
○ Serious condition that proceeds rapidly and must be promptly treated, and is caused by a
profound deficiency of insulin.
○ It is characterized by hyperglycemia, ketosis, acidosis, and dehydration.
Hyperglycemia: cells don't have insulin to allow glucose in. This forces the body
to use fat cells to break down glucose for energy.
Ketoacidosis: the after-effect of fat cells being broken down for glucose stores
Dehydration: cells are hungry. They have no food, so the body goes into severe
dehydration. Overload of sugar in the ECF leads to vomiting in an attempt to
excrete excess sugar.
○ Clinical manifestations
Dehydration, lethargy
SWEET FRUITY BREATH!
KUSSMAUL RESPIRATIONS (rapid, deep breathing w/dyspnea)
Labs - Blood Glucose > 250, pH < 7.3
○ Interprofessional Care
First goal = establish IV for fluid and electrolyte replacement
Assess renal status, cardiopulmonary status, LOC
Hyperosmolar Hyperglycemic Syndrome (HHS): due to insulin deficiency
○ Blood sugar like 600, will be in ICU, very life-threatening
○ Life-threatening syndrome that can occur in a patient with diabetes who is able to make
enough insulin to prevent DKA, but not enough to prevent severe hyperglycemia.
○ HHS is less common than DKA. It often occurs in patients over 60 years of age with
type 2 diabetes.
○ HHS is often related to impaired thirst sensation and/or a functional inability to replace
fluids. There is usually a history of inadequate fluid entail, increasing mental depression
or cognitive impairment.
○ Lab values in HHS include a blood glucose level > 600 mg/dL and a marked increase in
serum osmolality. Ketone bodies are absent or minimal in both blood and urine.
○ Nursing Management
HHS is a medical emergency and has a high mortality rate
Immediate IV administration of insulin and either 0.9% or 0.45% NaCl
Monitor administration of (1) IV fluids to correct dehydration (2) insulin therapy to
reduce blood glucose and serum ketone levels, and (3) electrolytes given.
Hypoglycemia: low blood glucose due to too much insulin
○ IV access available - obtain blood glucose level, administer glucagon 0.5 - 2 mg IM
 ○ When aroused - give 45 g carbohydrates to replace glycogen stores

Drug Therapy (Oral Agents)
Only for type 2 diabetes (insulin resistance, decreased insulin production, increased hepatic
glucose production)
For oral medications we want glucose to be 70 - 99 mg/dL

**a patient can be on both oral and insulin injection at the same time.
Drug: MOA: Nursing Considerations:

Biguanides: Metformin Decreases the overproduction of causes moderate weight loss;
glucose by the liver; decreases can be used for people with type
insulin resistance. 2 diabetes and prediabetes who
are overweight or obese.

a-Glucosidase Inhibitors: Works in the small intestine to Taken with the first bite of
Glyset, Precose slow carb metabolism and each main meal, they are most
delays glucose absorption effective in lowering postprandial
blood glucose. Their
effectiveness is measured by
checking 2-hour postprandial
glucose levels.

Sulfonylureas: Glucotrol, Stimulates the pancreatic cells Most common side effect is
Glynase to secrete more insulin and hypoglycemia
peripheral cells’ sensitivity to
insulin

Meglitinides: Prandin Stimulates the of insulin from Hypoglycemia is a common
the pancreatic islet cells; rapid side effect
acting

Long term Diabetes Complications
Nephropathy
○ Damage to the kidneys
○ Early glomerular hypertrophy
○ Increased glomerular filtration
○ Microalbuminuria
Cardiovascular
○ Coronary artery disease
○ Stroke
○ Hypertension
American diabetes association recommends < 140/90
130/80 if high risk
 Retinopathy
○ Can lead to blindness
○ Encourage eye exam once a year
Neuropathy
○ Decreased feeling in feet or hands
○ Hot, burning sensation
Gastroparesis - low GI motility
○ Constipation, vomiting, anorexia, heartburn
Infections
Sexual Dysfunction
Nursing Assessment
Health history: visual changes, numbness in hands or feet, pain when walking, appetite, N/V,
frequent vomiting, infections
Physical assessment: height/weight, VS, peripheral pulses, skin, feet, injection sites
Patient Education
○ Medications
○ How to administer insulin
○ Finger sticks or CGM
○ Foot care
○ Diet
Tests and/or Areas to check annually
○ Glycohemoglobin (2-4 times a year)
○ Kidney function
○ Cholesterol & triglycerides, foot exam, eye exam, BP

**If a patient is sick, you SHOULD still take your oral antidiabetic because because of the stress from
sickness, cortisol is released and increases the blood sugar.

