NURS1108 Lecture 13 - Endocrine System PDF

Summary

This document is a lecture on the endocrine system, including introduction to anatomy and physiology, objectives, content, and hormone action. It covers the different types of hormones and their functions.

Full Transcript

NURS1108:
Introduction to
Anatomy &
Physiology
Dr. Jermaine H. Whyte
FMS- UWI
[email protected]

Endocrine
System
Sense Organs

Objectives
• Identify the endocrine organs/glands and their location;

• Describe the structure and function of each of the
endocrine glands;
• Distinguish between endocrine and exocrine glands;

• List the functions of hormones;
• Classify hormones into their major chemical categories;

• Discuss the effects of the major hormones on the body;
• Explain the hypothalamus and prostaglandin regulations
of the functions of the endocrine system;

Content
• Endocrine system
o

Developmental aspects

• Glands: structure & functions
o
o

Definition
Types & functions of each
• Endocrine
• Exocrine

• Major endocrine organs:
location, structure, function,
hormones
o
o
o
o
o
o
o
o
o

Pituitary
Thyroid
Parathyroid
Adrenal
Ovaries
Testes
Pineal
Thymus
Pancreas (islets of Langerhans)

• Exocrine glands: location,
structure, function, hormones
o
o
o
o

Salivary
Bile-producing glands of the liver
Pancreas (pancreatic fluid)
Gastric

• Hormones
o
o
o
o
o
o

Types
Chemistry
Mechanisms of hormone action
Hormone target cell specificity
Half-life, onset & duration of hormone
activity
Control of hormone release

• Regulatory mechanisms
o
o

Hypothalamus
Prostaglandin

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Introduction
A. The endocrine system is made up of the
cells, tissues, and organs that secrete
hormones into body fluids.
B. Hormones diffuse into the bloodstream to
act target cells some distance away.
C. The body has two kinds of glands;
o Exocrine (secretes products into ducts)
o Endocrine (secrete products into body
fluids to affect target cells).
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General Characteristics of
the Endocrine System
A. The endocrine system’s function is to
communicate with cells using chemicals
called hormones.
B. Endocrine glands and their hormones
regulate a number of metabolic
processes within cells, and the whole body.

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C. Their actions are precise, they only affect
specific target cells
D. Endocrine glands include the
o pituitary gland
o thyroid gland
o parathyroid glands
o Adrenal glands
o Pancreas
o other hormone - secreting glands and
tissues.
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Hormone Action
A. Hormones are
o steroids, amines, peptides, proteins, or
glycoproteins
o they can influence target cells even if
they are present only in minute
concentrations.

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B.

Steroid Hormones
1. Steroid hormones are lipid-soluble and
can pass through cell membranes.
2. Receptors for steroid hormones
located in the target cell’s nucleus.

are

3. The hormone-receptor complex binds
with the DNA and activates specific
genes that, in turn, direct the synthesis of
specific proteins.
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C. Nonsteroidal Hormones
1. Nonsteroidal hormones combine with
receptors in target cell membranes; the
receptors have a binding site and an
activity site.
2. The hormone-receptor complex (as first
messenger) triggers a cascade of
biological activity.

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3. The hormone-receptor complex generally
activates a G protein, which then activates
the enzyme adenylate cyclase that is
bound to the inner cell membrane.

4. This enzyme removes two phosphates from
ATP to produce cyclic AMP (the second
messenger), which in turn activates protein
enzymes that activate proteins.

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5. These activated proteins induce changes in
the cell.
6. Not all nonsteroid hormones use cAMP;
others use diacylglycerol (DAG) or inositol
triphosphate.

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D. Prostaglandins
• Prostaglandins are locally-produced lipids
that affect the organ in which they are
produced.

• Prostaglandins produce a variety of effects:
some relax smooth muscle, others contract
smooth muscle, some stimulate secretion of
other hormones, and others influence blood
pressure and inflammation.

