brain

Question 1

What structure forms during the 3rd and 4th week of embryological development?

Answer 1

The neural tube forms during the 3rd and 4th week of embryological development.

Question 2

What happens to the cranial end of the neural tube during development?

Answer 2

The cranial end of the neural tube bulges and separates into three primary vesicles during development.

Question 3

How many secondary vesicles are eventually produced from the cranial end of the neural tube?

Answer 3

Two of the three primary vesicles divide further, eventually producing five secondary vesicles.

Question 4

What structures do the secondary vesicles at the cranial end give rise to?

Answer 4

The secondary vesicles at the cranial end will give rise to the cerebrum.

Question 5

What structures arise from the vesicle caudal to those forming the cerebrum?

Answer 5

The vesicle caudal to those forming the cerebrum will give rise to the thalamus and hypothalamus.

Question 6

What do the remaining three vesicles eventually form?

Answer 6

The remaining three vesicles will eventually form the brainstem and cerebellum.

Question 7

How many “primary vesicles” does the cranial end of the neural tube separate into?

Answer 7

The cranial end of the neural tube separates into three “primary vesicles”.

Question 8

What happens to two of the primary vesicles during development?

Answer 8

Two of the primary vesicles further sub-divide during development, giving rise to five “secondary vesicles”.

Question 9

What do the walls of these vesicles form?

Answer 9

The walls of these vesicles form specific regions of the brain.

Question 10

What do the fluid-filled cavities within these vesicles form?

Answer 10

The fluid-filled cavities within these vesicles form the ventricles and canals of the brain.

Question 11

What is the largest region of the brain?

Answer 11

The largest region of the brain is the highly folded cerebrum.

Question 12

What is located inferior to the posterior end of the cerebrum?

Answer 12

Inferior to the posterior end of the cerebrum is the cerebellum.

Question 13

What is the name of the stock-like structure that extends from the inferior surface of the brain?

Answer 13

The stock-like structure is the brainstem.

Question 14

What is located at the cranial end of the brainstem?

Answer 14

At the cranial end of the brainstem is the diencephalon.

Question 15

What structures form the walls and ceiling of the diencephalon?

Answer 15

The walls and ceiling of the diencephalon form the thalamus.

Question 16

What structure forms the floor of the diencephalon?

Answer 16

The floor of the diencephalon forms the hypothalamus.

Question 17

What are the three sections of the brainstem?

Answer 17

The three sections of the brainstem are the midbrain, pons, and medulla oblongata.

Question 18

what is the largest potion of the brain?

Answer 18

cerebrum

Question 19

What is the core composition of the cerebrum?

Answer 19

The cerebrum contains a core of white matter surrounded by a layer of highly folded gray matter.

Question 20

What is white matter composed of?

Answer 20

White matter is composed of myelinated axons.

Question 21

What is gray matter composed of?

Answer 21

Gray matter is composed of unmyelinated axons and cell bodies.

Question 22

What are the elevated ridges on the surface of the cerebrum called?

Answer 22

The elevated ridges on the surface of the cerebrum are referred to as gyri.

Question 23

What are the depressions between the gyri called?

Answer 23

The depressions between the gyri are referred to as sulci or fissures.

Question 24

How is the cerebrum divided?

Answer 24

The cerebrum is divided into left and right hemispheres.

Question 25

What separates the left and right hemispheres of the cerebrum?

Answer 25

The left and right hemispheres of the cerebrum are separated by a deep depression called the longitudinal fissure.

Question 26

What is located at the base of the longitudinal fissure?

Answer 26

At the base of the longitudinal fissure is a mass of white matter called the corpus callosum.

Question 27

What structure is located at the “floor” of the longitudinal fissure?

Answer 27

At the “floor” of the longitudinal fissure is the corpus callosum, a mass of transversely running axons that connect the left and right hemispheres.

Question 28

What does the cerebral white matter consist of?

Answer 28

The cerebral white matter consists of several tracts of axons that transmit signals between various portions of the cerebrum.

Question 29

What do association tracts connect?

Answer 29

Association tracts connect regions of the same hemisphere.

Question 30

What do commissural tracts connect?

Answer 30

Commissural tracts connect analogous regions of the two hemispheres, with the largest being the corpus callosum.

Question 31

What do projection tracts carry signals between?

Answer 31

Projection tracts carry signals between the cerebrum and other portions of the brain and spinal cord.

Question 32

What is the function of the corpus callosum?

Answer 32

The corpus callosum is the largest of the commissural tracts whose axons transmit signals between the left and right hemispheres.