Disorders of the Parathyroid Glands
Parathyroid gland:
four small glands that are located on the
posterior surface of the thyroid and
releases parathyroid hormone; about the
size of a grain of rice
PRIMARY FUNCTION: regulate calcium
levels; to a lesser degree regulates
phosphate levels
Calcium is stored in the bones; it is readily
available to the rest of the body at the
request of the parathyroid glands.
Osteoclasts = deconstructs bone
Osteoblasts = build bone

Parathyroid Hormone
○ Regulates how much calcium is:
Absorbed from diet
Excreted by kidneys
Stored in bones
○ Increases formation of active
vitamin D
 ○ Active vitamin D increases intestinal calcium and phosphorus absorption

HYPERPARATHYROIDISM
Most common disease of the parathyroid glands
Characterized by excess PTH - so you get excess calcium in the blood
Parathyroid glands continue to make large amounts of PTH even when the calcium level is
normal.
Most common cause: benign tumor called an adenoma on one of parathyroid glands that
secretes too much PTH
Symptoms:
○ Kidney stones - due to kidneys’ inability to keep up with the excretion of calcium
○ Abdominal pain
○ Bone and joint pain - too much calcium in the blood and not in the bone
○ Fragile bones (osteoporosis)
○ irritability/Depression/Anxiety
○ Heart palpitations/arrhythmias

Diagnostic Studies:

Serum PTH: Serum Calcium: Serum Urine Calcium: Bone Density
Phosphate:

⬆ ⬆(8.5-10) ⬇(2.5-4.5) ⬆ ⬇

Management:
It depends on the severity of disease
Surgical: partial or complete removal of the parathyroid glands
Nonsurgical:
○ Ongoing measures of lab values
○ Exercise
○ Increase fluids
○ Moderate calcium intake
○ Calcimimetic agents, bisphosphonates, and phosphate
Severe:
○ IV sodium chloride
○ Loop Diuretics
○ IV bisphosphonates: rapidly lower serum calcium in patients with dangerous levels

Nursing Management:
Patient education
If postoperative:
○ Pain control
○ Monitor for bleeding
○ Monitor for tetany (due to sudden decrease in calcium level)

HYPOPARATHYROIDISM
Very rare; characterized by inadequate circulating PTH
Most common cause: iatrogenic (this may include accidental removal of parathyroid glands or
damage to the vascular supply of the glands during neck surgery)
Symptoms
Due to hypocalcemia:
○ Tetany
○ Tingling of lips and stiffness of limbs
○ Painful spasms of muscles
○ Trousseau’s sign
Inflate BP cuff above SBP for
several minutes
Positive response: muscle
contractions in hand
Indicates hypocalcemia
○ Chstvoek’s Sign
Elicited by tapping the patient’s
face slightly over the facial
nerve anterior to the ear lobe
Positive finding: facial muscle twitching
Indicates hypocalcemia

Diagnostic Studies:

Serum PTH: Serum Calcium: Serum Phosphate:

⬇(10-65) ⬇ ⬆(2.5-4.5)

Management:
Calcium supplements
Vitamin D
Magnesium
High calcium diet
Teach patient that it is a lifelong disorder
Treatment goals are to treat acute complications, such as tetany, maintain normal calcium
levels, and prevent long-term complications
Give IV calcium slowly. USE ECG monitoring when giving calcium (can cause
arrhythmias/cardiac arrest)
Need to be in ICU

Anatomy and Physiology:
Thyroid Gland:
The thyroid gland is located in the front of the neck
with the primary function being to produce thyroid
hormone.
the thyroid hormone controls:
 ○ metabolic rate
○ Metabolism
○ growth/development
Thyroid Hormones
○ Calcitonin: controls body use of calcium; lowers excess calcium in the blood
(calciTONin TONES down calcium in the blood)
○ T3: composed of iodine, regulates metabolism - iodine comes from salt! You can get
goiter from lack of iodine.
○ T4 : composed of iodine and regulates metabolism
○ With iodine deficiency, the thyroid is unable to secrete sufficient thyroid hormone.
○ TSH: released from the pituitary gland that stimulates the thyroid to release T3/T4

Disorders of the Thyroid Gland
TSH and T4 levels are measured to determine whether a goiter is associated with normal thyroid function,
hyperthyroidism, or hypothyroidism.

