Management of Patients With Endocrine Disorders PDF

Summary

This document provides an overview of the management of patients with endocrine disorders, covering topics such as introduction, anatomy and physiology of the endocrine system, diagnostic tests, common disorders like hyperthyroidism and hypothyroidism, and nursing care. It includes information on the relationship between the endocrine system and the nervous and immune systems.

Full Transcript

Prepared by/
As.prof.Dr: Heba Ahmed
Presented by/
2021 - 2022
Outlines
 Introduction

 Anatomy and physiology of endocrine system

 Diagnostic tests for endocrine system

 Common endocrine disorder :

 Hyperthyroidism

 Hypothyroidism

 Parathyroid glands’ disorders

 Nursing care with patient in endocrine disorder
 Introduction
 The nervous system and endocrine system are interconnected
to control body systems.

 Disorders of the endocrine system are common and have the
potential to affect the function of every organ system in the
body.
 Endocrine glands (Ductless) secrete their products directly
into the bloodstream.

 Exocrine glands :Which secrete their products through
ducts e.g. products of gastrointestinal tract (salivary
glands, pancreas, and liver ). Sweat glands, its product
(sweats) presence onto epithelial surfaces.
The endocrine system links with the nervous
system
The nervous system :
The hypothalamus is the link between the endocrine
and nervous systems.
The hypothalamus produces releasing and inhibiting
hormones, which stop and start the production of other
hormones of endocrine system throughout the body.
 The endocrine system secrete hormones affect the
nervous system for example the adrenal medulla :
norepinephrine and epinephrine that act as
neurotransmitters.
 The endocrine system links with the nervous
system and the immune system.

 The immune system interacts with the endocrine system.

 It responds to the introduction of foreign agents by
chemicals (eg, interleukins, interferons) and is regulated
by hormones secreted by the adrenal cortex.
 The glands of the endocrine system are anatomically
separated in the body.Theses glands secrete hormones

Hormones are important in regulation of the internal
environment of the body and affect every aspect of life.
Cardiac hormones
Atrial natriuretic peptide (ANP) and brain
natriuretic peptide (BNP)

(ANP and BNP) are synthesized and secreted by cardiac
muscle cells in the walls of the atria in the heart.
These cells contain volume receptors which respond to
increased stretching of the atrial wall due to increased
atrial blood volume.
 Hormone concentration in the bloodstream is maintained
at a relatively constant level.
 When the hormone concentration rises, production of that
hormone is inhibited.
 When the hormone concentration falls, the rate of
production of that hormone increases.
 This mechanism for regulating hormone concentration in
the bloodstream is called negative feedback to maintain
the homeostasis.
Negative feedback
 Health history
The nurse asks the patient about:
 Fatigue and changes in energy levels (activities of daily life)
 Changes in heat and cold tolerance
 Changes in weight: changes in adrenal and thyroid disorders
and may be a result of changes in fat distribution or fluid loss
or retention.
 Changes in sexual function and secondary sex characteristics
 Changes in mood, memory and altered sleep patterns
 Family history of endocrine disorder (Diabetes or thyroid
disorder )
 Physical examination
 Started with height & weight

 Vital signs are measured :Change in blood pressure may
occur with change of the adrenal cortex

 Compare with the baseline
Inspection :
Changes in appearance
 Changes in the skin texture
 Eye changes, such as exophthalmos (hyperthyroidism)
 Changes in physical appearance
✓ Appearance of facial hair in women or moon face
✓ obesity of the trunk and thinness or increased size of the
extremities or edema
That may signify disorders of the thyroid, adrenal cortex, or
pituitary gland.
Exophthalmos Moon face
 Palpation
 The thyroid gland is the only palpable endocrine gland

 It is difficult to palpate So supply the person with a glass of water
and first inspect the neck as the person takes a sip and swallows
◼ Thrill (vibration) often can be palpated
 Thyroid tissue moves up with a swallow

 Find two position for palpation of thyroid gland :
posterior approach

Anterior approach
 Palpate all peripheral pulses.
 If the pulse is diminished ,it will indicate circulatory
impairment
 Palpate the skin turgor by gently pinching a small pieces
of skin.The good place is sternum
 If a tent of skin remains in place ,the patient may be
dehydrated (ADH deficiency)
 Auscultation and percussion
They aren't part of normal an endocrine
assessment but we can use the auscultation in
abnormal thyroid gland
◼ bruit (vascular murmur heard over
hyperactive thyroid gland), is heard
over the thyroid arteries (due to
increase blood flow through the thyroid
gland)
 Blood tests:- for indicating hormone level direct likeT3 &T4
or indirect hormone like calcium level or glucose level

