Unit3_Questions Flashcards
Transduction of taste and smell share what common protein?
Trp receptors which allow Calcium in
What are the other important proteins for taste?
PLCB2, IP3R3
Give an example of how taste and smell can be damaged, and why that happens.
Cancer drugs can kill off the epithelium where the taste buds and olfactory neurons are because these cells are continuously dividing.
What is the nucleus for taste fibers?
Nucleus of solitary tract
What parts of the tongue are foliate, circumvallate, filiform, fungiform taste buds?
Fungiform is anterior 2/3
Circumvallate is posterior 1/3
foliate are lateral, filiform are part of gag reflex (larynx, etc.)
Where are taste and smell integrated?
Orbitofrontal cortex (flavor cortex)
Where are smell memories encoded?
Entorhinal cortex –> hippocampus
What ion is responsible for smell transduction?
Chloride efflux
Where do the solitary tract fibers project to, for taste?
Bilaterally to amygdala, hypothalamus, VPM thalamus then to insular cortex
What do most patients present for in terms of food sensory deficit, and what is actually wrong?
“I can’t taste” – they actually can’t smell
Where do hearing fibers decussate?
Trapezoid body
Where do vestibular fibers decussate?
Prior to medial longtiduinal fasciculus
What controls voluntary saccades, and what is the pathway to start them?
Frontal eye fields of the frontal lobe are stimulated, and bypass the superior colliculus to project straight to ipsilateral paramedian pontine reticular formation
How fast can saccades move?
Up to 700 degrees per second
After that, where do they project to?
The PPRF innervates the ipsilateral abducens nucleus, the other fibers join the medial longitudinal fasciculus which decussates to the contralateral oculomotor nucleus
So activation of the left frontal eye field causes what?
Look to the right
How do voluntary saccades get transmitted?
Parietal eyefields are stimulated by visual cortex, which transmits to the superior colliculus and also removes inhibition of SNPR (NOT PC!) by the caudate to net activate the superior colliculus, which goes to the PPRF (Brainstem gaze center)
What do involuntary saccades bypass?
Frontal eye field
ds and Basal ganglia
When are you performing saccades?
Always – microsaccades occur even while staring at something.
T/F: An individual with a lesion in the ipsilateral Medial Longitudinal Fasciculus (MLF) would not be able to generate a complete saccade.
False
T/F: The velocity at which you perform a saccade can be controlled in voluntary, or visually-guided saccades.
False
What happens if the frontal eye field is damaged?
Temporary loss of ability to generate saccades.
And if superior colliculus is damaged?
Saccades are less accurate and less frequent.
If both FEF and SC are damaged?
Permanent loss of saccade generation
One side PPRF innervates what, and causes you to look where?
Ipsilateral abducens, contralateral oculomotor; look to the ipsilateral side.
Left lesion to the medial longtiduinal fasciculus causes what, and is associated with what?
Internuclear opthalamoplegia
Ipsilateral eye cannot adduct; contralateral eye abducts with nystagmus. You are still able to loo to the left side, but looking to the contralateral side is difficult.
Associated with multiple sclerosis
Ipsilateral eye cannot adduct; contralateral eye abducts with nystagmus. You are still able to loo to the left side, but looking to the contralateral side is difficult.
Associated with multiple sclerosis
At what velocity (degrees/sec) do saccades take over in place of horizontal pursuit?
50 degrees per second
Nystagmus is named for:
Direction of the saccade (the jump)
Absence of the vestibular ocular reflex indicates what?
Brainstem damage
Turning your head to the right in the vestibular ocular reflex causes what? Are there decussations?
Eyes to pursuit to the left. Decussation occurs via vestibular tract to contralateral abducens nucleus, and decussates from there via the medial longitudinal fasciculus to the (originally) ipsilateral oculomotor nucleus.
Most ocular drugs are made as what type of prodrug?
