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Question 1

STUDY HARD AND
SILENTLY
ALL THE BEST
FILE : 1
PRASHAN: 1
The middle ear includes
tympanic cavity
cochlea
external auditory meatus
chorda tympani
internal auditory meatus
PRASHAN: 2
–VI cranial nerve exits from the cranial cavity through
foramen rotundum
foramen ovale
foramen lacerum
foramen jugularis
fissura orbitalis superior
PRASHAN: 3
–The fibrous membrane of the eyeball consists of
cornea and sclera
retina and vitreous body
front and rear chambers
iris and cornea
iris and ciliary body
PRASHAN: 4
–
Iris is referred to
fibrous membrane
vascular membrane
retina
auxiliary device
adventitia
PRASHAN: 5
T-SERIES
–Ciliary body is referred to
fibrous membrane
vascular membrane
retina
tenon capsule
adventitia
PRASHAN: 6
–The eyeball membrane containing photosensitive elements
sclera
cornea
iris
ciliary body
retina
PRASHAN: 7
–The inner ear consists of
bony and membranous labyrinth
tympanic cavity and internal auditory meatus
eardrum and membranous labyrinth
auditory ossicles and cochlea
tympanic cavity and Eustachian tube
PRASHAN: 8
–The organ of hearing includes
semicircular canal
cochlea
sclera
vestibule
mastoid cave
PRASHAN: 9
–The part of the pharynx into which the tuba auditiva opens
nasopharynx
oropharynx
glossopharynx
larynx
tracheopharynx
PRASHAN: 10
–The auxiliary apparatus of the eye is
lens
vitreous body
retina
lacrimal gland
pupil
PRASHAN: 11
–Eardrum separates
outer ear from inner ear
outer ear from middle ear
outer ear from auditory tube
middle ear from inner ear
inner ear from cranial cavity
PRASHAN: 12
–Optic chiasm is a part of
thalamus
epithalamus
metatalamus
hypothalamus
posterior hypothalamic region
PRASHAN: 13
–The third branch of trigeminal nerve (V) leaves the middle cranial fossa through
foramen rotundum
foramen spinosum
foramen ovale
foramen jugularis
foramen stylomastoideum
PRASHAN: 14
–The external carotid artery branch
superficial temporal artery
internal thoracic artery
ophthalmic artery
subclavian artery
vertebral artery
PRASHAN: 15
–The parotid salivary gland duct opens in
sublingual fold of oral cavity
sublingual papilla of oral cavity
mouth vestibule at the second molar level
mouth vestibule at the second premolar level
mouth vestibule at the mental foramen level
PRASHAN: 16
–Tooth with a conical crown
incisor
fang
premolar
chewing
molar
PRASHAN: 17
–Part of the tongue containing tonsilla lingualis
top
body
head
tail
root
T-SERIES
PRASHAN: 18
–Paired laryngeal cartilage
cartilagо thyroidea
epiglottis
cartilago arytenoidea
cartilago cricoidea
cartilagо major
PRASHAN: 19
–The temporal bone canal through which a.carotis interna passes
muscular-tubal
facial canal
carotid canal
cochlear canal
canaliculus tympanicus
PRASHAN: 20
–Canal of temporal bone through which facial nerve passes
canalis musculotubarius
canalis facialis
canalis caroticus
canaliculus cochlearis
canaliculus tympanicus
PRASHAN: 21
–
Intrinsic muscles of the tongue
upper longitudinal, vertical
styloglossal, stylopharyngeal
lower longitudinal, hypoglossal
genioglossus, maxillohyoid
vertical, perpendicular
PRASHAN: 22
–
T-SERIES
Number of deciduous teeth
8
10
20
32
33
PRASHAN: 23
–Muscle that flattens the tongue
upper longitudinal
styloglossal
hypoglossal
maxillohyoid
vertical
PRASHAN: 24
–Muscles that stretch the vocal cords
posterior and lateral cricoarytenoid
lateral cricoarytenoid
thyroarytenoid, thyroepiglottic
transverse and oblique arytenoid
cricothyroid, vocalis
PRASHAN: 25
–Right subclavian and carotid artery goes from
brachiocephalic trunk
aortic arch
ascending aorta
thoracic aorta
abdominal aorta
PRASHAN: 26
–Olfactory receptors are located in
trigonum olfactorium
tractus olfactorius
T-SERIES
substantia perforata anterior
tunica mucosa meatus nasi superioris
bulbus olfactorius
PRASHAN: 27
–The organ of balance includes
canalis semicircularis
cochlea
tuba auditiva
tympanic cavity
antrum mastoideum
PRASHAN: 28
–Abducens nerve innervates
musculus rectus medialis
musculus obliquus inferior
musculus vastus lateralis
musculus rectus lateralis
musculus obliquus superior
PRASHAN: 29
–Branch of external carotid artery
a. temporalis superficialis
a. thoracica interna
a. ophthalmica
a. subclavia
a. vertebralis
PRASHAN: 30
–Unpaired laryngeal cartilage
cartilagо thyroidea
cartilagо cuneiformis
cartilado arytenoidea
cartilagо corniculata
cartilagо major
T-SERIES
PRASHAN: 31
–Anterior branch of external carotid artery
a. thyroidea superior
a. thyroidea inferior
a. maxillarias
a. occipitalis
a. auricularia posterior
PRASHAN: 32
–This artery passes through the transverse process foramen of the cervical vertebrae
a. vertebralis
a. coroticus interna
a. coroticus externa
a. cerebri anterior
a. cerebri posterior
PRASHAN: 33
–Arches of the soft palate
palatonasal, palatopharyngeal
palatoglossal, palatopharyngeal