Question 33

Besides commissural tracts, what other types of tracts are found in the cerebrum?

Answer 33

In addition to commissural tracts, the cerebrum also contains association tracts whose axons transmit signals between regions of the same hemisphere.

Question 34

What do association tracts do?

Answer 34

Association tracts transmit signals between regions of the same hemisphere.

Question 35

What are projection tracts responsible for?

Answer 35

Projection tracts transmit signals between the cerebrum and other regions of the brain and spinal cord.

Question 36

How is the cerebral grey matter (cortex) divided in each hemisphere?

Answer 36

In each hemisphere, the cerebral grey matter (cortex) is divided into 4 lobes that are separated by prominent sulci.

Question 37

How are the cerebral hemispheres divided into lobes?

Answer 37

The cerebral hemispheres are divided into four lobes by prominent depressions, with their names mirroring the cranial bones superficial to them.

Question 38

Which lobe of the cerebrum lies deep to the frontal bone?

Answer 38

The frontal lobes of the cerebrum lie deep to the frontal bone.

Question 39

Which lobe of the cerebrum lies deep to the parietal bones?

Answer 39

The parietal lobes lie deep to the parietal bones.

Question 40

Which lobe of the cerebrum lies deep to the temporal bones?

Answer 40

The temporal lobes lie deep to the temporal bones.

Question 41

Which lobe of the cerebrum lies deep to the occipital bone?

Answer 41

The occipital lobes lie deep to the occipital bone.

Question 42

What separates the frontal and parietal lobes in each hemisphere?

Answer 42

The frontal and parietal lobes in each hemisphere are separated by the central sulcus.

Question 43

What separates the frontal and temporal lobes in each hemisphere?

Answer 43

The frontal and temporal lobes in each hemisphere are separated by the lateral sulcus.

Question 44

What separates the parietal and occipital lobes in each hemisphere?

Answer 44

The parietal and occipital lobes in each hemisphere are separated by the parietal occipital sulcus.

Question 45

What is the general function associated with the frontal lobe?

Answer 45

The frontal lobe is associated with motor functions and higher functions.

Question 46

What are the major functional areas associated with each lobe of the cerebrum?

Answer 46

The major functional areas associated with each lobe of the cerebrum include motor functions and higher functions in the frontal lobe, and sensory functions in the parietal, temporal, and occipital lobes.

Question 47

What is the general function associated with the parietal, temporal, and occipital lobes?

Answer 47

The parietal, temporal, and occipital lobes are generally associated with sensory functions.

Question 48

What has allowed for the development of a map of functional areas specific to each lobe of the cerebrum?

Answer 48

The relatively constant organization of functional areas between individuals has allowed for the development of a map of functional areas specific to each lobe of the cerebrum.

Question 49

What function is associated with the primary motor area of the frontal lobe?

Answer 49

The primary motor area of the frontal lobe is associated with the initiation of voluntary movements.

Question 50

What is the function of the premotor area in the frontal lobe?

Answer 50

The premotor area in the frontal lobe serves as a “memory bank” of learned movements.

Question 51

What functions are associated with the prefrontal cortex in the frontal lobe?

Answer 51

The prefrontal cortex in the frontal lobe is associated with “higher functions” such as intellect, learning, memory, planning, judgment, personality, and mood.

Question 52

Besides voluntary movements, what other functions are associated with areas in the frontal lobe?

Answer 52

Areas in the frontal lobe are also involved in the articulation of speech and the recognition of olfactory stimuli (odours).

Question 53

What areas are contained within each frontal lobe?

Answer 53

Each frontal lobe contains the primary motor area, pre-motor area, and prefrontal cortex.

Question 54

Where is the primary motor area located within the frontal lobe?

Answer 54

The primary motor area is located in the precentral gyrus, immediately anterior to the central sulcus.

Question 55

What is the function of the primary motor area?

Answer 55

The primary motor area is responsible for initiating voluntary movements

Question 56

What does the motor homunculus represent?

Answer 56

The motor homunculus represents the portions of the cortex responsible for initiating movements in various regions of the body.

Question 57

What is located anterior to the primary motor area?

Answer 57

Anterior to the primary motor area is the premotor area.

Question 58

What is the function of the premotor area?

Answer 58

The premotor area serves as a storage site for learned movements and coordinates activity in the primary motor area to execute complex movements.

Question 59

What is located anterior to the premotor area?

Answer 59

Anterior to the premotor area is the prefrontal cortex.

