Respiratory System
b. increase
A decrease in pH will have what effect on the respiration rate? a. decrease b. increase c. no effect d. no effect unless lung damage is present
early childhood, around 8 yrs of age
A full complement of mature alveoli are present by _________
c. larynx
Air passing from the pharynx to the trachea must pass through the: a. nasal cavity b. bronchi c. larynx d. diaphragm
b. respiratory bronchioles
All of the following are part of the conduction zone except: a. main bronchi b. respiratory bronchioles c. segmental bronchioles d. terminal bronchioles
b. trachea
All of the following are part of the upper respiratory tract except the __________. a. oropharynx b. trachea c. larynx d. nasal cavity e. nasopharynx
d. The ribs and sternum move upward
Contraction of the external intercostal muscles causes which of the following to occur? a. the diaphragm moves downward b. the rib cage is compressed c. the thoracic cavity volume decreases d. the ribs and sternum move upward
resistance
Gas flow decreases as ____________ increases
high; low
Gas moves from an area of _____ partial pressure to an area of _____ partial pressure
b. difficulty inflating the lungs
If a baby is born prematurely before type II cells produce sufficient pulmonary surfactant, which of the following might you expect?
d. respiratory bronchioles
Inspired air directly enters the alveoli through the _________. a. trachea b. tertiary bronchi c. primary bronchi d. respiratory bronchioles e. terminal bronchioles
a. surface tension
Surfactant decreases the ______________ in the alveoli. a. surface tension b. pressure c. compliance d. volume
b. 21%
The concentration of oxygen in atmospheric air is about _____. a. 5% b. 21% c. 42% d. 79% e. 95%
d. oral cavity
The fauces connects which of the following structures to the oropharynx? a. nasopharynx b. laryngopharynx c. nasal cavity d. oral cavity
c. Mechanoreceptors
The inflation reflex depends upon stimulation of which type of receptor? a. Nociceptors b. Chemoreceptors c. Mechanoreceptors d. Thermoreceptors
d. partial pressure of carbon dioxide in the blood
The rate of oxygen diffusion across the respiratory membrane depends upon all of the following except: a. the thickness of the respiratory membrane b. partial pressure of oxygen in the alveoli c. partial pressure of oxygen in the blood d. partial pressure of carbon dioxide in the blood
d. epiglottis
This structure prevents food from entering the airway a. vestibular fold b. uvula c. laryngopharnx d. epiglottis
d. residual volume
This volume of air remains int he lungs after maximal expiration. a. vital capacity b. expiratory reserve volume c. tidal volume d. residual volume
a) During contraction the diaphragm flattens out.
Using the figure shown, which of the following statements is FALSE? a) During contraction the diaphragm flattens out. b) For inhalation (inspiration) to occur, the volume of the lungs must first increase. c) For normal exhalation (expiration), the diaphragm and external intercostals relax. d) When the volume of the lungs decreases, the alveolar pressure increases. e) Lung volume increases because air rushes in from the atmosphere
b. ventilation stops.
What happens if a person's phrenic nerves are severed (or the spinal cord at C2)? a. blood pressure drops. b. ventilation stops. c. the lungs over-inflate. d. heart rate decreases. e. peristalsis is inhibited.
It is absorbed shortly after birth
What happens to the fluid that remains in the lungs after birth?
b. Surfactant
___________ allows alveoli to overcome fluid surface tension and expand during inspiration. a. Compliance b. Surfactant c. Basement membrane d. Carina e. Mucous
Haldane effect
a low partial pressure of oxygen promotes hemoglobin binding to carbon dioxide. This is an example of the ______.
