Source : Tracey A. Milligan, MD ; Tamara B. Kaplan, MD ; Neurologie, Brigham et des femmes / Massachusetts General Hospital, Boston, Massachusetts, é.-u.
Au cours de chaque section des tests neurologiques, l’examinateur utilise les pouvoirs d’observation afin d’évaluer le patient. Dans certains cas, le dysfonctionnement du nerf crânien est évident : un patient peut mentionner une plainte en chef caractéristique (comme la perte de l’odorat ou diplopie) ou un signe physique visuellement évident d’engagement des nerfs crâniens, comme dans la paralysie du nerf facial. Cependant, dans de nombreux cas historique du patient n’est pas directement suggèrent pathologies des nerfs crâniens, comme certains d’entre eux (comme le sixième nerf paralysie) peuvent avoir des manifestations subtiles et peuvent seulement être découvert par un examen neurologique attentif. Ce qui est important, une variété d’états pathologiques qui sont associées à des altérations dans l’état mental (par exemple, certaines maladies neurodégénératives ou lésions cérébrales) peut également causer un dysfonctionnement du nerf crânien ; par conséquent, des résultats anormaux lors d’un examen d’état mental devraient susciter un examen neurologique soigneux et complet.
L’examen des nerfs crâniens est appliquée neuroanatomie. Les nerfs crâniens sont symétriques ; par conséquent, tout en effectuant l’examen, l’examinateur devrait comparer chaque côté à l’autre. Un médecin doit aborder l’examen de façon systématique et passent par les nerfs crâniens dans leur ordre numérique.
J’ai | Olfactive | Odeur |
II | Optique | Acuité visuelle, réponse pupillaire afférent |
III | Oculomoteur | Mouvements oculaires horizontaux (adduction), réponse pupillaire efférente |
IV | Trochléen | Mouvement des yeux verticale vers le bas, rotation interne de le œil |
V | Trijumeau | Sensation visage, mouvement de la mâchoire |
VI | Abducens | Mouvement des yeux horizontaux (abduction) |
VII | Soin du visage | Mouvement du visage et la force, le goût, l’amortissement des sons forts, sensation ; paroi antérieure du canal de l’oreille externe |
VIII | Acoustique | Plaidoirie, fonctionnement vestibulaire |
IX | Nerf glossopharyngien | Mouvement du pharynx, de la sensation du pharynx, langue postérieure (y compris le goût de la langue postérieure) et la plupart du conduit auditif |
X | Vagale | Mouvement et la sensation de la bouche, du pharynx, sons gutturaux réflexe nauséeux |
XI | Accessoire de la colonne vertébrale | Force de sternocleidomastoids et les muscles du trapèze |
XII | Hypoglosse | Protrusion de la langue et les déplacements latéraux |
Le tableau 1. Les 12 nerfs crâniens et leurs fonctions de base
Nerf crânien (nerf olfactif) est un nerf purement sensoriels qui a le sens de l’odorat et n’est pas couramment analysé pendant la majorité des examens. Nerfs crâniens II (le nerf optique) est le seul nerf crânien qui peut être visualisé directement sa sortie du système nerveux central. Ses axones véhiculent des informations visuelles et composent la branche afférente du réflexe pupillaire. Essais des réponses pupillaires évalue aussi la fonction du nerf crânien III (nerf oculomoteur), des fibres parasympathiques qui forment la branche efférente du réflexe pupillaire. Examen des nerfs crâniens notamment évaluation des mouvements extra-oculaires, qui sont contrôlés par des nerfs crâniens III, IV et VI. Nerf crânien III innerve les muscles droit supérieur, médian et inférieur, ainsi que le muscle oblique inférieur, qui fonctionnent ensemble pour déplacer les yeux en dedans et dans le plan vertical. Nerf crânien IV (le nerve_ trochléen innerve les muscles obliques supérieurs, qui se déplace de le œil vers le bas et vers l’extérieur. Nerf crânien VI (nerf abducens) innerve les muscles rectus latéral, qui enlève les yeux. La fonction des muscles rectus médial et latéral est simple : rectus latéral est impliqué dans l’enlèvement, ce qui signifie un mouvement latéral le long du plan horizontal. Déplacer le œil en dedans des adduits rectus médial mouvement le long du plan horizontal. Les autres muscles chaque cause mouvement dans plus d’une direction et certaines combinaisons d’élévation/dépression, abduction/adduction, intorsion/extorsion.
Muscle | Innervation | Action primaire | Action secondaire | Action tertiaire |
Rectus médial | CN III | Adduction | — | — |
Rectus supérieur | CN III | Élévation | Intortion | Adduction |
Rectus inférieur | CN III | Dépression | Extorsion | Adduction |
Oblique inférieur | CN III | Extorsion | Élévation | Enlèvement |
Superior oblique | CN IV | Intorsion | Dépression | Enlèvement |
Rectus latéral | CN VI | Enlèvement | — | — |
Le tableau 2. La fonction des muscles extraoculaires six.
