A&P1_Nrvs_Sys_Lab A&P I_Syllabus
The following are structures located on the models available in the A&P Labs. (2 pages)
| Motor Unit Model (motor neuron) | Spinal Cord Section Model (Denoyer Geppert - with colored neurons) |
| axon terminal | 1. posterior white column |
| synaptic end bulb | 2. lateral white column [columns contain ascending (sensory) and descending (motor) tracts] |
| myelin sheath | 3. anterior white column |
| node of Ranvier | 5. posterior gray horn |
| Neuron Model (Somso - Ward's Nat Sci Co.) | 6. lateral gray horn (only in segments T1-L2) |
| 1. axon hillock | 7. anterior gray horn |
| A) cell body (soma) | 8. gray commissure |
| 2. nucleus | 9. central canal (lined with ependymal cells) |
| 3. Nissl bodies (chromatophilic substance): i.e., rough endoplasmic reticulum | 10. posterior median sulcus |
| 4. neurofibrils | 14. anterior median fissure |
| 5. axon terminal synaptic end bulbs (contain synaptic vesicles) | 23. posterior (sensory/afferent) root (of nerve) |
| 7. neurolemmocyte (Schwann cell) | 24. posterior (dorsal) root ganglion (containing sensory cell bodies) |
| neurolemma (necessary for regeneration) | 25. anterior (motor/efferent) root (of nerve) |
| 9. Linked Schwann cells at node of Ranvier | 28. spinal nerve |
| 11. myelin sheath (phospholipid) | Meninges (not shown on model) |
| axoplasm (cytoplasm of the axon) | dura mater |
| 14. dendrites | arachnoid mater |
| subarachnoid space (containing csf) | |
| pia mater |
page 2
| Brain Model (Cranial Nerves - Roman numerals) | (Numbers match left side of soft rubber model) |
| cerebrum lobes (1) frontal, 2) parietal, 3) temporal, 4) occipital) {telencephalon} | |
| fissures (deep) (longitudinal or median, lateral, transverse) | 33. cerebral peduncle (midbrain){mesencephalon} (III & IV) |
| sulci (shallow grooves) (5) central sulcus: between frontal & parietal lobes) | 31. tectum 34. corpora quadrigemina (superior and inferior colliculi) |
| 6. precentral gyrus (somatomotor area) | 34. cerebral aqueduct |
| 7. postcentral gyrus (somatosensory area) | 32 & 36. pons (V-VIII, cochlear nucleus) & cerebellum {metencephalon} |
| 8. olfactory bulb & olfactory tract (I) | 35. cerebellum (controls muscle coordination) |
| optic nerve and chiasma (II) | folia |
| 10. corpus callosum (contains commissural fibers, connecting left and right cerebral hemispheres) | . vermis |
| basal ganglia (cerebral nuclei): putamen, globus pallidus, caudate nucleus; control motor function | a. arbor vitae |
| cortex (gray matter and cell bodies of neurons) | 39. medulla oblongata (VIII,vestibular nucleus - XII) {myelencephalon} |
| white matter (containing axons of neurons)tracts | |
| two lateral ventricles in hemispheres; (#20) 3rd, in { diencephalon}; (e) 4th, betwn brain stem & cerebellum) | |
| 11. septum pellucidum | |
| 12. fornix | Connective Tissue of Nerves |
| 18. thalamus and (22) intermediate mass | epineurium (around nerve) |
| 21. hypothalamus | perineurium (around fasciculi) |
| 23. epithalamus (pineal gland) | endoneurium around neurons) |
| 25. pituitary gland & infundibulum | |
| 26. choroid plexuses (ependymal cells produce CSF) |
Motor neuron in a spinal cord. The lines (top to bottom) indicate: 1) dendrites (upper right), 2) neurofibril within axon hillock, and 3) an axon.
Unmyelinated fibers.
Identify and give function and location of each neuroglial cell shown below. Shown are a multipolar neuron, oligodendrocytes, Schwann cell, astrocyte, microglia, and ependymal cells.
Identify synaptic knob, synaptic vesicles, mitochondria, neurotransmitters, synaptic cleft, and postsynaptic membrane receptors. See drawing and electron micrograph below.
Be able to explain an EPSP, IPSP, spatial summation, and facilitation from the diagram below.
How does drug addiction occur? Compare the neurophysiological effects of neuroinhibitory versus neuroexcitatory drugs.