Pulmonary Edema
abnormal fluid build-up in interstitial spaces and alveoli, can occur during heart attack
Alveoli
at end of terminal bronchioles, site of gas exchange
Tuberculosis
bacteria infects lungs, multiply and cause inflammation
Asthma Attack
bronchiole smooth muscle goes into spasms and collapse because no supporting cartilage, adrenaline helps open up
Left Lung
cardiac notch, 10% smaller, 2 lobes
Nose
external openings are called nares
Nasal Conchae
filters, warms, and moistens air, has olfactory receptors
Vocal Chords
found in larynx, ligaments stretched between cartilage, air moves between and muscles pull ligaments tight
Lungs
found in pleural cavity, from clavicle to diphragm
Bronchioles
further division of bronchi, less cartilage and more smooth muscle
External Respiration
gas exchange between alveoli and blood
Internal Respiration
gas exchange between blood and cells
internal respiration
gas exchange that occurs at the level of the tissue is called
Tracheostomy
incision below cricoids cartilage on trachea with tube to create emergency passageway
Laryngitis
inflammation of larynx from infection and irritants, causes swelling of vocal chords so they cannot vibrate
Adam's Apple/Laryngeal Prominence
larger in males because of hormones, it is cartilage that surrounds the larynx for protection
Lung Cancer
leading cause if cancer death, usually well advanced when diagnosed and death usually occurs withing a year, survival rate is 10-15%, 85% of lung cancer due to smoking
Nasal Cavity
lined with pseudostratified ciliated columnar epthelial cells and goblet cells
Pneumonia
most common infectious cause of death in U.S., acute inflammation of alveoli which causes fluid accumulation
Diaphragm
muscke that forms the thoracic floor, when it contracts it flattens and help lungs expand for inhalation
Cricoid Cartilage
next to trachea, used for emergency airway
Rhinoplasty
nose job, for cosmetic reasons or deviated septum
Surfactants
reduces tendency for alveoli to collapse
Respiration
the mechanism for obtaining oxygen from the air and delivering the tissue
Bronchi
trachea branches to right and left lungs, they branch 3 times
Spirometer
used to measure respiratory rate and amount of air inhaled
Trachea
windpipe anterior to esophagus, cartilage tube with rings of hyaline cartilage so it does not collapse
bronchiopulmonary segment
A section of the lung that receives its own tertiary bronchus is called the _____________.
b. the diaphragm is relaxed
All of the following statements are true of inspiration except: a. the rib cage is elevated b. the diaphragm is relaxed c. volume in the thoracic cavity has increased d. intrapulmonary pressure has decreased
b. decrease the pressure
An increase in the volume of a container filled with air would have what effect on the pressure of the container? a. Increase the pressure b. decrease the pressure c. no effect d. temporary effect
c. Pontine respiratory group
Apneustic breathing occurs as a result of damage to which respiratory center? a. Dorsal respiratory group b. Ventral respiratory group c. Pontine respiratory group d. Eupnea respiratory group
b. ventilation
Exchange of oxygen and carbon dioxide at the peripheral tissues is correctly called ________. a. internal respiration b. ventilation c. cellular respiration d. external respiration e. bulk flow
d. small venous reserve of oxygen
Exercise can trigger symptoms of AMS due to which of the following? a. low partial pressure of oxygen b. low atmospheric pressure c. abnormal neural signals d. small venous reserve of oxygen
a) Alveoli → blood in pulmonary capillaries
External respiration involves the movement of O2 in which of the following ways? a) Alveoli → blood in pulmonary capillaries b) Atmosphere → alveoli c) blood in pulmonary capillaries → alveoli d) blood in systemic capillaries → interstitial fluid → tissue cells e) tissue cells → interstitial fluid → blood in systemic capillaries
d. Henry's
Hyperbaric chambers are clinical applications of which gas law? a. Boyle's b. dalton's c. Frank-Starling d. Henry's
hyperventilation
Increased ventilation that results in an increase in blood pH is called ________.
c. constriction of pulmonary capillaries and dilation of bronchioles.
Low PO2 and high PCO2 in the alveoli will cause: a. constriction of pulmonary capillaries and bronchioles. b. dilation of pulmonary capillaries and bronchioles. c. constriction of pulmonary capillaries and dilation of bronchioles. d. dilation of pulmonary capillaries and constriction of bronchioles.
b. ventral respiratory group
Normal quiet respiration is controlled by the: a. dorsal respiratory group b. ventral respiratory group c. pontine respiratory group d. cerebral cortex
c. hemoglobin & oxygen
Oxyhemoglobin forms by a chemical reaction between which of the following? a. hemoglobin & carbon dioxide b. carbonic anhydrase & carbon dioxide c. hemoglobin & oxygen d. carbonic anhydrase & oxygen
b. vocal folds
Sounds are produced because of vibration of the ___________. a. epiglottis b. vocal folds c. glottis d. larynx e. rima glottidis
respiratory
The ___________ circulation picks up oxygen for cellular use and drops off carbon dioxide for removal from the obyd
b. visceral pleura
The membrane that adheres to the outer surface of the lungs is the : a. respiratory membrane b. visceral pleura c. parietal pleura d. mucosa
d. increasing speech resonance
The nose/nasal cavity has all of the following functions except which? a. filtering particles from air b. warming inhaled air c. increasing compliance d. increasing speech resonance e. moistening inhaled air
c. ectoderm
The olfactory pits form from which of the following? a. mesoderm b. cartilage c. ectodermd. endoderm
it diffuses into the alveoli
The partial pressure of carbon dioxide is 45 mm Hg in the blood and 40 mm Hg in the alveoli. what happens to the carbon dioxide?
