Automomic Nervous system: overview and medications

Question 1

What NT does the sympathetic NS use

Answer 1

• Epinephrine
• Norepinephrine
• dopamine
• adrenergic system/Ach

Question 2

What NT does the parasympathetic NS use

Answer 2

• acetylcholine
• cholinergic system

Question 3

Describe the difference between the sympathetic and parasympathetic pre and post ganglionic cell

Answer 3

Sympathetic:
- pre ganglionic is short/close to the spinal cord and releases ACh
- post ganglionic is long and releases Ach, NE, dopamine, EP

Parasympathetic:
- pre-ganglionic is long and releases ACh
- post-ganglionic is short and releases ACh

Question 4

effects of the sympathetic NS

Answer 4

• increase HR and BP
• increase in heart contractility
• bronchodilation
• vasodilation to skeletal muscle
• kidney secrete renin
• sweating
• decrease GI activity
• bladder relaxes and sphincter contracts
• pupils dilate
• gluconeogensis/glycogenolysis

Question 5

What are the main effects of parasympathetic NS stimulation

Answer 5

• Decrease in HR and BP
• decreased cardiac contractility
• bronchoconstriction (this also maintains moisture)
• increase in GI activity
• bladder constricts and sphincters relax
• pupils constrict

Question 6

What in the body does not have any direct parasympathetic input to

Answer 6

• arterioles
• kidney
• radial muscles of iris
• sweat glands
• liver
• fat cells

Question 7

Autonomic NS receptors system: used in both sympathetic and parasympathetic

Answer 7

• Ach is used to transmit information from the brainstem or spinal cord to the autonomic ganglia
• nicotinic receptors
• these neurons then connect to peripheral structures
• used in both

Question 8

Sympathetic nervous system receptors
- where are they located generally
- types
- what do they do

Answer 8

• the second set of neurons release norepinenphrine (after chain ganglion)
• attaches to alpha or beta receptors
• difference receptors on different organs
• can increase or decrease sympathetic input to peripheral cells

Question 9

Alpha receptors in the sympathetic NS

Answer 9

primarily in peripheral arterioles of smooth muscle

Question 10

Beta 1 receptors in the sympathetic NS

Answer 10

• primarily in the heart

Question 11

Beta 2 receptors in the sympathetic NS

Answer 11

primarily in the lungs

Question 12

The second set of neurons in the parasympathetic nervous system receptors

Answer 12

• release Ach
• Ach attaches to muscarinic receptors in peripheral cells
• increase parasympathetic effect
• muscarinic is just in parasympathetic

Question 13

ANS medications: agonist - general for both sympathetic and parasympathetic

Answer 13

• adrenergics: stimulate sympathetic NS meaning they are agonist
• cholinergics stimulate the parasymapthetic
• mimetics = mimics which can mean an agonist also

Question 14

ANS medications: antagonist - general for both sympathetic and parasympathetic

Answer 14

• beta blockers = inhibit sympathetic NS
• alpha blockers = inhibit sympathetic NS
• anticholinergics = inhibit parasympathetic NS
• lytics = breaks/blocks action

Question 15

Drug mechanism on NT in the ANS

Answer 15

• action potential
• synthesis, storage, release
• postsynaptic receptor
• metabolism, reuptake, degradation
• continued NT release

Question 16

Receptors and pharmacology are…

Answer 16

• receptor-specific drugs can target specific organs

Question 17

What do cholinergic drugs typically affect

Answer 17

• parasympathetic system
• muscular system
• brain

Question 18

Cholinergics stimulants

Answer 18

increase action of neurons that use Ach

Question 19

what are the types of cholinergics stimulants and what do they do

Answer 19

1. direct: bind to receptor for Ach
2. block action of acetylcholinesterase so Ach can be used longer

Question 20

Direct cholinergic stimulants
- how does it work
- what does it do

Answer 20

• receptor specificity for muscarinic receptors (so it just affects Parasympathetic)
• increases parasympathetic activity

Question 21

examples of direct cholinergic stimulants

Answer 21

• bethanechol: treats urinary retention or ileus (take mostly after surgery due to bowel stop working and backs up the colon)
• nicotine pathes or gum

Question 22

Indirect cholinergic stimulants

Answer 22

• increase availability of Ach by reducing the AchE
• non-specific effects: increase availability throughout the body not at a particular part
• can increase Ach activity at nicotinic receptors (which are found in sympathetic NS also)
• some drugs have specificity at certain doses
• uses: increase Ach availble at neuromuscular junction, brain, treat glaucoma, urinary retention

Question 23

What are the side effects of cholinergic stimulants?

Answer 23

• increase in parasympathetic function…
• GI distress: nausea, vomiting, diarrhea, abdominal cramping
• bronchoconstriction and increased salivation (keeps moisture)
• bradycardia
• pupils constricted, impacts vision

Question 24

Rehab considerations for cholinergic stimulants

Answer 24

• bronchoconstriction: pace activities (dyspnea)
• urinary frequency with abdominal contractions
• impaired vision in low light
• fall risk

Question 25

Rehab considerations with nicotine

Answer 25

- increase in blood pressure - non-prescription (smoking/vaping) - decrease oxygen-carrying capacity - increase risk of angina

Question 26

cholineterase inhibitor poisoning

Answer 26

- caused by too much Ach - Diarrhea - Urination - Miosis: pupil constriction - Bradycardia - Bronchospasm - Excitation of ms - Lacrimation - Sweating - Salivation

Question 27

Anticholinergic drugs: antagonsits

Answer 27

- inhibit parasympathetic NS - can block action of nicotinic or muscarinic receptors - some can specifically target different subtypes (M1-M5) - anticholinergics for nicotinic receptors which will affect both sympathetic and parasympathetic - can target autonomic ganglia or neuromuscular junction

