Exam 1 - Clinical Scenarios Flashcards
Branchial Fistula
Cyst along the lower mandible that is usually asymptomatic
Caused by lack of obliteration of embryonic structure (pharyngeal pouches that join together to create a cleft)
Treatment: no treatment needed, surgical removal if it’s a problem
Great Auricular Nerve
Must be careful with this one when performing certain plastic surgical procedures (rhytidectomy or facelift)
Thyroidectomy
Layers: Thyroid|Trachea|RLN + Thoracic Duct|Esophagus
Careful not to cut the Recurrent Laryngeal Nerve (RLN)
If cut = dysphonia, trouble breathing
Can cut/ligate the inferior laryngeal artery (ILA)
Lymphatic Drainage During Surgery
Pretracheal and paratracheal nodes drain to the deep cervical nodes
Input MUST EQUAL output; if not, cervical edema
Tracheotomy
Emergency airway cut through tracheal rings 2-4
Cricothyrotomy
Emergency airway cut through the cricothyroid membrane - cuts the median cricothyroid ligament
Tracheostomy
Extensive surgical procedure to open a long-term airway through tracheal rings 2-4 (usually for a vent)
Pneumothorax
Penetrating wounds to the base of the neck can puncture the pleural cavity and/or lung causing it to collapse
Dopamine Pathway Conditions
Parkinson’s
Addictions
Schizophrenia
Substantia nigra dopaminergic pathway usually does motor control; damaged here
Mesolimbic pathway usually does pleasure/rewards, altered with various addictions
Mesocortical pathway crucial for attention and higher levels of consciousness, dysfunctional here
Serotonin-Induced Depression
Caused by disruptions in serotonin delivery by the midline raphe nucleus
Alzheimer’s
Loss of function in the midbrain due to cortical neurons no longer producing acetylcholine may be one cause
CB-2 agonists (endocannibinoid receptor) causes macrophages to remove beta-amyloid and may be a treatment for Alzheimer’s
Denervation Hypersensitivity
Caused by the alpha motor neuron innervating skeletal muscle being transected and the muscle continues to respond to Ach
Nicotinic receptors at the motor end-plate will react with free floating Ach and cause random action potentials = fasciculations and twitches
Stiff Person Disease
Autoimmune response
GABA plays an important role here - without it, you get muscle cramps and tetany
Pancreatic beta cells make GABA too so antibodies may be detected in T1D as well
Subclavian Steal Syndrome (Vertebro-Basilar Insufficiency)
During exercise, blood is shunted from the brain to the extremities and may cause an occlusion at the vertebral artery
Decrease in blood flow to the brain may lead to a coma, quadriplegia, or cranial nerve abnormalities
This is a type of ischemia - may result in transient or permanent neurological dysfunction
Significant Shunting within the Carotids
May result in hyperperfusion and cerebral edema due to the Circle of Willis typically being incomplete and asymmetrical
if person has a complete and symmetrical Circle of Willis, they can survive an occlusion of these arteries
Components of the Circle of Willis: Internal Carotid (with anterior cerebral, middle cerebral, posterior cerebral, and branches) and the Vertebral Arteries
- 85% of aneurysms happen here
Superficial Temporal Artery
Pulse can be readily palpated anterior to the auricle
Sometimes used in neurosurgical procedures to bypass obstructions of the middle cerebral artery
Epidural Hematoma
Middle meninges like artery can be ruptured with head trauma leading to hemorrhaging and a blood clot in the epidural space
can be fatal if not treated promptly
Removal of the Internal Jugular Vein
When they remove this vein, they also remove the nearby lymph nodes (deep cervical)
Done in a Neck Dissecetion - usually as a preventative or curative procedure for metastasis of cancer; removes the IJV, CNXI, and SCM along with the lymph nodes
Paralysis of the Phrenic Nerve
Unilateral paralysis: usually asymptomatic or few symptoms
Bilateral paralysis: exertional dyspnea, scaphoid abdomen, hyperactivity of accessory breathing muscles, difficulty in coughing and sneezing
X-ray will show the diaphragm high in the chest
Phrenic Neuralgia
May result from neck tumors, aortic aneurysm, pericardial/mediastinal infections
Most cases, the pain is on the left side
Nuchal Rigidity
Stiffness occurs with neuralgia, various neck lesions, meningitis, or blood in the CSF (subarachnoid hemorrhage)
**Vernet’s Syndrome
Basilar skull fracture due to trauma that may involve the jugular foramen and result in ipsilateral IX, X, and XI paralysis
