Option A: CMI
Option B: Phagocytosis
Option C: Opsonization
Option D: Antibody formation
Correct Answer: Antibody formation ✔
Click for More Details
Option A: Thalassemia
Option B: Methotrexate therapy
Option C: Obstructive jaundice
Option D: Sickle cell anemia
Correct Answer: Obstructive jaundice ✔
Click for More Details
Option A: Birth
Option B: End of 1st year
Option C: Puberty
Option D: 4 years
Correct Answer: End of 1st year ✔
Click for More Details
Option A: 5-7 sec
Option B: 10-20 sec
Option C: 30 sec
Option D: 1 min
Correct Answer: 10-20 sec ✔
Click for More Details
Option A: PR erythroblast
Option B: Norm oblast
Option C: Reticulocyte
Option D: Myeloblast
Correct Answer: Myeloblast ✔
Click for More Details
Option A: Neutrophil
Option B: Eosinophil
Option C: Basophil
Option D: Lymphocyte
Correct Answer: Eosinophil ✔
Click for More Details
Option A: Positive
Option B: Negative
Option C: AB positive
Option D: AB negative
Correct Answer: Negative ✔
Click for More Details
Option A: 40% neutrophils
Option B: 30% lymphocytes
Option C: 20% eosinophils
Option D: 10% basophils
Correct Answer: 30% lymphocytes ✔
Click for More Details
Option A: Allergic conditions
Option B: Anemia
Option C: Polycythemia
Option D: Typhoid fever
Correct Answer: Allergic conditions ✔
Click for More Details
Option A: Total osmotic pressure
Option B: Colloid osmotic pressure
Option C: Chloride ion concentrations
Option D: Potassium ion concentrations
Correct Answer: Total osmotic pressure ✔
Click for More Details
Option A: Factor II
Option B: Factor VII
Option C: Factor IX
Option D: Factor XI
Correct Answer: Factor XI ✔
Click for More Details
Option A: Positive donor
Option B: B negative donor
Option C: AB positive donor
Option D: A negative donor
Correct Answer: A negative donor ✔
Click for More Details
Option A: Human thrombin
Option B: Heparin
Option C: Ferric chloride
Option D: Vit- K
Correct Answer: Heparin ✔
Click for More Details
Option A: Potassium
Option B: Phosphate
Option C: Carbonic acid
Option D: Chloride ion
Correct Answer: Chloride ion ✔
Click for More Details
Option A: Thrombin formation
Option B: Prothrombin formation
Option C: Fibrin formation
Option D: Thromboplastin formation
Correct Answer: Prothrombin formation ✔
Click for More Details
Option A: Hemolytic reaction
Option B: Remission of disease
Option C: Hypokalemia
Option D: Metabolic acidosis
Correct Answer: Hemolytic reaction ✔
Click for More Details
Option A: Lymphocytes
Option B: Mast cells
Option C: Neutrophils
Option D: Erythrocytes
Correct Answer: Mast cells ✔
Click for More Details
Option A: Dilute with equal volume of 0.9% saline
Option B: Add solution of sodium citrate
Option C: Add solution of calcium chloride
Option D: Add fibrinogen
Correct Answer: Add solution of sodium citrate ✔
Click for More Details
Option A: Megakaryocytes
Option B: Norm oblasts
Option C: Myelocytes
Option D: Macrocytes
Correct Answer: Norm oblasts ✔
Click for More Details
Option A: Partial thromboplastin time ( PTT)
Option B: Prothrombin time (PT)
Option C: Bleeding time (BT)
Option D: Capillary fragility test (CFT)
Correct Answer: Prothrombin time (PT) ✔
Click for More Details
Option A: Impairment of both sensory and motor function
Option B: Wallerian degeneration
Option C: Intact neural sheath is not present
Option D: Reversible loss, which will be regenerated i 6-8 wks
Correct Answer: Intact neural sheath is not present ✔
Click for More Details
Option A: Word formation
Option B: Comprehends language not speaking
Option C: Present in posterior part of temporal lobe
Option D: Is the confluence of somatic , auditory and visceral areas
Correct Answer: Word formation ✔
Click for More Details
Option A: They cross Blood Brain Barriers
Option B: They are acidic precursors of Brain amines
Option C: They act as neuromodulators
Option D: They are metabolites of various neurogentic amines .