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• Both steroid hormones and thyroid hormones are
effective when taken by mouth. They are not split
apart during digesion and easily cross the intestinal
lining because they are lipid-soluble.
• By contrast, peptide and protein hormones, such as
insulin, are not effective oral medications because
digestive enzymes destroy them by breaking their
peptide bonds. This is why people who need insulin
must take it by injection.

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Control of Hormonal
Secretions

A. Hormone levels are very precisely regulated.
B. Control Mechanisms
1. Release of tropic hormones from the
hypothalamus controls secretions of the
anterior pituitary.
2. The nervous system influences certain
endocrine glands directly.
3. Other glands respond directly to changes in
the internal fluid composition.
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C.
Negative Feedback Systems
1. Commonly, negative feedback
mechanisms control hormonal releases.
2. In a negative feedback system, a gland is
sensitive to the concentration of the substance
it regulates or which regulates it.
3. When the concentration of the regulated
substance reaches a certain level (high or low),
it inhibits the gland from secreting more
hormone until the concentration returns to
normal.
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Pituitary Gland
A. The pituitary gland is attached to the base
of the brain and has an anterior lobe

(anterior

pituitary) and a posterior lobe

(posterior

pituitary).

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B.
The brain controls the activity of the pituitary
gland.
1. Releasing hormones from the hypothalamus
control the secretions of the anterior pituitary.
a. The releasing hormones are carried in the
bloodstream directly to the anterior pituitary
by hypophyseal portal veins.
2. The posterior pituitary releases hormones into
the bloodstream in response to nerve impulses
from the hypothalamus.
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C.

Anterior Pituitary Hormones

1.
The anterior pituitary consists mostly of
epithelial tissue arranged around blood vessels
and enclosed in a capsule of collagenous
connective tissue.

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Anterior Pituitary Gland

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2. Growth hormone (GH) stimulates body cells to
grow and reproduce; it also speeds the rate at
which cells use carbohydrates and fats.
a.
Growth hormone-releasing hormone
from the hypothalamus increases the amount of
GH released, GH release-inhibiting hormone
inhibits its release.

b.
Nutritional status affects the release of
GH; more is released when nutrients are
insufficient.
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3. Prolactin (PRL) promotes milk production
following the birth of an infant.

a.
The effect of PRL in males is less-well
understood, although it may cause a
deficiency of male sex hormones.

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4. Thyroid-stimulating hormone (TSH) controls
the secretion of hormones from the thyroid
gland.
a. Thyrotropin-releasing hormone (TRH) from
the hypothalamus regulates the release
of TSH.
b. As blood concentrations of thyroid
hormones increases, secretions of TRH
and TSH decrease.
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5. Adrenocorticotropic hormone (ACTH)
controls the secretion of hormones from the
adrenal cortex.
a. It is regulated by corticotropin-releasing
hormone from the hypothalamus, and
stress can also increase its release.
6.
Follicle-stimulating hormone (FSH)
andluteinizing hormone (LH) are
gonadotropins affecting the male and female
sex organs
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D. Posterior Pituitary
Hormones
1. The posterior lobe consists of nerve fibers
and neuroglial cells that support nerve
fibers arising in the hypothalamus.
2. Neurons in the hypothalamus produce
antidiuretic hormone and oxytocin, which
are stored in the posterior pituitary.
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3. Antidiuretic hormone (ADH) produces its
effect by causing the kidneys to conserve
water.
a. The hypothalamus regulates the secretion
of ADH based on the amount of water in
body fluids.

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4. Oxytocin plays a role in childbirth by
contracting muscles in the uterine wall, and
in milk-letdown by forcing milk into ducts
from the milk glands.
a.
Stretching of the uterus in the latter
stages of pregnancy stimulates release of
oxytocin.
b.
Suckling of an infant at the breast
stimulates release of oxytocin after childbirth.

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Thyroid Gland
A.
The thyroid gland is located below the
larynx and consists of two broad lobes
connected by an isthmus.
B.
Structure of the Gland
1.
The thyroid consists of secretory parts
called follicles filled with hormone-storing
colloid.