HYPOTHYROIDISM
Condition in which the thyroid gland produces inadequate
amounts of thyroid hormone
Primary hypothyroidism: thyroid gland malfunction; the
thyroid gland fails to produce sufficient thyroid hormone to
sustain normal metabolic function.
○ Causes:
Insufficient iodine diet
Hashimoto’s disease: autoimmune disease in
which the body attacks its own thyroid gland
Surgical removal of the thyroid
Therapeutic radiation as a result of
hyperthyroidism
Atrophy of the thyroid gland
Tumors of the thyroid gland
Secondary hypothyroidism: cause is related to pituitary
tumors and other pituitary disorders; results from alterations in
the hypothalamic-pituitary axis.

Clinical manifestations -
Fatigue
Weight gain
Cold intolerance
Constipation
Dry skin
Thinning hair
Periorbital edema
Myxedema Coma
Severe hypothyroidism
A loss of brain function as a result of severe, long standing low
level of thyroid hormone
Life-threatening!
Causes: acute illness, surgery, chemo, or DC of medications
Lab Tests
TSH = high
T4 Low
Thyroid Scan
Fine-needle biopsy
Ultrasonography
Management
**restore a euthyroid state as safely and rapidly as possible with hormone therapy
Administration of synthetic thyroid hormone
○ Levothyroxine (Synthroid) : drug of choice for hypothyroidism
Taken in the morning on an empty stomach
Follow-up: TSH and T4 levels will be drawn in 4-8 weeks to assess levels

Nursing Management
Guided by the severity of the disease
Directed at symptom management
Note signs and symptoms
Monitor patient progress
○ Weight loss
○ Resolution of fatigue
○ Skin and hair returning to normal

Nursing Diagnosis
Activity intolerance RT fatigue & depressed cognitive process
Altered body temperature
Constipation RT depressed GI function
Altered thought process RT depressed metabolism & altered CV & respiratory status.

HYPERTHYROIDISM -
Excessive production of thyroid hormone.
Patient is in a continuous hypermetabolic state

Etiology:
Graves Disease: Most common cause of hyperthyroidism
○ Autoimmune disorder
○ TSH is activated
○ Thyroid produces too much thyroid hormone
Thyroiditis
Nodules on thyroid gland
Over treatment of hypothyroidism

Signs/Symptoms - CAN LEAD TO THYROID STORM
Weight loss
tachycardia/palpitations
Warm, moist skin
Heat intolerance
Fine tremors of the hand and tongue
Hyperactivity, weakness, insomnia, exophthalmos , goiter
Diagnostic Tests
TSH: extremely low
T4: high

Management
Synthroid dose will be decreased dose if applicable
Antithyroid drugs: Tapapzole, PTU (Propylthiouracil)
○ Inhibit production or conversion of active thyroid hormone (T4 to T3)
Beta-Blockers
Radioactive Iodine
○ Destroys all or part of the thyroid gland
○ Post treatment: hypothyroid
○ Potassium iodine (SSK) and Lugol’s solution
 Give with a straw
Metallic taste
Surgical Therapy
○ Subtotal thyroidectomy
○ Indications: failure of antithyroid drugs, not good candidate for radioactive iodine, large
goiter (tracheal compression), malignancy
○ Makes thyroid gland unable to produce excessive thyroid hormone
○ Complication: accidental removal of parathyroid gland (hypocalcemia)
○ Post-op
Assess for hemorrhage and tracheal compression
Vital signs
Voice
Symptoms of hypocalcemia
Paresthesia
Facial spasm
Muscular twitching
Spasm of larynx
Check for positive Chvostek’s sign
○ Nursing Management
VS:BP, Pulse, respirations
Exopht