palatolaryngeal, palatoglossal
palatotubal, palatonasal
palatotubal, palatolingual
PRASHAN: 34
–Anterior branch of external carotid artery
facial artery
mandibular artery
maxillary artery
occipital artery
posterior auricular artery
PRASHAN: 35
T-SERIES
–The number of cervical spinal nerves
1
5
8
12
13
PRASHAN: 36
–Mastication muscles are innervated by
VII pair of cranial nerves
X pair of cranial nerves
IX pair of cranial nerves
V pair of cranial nerves
ХІІ pair of cranial nerves
PRASHAN: 37
–
It passes through the transverse process foramen of the cervical vertebrae
vertebral artery
internal carotid artery
external carotid artery
anterior cerebral artery
posterior cerebral artery
PRASHAN: 38
–Thyroid hormones
thyroxine, triiodothyronine
thyroid-stimulating hormone, triiodothyronine
thyroid-stimulating hormone, thyroxine
parathyroid hormone, triiodothyronine
somatotropin, gonadotropin
PRASHAN: 39
–The head branche of n. vagus
T-SERIES
r. meningeus
r. bronhici
r. pharyngei
r. esophagei
r. cardiaci thoracici
PRASHAN: 40
–Place of oculomotor nerve passage
spinous foramen
optic canal
superior orbital fissure
inferior orbital fissure
round foramen
PRASHAN: 41
–Place of facial nerve passage
spinous foramen
internal acoustic meatus
superior orbital fissure
inferior orbital fissure
round foramen
PRASHAN: 42
–Place of vagus nerve passage
jugular foramen
foramen magnum
superior orbital fissure
inferior orbital fissure
round foramen
PRASHAN: 43
–Place of olfactory nerve passage
jugular foramen
foramen magnum
superior orbital fissure
lower orbital fissure
cribriform plate of ethmoid bone
PRASHAN: 44
–Place of abducent nerve passage
jugular foramen
foramen magnum
superior orbital fissure
inferior orbital fissure
round foramen
PRASHAN: 45
–Place of glossopharyngeal nerve passage
jugular foramen
foramen magnum
superior orbital fissure
inferior orbital fissure
round foramen
PRASHAN: 46
–Trochlear nerve passage location
spinous foramen
optic canal
superior orbital fissure
inferior orbital fissure
round foramen
PRASHAN: 47
–Muscles of tongue are innervated by
n. facialis
n. hypoglossus
n. abducens
n. accessorius
n. vagus
PRASHAN: 48
T-SERIES
–Location of the tubal tonsil
between fornix and posterior wall of pharynx
between palatine arches
at the root of tongue
near the pharyngeal opening of auditory tube
choanae area
PRASHAN: 49
–The masticatory muscles are innervated by
n. facialis
n. trochlearis
n. abducens
n. trigeminus
n. vagus
PRASHAN: 1
–Optic nerve is
motor
sensitive
mixed
parasympathetic
sympathetic
PRASHAN: 2
–N. vestibulicochlearis is
motor
sensitive
mixed
parasympathetic
sympathetic
PRASHAN: 3
–Ciliary muscle function
changes the lens curvature
T-SERIES
narrows pupil
dilates pupil
raises the upper eyelid
turns eyeball
PRASHAN: 4
–The cranial nerve, which regulates the rhythm of heart contractions
trigeminal nerve
vagus nerve
abducens nerve
accessory nerve
trochlear nerve
PRASHAN: 5
–Type of the tongue papillae responsible for taste perception
fungiform, foliate
spherical, fungiform
conical, groove-shaped
filamentous, foliate
oval, filiform
PRASHAN: 6
–Muscle that moves the tongue backwards and upwards
upper longitudinal
styloglossal
lower longitudinal
genioglossus
hypoglossal
PRASHAN: 7
–If the occipital lobe is injured, a violation may occur
vision
smell
taste perception
tactile sensitivity
equilibrium
PRASHAN: 8
–Strabismus can occur due to nerve dysfunction
T-SERIES
facial
abducens
additional
trigeminal
ophthalmic
PRASHAN: 9
–Loss of voice may be due to nerve dysfunction
vagus
trochlear
trigeminal
additional
abducent
PRASHAN: 10
–Impaired sensitivity of facial skin is possible due to nerve damage
trigeminal
facial
vagus
glossopharyngeal
accessory
PRASHAN: 11
–Laryngeal cartilage determining sexual dimorphism
arytenoid
thyroid
cricoid
cornuform
epiglottis
PRASHAN: 12
–Blood flows from the head and neck organs into this vein
v. jugularis interna
v. subclavia
v. axillaris
v. cava inferior
v. portae
PRASHAN: 13
T-SERIES
–Muscles that narrow the glottis
posterior cricoarytenoid, cricothyroid
lateral and medial cricoarytenoid
cricoepiglottic, thyroarytenoid
oblique arytenoid, thyroarytenoid
cricothyroid, thyroid epiglottis
PRASHAN: 14
–Cranial nerve that exits from the brain between pyramid and olive
IX pair
XI pair
XII pair
X pair
VII pair
PRASHAN: 15
–Violation of the skin sensitivity may be symptoms of defeat
n. hypoglossus
n. glossopharyngeus
n. vagus
n. trigeminus
n. facialis
PRASHAN: 16
–The anterior chamber of the eyeball is between
cornea and iris
iris and lens
lens and vitreous body
vitreous body and retina
cornea and sclera
PRASHAN: 17
–Eustachian tube connects the tympanic cavity with
cranial cavity
nasal cavity
oropharynx
nasopharynx
external auditory canal
T-SERIES
PRASHAN: 18
–During surgery on the thyroid gland, it is possible to accidentally damage