Identify the connective tissues of a nerve (epineurium, perineurium, and endoneurium.. Blood vessels, a nerve fasciculus, and several neurons are also shown.
Central Nervous System (CNS):
Identify the meninges and associated structures surrounding the CNS on the following three drawings.
Identify the ventricles and associated structures of the brain and spinal cord, and be able to trace the production, flow, and reabsorption of cerebrospinal fluid (csf). What disorders are associated with csf?
Be able to identify the parts of the spinal cord, and know number of spinal nerves in each region and major nerves of each region.
Identify all regions and associated structures in a spinal cord cross section. Be able to identify and explain mechanisms of spinal reflexes.
Reflex arcs may contain two or more neurons.
Note typo on Lateral spinothalamic tract. The reticulospinal tract is a descending tract. Know the function of each of these tracts.
In which lobe and gyrus of the brain do these ascending neurons terminate? Note the number of neurons in ascending (3) and descending (2) tracts.
In which lobe and gyrus is the motor cortex located. Which neurons cross (decussate) in the medulla and which cross in the spinal cord? What are the symptoms of upper motor neuron injury vs. lower motor neuron injury? Which type of injury is likely to heal? Why?
Be able to identify all major portions, lobes, and structures of the brain, and know their functions.
On this view you should be able to identify: all four major lobes of the cerebrum, the cerebellum, corpus callosum, septum pellucidum, fornix, interventricular foramen (of Monroe), 3rd ventricle, choroid plexus (of 3rd vent.), pineal gland, thalamus, intermediate mass (of thalamus), hypothalamus, mammillary body, optic chiasma, midbrain (cerebral peduncle), cerebral aqueduct, tectum (and corpora quadrigemina), pons, 4th ventricle, medulla oblongata, and spinal cord. The pituitary gland is missing from this view, but, is in the 2nd illustration below, just beneath the optic chiasma, and immediately to the left of the pons. At the top of the photo, beneath the word "Inc.," is the central sulcus, which separates the frontal and parietal lobe. The folds (gyri) to the left and right of this sulcus are the precentral gyrus (somatic motor area) and postcentral gyrus (somatic sensory area) of the cerebrum, both of which are better viewed in a lateral view of the brain.
These illustrations show the lateral and longitudinal fissures (sulci).
The temporal lobe is pulled away here, illustrating the insula (purple), an area that is involved in understanding spoken words, the sense of taste, and in integrating sensory information from visceral receptors. The temporal lobe is involved in hearing, smell, learning, memory, visual recognition, and emotional behavior.
Precentral gyrus (upper brown area):
Central sulcus (left) and Postcentral gyrus (upper gold area on right). Note the insula (the football shaped shaded area labeled on the right side).
Be able to identify all nerves and structures from your list on the brainstem, and know their functions. Note differences in olfactory bulbs and olfactory tracts (lines 1 & 2 on left); also, be able to distinguish between the optic nerves (line 2 on right) optic chiasma (line 3 on left), and optic tracts (below the X, on either side of pituitary gland).
Although not labeled, the horizontal light area in middle of the medulla oblongata, represents the decussation of pyramids (the region where approx. 85% of descending motor tracts cross from one side of the brain to the other. The remaining 15% of motor tracts cross over the spinal cord in the lower cervical region, where nerves to the arms arise.
The pineal body (gland), part of the epithalamus, is represented by the 1st line at upper right. This is the "3rd eye" of lower vertebrates, which responds to darkness by producing melatonin, and helps to regulate behavioral patterns related to night & day, as well as seasonal changes. Its location is visible on the head of lizards by a small scale between the frontal and parietal scales. The four rounded 'bumps' below (and labeled on the left) the pineal gland are the corpora quadrigemina, composed of a pair of superior colliculi and inferior colliculi, which control reflexes of neck and back muscles for turning in response to visual and audio signals, respectively. These structures are on the posterior of the midbrain, a portion known as the tectum. On the lateral view (second figure below), this part is between the 3rd and 4th ventricles.
The choroid plexus of the 3rd and 4th ventricles is illustrated here by the blue wavy areas. These are surrounded by ependymal cells, which form the blood/csf barrier.
What is the significance of the dermatomes? How can they be used to diagnose spinal cord or nerve injuries?
Compare the dermatomes with the areas for referred pain.
