Endocrine Disorders PDF

Summary

This document provides an overview of endocrine system function, including the overview of the endocrine control, the different types of hormones, the negative feedback in the hypothalamic-pituitary-endocrine gland axis, some possible diseases and disorders, the significance of the hypothalamus and pituitary glands, and some other disorders and their treatments. It is a great resource for learning about the endocrine system and related disorders.

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Assessing the function of the
endocrine system

Pixabay.com
1. Overview of the Endocrine System

Homeostasis
System of control mechanisms

The endocrine control
Achieved by biochemical regulators
❖Hormones
❖Paracrine factors (e.g., prostaglandins)
❖Autocrine factors (e.g., interleukins)
1. Overview of the Endocrine System

Larson, 2017
2. Types of Hormones
Hormones are classified by structure:

❖Peptide or polypeptides
Different sizes but same mechanism of function Pixabay.com

E.g., insulin, GH, PTH, glucagon
Water soluble
❖Amino acid derivative
Synthesized by the thyroid gland (T4 and T3), and the adrenal medulla
Water soluble (catecholamines) or lipid soluble
❖Steroid hormones
All derived from cholesterol
Not stored
Lipid soluble (cortisol, aldosterone, testosterone, estrogen, and progesterone)
3. Negative Feedback in the
Hypothalamus-Pituitary- Thyrotropin-releasing hormone (TRH),
Endocrine Gland Axis

(TSH)
Used by the endocrine system to
precisely regulate hormone “Thyroid gland”
synthesis and release
E.g., Thyroid hormone production “Thyroid hormones”
4. Disease Processes of the Endocrine System
Diseases and disorders of the endocrine system are usually
caused by:
Tumours
Inflammation
Degenerative processes
Genetic mutations

Endocrine diseases can be:
▪ Primary (disease from target organ)
▪ Secondary (disease from hypothalamus- pituitary axis)
▪ Tertiary (tumour in hypothalamus or pituitary)
▪ “Ectopic” (hormone-secreting tumour in a part of the body)
5. Hypothalamus and Pituitary Glands
Form a controlling unit
Other endocrine glands
Thyroid
Adrenal
Gonads

✓Direct control of physiological functions
Lactation
Growth and metabolism
5.1 Pituitary Gland
Regulated by the hypothalamus

Anterior pituitary
ACTH, GH, prolactin, TSH, LH, and FSH

Posterior pituitary
ADH, oxytocin
5.1 Hypothalamus Hormones and
Anterior Pituitary Regulation
5.1 Posterior Pituitary Hormones

Antidiuretic hormone (ADH)
Stimulated by:
Increased plasma osmolality
Blood volume depletion
Stress and nausea
Oxytocin

ADH
https://www.sciencedirect.com/topics/medicine-and-dentistry/posterior-pituitary
6. Clinical Disorders of the Pituitary Gland
The consequence of pituitary disorders may be:
▪ Oversecretion
Abnormal growth of cells in pituitary gland
Increased production of tropic hormones by the hypothalamus
Ectopic tumour

▪ Deficiency of hormones Posterior pituitary gland

It usually involves more than one hormone
E.g., tumours, trauma, infections, pituitary surgery
Excess Pituitary Hormone Disorders
6.1 Excess Pituitary Hormone Disorders
ADH Excess
1. Syndrome of Inappropriate Antidiuretic Hormone Secretion (SIADH)
Secretion of high levels of ADH without stimulus

❖Causes:
Ectopic tumours, tuberculosis, cystic fibrosis, trauma, use of drugs (e.g.., antidepressants), etc.

❖Consequences:
Water retention (hyponatremia)
Serum/urine osmolality? SIADH
Water retention, kidneys keep excreting sodium
ADH secretion
❖Symptoms:
Thirst, weight gain, fatigue, anorexia, etc. (No edema!)
❖ Diagnosing SIADH
Medical history and physical examination

Laboratory tests:
Measurements of electrolytes (hyponatremia)
Serum (< 280 mOsm/Kg) and urine osmolality (> serum osmolality)
Normal: renal, adrenal, and thyroid function test results
6.2 Excess Pituitary Hormone Disorders
Growth Hormone (GH)

