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Deck 12: The Endocrine System

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Question
Vlad, 28 years old, is a slender, jumpy man with eyes that seem to bulge out of their sockets. His heart rate is unusually fast. Which of the following conditions does Vlad most likely have?

A) Addison's disease
B) acromegaly
C) Cushing's syndrome
D) Graves' disease
Use Space or
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to flip the card.
Question
Amy just gave birth by cesarean section to a beautiful baby girl. All through her pregnancy, her mammary glands enlarged to prepare for milk production. However, in the day or two following the birth of her baby, Amy cannot eject a drop of the milk that is so obviously present in her breasts. What hormone is probably missing?

A) oxytocin
B) estrogen
C) prolactin
D) progesterone
Question
PTH is necessary to produce calcitriol (activated vitamin

A) submissive
B) permissive
C) synergistic
D) antagonistic
D), which is necessary for the movement of calcium through cells. In this case, how would you characterize PTH?
Question
Eric was working very hard in the dry, hot boiler room and sweating a lot. Under these conditions, which of the following might Eric be experiencing?

A) He has decreased hydrocortisone.
B) He has increased oxytocin.
C) He has increased antidiuretic hormone.
D) He has decreased thyroxine.
Question
Hanna, 18 years old, is over 6 feet tall. She has an x-ray film taken that shows that her long bones are continuing to lengthen. Eventually, a thorough examination shows that she has a tumor growing in her ________.

A) posterior pituitary
B) pineal gland
C) adrenal medulla
D) anterior pituitary
Question
Parathyroid hormone causes the blood calcium level to rise, but calcitonin causes those levels to fall. The relationship between the two hormones is described as ________.

A) expressive
B) antagonistic
C) synergistic
D) permissive
Question
When a woman breast-feeds, oxytocin causes the milk to move from the mammary glands toward the nipples. What other organ might also react when a woman breast-feeds right after giving birth?

A) uterus
B) rectum
C) thymus
D) perilymph
Question
In the past, oxygen uptake in a patient was measured as a means of determining whether a certain endocrine gland was working properly. Which of the following glands was this method most likely assessing?

A) pineal
B) thyroid
C) testes
D) parathyroid
Question
Sue has begun to lactate, but she has not recently given birth. Which of the following might be causing this abnormality?

A) excess estrogen
B) progesterone production
C) hyperthyroidism
D) pituitary tumor
Question
Cancer cells often fail to respond to certain hormones because they lack these cell membrane features important in binding with those specific hormones.

A) DNAs
B) dockers
C) targets
D) receptors
Question
Which of the following hormones stimulates the release of a future egg cell by the ovaries?

A) luteinizing
B) follicle-stimulating
C) oxytocin
D) prolactin
Question
This type of hormone characteristically requires a second messenger.

A) lipid-soluble
B) steroid
C) water-soluble
D) prostaglandin
Question
Maria has been in labor for 12 hours, and her obstetrician thinks that it is time to artificially induce birth. What hormone will the physician inject?

A) estrogen
B) vasopressin
C) prolactin
D) oxytocin
Question
The connection between the hypothalamus and the anterior pituitary is ________.

A) circulatory
B) neural
C) via special ducts
D) There is no connection.
Question
Lian, at 12 years old, was barely 3 feet tall. What hormone might she take to grow taller?

A) growth hormone
B) estrogen
C) aldosterone
D) calcitonin
Question
An injection of ACTH would cause an increase in the release of which of the following hormones?

A) thyroxin
B) glucocorticoids
C) growth hormone
D) antidiuretic hormone
Question
Nadia, who is 25 years old, wants to be taller because she is just 5 feet tall. Of the choices given, which would be the wisest option for Nadia?

A) Do nothing.
B) Take injections of growth hormone.
C) Use GHRH so she will have her own natural growth.
D) Take thyroxine daily.
Question
Govingee, 35 years old, has recently become lethargic, and his face feels very cool but puffy to the touch. When you take his pulse, you note that it seems abnormally low. What condition might Govingee have?

A) low thyroid hormone
B) excess calcitonin
C) accumulating aldosterone
D) low growth hormone
Question
Which is the hormone that stimulates growth by increasing cell size or rate of cell division?

A) calcitonin
B) growth hormone
C) oxytocin
D) tropic hormone
Question
Eating a lot of shrimp would tend to decrease the incidence of which of the following conditions?