Urine tests:- amount of hormone excrete in 24 hrs. in urine

Nuclear scanning ‫المسح النووي‬

Radiographic tests

Ultrasound

Biopsy
 Nuclear scanning
 Thyroid scan to determine the presence of tumors or
nodules

◼ Radioactive iodine uptake like thyroid scan but scans
taken over 24 hrs., It determines the location, size,
shape, and anatomic function of the thyroid
gland, Identifies areas of increased function
(“hot” areas) or decreased function (“cold”
areas) can assist in diagnosis.
Nuclear scanning cont’d
 PET(position emission tomography)
A type of nuclear medicine procedure that measures
metabolic activity of the cells of body tissues used to
differentiate between benign and malignant.
 Radiographic tests :CT or MRI to locate a tumor or
identify hypertrophy of a gland

 Ultrasound: for thyroid or parathyroid to find masses

 Biopsy: to obtain tissue to examine for cancerous cells
under local anesthesia or surgical incision
Nursing Intervention before thyroid
test
◼ Take thorough history;

◼ thyroid medication must be discontinued 7-10 days prior to
test;

◼ medications containing iodine, cough preparations, excess
intake of iodine rich products, and tests using iodine eg.

IVP intraveous polygram (x-ray images of the kidneys,
ureters, and bladder) can invalidate the test.
◼ Assure client that no radiation precautions are necessary
 Causes of endocrine problems
Insufficient hormone activity Excess hormone activity

 Gland hypo function  Gland hyper function
 Lack of tropic or stimulating  Excess tropic or stimulating
hormone hormone production
 Target tissue insensitivity to  Self administration of too
hormone much replacement hormone
 Thyroid hormone affects metabolic activity of cells
throughout the body.
 Hypothyroidism Hyperthyroidism
Definition Deficit secretion of thyroid Excess secretion of thyroid
hormones. hormones.

Pathophysiology Primary hypothyroidism: the Primary hyperthyroidism
most cases : Fails to produce problem within thyroid
enough TH that stimulate gland causes excess
TSH is secreted by the hormone release.
pituitary gland.
Secondary hypothyroidism: Secondary hyperthyroidism
low levels of TSH which fail Excess TSH from pituitary
to stimulate release of TH. so overstimulation of
Tertiary hypothyroidism: thyroid gland.
inadequate release of Tertiary hyperthyroidism
TRH(thyrotropin-releasing Excess TRH
hormone) secreted by
hypothalamus.
low level of hormones that High level of thyroid
slow metabolism hormone increase the
metabolic rate
 Hypothyroidism Hyperthyrodism
Etiology Primary hypothyroidism : Graves disease
congenital ,inflammation or (hyperactive):autoimmune
iodine deficiency, disorder (hereditary )
autoimmune disorder Thyroid nodules ,
(Hashimoto’s thyroiditis) inflammation or tumor ,
,thyroid surgery, radiation medication
therapy Secondary
Secondary or tertiary : Malfunctioning pituitary
pituitary or hypothalamic Malfunctioning
lesion or postpartum hypothalamus
pituitary necrosis or Risk factor
treatment of hyperthyroidism
Risk factor. iodine intake, common in
woman age 50 and over, man
the 30's and 40's women
age 60 and over. excessive doses of thyroid
high cholesterol hormone
autoimmune disease such as
 Hypothyroidism Hyperthyrodism
Signs and Cardiovascular:
symptom Bradycardia , decreased cardiac Tachycardia , palpitation ,
output , cool skin , cold increased cardiac out put , warm
intolerance, fatigue skin , heat intolerance, chest pain
Neurologic:
Lethargy , slowed movements , loss Fatigue , restlessness ,
concentration , confusion, exophthalmose, hyperactive
depression, muscles weakness, reflexes , tremor , insomnia ,
hoarse voice emotional instability
Pulmonary :
Dyspnea , hypoventilation Dyspnea
Integumentary :
cool, dry skin, brittle , dry hair Diaphoresis , warm , moist skin ,
hair loss (eyebrow) fine soft hair, Hair loss, goiter
Gastrointestinal :
Decreased appetite , weight gain , Increased appetite ,weight loss ,
constipation , increased serum frequent stools , decreased serum
lipid levels lipid levels
Reproductive :
Decreased libido , erectile Decreased libido , erectile
Simple Goiter:
Enlargement of the thyroid gland not caused by inflammation or neoplasm
Types
Endemic:
❖ caused by nutritional iodine deficiency, most common in the areas
where salt and water are deficient in iodine;
❖ occurs most frequently during adolescence and pregnancy.
Sporadic:
❖ caused by Ingestion of large amounts of goitrogenic foods (contain
agents that decrease thyroxine production) eg. Cabbage, soybeans,
peanuts, peaches, peas
❖ Use of goitrogenic drugs: large doses of iodine, para-amino salicylic
acid, cobalt, lithium
Exophthalmos goiter
 Hypothyroidism Hyperthyroidism
Complications 1. Myxedema coma 1. Thyrotoxic crisis
Hypothermic , decreased (thyroid storm) is
respiration severe hyperthyroidism
Depressed mental Death in as little as 2
function and lethargy hrs. if untreated (high
Blood glucose drops , fever , tachycardia 130
cardiac output drops , hypertension ,
Reduced perfusion of dehydration ,
kidney , non pitting restlessness and coma
edema 2.Hypothyroidism long
Death from respiratory term disease as result of
failure treatment
2. Cretinism a decreased
production of T4 and results
in mental retardation, stop
t
HYPOTHYROIDISM
 Hypothyroidism Hyperthyrodism

