MPQ 5 - Respiration

Question 1

Which vessel provides the lung’s functional circulation?A. a. pulmonalis
B. aa. bronchiales
C. vv. pulmonales
D. v. azygos.

Answer 1

a. pulmonalis

Question 2

Which artery supplies nutrients to the lung?

a. pulmonalis
aa. bronchiales
a. carotis communis
v. azygos

Answer 2

aa. bronchiales

Question 3

Which part of the lung circulation is influenced by gravitation the most?
ventral
medial
dorsal
the gravitation doe not influence the circulation of the lung

Answer 3

dorsal

Question 4

How does hypoxia influence the lung circulation?
A. hypoxia does not influence the lung circulation
B. vasodilation occurs in poorly ventilated alveoli
C. vasoconstriction of well ventilated alveoli compensates for hypoxia
D. local vasoconstriction excludes poorly ventilated alveoli from perfusion

Answer 4

D. local vasoconstriction excludes poorly ventilated alveoli from perfusion

Question 5

In which manner does the parasympathetic innervation influence the pulmonary vessels?	
A. dialation via vagal mediation	
B. inhibition of acetylcholine release	
C. alpha-recepror stimulation	
D. beta-receptor inhibition

Answer 5

A. dialation via vagal mediation

Question 6

How does the sympathetic innervation influence the pulmonary vessels?
A. the epinephrine inhibits dilation via beta-receptors
B. the sympathetic noradrenergic fibres inhibit alpha-receptors
C. the epinephrine dilates vessels via alpha-receptors
D. inhibition by sympathetic cholinergic fibres

Answer 6

B. the sympathetic noradrenergic fibres inhibit alpha-receptors

Question 7

What is the effect of the increased pulmonary arterial blood pressure on the pressure in the lung circulation?A. it increases
B. it does not influence
C. it decrases
D. it increases considerably

Answer 7

C. it decrases

Question 8

7	Which of the following functions is not typical of the nose cavity?	
A. dissipation of heat	
B,  air conditioning	
C. protection	
D. creation of sound

Answer 8

D. creation of sound

Question 9

What is the role of the pharynx?	
A, protection
B,  creating sound	
C, dissipation of heat	
D.air conditioning

Answer 9

A, protection

Question 10

What is the role of the larynx?	
A. protection	
B. creating sound	
C. dissipation of heat	
D. air conditioning

Answer 10

B. creating sound

Question 11

What is the role of the alveolus?	
A. air conditioning	
B: dissipation of heat	
C. gas exchange	
D. conduction of air

Answer 11

C. gas exchange

Question 12

Where does the gas exchange occur?	
A. in the windpipe	
B. in the bronchus	
C. in the bronchiolus	
D. in the alveolus

Answer 12

D. in the alveolus

Question 13

How many major layers separate the air from the blood in the alveolus?	
A. 4	
B. 2	
C: 5	
D. 3

Answer 13

A. 4

Question 14

What is the role of the T2 type pneumocytes?
A. gas exchange
B. surfactant production
C. barrier from the O2 and the CO2
D. it constitutes the skeleton of the alveolus

Answer 14

B. surfactant production

Question 15

Which is that anatomical unit in large animals which is responsible for inspiration?	
A. m. intercostales externi	
B. stomach muscles	
C. diaphragm	
D. m. intercostales interni

Answer 15

C. diaphragm

Question 16

In what kind of respiration do the abdominal muscles play a role?	
A. normal expiration	
B. normal inspiration	
C. forced inspiration	
D. forced expiration

Answer 16

D. forced expiration

Question 17

What causes the process of expiration?
A. mainly the collapsing tendency of the lung issue
B. active muscle work
C. passive pressure from the abdominal cavity
D. the contracting of the active elements of the lungs

Answer 17

A. mainly the collapsing tendency of the lung issue

Question 18

What prevents the complete collapsing of the lungs?
A. the pressure relations in the lungs
the adhesion forces between the parietal and visceral B. plates of the pleura
C. ligaments of the lungs
D. the muscle elements of the lungs

Answer 18

B. plates of the pleura

Question 19

Which parts of the lungs are aired better?
A. the areas being in the vertex
B. the areas being under the vertebral coloumn
C. the diaphragmatic and the parietal parts of lungs
D. the medial parts of the lungs

Answer 19

C. the diaphragmatic and the parietal parts of lungs

Question 20

What is the functional residual capacity?
A. the amount of air remaining in the lungs during apnea
B. the volume of air which can be inhalated in a forced way
C. that fraction which cannot be expirated even in a forced way
D. that quantity of air which remains in the lung after full compression