A) simple goiter
B) Graves' disease
C) SAD
D) myxedema
Question
Leukocytosis-promoting factor, among other things, acts to encourage the movement of white blood cells to the site of an injury. Which hormone opposes this action?

A) epinephrine
B) insulin
C) TH
D) cortisol
Question
Which gland is active in the building up of the body's defense system and is larger in infants and children?

A) thyroid
B) pancreas
C) posterior pituitary
D) thymus
Question
When blood calcium levels fall, the ________ secrete a hormone that causes greater calcium release from the bones.
Question
Someone who has diabetes insipidus has not enough ________.
Question
Which of the following substances functions in the body's inflammatory response to prevent blood clots, regulate body temperature, and open airways to the lungs?

A) carotenoids
B) prostaglandins
C) leukotrienes
D) melatonin
Question
When the result of two hormones working together is greater than that of either working alone, we say that they work ________.
Question
Sandhu has type 1 diabetes, so he must frequently inject himself with insulin. He has to be careful not to inject himself too often or with too much of the hormone because this vital chemical will virtually disappear from his bloodstream.

A) glycogen
B) Oxycontin
C) glucose
D) oxygen
Question
Inflammatory processes can be painful and even dangerous if they continue inappropriately. Which of the following would control those processes?

A) thyroid hormone
B) growth hormone
C) vasopressin
D) cortisol
Question
A person who had too much growth hormone through childhood may develop ________.
Question
When Tanous exercises, his muscles need a greater flow of blood. Which of the following substances are the muscles likely to secrete locally?

A) nitric oxide
B) histamine
C) prostaglandins
D) growth hormone
Question
Which of the following hormones may take part in one or more of these functions: daily rhythms, long periods of sleep, and depression?

A) melatonin
B) thymosin
C) oxytocin
D) growth
Question
Follicle-stimulating hormone is secreted from the ________ gland.
Question
________ is a condition caused by Graves' disease (too much thyroid), in which the eyes protrude.
Question
Norman ate his birthday cake with lots of sugary frosting, so his pancreas secreted ________.

A) insulin
B) glycogen
C) glucagon
D) thyroxin
Question
Anton has diabetes mellitus and has to take insulin. One day he forgot to inject himself as his doctor directed. Predict the most likely consequence according to this chapter.

A) rise in blood glucose levels
B) greater protein synthesis
C) more fat storage
D) increase in glycogen storage
Question
Sometimes postmenopausal women are given a prescription for which of the following to help them maintain their bone calcium?

A) parathyroid hormone
B) thyroid hormone
C) calcitonin
D) insulin
Question
In males, the primary source of estrogens is the ________.

A) hypothalamus
B) heart
C) adrenal cortex
D) ovaries
Question
The ________ is a shield-shaped endocrine structure in the front of the neck.
Question
Gian-Carlo is going to have part of his adrenal cortex removed because of a tumor. After the surgery, he may need ________.