parathyroid gland
oropharynx
nasopharynx
external jugular vein
thoracic esophagus
PRASHAN: 19
–The inflammatory process from nasopharynx through the auditory tube can spread to
tympanic cavity
inner ear
cranial cavity
outer ear
vestibule
PRASHAN: 20
–Participates in the formation of the cerebral Willis circle
anterior communicating artery
anterior spinal arteries
posterior spinal arteries
anterior villous artery
superior cerebellar arteries
PRASHAN: 21
–The thyroid gland is covered in front
infrahyoid muscles, prevertebral plate of the cervical fascia
suprahyoid muscles, prevertebral plate of the cervical fascia
pretracheal plate of the cervical fascia, infrahyoid muscles
prevertebral plate of the cervical fascia, scalene muscles
superficial fascia of the neck, scalene muscles
PRASHAN: 22
–The inflammatory process destroyed the trachea back wall. In which organcan the inflammatory process proceed
tongue
pharynx
esophagus
heart
thyroid
PRASHAN: 23
–It opens into the superior nasal meatus
frontal sinus
maxillary sinus
nasolacrimal canal
eustachian tube
sphenoid sinus
PRASHAN: 24
–Opens into the inferior nasal meatus
frontal sinus
maxillary sinus
anterior cells of the ethmoid labyrinth
eustachian tube
nasolacrimal canal
PRASHAN: 25
–Hyperfunction of the thyroid gland causes
thyrotoxicosis, Graves’ disease
dementia, dementia
myxedema, thyrotoxicosis
gigantism, dwarfism
thyroid cancer
PRASHAN: 26
–Parathyroid hormone and its function
parathyroid hormone, increases calcium levels in the blood
thyroxine, increases the iodine content in urine
calciumtonin, increases calcium levels in the blood
calciumtonin, reduces calcium levels in the blood
triiodothyronine, regulates metabolism
PRASHAN: 27
–Cranial nerve exiting from the dorsal surface of the brain trunk
T-SERIES
III pair
IV pair
V pair
VI pair
VII pair
PRASHAN: 28
–Cranial nerve exiting from the brain at the border between pons andthe
middle cerebellar peduncle
IX pair
V pair
VIII pair
VI pair
VII pair
PRASHAN: 29
–Cranial nerve exiting from the brain at the border of pons and medullaobl
ongata
IV pair
III pair
VI pair
V pair
X pair
PRASHAN: 30
–Cranial nerve that exits from the brain between pyramid and olive
IX pair
XI pair
ХII pair
X pair
VII pair
PRASHAN: 31
–Cranial nerve exiting from the brain between the middle cerebellar peduncl
e and olive
V pair
IV pair
VI pair
VII pair
T-SERIES
X pair
PRASHAN: 32
–Pupillary reflex is impaired due to nerve damage
oculomotor
abducens
ophthalmic
trochlear
trigeminal
PRASHAN: 33
–Communication of oral cavity with pharynx is through
hoans
eustachian tube
fauces
entrance to larynx
piriform opening
PRASHAN: 34
–The facial muscles are innervated by
facial nerve
trochlear nerve
abducent nerve
trigeminal nerve
vagus nerve
PRASHAN: 35
–The facial muscles are supplied by the blood from
internal carotid artery
external carotid artery
common carotid artery
subclavian artery
ascending aorta
PRASHAN: 36
–Masticatory muscles are supplied by the blood from
internal carotid artery
external carotid artery
common carotid artery
T-SERIES
subclavian artery
ascending aorta
PRASHAN: 37
–Tonsils forming the lymphoepithelial ring in pharynx
2 palatine, 2 tubal, 1 lingual and 2 pharyngeal
2 palatine, 2 tubal, 1 lingual and 1 pharyngeal
1 palatine, 2 tubal, 1 lingual and 2 pharyngeal
1 palatine, 1 tubal, 2 lingual and 2 pharyngeal
2 palatine, 1 tubal, 1 lingual and 2 pharyngeal
PRASHAN: 38
–Internal jugular vein is a continuation of
sigmoid sinus
marginal sinus
superior petrosal sinus
inferior petrosal sinus
transverse sinus
PRASHAN: 39
–The subdivision place of external carotid artery into its terminal branches is
at the level of
upper edge of thyroid cartilage
neck of mandible
lower edge of cricoid cartilage
hyoid bone
sternoclavicular joint
PRASHAN: 40
–The masticatory muscles are supplied by the blood froma. carotis interna
a. carotis externa
a. carotis communis
a. subclavia
a. vertebralis
PRASHAN: 41
–Place of olfactory nerve passage
T-SERIES
foramen jugularis
foramen magnum
fissura orbitalis superior
fissura orbitalis inferior
lamina cribrosa os ethmoidale
PRASHAN: 42
–Pharyngeal skeletotopy
from the outer skull base to 6-7 cervical vertebra
2 and 3 cervical vertebra
3 and 4 cervical vertebra
4 and 5 cervical vertebra
2 and 6 cervical vertebra
PRASHAN: 43
–Nasopharynx communicates with
oral cavity, inner ear
nasal cavity, middle ear
larynx, external ear
outer and middle ear
esophagus, oral cavity
PRASHAN: 44
–The submandibular gland duct opens in
mouth vestibule
frenulm of the lower lip
sublingual papilla
supratonsillar fossa
at the level of the second upper molar
PRASHAN: 45
–The larynx syntopy
in front - thyroid gland, behind - pharynx
from above - nasal cavity, from below - trachea
in front - neck muscles, behind - esophagus
in front - tongue root, behind - nasopharynx