❖Normal growth
Rapid growth (first 2 years)
Steady growth (for around 9 years)
Controlled by GH
Growth spurt at puberty
6.2 Excess Pituitary Hormone Disorders
2. Growth Hormone excess
Gigantism in children and adolescents
Acromegaly in adults

❖Causes:
Pituitary adenoma

❖Consequences
Gigantism
Acromegaly
Cardiac hypertrophy, hypertension, atherosclerosis,
type 2 diabetes, coarsening facial features
❖Diagnosing acromegaly
Requires oral glucose tolerance test
with GH measurement
▪ No GH suppression
IGF-1 measurement
▪ Produced in response to GH

Treatment:
Surgery
Radiation
Synthetic analogues of somatostatin
6.3 Excess Pituitary Hormone - Other Disorders

3. Hyperprolactinemia
Excess of prolactin (prolactinomas)
▪ Milk production in women
▪ Hypogonadism and erectile dysfunction in men

4. Adrenocorticotropic hormone (ACTH) excess
Stimulates the adrenal cortex to produce glucocorticoids (stress)
Excess of ACTH (Cushing syndrome)
Deficit Disorders of the Pituitary Gland
6.4 Deficit Disorders of the Pituitary Gland

ADH Decrease

1. Diabetes insipidus
Low ADH
Kidneys unable to retain water
Increased excretion of water
Plasma osmolality - urine osmolality

Symptoms: Polyuria, nocturia, continuous thirst, and polydipsia

Laboratory findings:
Water restriction = no increase in urine osmolality
6.5 Deficit Disorders of the Pituitary Gland
GH Decrease
2. Growth hormone deficiency
Diminished GH secretion
Occurs in children and in adults

❖Causes:
Genetic mutations
Tumours

❖Consequences https://www.momjunction.com/articles/children-dwarfism-types-symptoms-causes_00780340/

Children (e.g., growth failure, fasting hypoglycemia)
Adults (E.g., increased body fat, decreased muscle bulk and strength)
❖ Tests for growth hormone deficiency
A lack of GH response to stress of
exercise or clonidine is diagnostic

GH response to stimulation
Insulin tolerance test (ITT)
Induces hypoglycemia
Arginine stimulation test
Stimulates pituitary

❖Treatment
Genetically engineered GH
7. Thyroid Gland

Consists of ring-shaped follicles composed of
follicular cells

Follicular cells secrete thyroid hormones
T3 (triiodothyronine)
T4 (tetraiodothyronine or thyroxine)
https://depositphotos.com/photos/thyroid.html

Functions
Neurologic development, oxygen consumption, heat
production, growth, sexual maturity, metabolism of
carbohydrates and proteins
7.1 Thyroid Hormones
Essential for tissue maturation and metabolism
Congenital hypothyroidism
Thyroxine (T4) and Triiodothyronine (T3)
Produced in thyroid gland with iodine atoms
Peripheral tissues deiodinate T4 to produce 2/3
of circulating T3 (more biologically active)
Most cells can deiodinate T4
T4 can be metabolized to reverse T3 (rT3) –
inactive
Most T3 and T4 are bound to proteins
“Free” T3 and T4 are active
7.2 Regulation of Thyroid Hormone Secretion
Hypothalamic – pituitary – thyroid axis

Components:
Thyrotropin-releasing hormone (TRH)
Thyroid-stimulating hormone (TSH)
Thyroid hormones

Too much thyroid hormone – suppression of TSH
Low thyroid hormone – high TSH
7.3 Goiter

Enlarged thyroid gland

May be associated with underproduction
(hypothyroidism) and overproduction
(hyperthyroidism) of thyroid hormones

Associated with iodine deficiency
Disorders of the Thyroid Gland
7.4 Disorders of Thyroid
Underproduction – Hypothyroidism
Usually due to primary hypothyroidism
Decreased thyroid hormones, increased TSH
Secondary
Decreased TSH, decreased thyroid hormones
Tertiary
Decreased TRH
Overproduction – Hyperthyroidism
Commonly a primary disease
7.5 Deficit of Thyroid Hormones -
Hypothyroidism
Commonly develops slowly
Causes:
Autoimmune (thyroiditis - Hashimoto’s disease- >90%)
Surgery for hyperthyroidism
Transient hypothyroidism (e.g., lithium carbonate)
TSH deficiency
Congenital defects
Severe iodine deficiency
7.5 Hypothyroidism- Signs and Symptoms

Appearance: weight gain, coarse dry skin,
hoarse voice, perhaps goiter
Disposition: lethargic, depressed, cold
intolerance
Neuromuscular: altered tendon reflexes, muscle
weakness
Heart: slow pulse, reduced cardiac output
❖ Diagnosis of Hypothyroidism
Primary hypothyroidism
Failure of the thyroid gland (most common)
Low thyroid hormones
TSH measurement ?