A) melatonin and insulin
B) oxytocin
C) cortisol
D) calcitonin
Question
When the concentration of sodium in the blood becomes too high, hormonal mechanisms come into play to counteract this dangerous condition and return sodium to normal levels. This type of response is called ________.
Question
George is 16 years old and really wants to make the high school basketball team. Although he is skilled, he is only 5 feet, 10 inches tall. What advice would you give him about taking human growth hormone?
Question
If Mary were lost in the Sahara desert in the summer, why should she not drink alcohol?
Question
Susan ran a beef slaughterhouse. At the end of a very long day in which many cattle were processed, she found that there were several pounds of thyroid gland, unsalable as such. Therefore, she ordered the glands be ground into hamburger meat. If someone were to buy, cook, and eat all of that thyroid-burger, what serious outcome would you predict for that customer?
Question
Hormones responsible for the fight-or-flight response are produced in the ________.
Question
Prostaglandins may act as local signaling molecules in the uterus, causing ________.
Question
Mamadou has started to experience severe pain due to kidney stones, which he has developed for the first time in his life. A bone scan shows that his bones are losing calcium at an alarming rate and becoming weakened. Based on the information in this chapter, predict what his physician is most likely to look for.
Question
The ________ gland lies in the center of the brain and contains secretory cells that produce melatonin.
Question
An injection of the pancreatic hormone ________ would cause blood glucose levels to fall.
Question
________, secreted from the pancreatic islets, causes the liver to increase the breakdown of glycogen.
Question
Which hormones produced by the adrenal gland might help to offset some of the symptoms of menopause?
Question
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Question
Civil defense officials usually stock large supplies of nonradioactive iodine, which would be distributed in the event of a release of radioactive iodine. Please explain why.
Question
Why should consumers be skeptical about ingesting melatonin supplements or any other dietary supplement sold in vitamin or health stores?
Question
The ________ are endocrine cells that occur in small clusters in the pancreas.
Question
T cells, a part of our body's defense mechanism, are found in the ________ gland.
Question
________ is a very common second messenger in the action of water-soluble hormones on the target cells
Question
Match between columns
Premises:
Responses:
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Cushing's syndrome
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Addison's disease
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Diabetes mellitus
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Myxedema
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Adrenal medulla
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Graves' disease
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Diabetes insipidus
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Cretinism
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Acromegaly
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Cushing's syndrome
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Addison's disease
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Diabetes mellitus
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Myxedema
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Adrenal medulla
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Graves' disease
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Diabetes insipidus
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Cretinism
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Acromegaly
A condition that results from a deficiency in antidiuretic hormone.
Cushing's syndrome
A condition that results from a deficiency in antidiuretic hormone.
Addison's disease
A condition that results from a deficiency in antidiuretic hormone.
Diabetes mellitus
A condition that results from a deficiency in antidiuretic hormone.
Myxedema
A condition that results from a deficiency in antidiuretic hormone.
Adrenal medulla
A condition that results from a deficiency in antidiuretic hormone.
Graves' disease
A condition that results from a deficiency in antidiuretic hormone.
Diabetes insipidus
A condition that results from a deficiency in antidiuretic hormone.
Cretinism
A condition that results from a deficiency in antidiuretic hormone.
Acromegaly
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Cushing's syndrome
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Addison's disease
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Diabetes mellitus
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Myxedema
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Adrenal medulla
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Graves' disease
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Diabetes insipidus
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Cretinism
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Acromegaly
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Cushing's syndrome
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Addison's disease
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Diabetes mellitus
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Myxedema
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Adrenal medulla
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Graves' disease
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Diabetes insipidus
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Cretinism
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Acromegaly
A group of disorders characterized by problems in insulin production or function.
Cushing's syndrome
A group of disorders characterized by problems in insulin production or function.
Addison's disease
A group of disorders characterized by problems in insulin production or function.
Diabetes mellitus
A group of disorders characterized by problems in insulin production or function.
Myxedema
A group of disorders characterized by problems in insulin production or function.
Adrenal medulla
A group of disorders characterized by problems in insulin production or function.
Graves' disease
A group of disorders characterized by problems in insulin production or function.
Diabetes insipidus
A group of disorders characterized by problems in insulin production or function.
Cretinism
A group of disorders characterized by problems in insulin production or function.
Acromegaly
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Cushing's syndrome
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Addison's disease
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Diabetes mellitus
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Myxedema
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Adrenal medulla
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Graves' disease
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Diabetes insipidus
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Cretinism
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Acromegaly
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Cushing's syndrome
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Addison's disease
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Diabetes mellitus
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Myxedema
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Adrenal medulla
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Graves' disease
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Diabetes insipidus
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Cretinism
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Acromegaly
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Cushing's syndrome
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Addison's disease
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Diabetes mellitus
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Myxedema
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Adrenal medulla
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Graves' disease
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Diabetes insipidus
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Cretinism
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Acromegaly
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Deck 12: The Endocrine System
1
Vlad, 28 years old, is a slender, jumpy man with eyes that seem to bulge out of their sockets. His heart rate is unusually fast. Which of the following conditions does Vlad most likely have?

A) Addison's disease
B) acromegaly
C) Cushing's syndrome
D) Graves' disease
D
2
Amy just gave birth by cesarean section to a beautiful baby girl. All through her pregnancy, her mammary glands enlarged to prepare for milk production. However, in the day or two following the birth of her baby, Amy cannot eject a drop of the milk that is so obviously present in her breasts. What hormone is probably missing?