Answer 20

A. the amount of air remaining in the lungs during apnea

Question 21

What is the inspiratory reserve volume?
A. the amount of air remaining in the lungs during apnea
B. the volume of air which can be inhailed in a forced way
C. that fraction which cannot be expired even in a forced way
D. that quantity of air which remains in the lung after full compression

Answer 21

B. the volume of air which can be inhailed in a forced way

Question 22

What is the vital capacity?
A. the amount of air remaining in the lungs during apnea
B. Inspiratory reserve plus expiratory reserve plus tidal volume
C. that fraction which cannot be expired even in a forced way
D. that quantity of air which remains in the lung after full compression

Answer 22

B. Inspiratory reserve plus expiratory reserve plus tidal volume

Question 23

Which air fraction stabilizes the composition of the alveolar air?	
A. the expiratory reserve volume	
B. the minimal air	
C. the inspiratory reserve volume	
D. the functional residual volume

Answer 23

D. the functional residual volume

Question 24

Which is the formula on the basis of which the ventilation coefficient can be caclulated?
A. (respiratory reserve - dead space) / functional residual volume + dead space
B. (respiration air + dead space) / functional rest air - dead space
C. (vital capacity - dead space) / minimal air + dead Space
D. (tidal volume - dead space) / vital capacity - dead space

Answer 24

A. (respiratory reserve - dead space) / functional residual volume + dead space

Question 25

What is the physiological dead space?
A. sites which are not covered by respiratory epithelium
B. the sum of non-functioning spaces plus anatomical dead space
C. the anatomical dead space is always larger than the physological dead space
D. the physiological dead space is smaller then the anatomical one if the ventilation improves

Answer 25

B. the sum of non-functioning spaces plus anatomical dead space

Question 26

What is true for panting?
A. alkalosis can develop
B. the slow central flow rate provides the suitable gas exchange
C. parietal and axial air flow prevent alkalosis
D. the fast parietal flow prevents alkalosis

Answer 26

C. parietal and axial air flow prevent alkalosis

Question 27

What is the role of the panting?	
A. it secures the acid-base balance	
B. to ensure more efficient breathing	
C. getting rid of water	
D. heat dissipation

Answer 27

D. heat dissipation

Question 28

What are the pressure relations during inspiration?
A. the pressure in the lungs decreases under the atmospheric pressure because of the active work of inspiratory muscles
B. the pressure in the lungs decreases under the atmospheric pressure because of the relaxing of inspiratory muscles
C. the pressure in the lungs decreases under the intrapleural pressure
D. the intrapleural pressure increases above the resting level

Answer 28

A. the pressure in the lungs decreases under the atmospheric pressure because of the active work of inspiratory muscles

Question 29

What are pressure relations during expiration?
A. the intrapleural pressure decreases below its resting value
B. the intrapulmonary pressure increases above the atmospheric level
C. the intrapleural presure increases above the atmospheric level
D. the intrapleural pressure decreases below resting level

Answer 29

B. the intrapulmonary pressure increases above the atmospheric level

Question 30

What is the essence of the M³llerian experiment?
A. the forced expiration - if the epiglottis is closed - increases the intrapulmonary and intrathoracic pressures
B. it has physiological importance in the process of defecation
C. the intrapulmonary and thoracic pressures decrease considerably during deep inspiration
D. the expiration after the closing of the epiglottis decreases the intrapulmonary and intrathoracic pressure

Answer 30

C. the intrapulmonary and thoracic pressures decrease considerably during deep inspiration

Question 31

What is true for the Valsava experiment?
A. the forced expiration - if the epiglottis is closed - increases the intrapulmonary and intrathoracic pressures
B. it has physiological importance in the process of rumination
C. the intrapulmonary and thoracic pressures decr6ease considerably during deep inspiration
D. the expiration after the closing of the epiglottis decreases the intrapulmonary and intrathoracic pressure

Answer 31

A. the forced expiration - if the epiglottis is closed - increases the intrapulmonary and intrathoracic pressures

Question 32

Which component of respirational work is the most important?
A. overcoming the surface tension of alveoli
B. overcoming the frictional resistance
C. overcoming the elastic resistance of the lung
D. overcoming the viscous resistance of the chest

Answer 32

A. overcoming the surface tension of alveoli

Question 33

What makes the alveolus collapse?	
A. intrapulmonary pressure	
B. surface tension	
C. surface tension of neighbouring alveolus	
D. surfactants