visceral and parietal pleurae
The pleura that surrounds the lungs consists of two layers, the ___________
d. partial pressure
The pressure exerted by each type of gas in a gas mixture is the _______________ of that gas a. partial force b. partial percentage c. partial volume d. partial pressure
to remove pathogens and debris
What is the role of alveolar macrophages?
surface tension of the intrapleural fluid
What keeps the visceral pleura in close proximity to the parietal pleura? a. trans-alveolar pressure b. positive pressure in the intrapleural space c. surface tension of the intrapleural fluid d. the mesothelia are one and the same e. spider web-like processes extending from the outer covering
d. cartilage rings
What structure helps keep the airways open? a. epiglottis b. smooth muscle c. leukotrienes d. cartilage rings e. cricoid cartilage
around week 20
When do fetal breathing movements begin?
c. an increase in CO2.
When holding our breath for a long time we get the urge to breathe due to: a. a decrease in N2. b. a decrease in O2. c. an increase in CO2. d. an increase in pH.
a. the capillary constricts
When ventilation is not sufficient, which of the following occurs? a. the capillary constricts b. the capillary dilates c. the partial pressure of oxygen in the affected alveolus increases d. the bronchioles dilate
d) is lined with stratified squamous epithelium
Which of the choices listed below is FALSE for the nasopharynx? a) lined with pseudostratified ciliated columnar epithelium b) is the superior portion of the pharynx c) has openings that lead to the auditory (eustachian) tubes d) is lined with stratified squamous epithelium e) moves dust-laden mucus down the pharynx
b. secondary bronchi
Which of the following delivers air to the lobes of the lungs: a. primary bronchi b. secondary bronchi c. tertiary bronchi d. terminal bronchioles
d. internal intercostal muscle contraction
Which of the following does not help with inhalation (inspiration)? a. diaphragm contraction b. increasing thoracic cavity size c. lung compliance d. internal intercostal muscle contraction e. pleural cavity negative pressure
d. all of the above
Which of the following factors play a role in the oxygen-hemoglobin saturation/dissociation curve? a. temperature b. pH cBPG d. all of the above
b) hiccupping
Which of the following involves spasmodic contraction of the diaphragm and spasmodic contraction of the glottis? a) coughing b) hiccupping c) sneezing d) sobbing e) yawning
d) 1, 2, 4, 5 only
Which of the following is a/are function(s) of the internal structures of the nose? 1. filtering incoming air 2. moistening incoming air 3. detecting olfactory (smell) stimuli 4. warming incoming air 5. modifying speech vibrations a) 1 only b) 1, 2, 4 only c) 1, 2, 3, 4 only d) 1, 2, 4, 5 only e) 1, 2, 3, 4, 5
c. Transpulmonary pressure
Which of the following is responsible for keeping the lungs from collapsing? a. Surfactant b. Intrapulmonary pressure c. Transpulmonary pressure d. Intrapleural pressure
c. Nitrogen
Which of the following is the most abundant gas in our air? a. Oxygen b. Hydrogen c. Nitrogen d. Argon
b) systemic capillaries
Which of the following is the site of the exchange of O2 and CO2 between blood and air-filled spaces in the lungs? a) respiratory membrane b) systemic capillaries c) terminal bronchioles d) tertiary (segmental) bronchi e) visceral pleura
b. chloride is exchanged for bicarbonate
Which of the following occurs during the chloride shift? a. chloride is removed from the erythrocyte chloride is exchanged for bicarbonate c. bicarbonate is removed from the erythrocyte d. bicarbonate is removed from the blood
a. residual volume
Which of the following prevents the alveoli from collapsing? a. residual volume b. tidal volume c. expiatory reserve volume d. inspiratory reserve volume
a. pulmonary ventilation
Which of the following processes does atmospheric pressure play a role in? a. pulmonary ventilation b. production of pulmonary surfactant c. resistance d. surface tension
d. erythropoietin
Which of the following stimulates the production of erythrocytes? a. AMS b. high blood levels of carbon dioxide c. low atmospheric pressure d. erythropoietin
terminal bronchioles
Which of the following structures is not part of the bronchial tree a. alveoli b. bronchi c. terminal bronchioles d. respiratory bronchioles
b. fissure
Which of the following structures separates the lung into lobes? a. mediastinum b. fissure c. root d. pleura
Pharynx
passage for air from internal nares to larynx
Epiglottis
superior larynx, flap of cartilage that opens to allow air to pass and closes when swallowing food or drink
Nasal Septum
the ethmoid and vomer bone, with cartilage, that divides the left and right sides
Larynx
voice box, cartilage
Emphysema
walls of alveoli destroyed, often a precursor to lung cancer
Alveoli Machrophages
wandering phagocytes that remove dust particles and other debris