Question 60

What functions are associated with the prefrontal cortex?

Answer 60

The prefrontal cortex contains areas associated with higher functions such as intellect, memory, and personality.

Question 61

What areas are contained within each parietal lobe?

Answer 61

Each parietal lobe contains the primary somatosensory area and the common integrative area.

Question 62

Where is the primary somatosensory area located within the parietal lobe?

Answer 62

The primary somatosensory area is located in the postcentral gyrus, immediately posterior to the central sulcus.

Question 63

What is the function of the primary somatosensory area?

Answer 63

The primary somatosensory area is responsible for the perception of somatic sensations.

Question 64

Somatic senses

Answer 64

also known as bodily senses, are the senses that allow us to perceive the physical world through touch, taste, smell, sight, and hearing.

Question 65

What does the sensory homunculus represent?

Answer 65

The sensory homunculus represents the portions of the cortex responsible for receiving somatosensory input from various regions of the body.

Question 66

What is located posterior to the primary somatosensory area?

Answer 66

The common integrative area is located posterior to the primary somatosensory area.

Question 67

What is the function of the common integrative area?

Answer 67

The common integrative area receives and integrates information related to a variety of sensory inputs from the parietal, temporal, and occipital lobes.

Question 68

What areas are contained within each parietal lobe?

Answer 68

Each parietal lobe contains the primary somatosensory area and the common integrative area.

Question 69

Where is the primary somatosensory area located within the parietal lobe?

Answer 69

The primary somatosensory area is located in the postcentral gyrus, immediately posterior to the central sulcus.

Question 70

What does the sensory homunculus represent?

Answer 70

The sensory homunculus represents the portions of the cortex responsible for receiving somatosensory input from various regions of the body.

Question 70

What is the function of the primary somatosensory area?

Answer 70

The primary somatosensory area is responsible for the perception of somatic sensations.

Question 71

What is located posterior to the primary somatosensory area?

Answer 71

The common integrative area is located posterior to the primary somatosensory area.

Question 72

What is the function of the common integrative area?

Answer 72

receives and integrates information related to a variety of sensory inputs from the parietal, temporal, and occipital lobes.

Question 73

What areas are contained within each temporal lobe?

Answer 73

Each temporal lobe contains the primary auditory area and the primary olfactory area.

Question 74

What is the function of the primary auditory area?

Answer 74

The primary auditory area is responsible for the perception of auditory sensations.

Question 75

What is the function of the primary olfactory area?

Answer 75

perception of olfactory sensations.

Question 76

Besides auditory and olfactory sensations, what other functions are associated with areas in the temporal lobe?

Answer 76

Areas in the temporal lobe are also involved in the recognition of auditory stimuli and the recognition of faces.

Question 77

what is the occipital lobe responsible for?

Answer 77

primary visual area. The perception of visual sensations and recognition of visual stimuli.

Question 78

How does the structure of the cerebellum resemble that of the cerebrum?

Answer 78

The cerebellum, like the cerebrum, is separated into left and right hemispheres and contains a core of white matter surrounded by a layer of highly folded gray matter.

Question 79

What are the main functions of the cerebellum?

Answer 79

refines voluntary movements.

It helps coordinate complicated movements.

It helps us keep our balance and posture steady.

It regulates how tense or relaxed our muscles are.

Question 80

What is the cerebellum’s role in regulating muscle tone?

Answer 80

The cerebellum regulates muscle tone, which is a muscle’s resistance to passive stretch.

Question 81

How does the size of the cerebellum compare to other brain structures?

Answer 81

The cerebellum is the second largest portion of the brain.

Question 82

How is the cerebellum structured internally?

Answer 82

Like the cerebrum, the cerebellum is divided into left and right hemispheres and has a superficial layer of grey matter (cerebellar cortex) surrounding a core of white matter.

Question 83

What is the name of the superficial layer of grey matter in the cerebellum?

Answer 83

The superficial layer of grey matter in the cerebellum is called the cerebellar cortex.

Question 84

What is the main function of the thalamus?

Answer 84

The main function of the thalamus is to serve as the switchboard for incoming sensory signals destined for the cerebrum.

Question 85

How does the thalamus function as a switchboard for sensory signals?

Answer 85

Signals from various sensory receptors are transmitted to the thalamus, whose nuclei then relay them to the appropriate areas of the cerebrum.

Question 86

Can you provide an example of how the thalamus relays sensory signals to the cerebrum?

Answer 86

For example,

signals from visual receptors in the eye are transmitted to the thalamus, which then relays them to the primary visual area in the occipital lobe.