**Collet’s/Sicard’s Syndrome
May be due to injury in the retroparotid space that involves ipsilateral paralysis of CN IX-XII and the cervical sympathize trunk
Sedation by General Anesthesia
Two ways to accomplish this relevant to this section:
- Benzodiazepine sites found on GABA receptors to increase inhibition
- Benzodiazepine sites on AMPA subtype of non-NMDA receptors to decrease excitation
Rasmussen’s Encephalopathy
Rare condition in which severe, intractable seizures develop in child
Antibodies against metabotropic receptors have been found in people suffering with this condition
Causes brain damage, usually destroying a hemisphere
Treatment: surgical removal of damaged hemisphere
Excitotoxicity
Caused by over-stimulation of the EAA system following an insult to the brain leading to cell death in neurons
Strong evidence for involvement in: cerebral ischemia, stroke, hypoglycemia, epilepsy
weird, but can get domoic-acid poisoning after consuming mussels that can cause this
Cerebral Ischemia
Oxygen deprivation causes cells to not be able to meet metabolic demands
Can happen within 4 minutes of deprivation –> ATP levels drop to 0, cells depolarize (NTs are high), and there will be excessive activation of NMDA/non-NMDA receptors
Reperfusion Injury
Particularly common in drowning incidents –> slight cerebral edema
Caused by giving oxygen after a traumatic brain injury when the neurons have already been deprived –> O2 becomes a free radical and apoptotic pathway will be activated
Certain chemicals help potentiates further injury: epinephrine (increases K+ but inhibits protein synthesis), WBCs (hallmark of necrosis occurring), growth factors
There are “pre-treatments” available but these injuries are hard to predict; must be treated in the 4 minutes window
Lesion of Perivascular Plexuses or SNS Branch to the Ciliary Ganglion
Lose innervations to the eyes - specifically the dilator pupillae and tarsal muscles
Lesion to Deep Petrossal Nerve
Fibers travel to the palate, nasal cavity, pharynx, orbit, and lacrimal glands
Lose innervations to the nasal cavity and lacrimal gland specifically
Lesion to Carotico-tympanic Nerve
Courses through the middle ear (and the ganglion there) but a lesion here will cut innervation to the parotid gland
Horner’s Syndrome
Caused by spinal cord and neck trauma, specifically by an interruption to the cervical sympathetic trunk or cervical spinal cord (above the level of T1)
Symptoms: PAMELA’S HORNY
P = ptosis (paralysis of the tarsal muscle)
A = anhidrosis (vasodilation, on the skin of face due to loss of sympathetic innervation to blood vessels)
M = miosis (pupillary constriction due to paralysis of dilator papillae muscle)
E = enopthalamos (paralysis of muscle of Muller)
L = loss of reflex
These can be transient and thus hard to diagnose
Sacral Autonomic Plexus Injury
Important to check patients for bowel movements as this would typically innervate the colon, rectum, bladder
Hypercalcemia
Alters the permeability of the cell to sodium leading to hyperpolarization and muscle weakness
Hyperkalemia
Depolarizes the cells, making them more excitable
Changes in Blood Pressure
As blood pressure drops –> decrease in baroreceptor firing –> increase in RAAS systems (activation of nicotinic receptors in adrenal chromaffin)
Chronic Hypercapnia
CSF will have high CO2 –> acidosis
Cells making CSF will utilize carbonic anhydrase to add HCO3 to CSF and pump hydrogen ions into the blood to raise the pH
Chronic Hypocapnia
CSF will have too little CO2 –> alkalosis
Cells making CSF will move HCO3 out to the blood and keep hydrogen ions in order to lower pH
Normal Pressure Hydrocephalus
(based on the case study provided)
Present with neurological symptoms such as unaware, cognitive deficits, gait problems, positive snout and suckling reflex (abnormal in adults), ventriculomegaly
Caused by increased pressure due to CSF accumulation because of a mismatch between production and absorption
Intracranial pressure will usually be on the high side of normal - still dangerous
Epileptic Seizure due to BBB GLUT Deficiency
Caused by uncontrolled synchronization of neuronal discharges, typically from parts of the brain where cells are hyperexcitable
Can be triggered by reduced CSF glucose causing an unstable membrane potential due to a mutation in the genes coding for GLUT transporters
Treatment: low carb/high fat diet (provides ketone bodies to be used as energy for neurons)
Lumbar Puncture Effects
When CSF is taken out, it often causes headaches because of the blood vessels that are well innervated get pulled and causes pain