from below - esophagus, from above - nasopharynx
PRASHAN: 46
T-SERIES
–Nerves coming out of the cranial cavity through superior orbital fissure
III, IV, 2nd branch V, VI
VII, VIII, 3rd branch V, VI
IX, X, XI, 1st branch V
II, III, IV, 2nd branch V
III, IV, 1st branch V, VI
PRASHAN: 47
–The patient cannot distinguish colors. What kind of brain nerve receptors defeat should be thought of
I pair
II pair
III pair
IX pair
X pair
PRASHAN: 48
–Tongue asymmetry may be the result of nerve dysfunction
hypoglossal
facial
trigeminal
lingual
glossopharyngeal
PRASHAN: 49
–The narrowest part of the larynx cavity
vestibule
interventricular region
supraglottic cavity
subglottic cavity
supratracheal region
PRASHAN: 50
–The largest paired cartilage of the larynx
arytenoid
thyroid
cricoid
corniculate
cuneiform
T-SERIES
PRASHAN: 1
–Lung has surface
facies diaphragmatica
facies anterior
facies posterior
facies sinister
facies dexter
PRASHAN: 2
–Long thoracic nerve supplies muscle
subscapularis
serratus anterior
latissimus dorsi
intercostal
rhomboid
PRASHAN: 3
–Large lymphatic ducts of the body
thoracic lymphatic and left lymphatic duct
thoracic duct and right lymphatic duct
thoracic and abdominal ducts
abdominal and pelvic ducts
thoracic and iliac ducts
PRASHAN: 4
–Tracheal bifurcation is at the level of
VI thoracic vertebra
V thoracic vertebra
II thoracic vertebra
I thoracic vertebra
III thoracic vertebra
PRASHAN: 5
–Lung hilum is located on
diaphragmatic surface
apex
costal surface
medial surface
lateral surface
PRASHAN: 6
–Physiological narrowing of the esophagus
bronchial
cardiac
diaphragmatic
pharyngeal
cordial
PRASHAN: 7
–The alveolar tree includes
segmental bronchi
lobar bronchi
respiratory bronchioles
main bronchi
main and segmental bronchi
PRASHAN: 8
–Esophagus has parts
pharyngeal, cervical, thoracic
subclavian, thoracic, abdominal
occipital, cervical, thoracic
cervical, thoracic, diaphragmatic
cervical, thoracic, abdominal
PRASHAN: 9
–Anatomical narrowing of the esophagus
bronchial
cardiac
aortic
venous
cordial
PRASHAN: 10
–Organ located in the superior and posterior mediastinumtracheal
thymus
esophagus
v. cava superior
pulmones
PRASHAN: 11
–Part distinguished in the parietal pleura
front
tracheal
cardiac
mediastinal
rear
PRASHAN: 12
–Inflow of superior vena cava
azygos vein
inferior vena cava
inferior phrenic vein
portal vein
anterior intercostal vein
PRASHAN: 13
–The branch of ascending aorta
brachiocephalic trunk
celiac trunk
left common carotid artery
left subclavian artery
left coronary artery
PRASHAN: 14
–Visceral branch of thoracic aorta
superior mesenteric artery
posterior intercostal artery
anterior intercostal artery
superior diaphragmatic artery
bronchial branch
PRASHAN: 15
–Parietal branch of thoracic aorta
esophageal
bronchial
pericardial
posterior intercostal
inferior diaphragmatic
PRASHAN: 16
–Heart is supplied with blood by
left common carotid artery
right common carotid artery
brachiocephalic trunk
right subclavian artery
left coronary artery
PRASHAN: 17
–Posteriorly esophagus is adjacent to
aorta
thyroid gland
portal vein
thymus
vertebral column
PRASHAN: 18
–Tributaries of azygos vein
internal chest veins
bronchial veins
anterior intercostal veins
internal jugular veins
external jugular veins
PRASHAN: 19
–Bronchial tree ends with
respiratory bronchioles
lobular bronchioles
lobar bronchi
terminal bronchioles
segmental bronchi
PRASHAN: 20
T-SERIES
–Pericardium is supplied with blood by
posterior intercostal artery
right coronary artery
left coronary artery
pericardial branch of thoracic aorta
basilar artery
PRASHAN: 21
–Branch of brachiocephalic trunk
left subclavian artery
right subclavian artery
left common carotid artery
axillary artery
coronary artery
PRASHAN: 22
–Coronary artery origins from
aortic arch
aortic bulb
subclavian artery
thoracic aorta
abdominal aorta
PRASHAN: 23
–Coronary sinus opens into
jugular vein
inferior vena cava
superior vena cava
right atrium
left atrium
PRASHAN: 24
–Branches of thoracic aorta
superior intercostal arteries
posterior intercostal arteries
gastric branches
inferior diaphragmatic arteries
hepatic arteries
T-SERIES
PRASHAN: 25
–The mitral valve of the heart consists of
lunar valves
right and left cusp
medial and lateral cusp
front and rear cusp
tendon filaments
PRASHAN: 26
–The coronary sinus collects blood from
lungs
kidney
stomach
esophagus
heart
PRASHAN: 27
–Tricuspid valve is located in
left atrioventricular orifice
right atrioventricular orifice
orifice of aorta
orifice of pulmonary trunk
orifice of coronary sinus
PRASHAN: 28
–Between left atrium and left ventricle is
semilunar valve
bicuspid valve
tricuspid valve
oval fossa
aortic valve
PRASHAN: 29
–Vein flowing into right atrium
v. cava superior
v. portae
v. pulmonalis
v. azygos
T-SERIES
v. jugularis interna
PRASHAN: 30