Correct Answer: They cross Blood Brain Barriers ✔
Click for More Details
Option A: Corticospinal tract
Option B: Corticocerebral tract
Option C: Lateral spinothalamic tract
Option D: Ventral spinothalamic tract
Correct Answer: Lateral spinothalamic tract ✔
Click for More Details
Option A: Glutamate
Option B: GABA
Option C: Aspartic acid
Option D: Lysin
Correct Answer: GABA ✔
Click for More Details
Option A: decreases
Option B: Remains constant
Option C: Increases
Option D: Increases then decreases
Correct Answer: Remains constant ✔
Click for More Details
Option A: Vagus nerve
Option B: Facial nerve
Option C: Trigeminal nerve
Option D: Glossopharyngeal nerve
Correct Answer: Trigeminal nerve ✔
Click for More Details
Option A: Reticulospinal
Option B: Corticospinal
Option C: Rubrospinal
Option D: Vestibulospinal
Correct Answer: Corticospinal ✔
Click for More Details
Option A: Gap junctions
Option B: Tight junctions
Option C: Anchoring junctions
Option D: Focal junctions
Correct Answer: Gap junctions ✔
Click for More Details
Option A: Parasympathetic nerves
Option B: Sympathetic nerves
Option C: Sensory nerves
Option D: Motor nerves
Correct Answer: Sympathetic nerves ✔
Click for More Details
Option A: Nerve
Option B: Skin
Option C: Cardiac muscle
Option D: None of the above
Correct Answer: Nerve ✔
Click for More Details
Option A: Deuteranopia
Option B: Protanopia
Option C: Protanomaly
Option D: Deuteranomaly
Correct Answer: Protanopia ✔
Click for More Details
Option A: Serotonin
Option B: Substance P
Option C: Histamine
Option D: Acetyl choline
Correct Answer: Substance P ✔
Click for More Details
Option A: Astrocytes
Option B: Schwann cells
Option C: Microglia
Option D: Oligocytes
Correct Answer: Microglia ✔
Click for More Details
Option A: Neuronal inhibition
Option B: Neuronal activation
Option C: Glial cell inhibition
Option D: Glial cell activation
Correct Answer: Neuronal inhibition ✔
Click for More Details
Option A: Motor areas of cerebral cortex
Option B: Anterior hypothalamus
Option C: Pathways for recurrent collateral inhibition in the spinal cord
Option D: Basal ganglia complex
Correct Answer: Basal ganglia complex ✔
Click for More Details
Option A: The romberg’s sign is positive
Option B: There is adiodokokinesia
Option C: There is pendular knee jerk
Option D: There is involuntary termor
Correct Answer: There is pendular knee jerk ✔
Click for More Details
Option A: Touch
Option B: Vibration sense
Option C: Muscle sense
Option D: Temperature
Correct Answer: Temperature ✔
Click for More Details
Option A: Schwan cell mitosis
Option B: Axonal sprouting
Option C: Myelin sheath degeneration
Option D: Nuclear disintegration
Correct Answer: Myelin sheath degeneration ✔
Click for More Details
Option A: Nuclear bag intrafusal fibers
Option B: Nuclear chain
Option C: Golgi tendon organ
Option D: Pacinium corpuscles
Correct Answer: Nuclear bag intrafusal fibers ✔
Click for More Details
Option A: Postural position
Option B: Covering of the body
Option C: Peripheral vasoconstriction
Option D: all of the above
Correct Answer: all of the above ✔
Click for More Details
Option A: Disintegrating of Nucleus
Option B: Disintegration of golgi apparatus
Option C: Disappearance of nissel granules
Option D: Decrease in cell size
Correct Answer: Disappearance of nissel granules ✔
Click for More Details
Option A: Schwann cells
Option B: Astrocytes
Option C: Oligodendrocytes
Option D: Microglia
Correct Answer: Oligodendrocytes ✔
Click for More Details
Option A: Cerebrum
Option B: Medulla oblongata
Option C: Hypothalamus
Option D: Cerebellum
Correct Answer: Medulla oblongata ✔
Click for More Details
Option A: Superior colliculus
Option B: Frontal eye field
Option C: Cerebellum
Option D: Visual cortex area
Correct Answer: Cerebellum ✔
Click for More Details
Option A: Lateral walls
Option B: Nasal septum
Option C: Lateral wall and nasal septum above superior concha
Option D: None of the above
Correct Answer: Lateral wall and nasal septum above superior concha ✔
Click for More Details
Option A: Midbrain
Option B: Cerebrum
Option C: Hypothalamus
Option D: Pons
Correct Answer: Hypothalamus ✔
Click for More Details
Option A: Intrafusal fibers of the muscle spindle
Option B: Golgi tendon apparatus
Option C: Autoonomic preganglionic fibers
Option D: Spinothalamic tracts
Correct Answer: Autoonomic preganglionic fibers ✔
Click for More Details
Option A: Medulla
Option B: Precentral gyrus
Option C: Diencephalon
Option D: Hypothalamus
Correct Answer: Hypothalamus ✔
Click for More Details
Option A: Babinsky test
Option B: Chvostek test
Option C: Finger – nose test
Option D: Weber’s test
Correct Answer: D. Weber’s test ✔
Click for More Details
Option A: Trigeminal nerve ganglion
Option B: Geniculate ganglion
Option C: Otic ganglion
Option D: Superior cervical ganglion
Correct Answer: Geniculate ganglion ✔
Click for More Details
Option A: Hypothalamus
Option B: Stria nigra
Option C: Frontal lobe
Option D: Temporal lobe
Correct Answer: Hypothalamus ✔
Click for More Details
Option A: A-alpha fibers
Option B: A-beta fibers
Option C: A-gamma fibers
Option D: A-delta fibers
Correct Answer: A-delta fibers ✔
Click for More Details
Option A: Constriction of pupil
Option B: Dilatation of pupil
Option C: Convergence of eye ball
Option D: Increase in the anterior curvature of lens
Correct Answer: Dilatation of pupil ✔
Click for More Details
Option A: Jaw opening reflex
Option B: Jaw clenching reflex
Option C: Jaw gnashing reflex
Option D: None of the above
Correct Answer: Jaw opening reflex ✔
Click for More Details
In nerve , the magnitude of the action potential overshoot is normally a function of the__________?