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C. Thyroid Hormones
1. The follicular cells produce two iodinecontaining hormones, thyroxine (T4 )
(tetraiodothyronine) and triiodothyronine
(T3), that together regulate energy
metabolism.
a. These two hormones increase the rate at
which cells release energy from
carbohydrates, enhance protein synthesis,
and stimulate the breakdown and
mobilization of lipids.
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b.
These hormones are essential for normal
growth and development.
c.
The hypothalamus and pituitary gland
control release of thyroid hormones.

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2. Extrafollicular cells of the thyroid secrete
calcitonin, which lowers blood levels of
calcium and phosphate ions when they
are too high.

a. Calcitonin increases the rate at which
calcium is stored in bones and excreted in
the urine.
b. Calcitonin secretion is regulated by
negative feedback involving blood
concentrations of calcium.
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Parathyroid Glands
A. The four, tiny parathyroids are located on
the posterior of the thyroid.
B. Structure of the Glands
1. Parathyroid glands consist of tightly
packed secretory cells covered by a thin
capsule of connective tissue.

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Parathyroid Glands
1. Parathyroid hormone (PTH) increases blood
calcium ion concentration and decreases
phosphate ion concentration.

2. PTH stimulates bone resorption by osteoclasts,
which releases calcium into the blood.
3. PTH also influences the kidneys to conserve
calcium and causes increased absorption of
calcium in the intestines.
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4.

A negative feedback mechanism
involving blood calcium levels regulates
release of PTH.

D.
Calcitonin and PTH exert opposite effects
in regulating calcium ion levels in the blood.

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Adrenal Glands
A.

The adrenal glands sit atop the kidneys
enclosed in a layer of fat.

B.
Structure of the Glands
1.
The pyramid-shaped glands consist of an
inner adrenal medulla and an outer adrenal
cortex.
2.
The adrenal medulla is made up of modified
postganglionic neurons that are connected to
the sympathetic nervous system.
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B.
Structure of the Glands
1. The pyramid-shaped glands consist of an inner
adrenal medulla and an outer adrenal cortex.
2. The adrenal medulla is made up of modified
postganglionic neurons that are connected to
the sympathetic
nervous system.
3. The adrenal cortex makes up most of the
adrenal glands and consists of epithelial cells
in three layers--an outer, middle, and an inner
zone.
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C. Hormones of the Adrenal Medulla
1. The adrenal medulla secretes
epinephrine and norepinephrine into the
blood stream.
2. The effects of these hormones resemble
those of the sympathetic division
neurotransmitters of the same name,
except that they last up to 10 times
longer when they are secreted as
hormones.
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3. The are used in times of stress and for
“fight or flight.”
4. Release of medullary hormones is
regulated by nervous impulses from the
central nervous system.

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D. Hormones of the Adrenal Cortex
1. The cells of the adrenal cortex produce
over 30 different steroids, some of which
are vital to survival, the most important of
which are aldosterone, cortisol, and the sex
hormones.

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2. Aldosterone
a. Aldosterone, a mineralocorticoid, causes
the kidneys to conserve sodium ions and
thus water, and to excrete potassium ions.

b. Aldosterone is secreted in response to
decreasing blood volume and blood
pressure as a result of changes in the
kidney.
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3. Cortisol
a. Cortisol, a glucocorticoid, influences the
metabolism of glucose, protein, and fat in
response to conditions that stress the body
and require a greater supply of energy in
the bloodstream.

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b. A negative feedback mechanism involving
CRH from the hypothalamus and ACTH
from the anterior pituitary controls the
release of cortisol.
c. Stress, injury, or disease can also trigger
increased release of cortisol.

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4. Adrenal Sex Hormones
a. Sex hormones, produced in the inner zone,
are mostly of the male type, but can be
converted to female hormones in the skin,
liver, and adipose tissues.
b. These hormones supplement those
released by the gonads and may stimulate
early development of reproductive organs.
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Pancreas
A. The pancreas secretes hormones as an
endocrine gland, and digestive juices to
the digestive tract as an exocrine gland.