Similarly, signals from somatosensory receptors in the skin and muscles are transmitted to the thalamus, which then relays them to the primary somatosensory area in the parietal lobe.

Question 87

What is the composition of the thalamus?

Answer 87

The thalamus is composed of a mass of nuclei (grey matter) and tracts (white matter) located in the walls of the diencephalon.

Question 88

What are the major functions of the thalamus?

Answer 88

The major functions of the thalamus include relaying sensory impulses from the spinal cord, brain stem, and cerebellum to the cerebral cortex, and helping maintain consciousness.

Question 89

What structure forms the floor of the diencephalon?

Answer 89

The hypothalamus forms the floor of the diencephalon.

Question 90

How is the hypothalamus connected to the pituitary gland?

Answer 90

The hypothalamus is connected to the pituitary gland via a narrow stalk called the infundibulum.

Question 91

What role does the hypothalamus play in relation to the pituitary gland?

Answer 91

The hypothalamus regulates the release of hormones from the pituitary gland.

Question 92

what role does the hypothalamus play in regards to the autonomic nervous system?

Answer 92

regulates activity in the autonomic nervous system (ANS)

Question 93

what are some other functions of the hypothalamus?

Answer 93

regulates emotions, behaviour, hunger, thirst, and body temperature.

Question 94

What is the cranial portion of the brainstem called?

Answer 94

midbrain

Question 95

what is the function of the nuclei in the midbrain?

Answer 95

initiates reflexive movement in response to visual and auditory stimuli.

Question 96

Can you provide an example of a reflexive movement initiated by nuclei in the midbrain?

Answer 96

For example, if a bright light appears in your peripheral vision on one side, or a loud sound is detected on one side, the nuclei in the midbrain will initiate a reflexive head rotation to that side without any conscious input from the cerebrum.

Question 97

What is the major function of the midbrain?

Answer 97

The midbrain generates motor reflex responses to visual and auditory stimuli and assists in the control of voluntary movements.

Question 98

Where are the nuclei and tracts of the midbrain located?

Answer 98

The nuclei and tracts of the midbrain are located at the cranial end of the brainstem.

Question 99

What is located caudal to the midbrain?

Answer 99

Caudal to the midbrain is the pons.

Question 100

What function does the pons serve in relation to the cerebrum and cerebellum?

Answer 100

The pons relays signals from the cerebrum to the cerebellum.

Question 101

What is the group of nuclei in the pons responsible for?

Answer 101

regulating breathing

Question 102

What is the the respiratory center?

Answer 102

group of nuclei in the pons responsible for regulating breathing

Question 103

Where is the pons located within the brainstem?

Answer 103

The pons is located in the middle of the brainstem.

Question 104

What are the major functions of the pons?

Answer 104

relaying motor signals from the cerebral cortex to the cerebellum and helping control breathing.

Question 105

What structure is located caudal to the pons?

Answer 105

the medulla oblongata.

Question 106

What is the function of the cardiovascular center in the medulla oblongata?

Answer 106

he cardiovascular center in the medulla oblongata regulates cardiovascular function.

Question 107

What sensory signals does the medulla oblongata relay from the spinal cord to the thalamus?

Answer 107

The medulla oblongata relays certain somatosensory signals from the spinal cord to the thalamus.

Question 108

Where is the medulla oblongata located within the brainstem?

Answer 108

The medulla oblongata is a funnel-shaped mass of nuclei and tracts located at the caudal end of the brainstem that is continuous with the spinal cord.

Question 109

What are the major functions of the medulla oblongata?

Answer 109

helping control breathing, heart rate, and blood vessel diameter, as well as controlling reflexes related to swallowing, sneezing, coughing, and vomiting.

Question 110

What additional components are found in each part of the brainstem?

Answer 110

In addition to specific functions, each part of the brainstem contains nuclei that give rise to specific cranial nerves

Question 111

What other structures are present in each part of the brainstem?

Answer 111

Each part of the brainstem contains sensory and motor tracts that carry signals between the brain and spinal cord.

Question 112

What is the function of the blood-brain barrier?

Answer 112

The blood-brain barrier protects the brain from bloodborne pathogens and toxins by regulating the passage of substances into the brain tissue.

Question 113

How is the blood-brain barrier formed and maintained?

Answer 113

The blood-brain barrier is formed and maintained by tight junctions between the endothelial cells of the blood vessels and processes extending out from astrocytes that wrap around the blood vessels.