Phases of Swallowing
- Oral Phase: mastication (chewing)
- Oropharyngeal Phase: elevation of the floor of the mouth and tongue to push bolus into oropharynx
- Pharyngo-esophageal Phase: oropharynx elevates and constricts around bolus to push it into esophagus
Caused by the laryngeal aditus sphincter and epiglottis, aryepiglotic fold, thyroepiglottic muscle
Airway Protective Cough Reflex
Series of expiratory cough triggered by a noxious stimulus to the supraglottic laryngeal mucosa - VITAL
Example: acid reflux may cause this cough, but treatment of the acid will neutralize the stimulus
If they can’t cough, may be due to the abdominal oblique muscles
Laryngeal Cough Reflex (Inspiratory and Expiratory)
From infancy to adulthood, the larynx is displaced around months 2-4 to descend further back
Without this process, may have nasalized speech
Caused by the vagus nerve and the internal sphincters of the larynx (vocal folds, adductor muscles, thyroarytenoid)
This airway is protected by the internal branch of superior laryngeal nerve (afferent, sensory component)
Piriform Recesses
Secretions may gather here but should disappear when swallowing
When it doesn’t, patient is said to have a “pooling” sign which suggests an obstruction or paralysis of the upper esophagus
Nasopharynx Development
In infants, if this doesn’t close off properly, milk can reflux through to the ear cavity causing otitis media
Zenker’s Diverticulum
Can form within Killian’s Triangle (between the thryopharyngeal and cricopharyngeus muscles) due to it being a vulnerable area
Pharyngeal Speech in Total Laryngectomy
Have to learn to use esophageal speech, which is the vibration of the cricopharyngeus muscle by regurgitation of swallowed air
Retropharyngeal Space
Between the buccopharyngeal and prevertebral fascia
Can have infections spread to here because it is continuous from the skull to mediastinum (dangerous)
If a surgical fusion of vertebra was needed, they would approach it via this space
Gag Reflex
Glosspharyngeal (9) and vagus (10) nerves elicit a gag response when the back of the throat is touched
9 does the sensory portion while 10 mediates the motor response (in by 9, out by 10)
Arytenoid Cartilages
looks like two penguins facing each other
During phonation: they rotate along a vertical axis to control the tension on the vocal cords
During respiration: they slide laterally to open the rima glottidis (opening formed by the free margin of the vocal folds)
Intubation
During intubation, the blade is placed on the valleculae epiglottica to help move the tongue and epiglottis out of the way
Placing an NG tube into the airway can cause a pneumothorax
Fracture of the Larynx
May result from blows received during high impact sports or compression of the shoulder strap in MVA
Produces submucosal hemorrhage, edema, respiratory obstruction, hoarseness, and dysarthria
Movement of the Vocal Cords
Abduction: posterior cricoarytenoid
Adduction: lateral cricoarytenoid, arytenoideus
Tension: cricothyroid (increases tension) and vocalis (decreases tension)
Paralysis of the RLN
Lesions result in hoarseness and dysphagia; there may be coughing and choking due to collapse of the aryepiglottic fold and drainage of fluids into the larynx
Delphian Lymph Node
Located at the midline of the thyrohyoid membrane may become enlarged in thyroid carcinoma and subacute thyroiditis
Paralysis of a Vocal Cord
If one is paralyzed, it will remain fixed while the others move in and out
In elderly patients, vocal folds frequently do not completely adduct during phonation
Tumors of the Vocal Folds
Results in dysphonia (hoarseness) which can be detected pretty early and usually have a favorable diagnosis/prognosis
Inhalation of Sharp Objections
Results in choking, sharp pain, and progressive obstruction to breathing due to inflammation of the larynx and edema of the glottis
Produces an explosive cough reflex; aspiration into the larynx will cause the muscles there to spasm and close, blocking the airway until the object is removed or bypassed
Lemniscus
Definition: bundle or crossed, secondary nerve fibers in a conscious sensory fibers
- Lesion: always results in contralateral deficits
Falx Herniation
The falx cerebri splits the two hemispheres of the brain – here, a unilateral separation may cause the cingulate gyrus to herniate across the midline
- Will see a midline shift, ventricles will be asymmetrical, not always clinical signs of herniation (less severe herniation)
Epidural Hematoma
Caused by a fracture of the pterion that ruptures a meningeal vessel causing the hematoma