Answer 33

B. surface tension

Question 34

What works against the collapse of the alveolus?
A. surface tension	
B. elastic elements	
C. surface tension of nearby alveoli	
D. lack of surfactant

Answer 34

C. surface tension of nearby alveoli

Question 35

What is the transmural pressure?
A. the pressure between the two pleural plates
B. the sum of forces that cause the lung to collaps
C. the sum of forces that cause the lung to dilate
D. it is the 2/3 of the transpulmonal pressure and keeps balance with the surface tension

Answer 35

D. it is the 2/3 of the transpulmonal pressure and keeps balance with the surface tension

Question 36

What is the result of the lack of DPPC?	
A. the small alveoli collapse	
B. the size of the large alveoli does not change	
C. all alveoli collapse	
D. the diameter of the alveoli increases

Answer 36

A. the small alveoli collapse

Question 37

How does the surface tension change during inspiration and expiration?
A. the surface tension continuously increases during inspiration
B. the surface tension continuously decreases during inspiration
C. the surface tension decreases during expirationD. the surface tension does not change during the breathing cycle

Answer 37

B. the surface tension continuously decreases during inspiration

Question 38

Which parameter describes the effectiveness of breathing?
A. ventilation
B. perfusion
C. ventilation coefficient
D. the difference between ventilation and perfusion

Answer 38

C. ventilation coefficient

Question 39

How many ml of oxygen dissolves in 1 liter of plasma at 37░C / 1 mmHg?	
A. 0.3 ml	
B. 0.03 ml	
C. 7 ml	
D. 0.7 ml

Answer 39

D. 0.7 ml

Question 40

How many ml of carbon dioxide dissolves in 1 liter of plasma at 37░C / 1 mmHg?	
A. 0.3 ml	
B. 0.03 ml	
C. 7 ml	
D. 0.7 ml

Answer 40

B. 0.03 m

Question 41

Which of the following parameters do not influence the gas exchange?	
A. temperature and water vapour	
B. partial pressures	
C. the membrane permeability	
D. the size of exchanging surface

Answer 41

A. temperature and water vapour

Question 42

What is true for the alveolar air?
A. gas pressures in it equalsthe atmospheric gas pressures
B. the value of pO2 and pCO2 is constant
C. during ex- and inspiration its composition always changes
D. its gas composition is a function of the gas compostion of the alveolar capillary

Answer 42

B. the value of pO2 and pCO2 is constant

Question 43

How much time does it take for gases to exchange in the alveolus?	
A. 20 msec	
B. 600 msec	
C. 800 msec	
D. 200 msec

Answer 43

D. 200 msec

Question 44

What is true for the gas exchange in tissues?
A. increasing metabolism of a cell increases oxygen diffusion to this cell
B. the partial pressure of CO2 does not influence the diffusion of CO2
C. the partial pressure of oxygen is higher intracellularly than the pCO2
D. in the venous capillary blood the pO2 is higher than the pCO2

Answer 44

A. increasing metabolism of a cell increases oxygen diffusion to this cell

Question 45

What is true for oxygen ransport?
A. one Hb molecule can bind two oxygens
B. the oxygen binding of Hb is reversible
C. 1 liter blood can bind volume of 12% O2
D. the O2 affinity of the Hb does not change physiologically

Answer 45

B. the oxygen binding of Hb is reversible

Question 46

How does the oxygen saturation curve of the hemoglobin look like in respect to increasing pO2?	
A. it is linear	
B. it is a simple saturation curve	
C. it is sigmoid saturation curve	
D. it is hyperbolic

Answer 46

C. it is sigmoid saturation curve

Question 47

What is the arterio-venous oxygen difference?
A. it is the measure of O2 saturation in arteriovenous anastomosis
B. it increases in rest
C. it is the difference of minimal O2 saturation and maximum venous saturation
D. it is the difference between arterial blood maximum O2 saturation and venous blood minimum O2 saturation

Answer 47

D. it is the difference between arterial blood maximum O2 saturation and venous blood minimum O2 saturation

Question 48

What shifts the O2 saturation curve to the left?	
A. 2,3 DPG concentration decrease	
B. tissue pCO2 increase	
C. pH decrease in the tissues	
D. increase of tissue temperature

Answer 48

A. 2,3 DPG concentration decrease

Question 49

At which pO2 is Hb half saturated?	
A. 40 mmHg	
B. 30 mmHg	
C. 95 mmHg	
D. 24 mmHg

Answer 49

B. 30 mmHg

Question 50

How much of the carbon dioxide produced by tissues gets into the red blood cells?	
A. 70%	
B. 20%	
C. 90%	
D. 100%