Diagnostic test Level of T3&T4 are Level of T3&T4are
low high
Level of TSH low or ↑Radioactive iodine
high depend on cause uptake test
Serum cholesterol and Palpation of thyroid
triglycerides are gland
elevated TSI(thyroid stimulating
Antibodies present in immunoglobulin) is
autoimmune disease present in Graves
↓Radioactive iodine disease
uptake test
Diagnostic studies :-
◼ Radioactive iodine uptake scan-
◼ Thyroid ultrasound
◼ Thyroid Needle Biopsy
◼ Thyroid scan
◼ Computed Tomography-CT
◼ Magnetic Resonance Imaging-MRI
 Hypothyroidism Hyperthyrodism
Therapeuti 1- thyroid replacement 1- anti-thyroid drug
c measure hormone (Levothyroxine ) Propylthiouracil (PTU)
Doses are started low and are And methimazole
slowly increased to prevent (Tapazole) continue for
symptoms of hyperthyroidism 12-18 months
or cardiac complication 2- beta-blocker
2- Iodine Deficiency Propranol (indral)
Iodized Salt 3- Radioactive iodine
Increase intake of seafood 4- Surgery
SSKI- saturated solution
(thyroidectomy)
of potassium iodide 5-. Nutritional Therapy
3. Nutritional Therapy High-calorie, high-protein
diet, carbohydrates
A low-calorie diet to promote Frequent meals
weight loss or prevent weight
gain
HYPERTHYROIDISM
Antithyroid Medications
◼ Patients taking antithyroid medications are instructed:
◼ not to use decongestants
◼ Taken on an empty stomach
◼ PTU (Propylthiouracil) is the treatment of choice
during pregnancy (decrease dose to prevent fetal
hypothyroidism)
◼ contraindicated in late pregnancy it produce goiter
and cretinism (physical deformity and learning
disabilities) in the fetus.
◼ Thyroid hormone administer with antithyroid
medications to put the thyroid gland at rest.
Nursing Care of the Patient Receiving Radioactive
Iodine
At Home
In Hospital;
Limit Time Spent with Avoid Close Contact for a
Patient Week
Glove and Gown Sleep Alone
Avoid if Pregnant Wash Hands Carefully After
Take Precautions with Urine, Urinating
Emesis, Body Fluids. Drink Fluids
Double Flush Toilet Avoid Pregnancy for at Least a
Year
 Thyroidectomy
 Can be done with a traditional (open approach) or with
newer minimally invasive techniques ( tiny incision and
an endoscopy) that faster recovery and the patient can go
to home the same day
Two types:
 Total thyroidectomy : performed if cancer is present, after
thyroidectomy lifelong replacement hormone must be
taken
 Subtotal (partial) thyroidectomy :may done for
hyperthyroidism leaving a portion of the thyroid gland to
secrete TH (in multi-nodular goiter)
◼ Today, surgery is reserved for special
circumstances as
◼ pregnant women who are allergic to antithyroid
medications
◼ Large goiters
◼ patients who are unable to take antithyroid agents
◼ Surgery is performed soon after the thyroid function
has re-turned to normal (4 to 6 weeks) PTU is
administered before
 Preoperative care
 The patient should be in a euthyroid state that is
accomplished with the use of antithyroid medication.