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B. Structure of the Gland

1. The pancreas is an elongated organ
posterior to the stomach.
2. Its endocrine portions are the islets of
Langerhans that include two cell types-alpha cells that secrete glucagon, and
beta cells that secrete insulin.

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C. Hormones of the Islets of Langerhans
1. Glucagon increases the blood levels of
glucose by stimulating the breakdown of
glycogen and the conversion of
noncarbohydrates into glucose.
a. The release of glucagon is controlled by
a negative feedback system involving
low blood glucose levels.
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2. Insulin decreases the blood levels of
glucose by stimulating the liver to form
glycogen, increasing protein synthesis,
and stimulating adipose cells to store fat.

a. The release of insulin is controlled by a
negative feedback system involving high
blood glucose levels.
• Insulin and glucagon coordinate to maintain
a relatively stable blood glucose
concentration.
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Other Endocrine Glands

A. Pineal Gland

1. The pineal gland, near the upper portion of
the thalamus, secretes melatonin, which is
involved in the regulation of circadian rhythms
of the body.
B. Thymus Gland

1.
The thymus gland, lying between the lungs
under the sternum, secretes thymosins that affect
production and differentiation of T lymphocytes
that are important in immunity.
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Effect of Light on Pineal Gland

• Melatonin secretion producing sleepiness occurs
during darkness due to lack of stimulation from
96 sympathetic ganglion

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C. Reproductive Glands
1. The ovaries produce estrogen and
progesterone.
2. The placenta produces estrogen,
progesterone, and gonadotropin.
3. The testes produce testosterone.
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Hormonal Control of Male
Reproductive Functions
• hypothalamus

controls maturation of
sperm cells and
development of male
secondary sex
characteristics
• negative feedback
among the
hypothalamus, the
anterior lobe of the
pituitary gland, and the
testes controls the
concentration of
testosterone
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Actions of Testosterone
• increased growth of body hair
• sometimes decreased growth of scalp hair

• enlargement of larynx and thickening of vocal cords
• thickening of skin
• increased muscular growth

• thickening and strengthening of the bones

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Hormonal Control of Female
Reproductive Functions
• estrogens
inhibit LH and
FSH during most
of the
reproductive
cycle

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Effects of Estrogens
• development of breasts and ductile
system of the mammary glands
• increased adipose tissue in breasts,
thighs, and buttocks
• increases vascularization of skin

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Female Reproductive Cycle

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Menopause
• usually occurs in late 40s or early 50s

• reproductive cycles stop
• ovaries no longer produce as much estrogens
and progesterone

• some female secondary sex characteristics may
disappear
• may produce hot flashes and fatigue

• hormone therapy may prevent effects on bone
tissue
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Mammary Glands
• located in the
subcutaneous tissue of the
anterior thorax within the
breasts
• composed of lobes
• estrogens stimulate
breast development in
females

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D. Digestive Glands
1. The digestive glands secrete hormones
associated with the processes of digestion.

E. Other Hormone Producing Organs
1. The heart secretes atrial natriuretic peptide
affecting sodium and the kidneys secrete
erythropoietin for blood cell production.
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Stress and Health
A.
Factors that serve as stressors to the body
produce stress and threaten homeostasis.
B. Types of Stress
1.
Stress may be physical, psychological, or
some combination of the two.

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2. Physical stress threatens the survival of
tissues, such as extreme cold, prolonged
exercise, or infections.
3. Psychological stress results from real or
perceived dangers, and includes feelings
of anger, depression, fear, and grief;
sometimes even pleasant stimuli cause
stress.