–The vessel exiting from the right ventricle of heart
coronary artery
aorta
pulmonary trunk
right common carotid artery
right subclavian vein
PRASHAN: 31
–The conduction system of the heart includes
pectineus muscles
bundle of His
heart curl
trabeculae carneae
papillary muscles
PRASHAN: 32
–Three segments are inside of
inferior lobe of right lung
inferior lobe of left lung
middle lobe of right lung
superior lobe of right lung
superior lobe of left lung
PRASHAN: 33
–Two segments are inside of
inferior lobe of right lung
inferior lobe of left lung
middle lobe of right lung
superior lobe of right lung
superior lobe of left lung
PRASHAN: 34
–Radix pulmonis is formed by
segmental bronchus
main bronchus
superior vena cava
inferior vena cava
lobar bronchus
PRASHAN: 35
–Esophageal skeletotopy
from VI cervical to VIІІ thoracic vertebra
from VIІ cervical to X thoracic vertebra
from VI cervical to XI thoracic vertebra
from VI cervical to I thoracic vertebra
from VI cervical to I lumbar vertebra
PRASHAN: 36
–Esophageal veins flow into
superior mesenteric vein
azygos vein
portal vein
splenic vein
inferior vena cava
PRASHAN: 37
–Branch goes from aortic arch
truncus pulmonalis
truncus brachiocephalicus
a. coronaria dextra
a. coronaria sinistra
a. thoracica interna
PRASHAN: 38
–Thoracic duct is
part of lymphatic system
arterial vessel
venous vessel
excretory duct of a gland
heart vessel
PRASHAN: 39
–Aschoff-Tavara node is located in
wall of the left atrium
left auricle
wall of the right atrium
interventricular septum
wall of the right ventricle
PRASHAN: 40
–The hole in the right atrium wall
aortic opening
pulmonary trunk opening
coronary sinus opening
right pulmonary veins openings
left pulmonary veins openings
PRASHAN: 41
–Aortic bifurcation is located at the vertebra level
first lumbar
second lumbar
third lumbar
fourth lumbar
fifth lumbar
PRASHAN: 42
–Testicular arteries go from the blood vessel
internal iliac artery
internal genital artery
abdominal aorta
common iliac artery
external iliac artery
PRASHAN: 43
–What formations are located in the cavity of the right atrium

oval fossa
openings of the right pulmonary veins
papillary muscles
tendon filaments
openings of the left pulmonary veins
PRASHAN: 44
–The visceral tributaries of inferior vena cava
superior diaphragmatic veins
T-SERIES
inferior diaphragmatic veins
testicular (ovarian) vein
lumbar veins
sacral veins
PRASHAN: 45
–The location of the heart notch in a lung
posterior margin of right lung
posterior margin of left lung
anterior margin of left lung
inferior margin of left lung
inferior margin of right lung
PRASHAN: 46
–Superior vena cava is formed by
superior and inferior vena cava
right and left brachiocephalic veins
superior and inferior mesenteric veins, splenic vein
right and left iliac veins
portal and inferior vena cava
PRASHAN: 47
–Projection of the lung apex onto the body surface
3-4 cm above clavicle
2 cm above clavicle
5 cm above 1 rib
2 cm above 1 rib
1 cm above 2 ribs
PRASHAN: 48
–Fissure on the sternocostal surface of the heart
coronal
dorsal
interatrial
anterior interventricular
posterior interventricular
PRASHAN: 49
–Fissures of the right lung
T-SERIES
lateral, oblique
oblique, horizontal
cardiac, vertical
medial, lateral
sigmoid, horizontal
PRASHAN: 50
–Visceral branch of the thoracic aorta
superior mesenteric artery
posterior intercostal artery
anterior intercostal artery
superior phrenic artery
pericardial branches
PRASHAN: 51
–Posterior surface of the heart
pulmonary
diaphragmatic
sternocostal
lateral
medial
PRASHAN: 52
–The organ of the middle mediastinum
lungs
esophagus
heart
thyroid
thoracic duct
PRASHAN: 1
–The area from which venous blood flows into superior vena cava
posterior wall of the abdomen
walls of the pelvic cavity
posterior wall of the chest cavity
right lower limb
T-SERIES
left lower limb
PRASHAN: 2
–Place of possible confluence of the thoracic duct into veins
right venous angle
left venous angle
azygos vein
right subclavian vein
right internal jugular vein
PRASHAN: 3
–The thoracic duct is formed by
right jugular duct
left jugular duct
right lumbar lymphatic trunk
left iliac duct
right iliac duct
PRASHAN: 4
–Veins that flow directly into azygos vein
v. thoracica interna
v. lumbalis ascendens sinistra
v. intercostales anteriores
v. intercostales posteriores
v. axillaris
PRASHAN: 5
–If this nerve is damaged, breathing may stop
laryngopharyngeal
vagus
phrenic
accessory
glossopharyngeal
PRASHAN: 6
–The deepest pleural sinus is
diaphragmo-mediastinal
costo-diaphragmatic
costo-mediastinal
T-SERIES
costo-medial
transverse
PRASHAN: 7
–Vertebral veins in the thoracic region are connected to
phrenic veins
 intercostal veins
lumbar veins
esophageal veins
bronchial veins
PRASHAN: 8
–The pulmonary circulation begins and ends
right ventricle, left atrium
left ventricle, right atrium