Question 28

Uses of anticholinergic drugs

Answer 28

- Gi system: reduces gastric secretion, motility, GI smooth muscle tone - used for peptic ulcers, irritable bowl syndrome - cardiovascular: reduces bradycardia and some heart arrhythmias - bladder: reduces contraction of bladder/reduces tone of bladder muscles - eye: reduces pupillary constriction: dilates the eye

Question 29

What can anticholinergics be used for in the brain or brain stem

Answer 29

- parkinsons disease: improves motor symptoms - motion sickness - targets problems in brain or brainstem

Question 30

Anticholinergic at neuromusclar junction

Answer 30

- Succinylcholine - causes temporary paralysis in a larger dose - can be used during surgery or to input a ventilator to avoid them coughing it up -

Question 31

PT considerations for anticholinergics at neuromuscular junction

Answer 31

- nausea - emesis: throwing up - myalgia: tight muscles - hyperkalemia

Question 32

Side effects of anticholinergic drugs

Answer 32

- dry mouth - blurred vision - tachycardia - urinary retention - constipation - confusion - dizziness - nervousness - drowsiness

Question 33

Rehab considerations for anticholinergics

Answer 33

- increased HR - light sensitivity - sedation/decrease cognition - decreased sweating/hyperthermia

Question 34

Adreneric drugs generally affect what

Answer 34

- sympathetic NS - brain - spinal cord

Question 35

Adrenergic receptors types and where they are located

Answer 35

- Alpha 1: peripheral arterioles of smooth muscles - alpha 2: brainstem, spinal cord - Beta 1: primarily in the heart - beta 2: primarily in lungs (bronchial smooth muscle)

Question 36

Uses of sympathomimetics

Answer 36

- anaphylaxis - epinephrine; fast acting; causes bronchodilation, vasoconstriction - increases alertness: ADHD, narcolepsy, amphetamines (adderall) - eyes: increase dilation to reduce itching, or pressure (glaucoma) - overactive bladder - incontinence in children and adults

Question 37

Cardiovascular uses of sympathomimetics

Answer 37

increase blood flow - heart failure: B1 agonist - increase contractility (positive ionotrope) decrease blood flow or increase blood pressure - hemorrhage or spinal shock/hypotensive emergency: alpha 1 agonist - causes vasoconstriction

Question 38

Respiratory uses of sympathomimetics

Answer 38

- reduce nasal congestion: alpha agonist to promote vasoconstriction so you are not as stuffy - reduce bronchoconstriction: beta agonist - ei: asthma, COPD, short acting for attacks and long acting for prevention often taken by inhaler

Question 39

Adverse effects of sympathomimetics

Answer 39

- too much stimulation can cause too much of it - vasoconstriction, heart attack (due to increase HR), heart arrhythmia, tachycardia - nervousness, anorexia, insomnia - pulmonary edema or hemorrhage - hypertension - hyperglycemia (increase in cortisol and gluconeogeneis)

Question 40

side affects of alpha 1 sympathomimetics

Answer 40

- hypertension - headache - bradycardia (to try to lower blood pressure) - it is called reflex bradycardia/cardiac baroreceptor reflex

Question 41

Side effects of beta agonists (sympathomimetics) - beta 1 and beta 2

Answer 41

- beta 1: chest pain (less time for heart to get O2 blood), arrhythmias, shortness of breath - Beta 2: nervousness, restlessness, trembling (associated with bronchodilation)

Question 42

Mixed sympathomimetics side effects (occur in any of them)

Answer 42

- nervousness - restlessness - anxiety - hypertension - arrhythmias - cardiac arrest

Question 43

Adrenergics/sympathomimetics: rehab considerations

Answer 43

- may allow a pt to participate in therapy - be cautious with exercise - precautions: restlessness, increase BP or hR, angina

Question 44

Sympatholytics:

Answer 44

- adrenergic antagonists - adrenergic blockers

Question 45

purpose of sympatholytic drugs

Answer 45

- block action of sympathetic NS - most drugs target a specific receptor - ex: 1. alpha anatgonist/alpha blocker 2. beta anatgonist/beta blockers

Question 46

Alpha blockers

Answer 46

- most are selective to alpha 1 receptors - designed to reduce vasoconstriction (bring back to normal vasotone through vasodilation) - uses: 1. treat HTN 2. some used for benign prostatic hypertrophy - end in osin

Question 47

Side effects from alpha blockers

Answer 47

1. reflex tachycardia: BP drops a lot so body compensates by increasing HR - baroreceptor reflex - decrease effect (baroreceptor reflex) with alpha selective blocker 2. orthostatic hypotension

Question 48

Beta blockers

Answer 48

- used for effect on beta 1 receptors on the heart - beta 1 selective/cardioselective - some beta blockers are beta-nonselective (work on both beta 1 and 2) - beta 2 selective drugs are not clinically useful - not many times you want to cause bronchoconstriction

Question 49

adverse effects of beta blockers

Answer 49

- blunted exercise response: prevents/decreases HR causing tired and dyspnea - orthostatic hypotension, dizziness - heart failure - depression - lethargy

Question 50

uses of beta blockers

Answer 50

- manage hypertension: reduces heart rate and contractility - can be used to manage angina, reduce the workload of heart - most beta blockers end in -lol

Question 51

Rehab relevance to beta blockers

Answer 51

- orthostatic hypotension: frequent BP checks and aquatics with warm pool can cause systemic vasodilation which decreases BP - bronchoconstriction - depressed HR/blunted HR response to exercise

Question 52

Side effects of non-selective beta blockers

Answer 52

- bronchoconstriction - special concern with existing lung disorders