Question 114

what are endothelial cells?

Answer 114

Endothelial cells are a type of cell that lines the inner surface of blood vessels.

Question 115

What substances are allowed free passage through the blood-brain barrier?

Answer 115

Some substances that are allowed free passage through the blood-brain barrier include oxygen, glucose, and alcohol.

Question 116

What challenge does the blood-brain barrier present in drug delivery?

Answer 116

The blood-brain barrier presents a challenge in the delivery of certain drugs to the brain, requiring some drugs to be modified to allow them to pass through the barrier.

Question 117

Blood-Brain Barrier

Answer 117

A special barrier is present around the vessels that carry blood to the brain

Question 118

How do the brain and spinal cord develop?

Answer 118

The brain and spinal cord develop from the neural tube, which contains a fluid-filled cavity.

Question 119

What structures develop from the neural tube cavity as different regions of the brain form?

Answer 119

Portions of the neural tube cavity expand and develop into chambers within the brain called ventricles.

Question 120

Where are the lateral ventricles located?

Answer 120

The lateral ventricles form within the cerebral hemispheres.

Question 121

Where does the third ventricle form?

Answer 121

The third ventricle forms within the diencephalon.

Question 122

Where does the fourth ventricle form?

Answer 122

The fourth ventricle forms between the brainstem and cerebellum.

Question 123

How are the ventricles connected to each other?

Answer 123

The ventricles are connected to each other via a series of canals.

Question 124

What is the fourth ventricle continuous with inferiorly?

Answer 124

The fourth ventricle is continuous inferiorly with the central canal of the spinal cord.

Question 125

What type of cells line the ventricles?

Answer 125

Ependymal cells line the ventricles.

Question 126

What is the function of ependymal cells in the ventricles?

Answer 126

Ependymal cells produce cerebrospinal fluid (CSF).

Question 127

What are some functions of cerebrospinal fluid (CSF)?

Answer 127

Functions of CSF include physically supporting the brain in space, acting as a cushion for nervous tissue, maintaining the ionic environment, and transporting and exchanging nutrients and wastes.

Question 128

What are the three layers of connective tissue that surround the brain and spinal cord?

Answer 128

The three layers are the dura mater, arachnoid mater, and pia mater.

Question 129

Describe the characteristics of the dura mater.

Answer 129

The dura mater is a tough, fibrous outer layer.

Question 130

What is the composition of the arachnoid mater?

Answer 130

The arachnoid mater is a mesh-like middle layer.

Question 131

What is the characteristic of the pia mater?

Answer 131

The pia mater is a thin inner layer that is firmly bound to the underlying nervous tissue.

Question 132

What functions do the meninges serve?

Answer 132

The meninges provide physical stability and shock absorption to the brain and spinal cord.

Question 133

How do the meninges relate to the spinal and cranial nerves?

Answer 133

The meninges extend out and are continuous with the epineurium of the emerging spinal and cranial nerves.

Question 134

What is the epineurium?

Answer 134

The epineurium is the outermost layer of connective tissue that surrounds entire nerves, providing protection and support.

Question 135

Describe the structure of the dura mater in the brain.

Answer 135

the dura mater has an outer layer fused to cranial bones and an inner layer attached to the arachnoid mater. Spaces between layers contain venous sinuses, draining blood from the brain.

Question 136

What are the inward extensions of the dura mater in the cranial cavity?

Answer 136

The inward extensions include the falx cerebri, which separates the cerebral hemispheres; the falx cerebelli, which separates the cerebellar hemispheres; and the tentorium cerebelli, which separates the cerebrum and cerebellum.

Question 137

What are the inward extensions of the dura mater used to separate within the brain?

Answer 137

The inward extensions of the dura mater physically separate the cerebrum and cerebellum, as well as the left and right hemispheres of these regions.

Question 138

What is the space between the arachnoid mater and pia mater called?

Answer 138

The space between the arachnoid mater and pia mater is called the subarachnoid space.

Question 139

Why is it clinically important that the meninges extend the entire length of the vertebral canal?

Answer 139

The meninges extending the entire length of the vertebral canal is clinically important because it allows for the testing of cerebral spinal fluid when infection or inflammation in the brain or meninges is suspected.

Question 140

How is cerebral spinal fluid obtained for testing without risking damage to the spinal cord?

Answer 140

Cerebral spinal fluid is obtained for testing by inserting a needle into the vertebral canal in the lower lumbar region. This procedure, known as a lumbar puncture or spinal tap, draws CSF from the canal.