Deck 15: The Endocrine System

A) Hypophysis
B) Thyroid
C) Adrenal medulla
D) Parathyroid
E) Pancreas
The size and shape of a pea; produces hormones that stimulate other endocrine glands.

A) Graves' disease
B) Acromegaly
C) Addison's disease
D) Diabetes mellitus
E) Pituitary dwarfism
Hyposecretion of the pancreas.

A) Myxedema
B) Acromegaly
C) Cretinism
D) Cushing's disease
Hypersecretion of the adrenal cortex.

A) Myxedema
B) Acromegaly
C) Cretinism
D) Cushing's disease
Hyposecretion of the thyroid in adults.

A) Myxedema
B) Acromegaly
C) Cretinism
D) Cushing's disease
Hypersecretion of growth hormone.

A) Graves' disease
B) Acromegaly
C) Addison's disease
D) Diabetes mellitus
E) Pituitary dwarfism
Hyposecretion of the adrenal cortex.

A) Graves' disease
B) Acromegaly
C) Addison's disease
D) Diabetes mellitus
E) Pituitary dwarfism
Hypersecretion of growth hormone.

A) Myxedema
B) Acromegaly
C) Cretinism
D) Cushing's disease
Hyposecretion of the thyroid in infants.

A) Graves' disease
B) Acromegaly
C) Addison's disease
D) Diabetes mellitus
E) Pituitary dwarfism
An autoimmune problem involving the thyroid gland.

A) Hypophysis
B) Thyroid
C) Adrenal medulla
D) Parathyroid
E) Pancreas
Produces hormones that regulate glucose levels in the body.

A) Hormonal stimulus
B) Humoral stimulus
C) Neural stimulus
Parathyroid hormone production

A) Hypophysis
B) Thyroid
C) Adrenal medulla
D) Parathyroid
E) Pancreas
The gland that controls the fight-or-flight reaction.

A) Hormonal stimulus
B) Humoral stimulus
C) Neural stimulus
Aldosterone production

A) Hormonal stimulus
B) Humoral stimulus
C) Neural stimulus
Testosterone production

A) Hormonal stimulus
B) Humoral stimulus
C) Neural stimulus
Epinephrine production

A) Hypophysis
B) Thyroid
C) Adrenal medulla
D) Parathyroid
E) Pancreas
Produces the body's major metabolic hormones.

A) Hypophysis
B) Thyroid
C) Adrenal medulla
D) Parathyroid
E) Pancreas
Produces a hormone that controls blood levels of calcium and potassium by their removal from bone tissue.

A) aldosterone
B) insulin
C) secretin
D) cortisol

A) release is an example of a positive feedback control mechanism
B) is an adenohypophyseal secretion
C) exerts its most important effects during menstruation
D) controls milk production

A) connects the hypophysis to the pituitary gland
B) is partly contained within the infundibulum
C) conducts aldosterone to the hypophysis
D) is the site of prolactin synthesis

A) polyuria
B) polydipsia
C) polyphagia
D) polycythemia

A) adrenal medulla
B) pancreas
C) thyroid gland
D) thymus gland

A) enzymes
B) antibodies
C) proteins
D) hormones

A) it is strictly a part of the neural system and has little or nothing to do with hormonal release
B) embryonically it was an endocrine tissue, but in the adult human it is no longer functional
C) it is unable to function as an endocrine tissue because it is actually part of the neural system due to its location
D) it is only a hormone storage area that receives hormones from the hypothalamus for release

A) gastrin
B) secretin
C) leptin
D) renin

A) calcium
B) deactivating ions
C) nucleotides
D) second messengers

A) a change in membrane potential
B) the stimulation of a genetic event resulting in protein synthesis
C) an increase in enzymatic activity
D) direct control of the nervous system

A) enzyme
B) humoral
C) neural
D) hormonal

A) peptide hormones are converted by cell membranes enzymes into second messengers
B) hormones alter cellular operations through direct stimulation of a gene
C) G protein acts as the link between first and second messengers
D) the hormone receptor complex moves into the cytoplasm as a unit

A) there are thousands of receptors on the cell membrane
B) the receptors bind to several hormones at the same time
C) the protein kinases are rapidly metabolized into functional amino acids
D) during protein kinase activation, enzymes phosphorylate many other enzymes

A) permissiveness
B) synergism
C) antagonism
D) feedback

A) hepatic portal system
B) general circulatory system
C) hypophyseal portal system
D) feedback loop

A) increases urine production
B) promotes dehydration
C) is produced in the adenohypophysis
D) is inhibited by alcohol

A) blood levels of hormone
B) type of hormone
C) number of receptors for that hormone
D) strength of the bond between the receptor and hormone

A) synthesizing more than one hormone at a time
B) increasing the basal metabolic rate in the target organ
C) altering gene expression in the nuclear DNA
D) binding to specific receptors and employing the services of G proteins and cAMP

A) activates or deactivates enzymes
B) stimulates production of an action potential
C) alters plasma membrane permeability
D) induces secretory activity

A) entering the nucleus of a cell and initiating or altering the expression of a gene
B) binding cell receptors and initiating cAMP activity
C) entering the cell and activating mitochondrial DNA
D) activating the hypothalamic release of regulating hormones

A) the location of the tissue or organ with respect to the circulatory path
B) the membrane potential of the cells of the target organ
C) the presence of the appropriate receptors on the cells of the target tissue or organ
D) nothing-all hormones of the human body are able to stimulate any and all cell types because hormones are powerful and nonspecific