A) oxytocin
B) estrogen
C) prolactin
D) progesterone
A
3
PTH is necessary to produce calcitriol (activated vitamin

A) submissive
B) permissive
C) synergistic
D) antagonistic
D), which is necessary for the movement of calcium through cells. In this case, how would you characterize PTH?
B
4
Eric was working very hard in the dry, hot boiler room and sweating a lot. Under these conditions, which of the following might Eric be experiencing?

A) He has decreased hydrocortisone.
B) He has increased oxytocin.
C) He has increased antidiuretic hormone.
D) He has decreased thyroxine.
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k this deck
5
Hanna, 18 years old, is over 6 feet tall. She has an x-ray film taken that shows that her long bones are continuing to lengthen. Eventually, a thorough examination shows that she has a tumor growing in her ________.

A) posterior pituitary
B) pineal gland
C) adrenal medulla
D) anterior pituitary
Unlock Deck
Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
6
Parathyroid hormone causes the blood calcium level to rise, but calcitonin causes those levels to fall. The relationship between the two hormones is described as ________.

A) expressive
B) antagonistic
C) synergistic
D) permissive
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Unlock Deck
k this deck
7
When a woman breast-feeds, oxytocin causes the milk to move from the mammary glands toward the nipples. What other organ might also react when a woman breast-feeds right after giving birth?

A) uterus
B) rectum
C) thymus
D) perilymph
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Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
8
In the past, oxygen uptake in a patient was measured as a means of determining whether a certain endocrine gland was working properly. Which of the following glands was this method most likely assessing?

A) pineal
B) thyroid
C) testes
D) parathyroid
Unlock Deck
Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
9
Sue has begun to lactate, but she has not recently given birth. Which of the following might be causing this abnormality?

A) excess estrogen
B) progesterone production
C) hyperthyroidism
D) pituitary tumor
Unlock Deck
Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
10
Cancer cells often fail to respond to certain hormones because they lack these cell membrane features important in binding with those specific hormones.

A) DNAs
B) dockers
C) targets
D) receptors
Unlock Deck
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Unlock Deck
k this deck
11
Which of the following hormones stimulates the release of a future egg cell by the ovaries?

A) luteinizing
B) follicle-stimulating
C) oxytocin
D) prolactin
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k this deck
12
This type of hormone characteristically requires a second messenger.

A) lipid-soluble
B) steroid
C) water-soluble
D) prostaglandin
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k this deck
13
Maria has been in labor for 12 hours, and her obstetrician thinks that it is time to artificially induce birth. What hormone will the physician inject?

A) estrogen
B) vasopressin
C) prolactin
D) oxytocin
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Unlock for access to all 57 flashcards in this deck.
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k this deck
14
The connection between the hypothalamus and the anterior pituitary is ________.

A) circulatory
B) neural
C) via special ducts
D) There is no connection.
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Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
15
Lian, at 12 years old, was barely 3 feet tall. What hormone might she take to grow taller?

A) growth hormone
B) estrogen
C) aldosterone
D) calcitonin
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Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
16
An injection of ACTH would cause an increase in the release of which of the following hormones?

A) thyroxin
B) glucocorticoids
C) growth hormone
D) antidiuretic hormone
Unlock Deck
Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
17
Nadia, who is 25 years old, wants to be taller because she is just 5 feet tall. Of the choices given, which would be the wisest option for Nadia?

A) Do nothing.
B) Take injections of growth hormone.
C) Use GHRH so she will have her own natural growth.
D) Take thyroxine daily.
Unlock Deck
Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
18
Govingee, 35 years old, has recently become lethargic, and his face feels very cool but puffy to the touch. When you take his pulse, you note that it seems abnormally low. What condition might Govingee have?

A) low thyroid hormone
B) excess calcitonin
C) accumulating aldosterone
D) low growth hormone
Unlock Deck
Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
19
Which is the hormone that stimulates growth by increasing cell size or rate of cell division?

A) calcitonin
B) growth hormone
C) oxytocin
D) tropic hormone
Unlock Deck
Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
20
Eating a lot of shrimp would tend to decrease the incidence of which of the following conditions?

A) simple goiter
B) Graves' disease
C) SAD
D) myxedema
Unlock Deck
Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
21
Leukocytosis-promoting factor, among other things, acts to encourage the movement of white blood cells to the site of an injury. Which hormone opposes this action?