 Surgery is performed after the thyroid function has
returned to normal (4 to 6 weeks) SSKI: saturated solution
of potassium iodide may be administered to decrease the
size and vascularity of the gland ,reducing the risk of
bleeding during surgery
 Do a baseline assessment of vital signs and voice quality
to compare after postoperative

◼ Assess Nutrition Status

◼ Strictly avoid all anti‐inflammatory (NSAIDs) for two
weeks pre‐operatively and at least one week after
surgery. As aspirin, ibuprofen, Celebrex ….., it increase
risk of bleeding
 Preoperative Teaching
Explain what the patient can expect before ,during and
after surgery to clarify the misconceptions
Teaching how to perform gentle range of motion exercise
of the neck ,
how to support the neck during position change (to avoid
placing pressure on the suture lines)
how to use an incentive spirometer, Cough and deep
breathing after surgery (to prevent pneumonia. )
Possible hoarseness(is temporary and may last a few days).
beside the routine care of preoperative care
 Postoperative care
 Monitor vital signs , oxygen saturation ,drain if present
,dressing every 15 minutes initially , progressing to every 4
hours
 Decreased blood pressure with increased pulse should alert to
blood loss that possibility to shock

 Tachycardia , fever , mental status changes may indicate
thyrotoxic crisis
◼ Elevate head of the bed 30-45 degrees (semi fowler position)
for the first 3-4 days to reduce edema and promote comfort
◼ Support Neck During Position Changes
◼ Careful note is made of daily output from drain. Drain
removed after 48 hours or when drainage falls to less than
30ml /d

◼ Avoid excessive bending, straining, or exercising 2 wks. post
operative
❑ Keep a tracheotomy tray at the patient's bedside for 24 hours
after surgery, and be prepared to assist with emergency
tracheotomy, if necessary.
 Assess for signs of hemorrhage, which may cause shock,
tracheal compression, and respiratory distress.
 Observe for signs of respiratory distress including
respiratory rate ,dyspnea or stridor
❑ Check for laryngeal nerve damage by asking the patient to
speak as soon as he awakens from anesthesia.
 Report any abnormality immediately

 Instruct the patient for breathing and cough exercise to

maintain clear of the airway from secretion
 Monitor swallowing and gag reflex before offering clear liquids

to guard against aspiration,

◼ Oral intake initiated from next day, starting with ‘clear fluids’,
going on to ‘free fluids’, then to soft diet and finally to normal
diet

 Administer pain medication as prescribed

 Consult dietitian to assist patient with potential dietary changes
 Assess for hypocalcemia, which may occur when the
parathyroid glands are damaged.
 Monitor serum calcium levels and watch for tetany occur
24 to72 hours postoperative
 Test for Chvostek's and Trousseau's signs, indicators of
neuromuscular irritability from hypocalcemia.
 Keep calcium gluconate available for emergency I.V
administration
◼ Post-operative complications include tetany which is
caused by a decreased calcium. Tetany is seen as
muscle twitching and hyperirritability of the nervous
system. Hypocalcemia may occur if the parathyroids
are accidentally removed during the thyroidectomy. A
positive Chvostek’s or Trousseau’s sign, indicate the
hypocalcemic state of tetany.
◼ Chvostek’s sign is the muscle twitching of the
upper lid of the eye elicited by touching the facial
nerve adjacent to the ear.
◼ Trousseau’s sign is the contraction of the
fingers when a blood pressure cuff is inflated.
◼ Positive Chvostek’s ◼ Positive Trousseau’s
Sign Sign
 Teach about importance of follow up to avoid any
complications.
How to administer replacement hormone if indicated
How to change the dressing and report bleeding and signs of
infection at the site
Importance for change of vital signs
Importance of follow up of lab investigation

Teach him to recognize and report signs of
hypothyroidism and hyperthyroidism
Nutritional therapy for hyperthyroidism
1. high-calorie diet (4000 to 5000 cal/day) may be ordered to
satisfy hunger, prevent tissue breakdown, and decrease
weight loss.
2. six full meals a day and snacks high in protein,
carbohydrates, minerals, and vitamins. The protein content
should be 1 to 2 g/kg of ideal body weight.
3. Teach the patient to avoid highly seasoned and high-fiber
foods because these foods can further stimulate the already
hyperactive GI tract.
4. Instruct the patient to avoid caffeine-containing liquids such
as coffee, tea, and cola to decrease the restlessness and sleep
disturbances associated with these fluids.
1- Imbalanced nutrition :less than body requirement
related to increased metabolism

2- Diarrhea related to an increase in peristalsis as evidenced
by frequent loose stools.