Elevation of TSH is diagnostic

Secondary hypothyroidism
Failure of the pituitary gland to secrete TSH
Thyroid hormone level? TSH level?
❖ Treatment of Hypothyroidism
Thyroid hormone replacement
Therapy for life (T4)

Important to monitor TSH
concentrations

Replacement of thyroid hormone in
newborns will avert the development
of symptoms
Congenital hypothyroid disorders
7.6 Excess of Thyroid Hormones -
Hyperthyroidism
Overactivity of the thyroid glands
Tissues are exposed to high levels of thyroid hormones
Excess thyroid hormones increase the body's
metabolism
Primary
Increased T3 and T4, decreased TSH
Secondary (rare) and Tertiary
Increased TSH with or without increased TRH
7.6 Excess of Thyroid Hormones -
Hyperthyroidism
Causes:
Grave’s disease (most common)
Antibodies bind to the TSH receptor on thyroid cells
Solitary toxic adenoma
Independent of TSH stimulation
Thyroiditis
Ingestion of excess T4 and/or T3
Exogenously administered iodine
Toxic multinodular goiter
7.6 Excess of Thyroid Hormones -
Hyperthyroidism
Signs and Symptoms
Appearance: weight loss despite appetite,
sweating, tremor, possible goiter
Disposition: agitated, nervous, heat
intolerance, easy fatigability
Heart: tachycardia
Neuromuscular: muscle weakness and loss
of muscle mass
Eyes: upper lid retraction, exophthalmos
❖ Diagnosis of Hyperthyroidism
Easily diagnosed
Decreased TSH with an increased free T4 (fT4) concentration

Presence of TSH-receptor antibodies
Indicative of Grave’s disease (not diagnostic)

Subclinical hyperthyroidism
Low TSH and free T4 and T3 within the reference intervals
Some patients are at increased risk of primary hyperthyroidism
❖ Treatment of Hyperthyroidism
Three methods for the treatment of Grave’s disease:
Antithyroid drugs
Patients with higher likelihood of remission
Radioiodine
131I ; irreversible treatment
Permanent thyroid hormone replacement is expected
Surgery
Thyroidectomy (subtotal or total)
8. Hypothalamic-Pituitary-Adrenal Axis

Overviews the interactive actions of
neuroendocrine system
Responsible for the control of reactions
to stress
Regulates digestion, immune system,
mood, sexuality and energy storage
utilization
Wikimedia, 2024
https://www.frontiersin.org/journals/neurology/articles/10.3389/fne
ur.2013.00021/full
8.1 Adrenal Glands
Two adrenal glands
Composed of cortex and medulla
❖Cortex
Zona glomerulosa
Zona fasciculata
Zona reticularis
Hormones include mineralocorticoids,
glucocorticoids and the adrenal androgens

❖Medulla (part of sympathetic nervous system)
Adrenaline, noradrenaline, and dopamine
8.2 Cortisol
Major glucocorticoid

Functions
It regulates carbohydrate, protein and lipid
metabolism

Cortisol levels show diurnal variation
Single serum measurement are of limited
clinical value
Affected by sleep-wake cycle

Regulated by the hypothalamus and anterior
pituitary gland
8.3 Aldosterone

Major mineralocorticoid

Functions
Maintain extracellular fluid volume, regulate
sodium and potassium

Produced by the zona glomerulosa
Controlled by the renin-angiotensin system
8.4 Adrenal Androgens
Secretion of small amounts
ACTH regulation

Androstenedione, (DHEA), and DHEA sulfate
are converted to sex hormones in gonads, skin,
and adipose tissue

Functions
Females (important source of androgens)
Males
https://kids.frontiersin.org/articles/10.3389/frym.2020.554380
8.5 Adrenal Medulla
Catecholamines
Epinephrine (adrenaline)
Norepinephrine (noradrenaline)