Ester, there are many esterases that allow for conversion to the active form of the drug after the lipid-soluble form allows for penetration into the cornea
What is the drug of choice for open-angle glaucoma? Give information behind it, including what it is, method of action, side effects.
Latanoprost, prodrug for PGF2; increases accessory outflow pathway; causes darkening of eyelashes and iris
What drug is the second most-common treatment for open-angle? Name the important one. What’s the mechanism?
Beta-blockers; Betaxolol; decreases Gs activity to decrease cAMP to increase PKA which decreases production.
When should you avoid beta blockers for glaucoma treatment? How do they causes issues?
Bradycardia, heart failure, COPD, asthma. They can be taken up via nasolacrimal drainage to cause systemic side effects.
What drugs cause decreased production of aqueous humor?
Beta-blockers, Alpha-2 agonists, carbonic anhydrase inhibitors
Give one carbonic anhydrase inhibitor’s name
Dorzolamide.
What is the treatment for open angle glaucoma?
Pilocarpine immediately to increase outflow. C.A. inhibitors are good
Mannitol can cause dehydration until surgery.
Definitive treatment is laser iridotomy
What drugs should you avoid in glaucoma?
Anticholinergics, sympathomimetics
What is the pathophysiology of closed-angle glaucoma?
Iris contacts the trabecular meshwork/canal of Schlemm to block outflow.
Define glaucoma, in terms of numbers.
Intraocular pressure greater than 22 mmHg above atmospheric (760 mmHg) [normal is >15]
Describe the metabolic enzymes, in order, to create dopamine
Tyrosine –> tyrosine hydroxylase –> L-DOPA –> DDC –> Dopamine –> MAO –> DOPAC –> COMT –> HVA
Describe the metabolic enzymes, in order, to create dopamine
Tyrosine tyrosine hydroxylase L-DOPA DDC Dopamine MAO DOPAC COMT HVA
Parkinson’s disease is caused by destruction of the ____? How do you treat it?
Basal ganglia. Carbidopa and levodopa are first-line therapies.
What is the method of action for carbidopa? Why is it used?
Inhibits peripheral dopamine decarboxylase to increase transport to the CNS. Limits systemic effects of dopamine.
What does selegiline do? Why is it preferable to others in its class?
Inhibits MAO. It is preferential for MAO-B, which has most effect on serotonin, and least hypertensive issues.
The autosomal dominant form of Parkinson’s is marked by what mutation? Autosomal recessive?
Alpha-synuclein Chr4; PARKIN Chr6
Sinemet toxicity is mainly confined to ____ short-term, and ____ long-term.
GI toxicity; dyskinesia and psychosis
What advantage does a dopamine receptor agonist have over L-Dopa? Give two examples of drugs in this class.
Lower chance of extrapyramidal side effects (dyskinesia)
Pramipexole (Mirapex) is a D2, D3 agonist
Ropinirole is a D2 agonist
What drug facilitates endogenous dopamine release?
Amantadine.
What is Entacapone?
Comtan, it is a COMT inhibitor (catechol-o-methyltransferase) to prevent the breakdown of L-dopa and dopamine by COMT
What street drug causes parkinsonism symptoms? How can you treat someone on this drug?
MPTP. Selegiline will inhibit MAO-B which causes it to become a toxic metabolic MPP+.
What is benztropine’s (Cogentin) method of action? What is the thought process?
Anticholinergic to block muscarinic receptors. The idea is decreased dopamine lets ACh thrive due to decreased inhibition and this ACh overactivity causes many Parkinson symptoms.
Which dopamine pathway inhibits movement?
D2. Cortex stimulates striatum to stimulate globus palladus externa to stimulate substantia
What is Tourette’s associated with? What are “tics”?
OCD. Sensorimotor disorder with motor and verbal manifestations.
How do you treat tics?
Only treat them if they interfere with life. The majority resolve spontaneously, only 25% persist.
A patient presents with ataxia and other parkinsonian symptoms that started 2 years ago and is now in a wheelchair. What is the diagnosis?