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C. Response to Stress
1. Responses to stress
maintain homeostasis.

are

designed

to

2. The hypothalamus controls the general
adaptation syndrome, which involves
increased sympathetic activity and
increased secretion of cortisol, glucagon,
growth hormone, and antidiuretic
hormone.
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Hypercortisolism

Thyroid Hormone
Disorders

Growth Hormone

Clinical Application
Growth Hormone Ups and Downs
• Gigantism - hypersecretion of GH in children
• Acromegaly – hypersecretion of GH in adults
• Dwarfism – hyposecretion of GH in children
Figure shows oversecretion of GH in adulthood as changes occur in the
same person at ages (a) nine, (b) sixteen, (c) thirty-three, and (4) fifty-two

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Growth Hormone Disorders

Life-Span Changes
• endocrine glands decrease in size

• muscular strength decreases as GH levels decrease
• ADH levels increase due to slower break down in liver and kidneys
• calcitonin levels decrease; increase risk of osteoporosis
• PTH level changes contribute to risk of osteoporosis
• insulin resistance may develop

• changes in melatonin secretion affect the body clock
• thymosin production declines increasing risk of infections
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Adrenal Cortex - Review
•

•

•

Mineralocorticoids
o Mineralocorticoids (e.g., aldosterone) increase sodium and
water reabsorption and decrease potassium reabsorption,
helping to regulate sodium and potassium levels in the body.
o Secretion is controlled by the renin-angiotensin pathway
(Figure 18.16) and the blood level of potassium.
Glucocorticoids
o Glucocorticoids (e.g., cortisol) promote breakdown of
proteins, formation of glucose, lipolysis, resistance to stress,
anti-inflammatory effects, and depression of the immune
response.
o Secretion is controlled by CRH (corticotropin releasing
hormone) and ACTH (adrenocorticotropic hormone) from the
anterior pituitary (Figure 18.17).
Androgens
o Androgens secreted by the adrenal cortex usually have
minimal effects.
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Adrenal Medulla Review
• The adrenal medulla consists of hormone-producing
cells, called chromaffin cells, which surround large
blood-filled sinuses.
• Medullary secretions are epinephrine and
norepinephrine (NE), which produce effects similar to
sympathetic responses.
• They are released under stress by direct innervation from
the autonomic nervous system. Like the glucocorticoids
of the adrenal cortex, these hormones help the body
resist stress. However, unlike the cortical hormones, the
medullary hormones are not essential for life.
• Table 18.8 summarizes the hormones produced by the
adrenal glands, the principal actions, and control of
secretion.
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Review: Cell Types in the
Pancreatic Islets
• Alpha cells secrete the hormone glucagon which
increases blood glucose levels.
• Beta cells secrete the hormone insulin which
decreases blood glucose levels.
• Delta cells secrete growth hormone inhibiting
hormone or somatostatin, which acts as a paracrine
to inhibit the secretion of insulin and glucagon.
• F-cells secrete pancreatic polypeptide, which
regulates release of pancreatic digestive enzymes.

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OVARIES AND TESTES Review
• Ovaries are located in the pelvic cavity and
produce sex hormones (estrogens and
progesterone) related to development and
maintenance of female sexual characteristics,
reproductive cycle, pregnancy, lactation, and
normal reproductive functions. The ovaries also
produce inhibin and relaxin.
• Testes lie inside the scrotum and produce sex
hormones (primarily testosterone) related to the
development and maintenance of male sexual
characteristics and normal reproductive functions.
The testes also produce inhibin.

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PINEAL GLAND Review
• The pineal gland (epiphysis cerebri) is attached to the
roof of the third ventricle, inside the brain (Figure 18.1).
• Histologically, it consists of secretory parenchymal cells
called pinealocytes, neuroglia cells, and scattered
postganglionic sympathetic fibers. The pineal secrets
melatonin in a diurnal rhythm linked to the dark-light
cycle.
• Seasonal affective disorder (SAD), a type of depression
that arises during the winter months when day length is
short, is thought to be due, in part, to over-production of
melatonin. Bright light therapy, repeated doses of
several hours exposure to artificial light as bright as
sunlight, may provide relief for this disorder and for jet
lag.
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THYMUS GLAND
• The thymus gland secretes several hormones
related to immunity .
• Thymosin, thymic humoral-factor, thymic factor,
and thymopoietin promote the proliferation and
maturation of T cells, a type of white blood cell
involved in immunity.

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