Clinically: patient loses consciousness, rapid recovery, then loses consciousness again
- There is an increase in supratentorial cranial volume that causes herniation
- Can either press against the falx cerebri (falx herniation) or the tentorial notch (tentorial/uncal herniation)
- Can also get a tonsillar herniation of the cerebellum
Tentorial Herniation
This can be caused by an epidural hematoma or tumors above the tentorial notch
- This causes an opening in the cranial vault – BIG DEAL
- When volume increases, so does pressure and affects consciousness
Subdural Hematoma
Head trauma might cause cerebral veins to rupture as they cross the subdural space
Clinically: onset of symptoms may be delayed for days or weeks – patient will display lethargy, seizures, and headaches
- In children = due to skull fracture
- In the elderly = head trauma due to more fragile blood vessels
- May lead to seizure disorders or cause blood clots in the brain
Other Trauma to the Midbrain
Severe blows to the head may cause the incisura to lacerate or contuse the brainstem
- May result in temporary or permanent coma
Thrombosis of Venous Sinus
If a blood clot forms in either the straight venous sinus or the left transverse sinus results in ischemia and/or necrosis in the deep cerebrum - FATAL
Papilledema
Increased intracranial pressure also increases pressure on the small veins on the optic nerve causing edema of the retina and swelling of the optic disc
Subarachnoid Hemorrhage
All of the major blood vessels supplying the CNS pass through the subarachnoid space – rupture of one of these causes the hemorrhage
- Can be detected by blood in a CSF sample
Choroid Plexus Ependymomas
One or both of the interventricular foramen may be obstructed by tumors
Astrocytomas
Midbrain tumors that obstruct the cerebral aqueduct and causes hypertrophy of the lateral and third ventricles (supratentorial internal hydrocephalus)
Syringomyelias
Central canal in the fourth ventricle enlarges and develops a cavity in the center of the cord
Hydrocephalus
Symptoms: strabismus (abducens palsy) and papilledema
External Hydrocephalus: excessive of accumulation of CSF in the subarachnoid space
- Supratentorial external hydrocephalus – most common with Alzheimer’s (senile atrophy of the cortex)
- Infratentorial external hydrocephalus – seen with communicating hydrocephalus
Internal Hydrocephalus: noncommunicating hydrocephalus – may be due to obstruction of the interventricular foramen (by ependymoma) or cerebral aqueduct (astrocytoma)
- Results in dilation of the ventricles proximal to the obstruction
Communicating Hydrocephalus: combination of infratentorial external and internal hydrocephalus – space between the tentorial notch and midbrain works as communication for CSF and may become obstructed due to adhesions or fibrosis
- Results in hypertrophy of ventricles and accumulation of CSF in the infratentorial subarachnoid space
- Treatment: shunt or tube is inserted into the cisterna magna
Ischemic Stroke
85% of strokes, caused by an embolism or large artery stenosis
Hemorrhagic Stroke
15% of strokes, caused by parenchymal or subarachnoid hemorrhage
Neurohistological Status
Normal regional blood flow: ~53 - hypoxic symptoms appear when this drops below 30
Electrical failure:
Watershed Infarction
In global ischemia, distal areas of cerebral arterial circulation are hypoperfused and vulnerable to a watershed infarction
- Causes the tissue to be too ischemic to function but critically viable
Thrombosis of Anterior Choroidal Artery
Supplies several structures of the midbrain and prone to thrombosis due to its long course in the subarachnoid space
- This is important in Parkinson’s cases
Cerebral Aneurysms
Highest incidence (35%) is in the Anterior Cerebral Artery (ACA) 25% of cases in the MCA, 25% in anterior communicating artery, 10% from basilar artery
Occlusion of ACA
Leads to sensory (dystesia of the contralateral leg and foot) and motor (spastic paralysis) deficits
Supplies the middle portion of the brain (in the midline on an angiogram)
Occlusion of the MCA
Leads to sensory and motor deficits in the contralateral arm, forearm, hand, and head
- Also affects Broca’s, Warnecke’s, and auditory areas
- Temporal branch: difficulty localizing sounds
- Parietal branch: body neglect, agnosia, apraxia
Broca’s Aphasia
Thrombosis results in a motor language disorder where patients have cryptic speech, often frustrated because they can’t get the right words out
- Non-fluent aphasia, but can comprehend what they hear