A) epinephrine
B) insulin
C) TH
D) cortisol
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Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
22
Which gland is active in the building up of the body's defense system and is larger in infants and children?

A) thyroid
B) pancreas
C) posterior pituitary
D) thymus
Unlock Deck
Unlock for access to all 57 flashcards in this deck.
Unlock Deck
k this deck
23
When blood calcium levels fall, the ________ secrete a hormone that causes greater calcium release from the bones.
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k this deck
24
Someone who has diabetes insipidus has not enough ________.
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25
Which of the following substances functions in the body's inflammatory response to prevent blood clots, regulate body temperature, and open airways to the lungs?

A) carotenoids
B) prostaglandins
C) leukotrienes
D) melatonin
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Unlock Deck
k this deck
26
When the result of two hormones working together is greater than that of either working alone, we say that they work ________.
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k this deck
27
Sandhu has type 1 diabetes, so he must frequently inject himself with insulin. He has to be careful not to inject himself too often or with too much of the hormone because this vital chemical will virtually disappear from his bloodstream.

A) glycogen
B) Oxycontin
C) glucose
D) oxygen
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28
Inflammatory processes can be painful and even dangerous if they continue inappropriately. Which of the following would control those processes?

A) thyroid hormone
B) growth hormone
C) vasopressin
D) cortisol
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29
A person who had too much growth hormone through childhood may develop ________.
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30
When Tanous exercises, his muscles need a greater flow of blood. Which of the following substances are the muscles likely to secrete locally?

A) nitric oxide
B) histamine
C) prostaglandins
D) growth hormone
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31
Which of the following hormones may take part in one or more of these functions: daily rhythms, long periods of sleep, and depression?

A) melatonin
B) thymosin
C) oxytocin
D) growth
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32
Follicle-stimulating hormone is secreted from the ________ gland.
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33
________ is a condition caused by Graves' disease (too much thyroid), in which the eyes protrude.
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34
Norman ate his birthday cake with lots of sugary frosting, so his pancreas secreted ________.

A) insulin
B) glycogen
C) glucagon
D) thyroxin
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35
Anton has diabetes mellitus and has to take insulin. One day he forgot to inject himself as his doctor directed. Predict the most likely consequence according to this chapter.

A) rise in blood glucose levels
B) greater protein synthesis
C) more fat storage
D) increase in glycogen storage
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36
Sometimes postmenopausal women are given a prescription for which of the following to help them maintain their bone calcium?

A) parathyroid hormone
B) thyroid hormone
C) calcitonin
D) insulin
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37
In males, the primary source of estrogens is the ________.

A) hypothalamus
B) heart
C) adrenal cortex
D) ovaries
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38
The ________ is a shield-shaped endocrine structure in the front of the neck.
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39
Gian-Carlo is going to have part of his adrenal cortex removed because of a tumor. After the surgery, he may need ________.