3- Loss of concentration related to insomnia

4- Anxiety related to knowledge deficit

5- Risk for injury related to muscles weakness
◼ Maintaining Normal Body Temperature
◼ The patient with hyperthyroidism frequently finds a normal room
temperature too warm because of an exaggerated metabolic rate
and increased heat production

◼ If the patientis hospitalized, the nurse maintains the environment
at a cool, comfortable temperature

◼ and changes bedding and clothing as needed.

◼ Cool baths and cool or cold fluids are encouraged, because they
may provide relief.
1- Ineffective breathing pattern related to depressed
ventilation
2- Activity intolerance related to fatigue

3-Imbalanced nutrition :more than body requirements
related to decreased metabolic rate as evidenced by
weight gain
4- Deficient knowledge about the therapeutic regimen
for lifelong thyroid replacement therapy
5- Risk for impaired skin integrity related to dry skin
,inactivity
 patient & caregiver teaching guide with
hypothyroidism

1. Discuss the importance of thyroid hormone therapy.
Need for lifelong therapy
Taking thyroid hormone in the morning before food
Need for regular follow-up care
2. Caution the patient not to switch brands of the hormone
unless prescribed, since the bioavailability of thyroid
hormones may differ.
3. Emphasize the need for a comfortable, warm environment
because of intolerance to cold.
4. Teach measures to prevent skin breakdown. Soap should be
used sparingly and lotion applied to skin.
 patient & caregiver teaching guide with
hypothyroidism cont,
5. Caution the patient, especially if an older adult, to avoid
sedatives. If they must be used, suggest that the lowest
dose be used. Caregiver should closely monitor mental
status, level of consciousness, and respirations.
6. Discuss with the patient and the caregiver measures to
minimize constipation, including
Gradual increase in activity and exercise
Increased fiber in diet, Use of stool softeners
Regular bowel elimination time
7. Tell patient to avoid using enemas because they
produce vagal stimulation (the tenth cranial nerve ),
which can be hazardous if cardiac disease is present
Regulation of calcium on the body
Parathyroid glands
Secret parathyroid hormone in response to low serum calcium
levels
 PTH raises serum calcium levels by promoting calcium
movement from bones to blood by increasing absorption of
dietary calcium and increasing resorption of calcium by the
kidneys

 Decreased PTH activity is called hypoparathyroidism

 Increased PTH activity is called hyperparathyroidism
 pathophysiology
Hypoparathyroidism Hyperparathyroidism
Overactive of
hypoactive of gland
parathyroid glands
so decreased in PTH
so increased in PTH

Decreased in calcium
absorption by GIT & Effect on absorption in
decreased resorption in small intestine and
the kidney reabsorption by the
kidney
The calcium stay in the
bone instead to blood Calcium move from
The result decreased bone into blood
serum calcium level and The result increased
phosphate levels rise level of calcium
 hypoparathyroidism hyperparathyroidism
Hormone secretion Insufficient PTH Excess PTH
Signs and Hypocalcaemia , Hyper-calcaemia ,fatigue
symptoms neuromuscular , pathological fractures,
irritability, tetany , kidney stones, bone and
positive chvostek’s and joint pain
trousseau’s signs
Diagnostic tests Serum PTH ,calcium Serum PTH ,calcium
and phosphate and phosphate

Therapeutic Calcium and vitamin D Calcitonin.
measure replacement low Parathyroidectomy
phosphorous diet
Nursing diagnosis Risk for injury related Risk for injury related to
to hypocalcaemia & bone demineralization
tetany
Risk for injury related to hypocalcaemia &
tetany
 Goal :the patient will remain free from injury and
signs of tetany will be treated quickly
Nursing intervention
 Monitor signs of tetany
 Make sure a tracheostomy set ,endotracheal tube and
intravenous calcium are available for emergency use if
laryngospasm
 Consult a dietitian for high calcium diet
 Teach the patient about importance of long term diet ,
medication and follow up laboratory testing
 Risk for injury related to bone demineralization

Goal : the patient will remain free from injury
Nursing intervention:
 monitor and report signs of calcium imbalance
 Encourage oral fluid to prevent dehydration and kidney
stones and help excrete calcium
 Encourage exercise to help keep calcium in the bones
 Provide safe environment
 Encourage smoking cessation.smoking causes bone loss