Deck 26: Endocrine Control

A) amygdala
B) hypothalamus
C) adrenal cortex
D) anterior pituitary gland
E) thyroid

A) DDT
B) Phthalates
C) CFC
D) Bisphenol A
E) Vinyl

A) mineralocorticoid
B) glucocorticoid
C) thyroxine
D) testosterone
E) growth hormone

A) estrogen
B) testosterone
C) cortisol
D) corticosterone
E) insulin

A) ACTH
B) prolactin
C) oxytocin
D) growth hormone
E) FSH

A) type 1 diabetes
B) type 2 diabetes
C) Alzheimer's disease
D) cancer
E) Parkinson's disease

A) S teroid hormones are not derived from organic molecules.
B) S teroid hormones do not bind to plasma membrane receptors.
C) S teroid hormones use a second messenger system.
D) S teroid hormones do not travel in the blood.
E) S teroid hormones do not require receptors to function.

A) stimulates and sustains milk production after childbirth
B) stimulates labor and childbirth
C) causes the development of breasts and other secondary sexual characteristics in the male
D) acts in concert with FSH to produce milk
E) has secondary effects on reducing the size of the uterus after birth

A) urinary
B) lymphatic
C) nervous
D) circulatory
E) muscular

A) is secreted by the posterior pituitary
B) has target cells in the autonomic nervous system
C) has target cells in the adrenal glands
D) has target cells in the adrenal medulla
E) initiates an autoimmune response

A) controls levels of GH
B) influences levels of LH
C) influences levels of FSH
D) reduces urine output
E) causes contractions of the uterus

A) receptor; second messenger
B) second messenger; lipid
C) protein; receptor
D) second messenger; receptor
E) lipid; second messenger

A) hydrophilic plasma membranes
B) proximity to an endocrine gland
C) an appropriate receptor molecule
D) special lipids in their plasma membranes
E) access to absorbed carbohydrates

A) cortisol
B) melatonin
C) calcitonin
D) glucagon
E) insulin

A) hormones; physical stimulation
B) environmental signals; hormones
C) hormones; neuronal signals
D) environmental signals; neuronal signals
E) physical stimulation; neuronal signals

A) pineal
B) anterior pituitary
C) posterior pituitary
D) parathyroid
E) thyroid

A) testosterone
B) estrogen
C) glucagon
D) insulin
E) prolactin

A) do not secrete testosterone
B) do not have testes
C) have mutated testosterone receptors in their cells
D) secrete more estrogen than testosterone
E) have normal male genitalia

A) glucose
B) cholesterol
C) messenger RNA
D) cyclic AMP
E) glycogen

A) increases the resting metabolic rate of cells throughout the body
B) slows the heart rate and increases lipid metabolism
C) inhibits protein synthesis
D) increases glycolysis while decreasing oxidative phosphorylation
E) stimulates the release of ADH from the hypothalamus

A) the anterior pituitary produces peptide hormones, while the posterior pituitary produces steroid hormones
B) the anterior pituitary produces its own hormones but the posterior pituitary does not
C) the anterior pituitary is a part of the nervous system, while the posterior pituitary is a part of the endocrine system
D) the anterior pituitary is controlled by the hypothalamus, whereas the posterior pituitary is controlled by the adrenal cortex
E) the anterior pituitary is under voluntary control, while the posterior pituitary is under involuntary control

A) iodine deficiency
B) iron deficiency
C) an autoimmune disorder
D) insecticides
E) a combination of more than one of these

A) thyroxine
B) triiodothyronine
C) calcium
D) iodine
E) both thyroxine and triiodothyronine

A) anterior pituitary gland
B) hypothalamus
C) medulla oblongata
D) cerebellum
E) pons

A) excessive PTH secretion
B) insufficient PTH secretion
C) excessive intake of vitamin D
D) excessive intake of iodine
E) insufficient intake of vitamin D

A) affect kidney functioning
B) are secreted in response to signals from the medulla oblongata
C) control the release of hormones from other endocrine glands
D) are steroid hormones
E) effect target cells in the posterior pituitary

A) adrenal
B) pancreas
C) thyroid
D) parathyroid
E) thymus

A) TSH
B) TRH
C) ACTH
D) GnRH
E) ADH

A) anterior pituitary; calcium
B) posterior pituitary; phosphorus
C) thymus; calcium
D) thyroid; calcium
E) hypothalamus; phosphorus

A) the secretion of thyroid-releasing hormone is inhibited
B) the secretion of thyroid-stimulating hormone is increased
C) calcitonin production is increased
D) resting metabolism decreases
E) more than one of these occurs

A) drowsiness
B) body temperature
C) glucose metabolism
D) lipid metabolism
E) urination