Answer 50

C. 90%

Question 51

How much carbon dioxide is transported in form of carbamino-hemoglobin?	
A. 70%	
B. 1%	
C. 10%	
D. 20%

Answer 51

D. 20%

Question 52

In which form is most of the carbon dioxide transported in the blood?	
A. bicarbonate anions
B. carbamino-hemoglobin	
C. physically dissolved	
D. linked to plasma-proteins

Answer 52

A. bicarbonate anions

Question 53

What speeds up bicarbonate formation in the red blood cells?
A. high CO2 concentration
B. the presence of deoxihemoglobin
C. decreasing activity of carbonic anhydrase
D. the potassium efflux from red blood cells

Answer 53

B. the presence of deoxihemoglobin

Question 54

What is true for the “Hamburger-shift”?
A. the capnoforin transporter inhibits the exchange of bicarbonate to chloride
B. the chloride follows water migration and the blood cell volume decreases
C. the capnoforin transporter stimulates the exchange of bicarbonate to chloride
D. it forms a buffer system

Answer 54

C. the capnoforin transporter stimulates the exchange of bicarbonate to chloride

Question 55

Where is the pCO2 the highest?	
A. in arterial blood	
B. in the alveolar air	
C. in the atmospheric air	
D. in the venous blood

Answer 55

D. in the venous blood

Question 56

What is the effect of the pontine dissection?
A. irregular cycles of expiration and inspiration
B. deep inspirations
C. expiration and inspiration stops
D. normal respiratory cycle is maintained

Answer 56

B. deep inspirations

Question 57

What is the function of the apneustic center?
A. it is the inspiratory center
B. it generates spontaneous inspiration
C. it stimulates the inspiratory center, probably takes part in the switching over from inspiration to expiratio
D: it is a secondary expiratory center

Answer 57

C. it stimulates the inspiratory center, probably takes part in the switching over from inspiration to expiratio

Question 58

What is the function of the pneumotaxic center?
A. it is a secondary expiratory center
B. it is an inspiratory center
C. it inhibits the switching over from inspiration to expiration
D. it inhibits the inspiratory center, couples expiration and inspiration

Answer 58

D. it inhibits the inspiratory center, couples expiration and inspiration

Question 59

What is the function of the DRG?
A. it is a primary inspiratory center, inhibits the expiratory center
B. it stimulates the inspiratory center indirectly
C. it is a secondary expiratory center
D. it inhibits the switching over of expiration to inspiration

Answer 59

A. it is a primary inspiratory center, inhibits the expiratory center

Question 60

What is the function of the VRG?
A. it stimulates inspiration
B. it is a secondary expiratory center inhibiting the inspiratory center
C. it is responsible for the switching over from inspiration to expiration
D. it is the a primary inspiratory center

Answer 60

B. it is a secondary expiratory center inhibiting the inspiratory center

Question 61

What is the Hering-Breuer reflex?
A. a reflex that stimulates inspiration
B. a reflex of the lung stimulating the apneustic cente
C. a reflex that starts in the lung and inhibts inspiration
D. it is a reflex that stimulates the n. phrenicus

Answer 61

C. a reflex that starts in the lung and inhibts inspiration

Question 62

What is the Haldane effect?
A. the high pO2 stimulates the CO2 dissipation gradually
B. the high pCO2 prevents the loss of O2
C. the dissociation curve of CO2 in lungs shifts to the right
D. the rising pO2 increases CO2 binding to proteins

Answer 62

A. the high pO2 stimulates the CO2 dissipation gradually

Question 63

How does respiration change during severe pain?
A. respiration becomes irregular
B. respiration becomes deeper	
C. frequency of respiration increases	
D. expiration stops temporarily

Answer 63

D. expiration stops temporarily

Question 64

How is the efferentation of inspiration organized?
A. facilitation of n. phrenicus
B. stimulating of expiratory muscles
C. inhibition of the diaphragm
D. stimulating of innervation of musculi intercostales interni

Answer 64

A. facilitation of n. phrenicus

Question 65

How is the efferentation of expiration organized in resting conditions?
A. facilitation of n. phrenicus
B. efferentation is not needed
C. stimulation of musculi intercostales externi
D. inspiratory muscles are prevented actively

Answer 65

B. efferentation is not needed

Question 66

What kind of changes do the central receptors of the respiratory regulation register?
A. pO2 in blood ,liquor cerebrospinalis and H+ ions in the blood
B. pO2 and H+ ions in the liquor
C. pCO2 and concentration of H+ ions in the liquor and in the blood
D. concentration of CO2 and H+ ions in blood