Cette première partie de l’examen des nerfs crâniens conclut en testant le nerf crânien V (nerf trijumeau). Ce nerf comporte des éléments moteurs et sensoriels. Il contrôle la sensation du visage, mouvements de mastication et forme la branche afférente du réflexe cornéen. Il sont a 3 grandes branches sensorielles du nerf trijumeau – ophtalmique, maxillaires et mandibulaire (également appelé V1, V2 et V3, respectivement).
This video demonstrates a systematic approach to examining the first six cranial nerves. The central and peripheral nervous systems are an integrated system. Therefore, if the clues to a neurological problem are uncovered while taking medical history or during the mental status exam, it should make the clinician more vigilant during the rest of the examination of the nervous system to look for other abnormalities. A clinician should develop a pattern of going through each nerve in numerical order and only document those nerves that were actually examined in the final report. Patients are often being followed for diseases (such as multiple sclerosis) where findings may be changing over time. The documentation from one examination to another are important to follow and the findings should be carefully charted. It is not adequate to just look at the patient and then state “cranial nerves II-XII are intact,” as is so often recorded during a typical physical examination.
The examination of the cranial nerves is essentially applied neuroanatomy, and often the location of a lesion can be identified solely on the basis of physical findings. There are 12 pairs of the cranial nerves, numbered rostral to caudal, which arise directly from the brain. They are named as per their function or structure or the region of innervation. Here, we’ll briefly discuss anatomy and physiology of the cranial nerves-one through six, and demonstrate how to examine these nerves in a systematic fashion
Let’s start with a review of the basic neuroanatomy of the first six cranial nerves.
Cranial nerve I, or the olfactory nerve, is formed by projections of the specialized receptor neurons, located in the upper part of the nasal cavity. The olfactory nerve fibers convey the smell information to the olfactory bulb cells, which then relay the signal via the olfactory tract.
The second cranial nerve – also known as the optic nerve – is responsible for the visual information transmission from retina to the brain. In addition, this nerve constitutes the afferent limb of the pupillary light reflex. The efferent limb of this reflex is composed by the parasympathetic fibers travelling with the cranial nerve III, also known as the oculomotor nerve. The parasympathetic axons synapse at the ciliary ganglion, and the postganglionic fibers innervate the sphincter pupillae muscle. Thus, both the cranial nerves II and III are required for the pupillary constriction in response to light. This oculomotor nerve also controls the levator palpabrae superioris – a muscle that lifts the upper eyelid. Furthermore, this nerve controls four extraocular muscles – the superior, medial, and inferior recti and the inferior oblique, that function together to move the eyes medially and in the vertical plane.
Cranial nerve IV, the trochlear nerve, innervates the superior oblique muscles, which move the eye downward and outward. And cranial nerve VI, the abducens nerve, innervates the lateral rectus muscles, which are responsible for ocular abduction. Together, these muscles and nerves regulate the movement of the eyes in the six cardinal directions of gaze.
Lastly, we will discuss cranial nerve V, also known as the trigeminal nerve. This nerve has three major divisions-ophthalmic, maxillary and mandibular. The ophthalmic and maxillary branches have purely sensory function, whereas the mandibular nerve is formed by both sensory and motor fibers. The sensory fibers of all three branches relay facial sensation, and the ophthalmic branch also mediates the corneal reflex. The motor fibers of the mandibular division supply the muscles of mastication.
After this brief introduction, let’s review how to assesses these nerves during a clinical encounter. As the cranial nerves are symmetrical, every test should be performed on both sides and the findings should be compared.
We will start with the examination of the cranial nerve I, the olfactory nerve. Instruct the patient to occlude one nostril with their index finger and close their eyes. Then, hold an odorant, such as coffee granules, beneath the patient’s nose, and ask them to identify the smell. Repeat the test on the other side using a different odorant, like mint toothpaste.
Next, examine the cranial nerve II, the optic nerve. This part of the examination includes ophthalmoscopy, visual field examination, visual acuity assessment, and testing the pupillary responses, which are also controlled by the cranial nerve III. Start with the ophthalmoscopic examination. Ask the patient to look across the room at a slightly upward angle. As the patient is doing so, examine their right fundus with your right eye, and note any optic nerve or fundus abnormalities. Similarly, use your left eye to visualize the patient’s left fundus. The technique and the potential findings on ophthalmoscopic exam are covered in detail in a separate JoVE Clinical Skills video.