right atrium, left ventricle
left atrium, right atrium
venous sinus, portal vein
PRASHAN: 9
–The systemic circulation begins and ends
right ventricle, right atrium
left ventricle, right atrium
right atrium, left ventricle
left atrium, right atrium
venous sinus, portal vein
PRASHAN: 10
–If the conduction system of the heart is damaged, it is possible
obesity of the heart cardiac arrest
hypotension
hypertension
myocardial infarction
PRASHAN: 11
–The structural element of lungs where gas exchange between air andbloodoccurs
T-SERIES
lobular bronchus
terminal bronchiole
 segmental bronchus
alveolar sacs
lobar bronchus
PRASHAN: 12
–Hemiazygos vein flows into
superior vena cava
 azygos vein
splenic vein
inferior vena cava
left renal vein
PRASHAN: 13
–Vien that flows into subclavian vein
 internal thoracic vein
intercostal anterior vein
intercostal posterior vein
azygos vein
hemiazygos vein
PRASHAN: 14
–The bronchial tree is formed
respiratory bronchi
 subsegmental bronchi
upper bronchi
anterior bronchi
alveolar duct
PRASHAN: 15
–Acinus is formed by
 respiratory bronchioles
lobular bronchioles
lobar bronchi
main bronchi
segmental bronchi
PRASHAN: 16
T-SERIES
–The diaphragm is supplied with blood from
 arteria thoracica interna
arteria carotis communis
arteria basilaris
arteria vertebralis
arteria iliaca interna
PRASHAN: 17
–In front of esophagus is
 aortic arch
thyroid gland
portal vein
thymus
spinal column
PRASHAN: 18
–Valve of the right atrioventricular opening
aortic
mitral
 tricuspid
pulmonary valve
coronary
PRASHAN: 19
–Part of the trachea adjacent to the thyroid gland
 cervical
head
thoracic
mediastinal
isthmus
PRASHAN: 20
–The act of inhalation occurs due to
 negative pressure in the pleural cavity
positive pressure in the pleural cavity
equal pressure in the pleural cavity and atmosphere
high pressure in the atmosphere
reduced pressure in the atmosphere
T-SERIES
PRASHAN: 21
–The act of exhalation occurs due to
negative pressure in the pleural cavity
 positive pressure in the pleural cavity
equal pressure in the pleural cavity and atmosphere
high pressure in the atmosphere
reduced pressure in the atmosphere
PRASHAN: 22
–Anastomosis between the superior and inferior vena cava
inferior epigastric vein
umbilical veins
sternal epigastric vein
tributaries of the superior and inferior mesenteric veins
 system of azygos and hemiazygos veins
PRASHAN: 23
–The most inferior structure in the right lung hilum
main bronchus
pulmonary artery
venous sinus
 pulmonary vein
nerve plexus
PRASHAN: 24
–The oval fossa is clearly visible
on interventricular septum
between aorta and pulmonary trunk
on interatrial septum on the left
 on interatrial septum on the right side
on the posterior wall of right atrium
PRASHAN: 25
–Purpose of the oval foramen
connects pulmonary trunk to aorta
connects pulmonary trunk to superior vena cava
connects right ventricle with left ventricle
 connects atria in prenatal ontogenesis
T-SERIES
connects pulmonary trunk to inferior vena cava
PRASHAN: 26
–Flows into the left atrium
v. cava superior
aortae
truncus pulmonalis
 vv. pulmonales
v. cava inferior
PRASHAN: 27
–Composition of the acini
segmental bronchi
lobar bronchi
 alveolar sacs
main bronchi
larynx
PRASHAN: 28
–Atrioventricular node is located in
wall of the left atrium
left atrial auricle
 wall of the right atrium
interventricular septum
wall of the right ventricle
PRASHAN: 29
–For surgery on the thoracic part of trachea it is necessary to penetrate themediastinum
posterior
inferior anterior
inferior middle
 superior
middle
PRASHAN: 30
–The inflammatory process in the patient destroyed the tracheal back wall. I
n which organ can the inflammatory process spread to
T-SERIES
thymus gland
submandibular gland
hyoid gland
 esophagus
thyroid gland
PRASHAN: 31
–The patient was brought to the traumatology department with a foreignbody inside the respiratory tract. Which bronchus is it more likely to fall intogiven the anatomical features of the bronchi
 right main bronchus
left main bronchus
segmental bronchus
respiratory bronchioles
terminal bronchioles
PRASHAN: 32
–In case of lung inflammation a disturbance of its respiratory functionoccurs, which is manifested in violation of gas exchange between air and blood. Where does gas exchange take place
 in acinus
in main bronchi
in lobar bronchi
in terminal bronchioles
in segmental bronchi
PRASHAN: 33
–The X-ray examination of the patient with a pleurisy revealed fluid inthepleural cavity. What is the deepest sinus of the pleural cavity where this fluidcan be accumulated?
posterior costo-mediastinal
posterior diaphragmatic-mediastinal
 costo-diaphragmatic
anterior costo-mediastinal
anterior diaphragmatic-mediastinal
PRASHAN: 34
–The patient was admitted to the clinic who was diagnosed with lung tissuerupture. Where will the inhaled air be accumulated?