Answer 66

C. pCO2 and concentration of H+ ions in the liquor and in the blood

Question 67

Which centers are stimulated by the central gas receptors?	
A. expiratory center	
B. pneumotaxic center	
C. respiratory center of VRG	
D. respiratory center of DRG

Answer 67

D. respiratory center of DRG

Question 68

How does the pCO2 in blood influence the activity of DRG?
A. getting in the cerebrospinal fluid it causes decrease in the pH as well as the direct effect becomes operative
B. via the indirect increase of the pH
C. direct effect on DRG
D. indirect effect on the DRG

Answer 68

A. getting in the cerebrospinal fluid it causes decrease in the pH as well as the direct effect becomes operative

Question 69

What is the characteristic feature of peripheral gas sensors?
A. they react to the change of pCO2
B. they are sensitive mainly to the change of pO2
C. they are found in sinus aorticus and arcus aortae
D. it is sensitive solely to the change of pO2

Answer 69

B. they are sensitive mainly to the change of pO2

Question 70

What is dyspnea?	
A. respiratory pause	
B. asphyxia	
C. irregular respiration	
D. normal respiration

Answer 70

C. irregular respiration

Question 71

What is apnea ?	
A. asphyxia	
B. irregular respiration	
C. normal respiration	
D. respiratory pause

Answer 71

D.respiratory pause

Question 72

What is the Biot-respiration ?
A. approximately normal respiratory cycles are interrupted by longer apnea
B. gasping inspiration
C. deep and superficial respiration alternating occasionally with respiratory pause
D. quick, superficial respiration

Answer 72

A. approximately normal respiratory cycles are interrupted by longer apnea

Question 73

Which defensive reflex does the inhalation of toxic gases and vapours prevent?	
A. sneezing	
B. nociceptive apnea	
C. coughing	
D. diving reflex

Answer 73

B. nociceptive apnea

Question 74

Which defensive reflex is produced by mechanical and chemical stimulation of the mucous membrane of the upper conducting airways?	
A. coughing	
B. diping reflex	
C. sneezing	
D. nociceptive apnea

Answer 74

C. sneezing

Question 75

Which defensive reflex prevents choking?	
A. nociceptive apnea	
B. coughing
C.  sneezing	
¨D. combined swallowing apnea

Answer 75

¨D. combined swallowing apnea

Question 76

Which defensive reflex is produced by the stimulation of tracheobronchial area?	
A. coughing	
B. sneezing	
C. nociceptive apnea	
D. diving reflex

Answer 76

A. coughing

Question 77

Which part of theair sac contains fresh air?	
A. cranial group	
B. caudal group	
C. both the cranial and caudal groups	
D. none of the above

Answer 77

B. caudal group

Question 78

How does the countercurrent exchange system work in the respiration of birds?
A. blood and air flow side by side in one direction
B. the way of blood and air are not parallel
C. blood and air flow in the opposite directions in closely attached tubings
D. blood and air are separated only by one cell layer

Answer 78

C. blood and air flow in the opposite directions in closely attached tubings

Question 79

In what direction the fresh air flow during inspiration in birds?
A. air gets from caudal air sacs to the parabronchi
B. parabronchi fill with stale air
C. air gets from cranial air sacs to parabronchi
D. fresh air gets to caudal air sac and to the parabronchi

Answer 79

D. fresh air gets to caudal air sac and to the parabronchi

Question 80

In what direction does fresh air flow during expiration in birds?
A. from the caudal air sacs to the parabronchi
B. from caudal air sacs to the cranial air sacs
C. from the cranial air sac to the outside world
D. parabronchi fill with air, rich in CO2

Answer 80

A. from the caudal air sacs to the parabronchi

Question 81

How much more O2 can be carried by the whole blood than by the plasma?	
A. 20 times more	
B. 70 times more	
C. 50 times more	
D. 10 times more

Answer 81

B. 70 times more

Question 82

Which statement is not true relating to the O2-binding of myoglobin?
A. it displays simple saturation curve
B. it binds O2 in a reversibile way
C. it binds O2 weaker than the hemoglobin does
D. it stores O2 in the muscle tissue

Answer 82

C. it binds O2 weaker than the hemoglobin does

Question 83

What is true for the CO binding of the hemoglobin?
A. it is independent of temperature
B. it displays a sigmoid saturation curve
C. the binding is reversible
D. the binding is irreversible and of high affinity

Answer 83

D. the binding is irreversible and of high affinity