12 Anterior lobe of cerebellum
13 Posterior lobe of cerebellum
Frontal section of head at anterior aspect of auricle
The brain sections on this and the following page depict aspects of brain anatomy
that are not evident on the external views of the brain, and the association of the
brain with surrounding structures of the head. Each section is approximately 2
16 Superior cerebellar peduncle
the ear and the last section is just posterior to the ear.
Frontal section of head through
Frontal section of head just postrior to auricle
Sagittal section of braining revealing the ventricular system
Medial view, arrows show path of cerebrospinal fluid
Developmentally the entire central nervous system forms from the
hollow neural tube. As development proceeds and the wall of the
neural tube becomes increasingly thicker, the hollow lumen of the tube
Dissection of cranial and spinal dura mater
Dura removed to expose leptomeninges
Within the cranium and vertebral column, the meninges form a protective encasement for the
tissue of the brain and spinal cord. There are three meningeal membranes, the tough outer
connective tissue pachymenix, the dura mater, and the epithelial inner leptomeninges, the
Dural sac (above), Leptomeninges (below)
4 Cranial leptomeninges - arachnoid is superficial to and covering pia mater
5 Spinal leptomeninges - arachnoid is superficial to and covering pia mater
6 Middle meningeal artery and branches in dura mater
7 Superficial middle cerebral vein and tributaries in subarachnoid space
Head frontal section revealing dural septa
system, the endocrine system is a control system within the
body. Th e nervous system administers its control over the
body tissues via long wirelike cells that originate form
complex circuits in the central nervous system. Th is
circuitry receives sensory input, processes this input,
and generates regulatory output. Endocrine control
works in a much diff erent fashion. Th e endocrine
system consists of a number of diff erent glands
that function like radio transmitting stations.
Just as different radio stations send radio
signals of diff erent wavelengths into the air,
endocrine glands distribute diff erent types of
small molecules called hormones throughout
the body via the circulatory system. Th ese
small molecules travel through the blood
stream and are detected by eff ector organs in
diff erent parts of the body, much like radio
waves are detected by radios in diff erent
parts of a city. Eff ector organs have receptor
sites that are specifi c to specifi c hormones.
Th is results in a “lock and key” function at the
eff ector cell. When the hormone binds to the
receptor site, it initiates a regulatory eff ect on
Because the hormones are distributed by the
circulatory system, the speed of endocrine
regulation is slower than that of nervous regulation, many minutes compared to milliseconds.
Also, because of the distribution of the hormones
via the circulatory system, endocrine eff ects can
be experienced anywhere there are cells with the
appropriate receptor site. In comparison to the
nervous system, endocrine distribution is potentially
very widespread. Because the hormone can lock into
the receptor site and not be degraded instantly, the
duration can be longer lasting than that initiated by a single
The hypothalamus occupies the area of the brain
between the third ventricle and the subthalamus. It is
a major intersection between the thalamus, cerebral
cortex, and ascending fi ber systems from the spinal cord and brainstem. It is the control center
of the autonomic nervous system and regulates the function of numerous endocrine glands. The
posterior pituitary gland, or neurohypophysis, is an outgrowth of the hypothalamus. Many
factors infl uence the hypothalamus and dictate its controlling infl uence over tissues in the body.
These factors include the nervous input that enters it, temperature, osmotic pressure, and levels
of hormones in the circulating blood that pass through its capillaries.
Photomicrograph of anterior pituitary
6 Capillary with red blood cells
Sagittal section of head and neck with enlarged callout of pituitary gland
The pituitary gland, or hypophysis, “hangs” from the base
of the brain via a connecting stalk, the infundibulum,
which connects it to the hypothalamus. The infundibulum
gland. In addition to this nervous pathway between the hypothalamus and the pituitary, numerous
link with the hypothalamus via the small blood vessels that pass between the two regions.
Photomicrograph of posterior pituitary
No comments:
Post a Comment
اكتب تعليق حول الموضوع