T-SERIES
 in pleural cavity
in thoracic cavity
in anterior mediastinum
in posterior mediastinum
in pericardial cavity
PRASHAN: 35
–Regulates the heart rhythm contractions
trigeminal nerve
 sympathetic nerve
abducens nerve
accessory nerve
trochlear nerve
PRASHAN: 36
–A medical examiner when studying the heart determined that the coronary sinus of the heart was damaged in the dead person. Where does the heart coronary sinus fall into?
 right atrium
superior vena cava
left atrium
left ventricle
right ventricle
PRASHAN: 37
–Cаvitas pleuralis is
 cavity between visceral and parietal pleura
cavity between visceral and parietal peritoneum
oral cavity
retroperitoneal space
subarachnoid space
PRASHAN: 38
–Coronal sulcus separates
atria
ventricles
 atria and ventricles
atria and atrial auricles
anterior and posterior surfaces
T-SERIES
PRASHAN: 39
–Choose the correct order of the heart wall layers in the direction fromouts
ide to inside
pericardium - endocardium - epicardium - myocardium
epicardium - myocardium - pericardium - endocardium
 pericardium - epicardium - myocardium - endocardium
endocardium - myocardium - epicardium - pericardium
endocardium - pericardium - myocardium - epicardium
PRASHAN: 40
–The heart part with the greatest thickness of the myocardiumright ventricle
 left ventricle
right atrium
left atrium
auricles
PRASHAN: 41
–The order of the main elements of the right lung root in the directionfromtop to bottom
artery, vein, bronchus
vein, artery, bronchus
bronchus, vein, artery
 bronchus, artery, vein
vein, bronchus, artery
PRASHAN: 42
–v. azygos is located
on the front wall of abdomen
in pelvic area
in neck area
in head area
 on the back wall of thoracic cavity
PRASHAN: 43
–The anterior wall of thoracic cavity is supplied by the artery
 internal thoracic
T-SERIES
common carotid
basilar
vertebral
external iliac
 PRASHAN: 44
–The spinal branches depart from the arteries
esophageal
bronchial
pericardial
 posterior intercostal
anterior intercostal
PRASHAN: 45
–Prevents inversion of heart valves
 chordae tendineae
pectineus muscles
conducting system
ileocecal valve
pericardium
PRASHAN: 46
–Puncture of the pleural cavity along the midaxillary line is carried out below
6 rib
5 rib
7 rib
 8 rib
4 rib
PRASHAN: 47
–The outer membrane of the abdominal esophagus
mucous
adventitia
fat
muscle
 serous
PRASHAN: 48
T-SERIES
–The heart auricle is the part of
ventricles
 atria
atrial septum
interventricular septum
conduction system of heart
T-SERIES
PRASHAN: 1
–Renal pyramids are located
 in medulla
in cortex
in kidneys columns
as part of nephron
in sinus
PRASHAN: 2
–Part of duodenum
lateral
gastric
liver
medial
 descending
PRASHAN: 3
–The position of pancreas to peritoneum
intraperitoneally
mesoperitoneal
 extraperitoneally
intraperitoneally with mesentery
different parts in different ways
PRASHAN: 4
–The initial part of the small intestine
sigmoid
cecum
ileum
 duodenum
T-SERIES
rectum
PRASHAN: 5
–The organ from which venous blood flows into portal vein
diaphragm
liver
 stomach
right kidney
left kidney
PRASHAN: 6
–The initial part of colon
 cecum
ileum
duodenum
rectum
sigmoid colon
PRASHAN: 7
–Veins flowing into inferior vena cava
 lumbar and renal
inferior and superior mesenteric
portal and splenic
splenic and renal
superior mesenteric and testicular
PRASHAN: 8
–Ileum opens into
stomach
duodenum
jejunum
T-SERIES
sigmoid colon
 cecum
PRASHAN: 9
–Hepatic veins flow into
inferior mesenteric vein
azygos vein
splenic vein
 inferior vena cava
superior vena cava
PRASHAN: 10
–Feces are formed in
jejunum
duodenum
stomach
ileum
 colon
PRASHAN: 11
–Stomach is covered by
fascia
 peritoneum
capsule
cuticle
pleura
PRASHAN: 12
–Appendix is the process of
 cecum
jejunum
T-SERIES
ileum
duodenum
sigmoid colon
PRASHAN: 13
–The liver surface
anterior
gastric
posterior
 diaphragmatic
mediastinal
PRASHAN: 14
–Liver function
white blood cell formation
bile formation
reservoir
suction
endocrine
PRASHAN: 15
–Pancreas function
suction
white blood cells formation
 insulin production
reservoir
bile formation
PRASHAN: 16
–The stomach parts
body, tail, neck
T-SERIES
fundus, cardiac part, neck, isthmus
fundus, cardiac part, head
 body, fundus, pyloric part, cardiac part
endocrine part
PRASHAN: 17
–In the porta hepatis are
 portal vein, proper hepatic artery, common hepatic duct
portal, superior and inferior vena cava
portal and inferior vena cava
inferior vena cava
celiac trunk, common hepatic duct
PRASHAN: 18
–Liver ligament
oblique ligament
square ligament
wide ligament
arc ligament
 falciform ligament
PRASHAN: 19
–Spleen is located in
left iliac region
 left hypochondrium