Option A: Magnitude of the stimulus
Option B: Intracellular potassium concentration
Option C: extracellular sodium concentration
Option D: resting membrane potential
Correct Answer: extracellular sodium concentration ✔
Click for More Details
Option A: Has dense Nissl grandules
Option B: Has no Nissl granules
Option C: Is at commencement of dendrites
Option D: Is round in shape
Correct Answer: Has no Nissl granules ✔
Click for More Details
Option A: Subfornical region
Option B: Habenuclear trigone
Option C: Area posterma
Option D: Neurohypophysis
Correct Answer: Habenuclear trigone ✔
Click for More Details
Option A: Thalamus
Option B: Area 3,1,2
Option C: Areas 5,7
Option D: Pulvinar
Correct Answer: Area 3,1,2 ✔
Click for More Details
Option A: Loss of function of Thalamus
Option B: Loss of function of Hypothalamus
Option C: Loss of function of cerebellum
Option D: Loss of function of Basal ganglia
Correct Answer: Loss of function of cerebellum ✔
Click for More Details
Option A: Neurolemma
Option B: Perineurium
Option C: Axolemma
Option D: Myelin sheath
Correct Answer: Perineurium ✔
Click for More Details
Option A: More than 14 cycles per second
Option B: Between 8 and 13 cycles per second
Option C: Less than 3.5 cycles per second
Option D: Between 4 and 7 cycles per second
Correct Answer: Less than 3.5 cycles per second ✔
Click for More Details
Option A: Pacinian corpuscles
Option B: End organs of Ruffini
Option C: End bulbs of Krause
Option D: Free nerve endings
Correct Answer: Free nerve endings ✔
Click for More Details
Option A: Sweating
Option B: Vasodilatation
Option C: Decrease heat production
Option D: Non- shivering thermogenesis
Correct Answer: Vasodilatation ✔
Click for More Details
Option A: Tactile sensation
Option B: Melanophage
Option C: Chemoreceptor
Option D: Proprioception
Correct Answer: Tactile sensation ✔
Click for More Details
Option A: Parasympathetic stimulation
Option B: Sympathetic stimulation
Option C: CNS stimulation
Option D: sensory stimulation
Correct Answer: Parasympathetic stimulation ✔
Click for More Details
Option A: Diopters
Option B: Daltons
Option C: Decibels
Option D: Pounds
Correct Answer: Decibels ✔
Click for More Details
Option A: Pressure
Option B: Pain
Option C: Touch
Option D: Temperature
Correct Answer: Pressure ✔
Click for More Details
Option A: -70 mv
Option B: -90 mv
Option C: -55 mv
Option D: + 35 mv
Correct Answer: -70 mv ✔
Click for More Details
Option A: Arteriolar constriction
Option B: Ciliary muscle contraction
Option C: Sweat secretion
Option D: All of the above
Correct Answer: All of the above ✔
Click for More Details
Option A: Gastric dilatation
Option B: Blood glucose levels
Option C: Blood insulin levels
Option D: All of the above
Correct Answer: Blood glucose levels ✔
Click for More Details
Option A: MIdbrain
Option B: Pons
Option C: Medulla
Option D: Cerebellum
Correct Answer: Medulla ✔
Click for More Details
Option A: Proximal cut end of nerve with cell body
Option B: Distal cut end of nerve without cell body
Option C: Both the free ends of the cut nerve
Option D: All are true
Correct Answer: Distal cut end of nerve without cell body ✔
Click for More Details
Option A: Myelin degeneration
Option B: Axonal degeneration
Option C: Mitosis of schwann cell
Option D: Sprouting
Correct Answer: Axonal degeneration ✔
Click for More Details
Option A: Dopamine
Option B: GABA
Option C: Acetyl choline
Option D: Nor epinephrine
Correct Answer: Dopamine ✔
Click for More Details
Option A: Near sightedness
Option B: Far sightedness
Option C: Constriction of the pupil
Option D: Dilation of the pupil
Correct Answer: Near sightedness ✔
Click for More Details
Option A: Broca’s area
Option B: Sensory area
Option C: Primary motor area