Lewy body dementia
A patient presents with Parkinsonian features and early onset of autonomic instability and postural instability with multiple falls. What is the diagnosis?
Progressive supranuclear palsy
Patient doesn’t respond to dopamine-replacement therapy and has autonomic, cerebellar, and Parkinson symptoms. What’s the diagnosis?
Multiple systems atrophy
What is the most common adult movement disorder? What is it a disorder of, and what should you avoid?
Restless leg syndrome; disorder of restful wakefulness. Avoid sleep study.
Describe a psychogenic movement disorder.
Sudden onset, waxing and waning
One of these (in bold) is not typical for sudden onset movement disorder:
Poststroke/ischemia, toxin/medications, infection/post-infectious, depression, metabolic, hyperglycemia, autoimmune
Most movement disorders disappear when:
You go to sleep
Neurodegenerative disorders are characterized by:
Proteins misfolding and aggregating.
Neurofibrillary tangles and neuritic plaques are composed of what, respectively, and are characteristic of what?
hyperphosphorylated tau protein and beta-amyloid aggregates; Alzheimer’s
What is tau protein normally part of?
Microtubule assembly
Frontotemporal lobe dementia is histopathologically marked by what? What does it stain with?
TDP-43 ubiquitin inclusions – Pick bodies. Silver.
Lou Gehrig’s is characterized by degeneration of what structure?
Anterior horn of spinal cord and corticospinal tract.
Bunina bodies are histopathologic for what disease?
AMLS
Genetics of Huntingtons involves what? What genetic feature is present?
AD CAG repeats in Chr4 Huntingtin gene, displays paternal anticipation
What are two drugs to treat essential tremor?
Propanolol and primidone
Drugs to treat Tourettes?
Tetrabenzine and neuroleptics
Huntingtons?
Tetrabenzine, neuroleptics (Haldol)
Describe the pathophysiology of fever.
Pyrogens such as cytokines and PGE2 diffuse through the circumventricular organs of the hypothalamus (SFO, OVLT) to the POAH ONLY (no effect on posterior hypothalamus) to raise the temperature set point
What is the primary method for heat maintenance in infants?
Non-shivering thermogenesis: sympathetic activity releases norepi thermogenin/uncoupling protein in brown fat cells proton gradient creates heat, NOT ATP
What are the direct effects of the hypothalamus on neuroendocrine function?
Supraoptic nucleus synthesizes ADH, paraventricular nucleus secretes oxytocin. These diffuse to neurohypophysis of posterior pituitary. They are released upon APs and can modulate behavior.
What are the indirect effects? Give examples (in bold)
It releases hormones to the portal circulation to regulate release of hormones from glandular cells of anterior pituitary.
E.G.: CRH ACTH. GnRH LH/FSH. PRF PRL. TRH TSH. GHRHGH
How does the hypothalamus affect autonomic nervous system?
It has direct innervation to preganglionic parasympathetic and sympathetic nerves.
How about hypothalamic effects on somatic nervous system?
It innervates upper motor neurons in the brainstem reticular formation.
How does the hypothalamus regulate the sleep-wake cycle?
Suprachiasmatic nucleus receives light via retinohypothalamic tract which then forms transcription-translation regulatory loop of key proteins.
What occurs if the cerebral cortex is severed from the hypothalamus? What is the mediator? What is the conclusion of this?
How do you destroy this effect?
Sham rage; norepi. The hypothalamic rage response is inhibited by the cerebral cortex. Disconnect the hypothalamus from the brainstem and spinal cord.
What nucleus is the satiety center? The hunger center?
Ventromedial; lateral
How does the hypothalamus regulate body temperature to 37 degrees celcius? What is the pathway?
Preoptic Anterior Hypothalamus/POAH (Hypothalamic warm receptors and Skin warm receptors activate, skin cold receptors inhibit) activates heat loss mechanisms.