A) melatonin and insulin
B) oxytocin
C) cortisol
D) calcitonin
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40
When the concentration of sodium in the blood becomes too high, hormonal mechanisms come into play to counteract this dangerous condition and return sodium to normal levels. This type of response is called ________.
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41
George is 16 years old and really wants to make the high school basketball team. Although he is skilled, he is only 5 feet, 10 inches tall. What advice would you give him about taking human growth hormone?
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42
If Mary were lost in the Sahara desert in the summer, why should she not drink alcohol?
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43
Susan ran a beef slaughterhouse. At the end of a very long day in which many cattle were processed, she found that there were several pounds of thyroid gland, unsalable as such. Therefore, she ordered the glands be ground into hamburger meat. If someone were to buy, cook, and eat all of that thyroid-burger, what serious outcome would you predict for that customer?
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44
Hormones responsible for the fight-or-flight response are produced in the ________.
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45
Prostaglandins may act as local signaling molecules in the uterus, causing ________.
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46
Mamadou has started to experience severe pain due to kidney stones, which he has developed for the first time in his life. A bone scan shows that his bones are losing calcium at an alarming rate and becoming weakened. Based on the information in this chapter, predict what his physician is most likely to look for.
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47
The ________ gland lies in the center of the brain and contains secretory cells that produce melatonin.
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48
An injection of the pancreatic hormone ________ would cause blood glucose levels to fall.
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49
________, secreted from the pancreatic islets, causes the liver to increase the breakdown of glycogen.
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50
Which hormones produced by the adrenal gland might help to offset some of the symptoms of menopause?
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51
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
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52
Civil defense officials usually stock large supplies of nonradioactive iodine, which would be distributed in the event of a release of radioactive iodine. Please explain why.
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53
Why should consumers be skeptical about ingesting melatonin supplements or any other dietary supplement sold in vitamin or health stores?
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54
The ________ are endocrine cells that occur in small clusters in the pancreas.
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55
T cells, a part of our body's defense mechanism, are found in the ________ gland.
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56
________ is a very common second messenger in the action of water-soluble hormones on the target cells
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57
Match between columns
Premises:
Responses:
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Cushing's syndrome
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Addison's disease
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Diabetes mellitus
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Myxedema
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Adrenal medulla
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Graves' disease
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Diabetes insipidus
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Cretinism
A condition that occurs in adults in which there is an excess of growth hormone so that the bones thicken but do not lengthen.
Acromegaly
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Cushing's syndrome
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Addison's disease
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Diabetes mellitus
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Myxedema
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Adrenal medulla
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Graves' disease
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Diabetes insipidus
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Cretinism
Produces epinephrine, which is extremely important in the fight-or-flight reactions.
Acromegaly
A condition that results from a deficiency in antidiuretic hormone.
Cushing's syndrome
A condition that results from a deficiency in antidiuretic hormone.
Addison's disease
A condition that results from a deficiency in antidiuretic hormone.
Diabetes mellitus
A condition that results from a deficiency in antidiuretic hormone.
Myxedema
A condition that results from a deficiency in antidiuretic hormone.
Adrenal medulla
A condition that results from a deficiency in antidiuretic hormone.
Graves' disease
A condition that results from a deficiency in antidiuretic hormone.
Diabetes insipidus
A condition that results from a deficiency in antidiuretic hormone.
Cretinism
A condition that results from a deficiency in antidiuretic hormone.
Acromegaly
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Cushing's syndrome
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Addison's disease
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Diabetes mellitus
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Myxedema
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Adrenal medulla
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Graves' disease
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Diabetes insipidus
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Cretinism
Enrique, 28 years old, has a low heart rate, cool skin, and a puffy face and behaves sluggishly. He probably has this thyroid disorder.
Acromegaly
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Cushing's syndrome
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Addison's disease
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Diabetes mellitus
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Myxedema
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Adrenal medulla
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Graves' disease
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Diabetes insipidus
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Cretinism
The undersecretion of thyroid hormone during infancy, causing dwarfism, mental retardation, and slow sexual development.
Acromegaly
A group of disorders characterized by problems in insulin production or function.
Cushing's syndrome
A group of disorders characterized by problems in insulin production or function.
Addison's disease
A group of disorders characterized by problems in insulin production or function.
Diabetes mellitus
A group of disorders characterized by problems in insulin production or function.
Myxedema
A group of disorders characterized by problems in insulin production or function.
Adrenal medulla
A group of disorders characterized by problems in insulin production or function.
Graves' disease
A group of disorders characterized by problems in insulin production or function.
Diabetes insipidus
A group of disorders characterized by problems in insulin production or function.
Cretinism
A group of disorders characterized by problems in insulin production or function.
Acromegaly
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Cushing's syndrome
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Addison's disease
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Diabetes mellitus
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Myxedema
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Adrenal medulla
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Graves' disease
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Diabetes insipidus
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Cretinism
An autoimmune disorder caused by the overproduction of thyroid hormone; it is characterized by increased metabolic rate and heart rate.
Acromegaly
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Cushing's syndrome
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Addison's disease
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Diabetes mellitus
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Myxedema
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Adrenal medulla
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Graves' disease
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Diabetes insipidus
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Cretinism
An autoimmune disease in which the body's immune system perceives cells of the adrenal cortex as foreign and destroys the cells.
Acromegaly
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Cushing's syndrome
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Addison's disease
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Diabetes mellitus
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Myxedema
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Adrenal medulla
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Graves' disease
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Diabetes insipidus
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Cretinism
A syndrome that results from prolonged exposure to high levels of cortisol and can be characterized by fatigue, high blood pressure, and elevated glucose levels.
Acromegaly
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