Option D: Visual area
Correct Answer: A. Broca’s area ✔
Click for More Details
Option A: fibers
Option B: fibers
Option C: Parasympathetic fibers
Option D: Sympathetic fibers
Correct Answer: fibers ✔
Click for More Details
Option A: Proprioceptors
Option B: Nociceptors
Option C: Exteroceptors
Option D: Chemo receptors
Correct Answer: Proprioceptors ✔
Click for More Details
Option A: Have increased excitability
Option B: Have to nodes of Ranvier
Option C: Have no power of regeneration
Option D: Have no association of Schwann cells
Correct Answer: Have to nodes of Ranvier ✔
Click for More Details
Option A: Basal ganglia
Option B: Pain pathway
Option C: Pyramidal tract
Option D: Parathyroid gland
Correct Answer: Basal ganglia ✔
Click for More Details
Option A: Impulse through myelinated fibers is slower than non- myelinated fibers
Option B: Membrane currents are generated at nodes of Ranvier
Option C: Saltatory conduction of impulses is seen
Option D: Local anesthesia is effective only when the nerve is not covered by myelin sheath
Correct Answer: Impulse through myelinated fibers is slower than non- myelinated fibers ✔
Click for More Details
Option A: Hypotonia
Option B: Tremor
Option C: Hemiballismus
Option D: Athetosis
Correct Answer: Hypotonia ✔
Click for More Details
Option A: Corticospinal tract
Option B: Corticobulbar tract
Option C: Lateral spinothalamic tract
Option D: Ventral spinothalamic tract
Correct Answer: Lateral spinothalamic tract ✔
Click for More Details
Option A: Somatic only
Option B: Parasympathetic
Option C: Sympathetic
Option D: Cholinergic
Correct Answer: Cholinergic ✔
Click for More Details
Option A: Medulla oblongata
Option B: Spinal cord
Option C: Midbrain
Option D: Hypothalamus
Correct Answer: Medulla oblongata ✔
Click for More Details
Option A: Spino thalmamic tract
Option B: Dorsal column
Option C: Corticospinal tract
Option D: Spinocerebellar tract
Correct Answer: Spino thalmamic tract ✔
Click for More Details
Option A: A-alpha fibers
Option B: A-beta fibers
Option C: A-gamma fibers
Option D: A-delta fibers
Correct Answer: A-delta fibers ✔
Click for More Details
Option A: Increase in heart rate
Option B: Decreased vagal discharge
Option C: Increased sympathetic discharge
Option D: Decrease in blood pressure
Correct Answer: Decrease in blood pressure ✔
Click for More Details
Option A: Due to closure of semilunar valves
Option B: Is occasionally split
Option C: Has longer duration than 1st heart sound
Option D: Marks the onset of diastole
Correct Answer: Has longer duration than 1st heart sound ✔
Click for More Details
Option A: Act as syncytium
Option B: Has multiple nuclei
Option C: Has gap junctions
Option D: Has branching
Correct Answer: Has multiple nuclei ✔
Click for More Details
Option A: AV Valve closes
Option B: When ventricular pressure falls below aortic pressure
Option C: When ventricular pressure falls below atrial pressure
Option D: None of the above
Correct Answer: When ventricular pressure falls below atrial pressure ✔
Click for More Details
Option A: Purkinje system
Option B: Bundle of HIS
Option C: Right and left bundle branches
Option D: AV node
Correct Answer: Purkinje system ✔
Click for More Details
Option A: Arteries
Option B: Arterioles
Option C: Capillaries
Option D: Venules
Correct Answer: Arterioles ✔
Click for More Details
Option A: Chronotropic effect
Option B: Dromotropic effect
Option C: Bathmotropic
Option D: Ionotropic effect
Correct Answer: Ionotropic effect ✔
Click for More Details
Option A: Liver
Option B: Brain
Option C: Kidney
Option D: Heart
Correct Answer: Liver ✔
Click for More Details
Option A: 0.7 seconds
Option B: 0.3 seconds
Option C: 0.7 seconds
Option D: 0.4 seconds
Correct Answer: 0.4 seconds ✔
Click for More Details