epigastrium
umbilical region
right abdomen
PRASHAN: 20
–Gallbladder function
T-SERIES
bile forming
endocrine
hematopoietic
immune
 reservoir
PRASHAN: 21
–Common bile duct opens into
stomach
 duodenum
jejunum
ileum
cecum
PRASHAN: 22
–Intestinal villi are in
transverse colon
 jejunum
stomach
sigmoid colon
rectum
PRASHAN: 23
–Pancreatic duct opens into
upper part of duodenum
 descending part of duodenum
ascending part of duodenum
horizontal part of duodenum
duodenojejunal flexure
PRASHAN: 24
T-SERIES
–Anatomical formation of stomach
major papilla
 pyloric sphincter
hilum
muscle tape
haustra
PRASHAN: 25
–Kidney’s membrane
muscle membrane
 fibrous membrane
protein membrane
adventitia
serous membrane
PRASHAN: 26
–Fixing apparatus of kidney includes
serous membrane
ureter
 renal pedicle
mucous membrane
small calyxes
PRASHAN: 27
–Bile is produced by
gall bladder
 liver
pancreas
spleen
kidney
T-SERIES
PRASHAN: 28
–Kidney’s membrane
peritoneum
muscle membrane
 fat capsule
serous membrane
protein membrane
PRASHAN: 29
–There are in the kidneys’ cortex
pyramids
major calices
 renal corpuscles
pelvis
minor calices
PRASHAN: 30
–There are in the kidneys’ medulla
 pyramids
minor calices
renal sinus
major calices
pelvis
PRASHAN: 31
–It is located in the kidney sinus
nephron
 major calyx
glomerulus
radiant part
T-SERIES
pyramid
PRASHAN: 32
–The lower end of the right kidney is projected at
I lumbar vertebra
II lumbar vertebra
 III lumbar vertebra
IV lumbar vertebra
X thoracic vertebra
PRASHAN: 33
–In the kidney hilum is
ureter
pelvis renalis
calyx renalis minor
calyx renalis major
uretra
PRASHAN: 34
–Vein flowing into liver
pulmonary
 superior vena cava
subclavian
portal
jugular
PRASHAN: 35
–Paired branch of abdominal aorta
radial artery
celiac trunk
superior mesenteric artery
T-SERIES
inferior mesenteric artery
 renal artery
PRASHAN: 36
–Visceral inflow of inferior vena cava
inferior mesenteric vein
azygos vein
splenic vein
 hepatic veins
superior mesenteric vein
PRASHAN: 37
–Inflow of inferior mesenteric vein
ileocolic vein
 superior rectal vein
hepatic vein
right colic vein
inferior rectal vein
PRASHAN: 38
–Inflow of superior mesenteric vein
 right colic vein
meddle rectal vein
left gastroepiploic vein
renal vein
superior rectal vein
PRASHAN: 39
–Tributaries of splenic vein
right and left gastroepiploic veins
inferior and superior phrenic veins
T-SERIES
adrenal veins
 short gastric veins
umbilical veins
PRASHAN: 40
–Parts of pancreas
apex, isthmus, body
 head, body, tail
base, body, fundus
base, neck, body
base, neck, tail
PRASHAN: 41
–On the left side of abdominal cavity is
duodenum
cecum
transverse colon
 descending colon
gallbladder
PRASHAN: 42
–It is located in the right iliac fossa
duodenum
 cecum
transverse colon
ascending colon
sigmoid colon
PRASHAN: 43
–It is located in the left iliac fossa
duodenum
T-SERIES
cecum
transverse colon
ascending colon
 sigmoid colon
PRASHAN: 44
–It enters into the liver hilum
 portal vein
inferior vena cava
superior vena cava
hepatic vein
common hepatic artery
PRASHAN: 45
–Liver is supplied by
 celiac trunk
superior mesenteric artery
inferior mesenteric artery
iliac artery
thoracic aorta
PRASHAN: 46
–Spleen is supplied by
 celiac trunk
superior mesenteric artery
inferior mesenteric artery
iliac artery
thoracic aorta
PRASHAN: 47
–Cecum is supplied by
T-SERIES
celiac trunk
 superior mesenteric artery
inferior mesenteric artery
iliac artery
thoracic aorta
PRASHAN: 48
–Ascending colon is supplied by
celiac trunk
 superior mesenteric artery
inferior mesenteric artery
iliac artery
thoracic aorta
PRASHAN: 49
–Transverse colon is supplied by
celiac trunk
 superior mesenteric artery
inferior mesenteric artery
iliac artery
thoracic aorta
PRASHAN: 50
–Descending colon is supplied by
celiac trunk
superior mesenteric artery
 inferior mesenteric artery
iliac artery
thoracic aorta
PRASHAN: 51
T-SERIES
–Sigmoid colon is supplied by
celiac trunk
superior mesenteric artery
 inferior mesenteric artery
iliac artery
thoracic aorta
PRASHAN: 52
–The upper part of rectum is supplied by
celiac trunk
superior mesenteric artery
 inferior mesenteric artery
iliac artery
thoracic aorta
PRASHAN: 53
–Branches of abdominal aorta
 lumbar arteries
inferior epigastric arteries
urinary arteries
superior diaphragmatic arteries
uterine arteries
PRASHAN: 54
–Branch of celiac trunk
inferior rectal artery
right gastric artery
superior mesenteric artery
 splenic artery
inferior mesenteric artery
T-SERIES
PRASHAN: 55
–Branch of common hepatic artery
right gastroepiploic artery
left gastroepiploic artery
 gastroduodenal artery
left gastric artery
splenic artery
T-SERIES