Response to stresses
“Fight or flight response”
Traumatic injury, hypoxia, hypoglycemia
8.5.1 Adrenal Medulla Hormones
Epinephrine (adrenaline)
Increases heart rate
Increases blood pressure
Increases muscle strength
Increases glucose metabolism

Norepinephrine (noradrenaline)
Increases rate of heart contractions
Affects the brain
Increases peripheral blood vessel resistance
Alertness

End of activity
Stored and reused
Excreted in the urine
8.6 Hormonal disorders of the Adrenal
Cortex
Alter development and homeostasis

Decrease in secretion (e.g.,
Aldosterone – Addison’s disease)
Increase in secretion (e.g., Cortisol -
Cushing syndrome)
Deficit Disorders of the Adrenal Gland
8.6.1 Adrenal Insufficiency
Rare and potentially fatal
Important signs
Pigmentation and/or hyponatremia and
dehydration – must be investigated
Lack of mineralocorticoids – loss of sodium from
ECF – loss of water

Causes
Primary
Addison’s disease
Secondary – use of corticosteroid
suppression of the entire hypothalamic–pituitary–
adrenocortical axis
8.6.1 Addison’s Disease
Autoimmune mechanism
More common in women than in men

Laboratory results: low corticosteroid and
mineralocorticoid levels with elevated ACTH
levels

Symptoms
Only when more than 90% of the adrenal tissue is
destroyed
Weakness, easily fatigued, hyperpigmented skin,
anorexia, nausea, vomiting, diarrhea
Excess Disorders of the Adrenal Gland
8.6.2 Hyperfunction of the Adrenal Cortex
Cortisol excess
Prolonged exposure of tissues to cortisol or other corticosteroids
Effects lead to Cushing’s syndrome
▪ Most commonly due to the use of steroid medications (iatrogenic Cushing’s
syndrome)
▪ Tumours that secrete cortisol or ACTH
▪ Causes
8.6.2 Cushing’s Syndrome
Symptoms Skin pigmentation
Weight gain Increased body and
Central obesity and growth of fat
facial hair
(moon face)
Decreased immune
Thinning scalp hair
response
Facial flush
Purple striae Hyperglycemia
Easy bruising Hypertension

Laboratory considerations for
Cushing’s disease
Cortisol measurement (high in many
conditions)
ACTH measurement
Help determine the cause
 9. Hypothalamic–pituitary–gonadal
axis
Hypothalamic–pituitary–gonadal axis

Gonadotrophin-releasing hormone (GnRH)
Stimulates synthesis of gonadotrophins: LH
and FSH
Stimulate sex hormone secretion and
reproduction

Wikimedia Commons, 2024
https://commons.wikimedia.org/wiki/File:Hypothalamic%E2%80%93pit
uitary%E2%80%93gonadal_axis.svg
 9.1 Gonadal Function - Male
Male gonadal function
Testes: secrete testosterone and manufacture
spermatozoa
LH stimulates the development of Leydig cells and
testosterone
Sertoli cells are influenced by FSH

Disorders of male sex hormones
Hypogonadism
Primary (testicular deficiency)
Decrease in testosterone
Increase in LH and FSH
Secondary (defect in hypothalamus or pituitary)
Decrease in LH and FSH
9.2 Gonadal Function - Female
Estradiol is responsible for:
Female secondary characteristics
Stimulation of follicular growth
Development of endometrium

Normal hormonal control of the menstruation
cycle
FSH is released – follicular growth initiates
Surge in LH- ovulation
Follicle differentiates into corpus luteum –
progesterone and estradiol
Disorders of female sex hormones
Subfertility, amenorrhea and oligomenorrhea
Hirsutism
Virilism
9.3 Subfertility
The failure of a couple to conceive after 1 year of regular,
unprotected intercourse
Clinical history + physical examination
Endocrine abnormalities
Found in one-third of female patients
Very rare in males
No cause identified in some couples
Endocrine examinations in females
High progesterone in the middle of the luteal phase
No further endocrine examination
Low progesterone in the middle of the luteal phase
No ovulation
Women with irregular/absent menstruation or no ovulation
Hormone measurements may be diagnostic
Measures of estradiol (low) and gonadotrophin (high) (primary ovarian failure)
Measures of prolactin and androgens