A) hypothyroidism
B) hyperthyroidism
C) rickets
D) AIDS
E) bowed legs

A) pancreas
B) liver
C) thymus
D) thyroid
E) adrenal cortex

A) aldosterone
B) calcitonin
C) mineralocorticoids
D) parathyroid hormone
E) GH

A) two
B) three
C) four
D) five
E) six

A) thyroid
B) parathyroid
C) thymus
D) hypothalamus
E) anterior pituitary

A) insulin
B) melatonin
C) thyroxine
D) cortisol
E) growth hormone

A) iron; hypothyroidism
B) iodine; hypothyroidism
C) iodine; hyperthyroidism
D) iron; hyperthyroidism
E) iodine; hypertension

A) parathyroid glands
B) thyroid glands
C) hypothalamus
D) anterior pituitary gland
E) posterior pituitary gland

A) aldosterone
B) epinephrine
C) ADH
D) testosterone
E) glucagon

A) calcitonin
B) insulin
C) cortisol
D) antidiuretic hormone
E) growth hormone

A) is characterized by normal insulin levels
B) is characterized by cells that do not respond to insulin
C) is the more common form of diabetes
D) is usually controlled with a strict diet
E) usually occurs in early childhood

A) hypothalamus → posterior pituitary → gonads
B) hypothalamus → anterior pituitary → gonads
C) anterior pituitary → hypothalamus → gonads
D) posterior pituitary → hypothalamus → gonads
E) anterior pituitary → posterior pituitary → gonads

A) adrenal cortex
B) liver
C) thymus
D) adrenal medulla
E) pancreas

A) muscle and fat cells to take up glucose
B) increased levels of glucose in the blood
C) a decrease in muscle cell activity
D) an increase in exercise
E) liver cells to release glycogen

A) estrogen and progesterone
B) testosterone and oxytocin
C) estrogen and FSH
D) testosterone and LH
E) FSH and LH

A) hypothalamus
B) pituitary
C) thyroid
D) parathyroid
E) thymus

A) water
B) temperature
C) pH
D) glucose
E) blood pressure

A) Ovaries
B) Parathyroid
C) Hypothalamus
D) Pituitary
E) Thymus

A) insulin levels will rise
B) glucagon levels will rise
C) glucose will be taken up by cells
D) both insulin and glucagon levels will rise
E) glucose will be converted to glycogen

A) beneath the pituitary gland
B) between the pons and the medulla oblongata
C) next to the pancreas
D) on top of the kidneys
E) attached to the liver

A) secretion of saliva
B) storage of proteins
C) secretion of pancreatic juices
D) metabolism of sugar
E) utilization of fat reserves

A) blood sugar monitoring is not necessary
B) diagnosis usually occurs very early in life
C) diet is ineffective for managing the condition
D) target cells do not respond to insulin
E) little or no insulin is produced

A) cortisol
B) luteinizing hormone
C) thymosin
D) prolactin
E) parathyroid hormone

A) type 1 diabetes
B) type 2 diabetes
C) hyperglycemia
D) hypoglycemia
E) anemia

A) insulin
B) epinephrine
C) norepinephrine
D) cortisol
E) glucagon

A) less glucagon and more insulin
B) less insulin and more glucagon
C) more glucagon and more insulin
D) less glucagon and less insulin
E) neither glucagon nor insulin

A) liver cells
B) skeletal muscle cells
C) fat cells
D) intestinal cells
E) stomach cells

A) heart rhythms in songbirds
B) the stimulation of cancer cell growth in humans
C) the menstrual cycle in human females
D) sleep cycles in humans
E) milk production in mammals after giving birth

A) different receptors in males versus  females
B) different hormones depending on sex
C) the same hormones but different pathways depending on sex
D) different pathways and hormones depending on the sex
E) the same pathway and hormones regardless of sex

A) melatonin; TSH; FSH; TRH
B) testosterone; GnRH; FSH; LH
C) cortisol; TRH; FSH; LH
D) insulin; FSH; LH; GH
E) calcitonin; GnRH; FSH; LH

A) liver; an increase in glucagon
B) liver; the absence of insulin
C) liver, muscles, and fat; an increase in glucagon
D) liver, muscles, and fat; the absence of insulin
E) hypothalamus; the breakdown of sugar

A) insulin; liver
B) TSH; thyroid
C) insulin; muscles
D) glucagon; liver
E) glucagon; cells

A) aldosterone
B) ADH
C) testosterone
D) insulin
E) glucagon

A) low blood pressure
B) impaired immunity
C) osteoporosis
D) liver failure
E) weight loss

A) females; estrogen
B) males; testosterone
C) males; progesterone
D) females; testosterone
E) males; corticosterone

A) relative proportion of sex steroid hormones in males versus  females
B) production of different sex steroid hormones by males and females
C) differences in sex steroid hormone receptors in males versus  females
D) exposure to environmental toxins during fetal development
E) absence of sex steroid hormones in females

A) ER nurses
B) college students
C) high stress occupations
D) night-shift nurses
E) infants in high altitudes

A) females; thyroid hormone
B) males; calcitonin
C) females; progesterone
D) males; testosterone
E) females; estrogen