Posterior Hypothalamus/PH (Skin warm receptors inhibit, skin cold receptors activate) activate heat gain mechanisms.
POAH inhibits PH
What are heat loss and heat gain mechanisms?
Loss: Vasodilate, sweat, seek cold
Gain: vasoconstrict, shiver, NST, seek warm
Does the body take longer to react to cold or hot temperatures? Why?
Cold, there are only central (hypothalamic) warm receptors, no cold receptors, and POAH normally inhibits the PH, so takes longer to start heat gain mechanisms
What are endogenous and exogenous pyrogens?
IL-1, IL-6, TNF, interferon are endogenous; bacterial and viral proteins are exogenous. They cross the OVLT to endothelial cells and cause PGE2 production.
Voluntary movement, language fluency, executive function are all functions of the:
Frontal lobe (the higher order)
Vision is a function of the:
Occipital lobe
Tactile sensation, visuospatial function, attention, reading, writing are functions of the:
Parietal lobe (creativity)
Language comprehension, memory, emotion are functions of the:
Temporal lobe (think of hearing!)
Brodmann areas 44, 45 are injured in? What lobe?
Broca’s aphasia. Frontal.
Most individuals are ___-hemisphere dominant for language
Left
Disinhibition results from lesions to what cortex?
Orbitofrontal (executive function – the higher order!)
Executive dysfunction results from lesions to what cortex?
Dorsolateral prefrontal
Apathy results from lesions to what cortex?
Medial frontal
The three previously mentioned conditions (disinhibition, apathy, and executive dysfunction) are more pronounced when:
Bilateral lesions are present
Lesions of Brodmann area 22 result in? What lobe?
Wernicke’s aphasia. Temporal.
What about Brodmann area 22 on the right?
Sensory aprosody.
Hippocampal lesions result in deficits of what?
Learning
Hemineglect results from what?
Contralateral parietal lobe lesions
Occipitotemporal (ventral) lesions result in ___, while occipitoparietal (dorsal) lesions result in ___
Don’t know what; don’t know where
What is the most severe corpos callosal lesion effect?
Most are largely asymptomatic, maybe anomia, agraphia, apraxia of left hand
What’s the first step if you suspect aphasia?
Complete history and neuro exam. Mental status exam is next.
What is dysarthria?
Deficit in motor system leads to inability/disability of speaking.
What is language linked to?
Handedness. Most are left-hemisphere dominant.
What is the most common cause of aphasia?
Stroke
The arcuate fasciculus is lesioned. What can you expect the patient to demonstrate?
Poor repetition, this is conduction aphasia.
The perisylvian region is lesioned. What can you expect of the patient?
No speech, no understanding, no repetition, no naming. This is global aphasia.
Brodmann area 22 is lesioned. What can you expect?
No auditory comprehension. This is Wernicke’s. Temporal lobe.
Brodmann area 44, 45 is lesioned, what can you expect?
Non-fluent speech. This is Broca’s. Frontal lobe.
Which aphasia does the patient not understand they have a deficit?
Wernicke’s, B.A. 22
Who will display the best recovery from a lesion? What is the most important thing to offer a patient?
Small lesions in younger patients have the best recovery. It’s most important to have the patient adapt to their disability. Most improvement will happen in the first year.
The pure-tone threshold is set at ?
0 dB for the normal hearing threshold for each particular pitch
Circles represent the ___ ear
Right. ciRcle
Conductive hearing loss manifests on an audiograph as what?
Differences in air-bone lines (good bone conduction, poor air)
A choleasteatoma is:
Growth in middle ear that can destroy the ossicles. Results in chronic infections as well.
The most common pathology of hearing loss is?
Hair cell loss
The most common preventable pathology of hearing loss is?
Noise trauma
Presbycusis manifests on an audiogram as:
Loss in high frequency hearing
The most common genetic mutation of non-syndromic hearing loss is:
Connexin 26