Next, perform the visual field test. This term describes the entire area that can be seen during steady fixation of gaze in one direction. The visual field for each eye can be roughly divided into four quadrants by the vertical and the horizontal meridians. The upper and lower quadrants are referred to as the superior and inferior quadrants, outer two are the temporal, and inner two are the nasal quadrants. Start by evaluating the peripheral vision using the direct confrontation technique. Stand about three feet away from the patient, and ask them to fixate their gaze on your nose. Then extend your arms forward and to the sides, such that your hands are in patient’s superior and inferior temporal quadrants. During this test, your hands should be barely visible in your own peripheral vision. Now ask the patient to cover their left eye and continue to fixate their gaze at your nose. Then cover your right eye and quickly wiggle your left index finger in all four quadrants of the patient’s open eye, and ask them to identify where the movement occurs. Use your open eye as the control throughout this test. Repeat the same procedure on the other side. Subsequently, assess for the loss of double simultaneous stimulation. Ask the patient to keep both eyes open and let you know if they see one or both fingers moving. Present to the patient moving fingers in multiple visual fields simultaneously, such as in either upper temporal fields or bilateral inferior fields.
Next, check the visual acuity using a hand-held card. Ask the patient to wear corrective lenses or non-reading glasses, if normally used. For the test, have the patient cover one eye and read the smallest line they can with the card held about 14 inches away. Record the finding and repeat the same step for the other eye.
Next, test the pupillary responses, which can be affected by both-the optic and the oculomotor nerve dysfunction. Before this test, reduce the room illumination. Then shine a penlight in the direction of the patient’s nose taking care not to illuminate the eyes directly. This is done for observing the pupils at rest, for size, shape and equality. Next ask the patient to look across the room and shine bright light directly into each eye. Look for a brisk constriction of the illuminated pupil – the direct response. Also observe the simultaneous constriction of the contralateral pupil – the consensual response. If the patient has a disorder such as optic neuritis-as may be seen in multiple sclerosis-the affected eye may have a decreased direct response, but the consensual response is preserved. Next, perform the swinging flashlight test by moving the flashlight between the pupils every two to three seconds and observing for direct and consensual response. The paradoxical dilation of the illuminated pupil seen during these tests indicates an afferent pupillary defect, also known as a Marcus-Gunn pupil. Subsequently, turn the room lights back on to observe the response to accommodation. Ask the patient to look into the distance and then focus on your thumb placed closer to their face. Repeat this a couple of times to check for the normal constriction of pupils in response to focusing on an object relatively near to the eyes.
Now, let’s discuss the testing of extraocular movements, which are controlled by cranial nerves III, IV and VI. To test the eyeball movement in the six cardinal directions of gaze, ask the patient to keep their head steady, and follow your finger with their eyes as you trace an imaginary letter “H” shape. Normally, the eyes should move together throughout all planes of vision and there should not be any observed eye muscle weakness or development of any double vision. Next, instruct the patient to follow your finger as you move it slowly towards the patient’s eyes. Check for convergence by noting if restriction of gaze is present. After that, move your finger in vertical, and then in horizontal directions and tell the patient to follow your finger with their eyes. Observe for nystagmus-the rapid rhythmic jerking movements of the eye. This may be normal sometimes on the horizontal gaze or as effect of certain medications, but it can also be associated with cerebellar or vestibular dysfunction. Since cranial nerve III also controls the levator palpebrae superioris muscle, ask the patient to focus on a spot and observe the position of the eyelids. Note if ptosis, which is drooping of the upper eyelids, is present. Ptosis can be associated with lesions of the third nerve, Horner’s syndrome, and neuromuscular diseases, such as myasthenia gravis. This completes the cranial nerves III, IV and VI testing.
Next, assess the function of cranial nerve V, the trigeminal nerve. Lightly touch the patient’s skin in each of the three areas innervated by trigeminal nerve divisions. Ask the patient if they can feel your touch and if the sensation is equal and normal on the both sides. Subsequently, test the pain sensation in each of the three divisions. For this, have the patient close their eyes and touch their skin with both the sharp tip and the rounded end of a safety pin on both sides. Ask the patient to describe a sensation as sharp or dull. Also ask them if the sensation is same on both sides. Next, place your hand on either side of the patient’s jaw, and have them bite down hard, while you feel for the contraction of the masseter muscles. This tests the motor function of the trigeminal nerve. Conclude the trigeminal nerve assessment by testing the corneal reflex. Prepare a swab by pulling out most of the cotton at the end, leaving just a few strands projecting out, so as not to injure the patient’s eye. Make sure that the patient doesn’t wear contact lenses. Warn the patient that you are going to touch their right eye, and tell them to look to the left. Then, with a wisp of cotton, gently touch the right cornea and observe for the blink, or the corneal reflex. Similarly, test the left eye and compare between sides.
You’ve just watched JoVE’s video on how to evaluate the first six cranial nerves in a systematic way. We went over the essential steps of the examination, which can help uncover signs of the neurologic disorders associated with this set of nerves. The “cranial nerve exam part II” will cover the testing associated with nerves VII through XII. As always, thanks for watching!