311367
Beschreibung
Mindmap von melian.yates, aktualisiert more than 1 year ago
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Erstellt von melian.yates
vor etwa 11 Jahre
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Surgical Muscle Relaxation
- Intra-operative movement
- Undesirable
- Complicates surgery
- May be difficult to prevent
- Jeopardizes sepsis
- Wastes time & Money
- Damage & injury
- Complicates surgery
- Desirable
- Breathing
- Nystagmus (Except during
ocular surgery)
- Reflex withdrawal to
noxious stimuli
- Breathing
- Undesirable
- 1) Deep GA + Alpha 2 - Agonists
- Ethers > Alkanes
- Propofol Vs. Ketamine
- Ketamine
- Poor Muscle relaxant !
- Myotonia
- Catatonia
- Not anaesthesia
in general sense
(Dissociative
Anaesthesia)
- Not anaesthesia
in general sense
(Dissociative
Anaesthesia)
- Myotonia
- Poor Muscle relaxant !
- Ketamine
- Alpha 2 Agonists
- Drug - dependent effect
- Synergism + "Anti" -
Ketamine effect
- => Muscle relaxation
- => Muscle relaxation
- Drug - dependent effect
- Suppressing reflexes (Ex. scratch reflex)
with high levels of GA incurs the risk of
excessive Medullary depression
- Endangers
unhealthy animals
- Healthy animals: High
anaesthetic doses given
over prolonged periods will
delay recovery
- Endangers
unhealthy animals
- Ethers > Alkanes
- 2) "Spinal" Acting drugs
- Guaiphenesin, Glyceryl guaiacolate ether (GGE)
- Horse, Cow, Pig
- Induction for animals on verge of shock
- X3 (Triple) Drip
- GGE, Xylazine & Ketamine
- Operations </= 45min
- Operations </= 45min
- GGE, Xylazine & Ketamine
- X3 (Triple) Drip
- Disadvantages
- Paradoxial Signs in OD
- Rigidity of muscle
- Rigidity of muscle
- Irritant extravascularly
- Must use cannula
to inject into Jugular
- Must use cannula
to inject into Jugular
- Paradoxial Signs in OD
- Horse, Cow, Pig
- Blocks internuncial neurons
(connecting neurons) in the
spinal cord
- Benzodiazepines
- Relieves muscle spasm
- Midazolam, Diazepam
- Sedative (?) muscle relaxants
- GABA receptors
- GABA receptors
- Don't use in Horses by itself !
- + Ketamine
- + Ketamine
- "Anti" - Ketamine effect
- Uses
- Induction (Horses)
- Top-ups (Horses)
- IM sedation (+ Ketamine)
- IM sedation (+ Ketamine)
- Top-ups (Horses)
- Induction (Horses)
- Uses
- Relieves muscle spasm
- Guaiphenesin, Glyceryl guaiacolate ether (GGE)
- 3) Local Anaesthetics
- Applied to peripheral nerve trunks (Conduction blocks)
- Blocks activity in the A
alpha motor neurons (before
motor nerve terminal)
- Blocks activity in the A
alpha motor neurons (before
motor nerve terminal)
- Extradural => Profound
muscle relaxation
- Ex. Lidocaine
- Ex. Brachial plexus block
- Applied to peripheral nerve trunks (Conduction blocks)
- 4) Neuromuscular blocking agents
- Predictable Muscle relaxation
during clinical anaesthesia
- Reversibly bind Nicotinic
Cholinoreceptors at the
motor end plate & prevent
neuromuscular transmission
- Block access of Acetylcholine
- Block access of Acetylcholine
- No CNS depression
- Do NOT cross BBB
- Do NOT cross BBB
- Effects can be
anatagonized by
Anticholinesterase
drugs
- Non- Depolarizng Drugs
- Commonly used
- Benzylisoquinolinums
- d-tubocurarine
- No longer used
- Injection causes
Histamine
release in Dogs
- Vasodilation
- Hypotension
- Tachycardia
- Bronchial spasm
- Bronchial spasm
- Tachycardia
- Hypotension
- Vasodilation
- No longer used
- Mivacurium
- Very rapid onset
- Short duration
- Short duration
- New
- Very rapid onset
- cis-Atracurium
- Unevaluated in animals
- Unevaluated in animals
- d-tubocurarine
- Amino-steroids
- Pancuronium
- Used to be the
most popular
relaxant
- Intermediate onset
- Long duration of
action (> 30 min)
- Long duration of
action (> 30 min)
- Causes modest
Tachycardia after
injection
- Still used (Pigs)
- Still used (Pigs)
- Vecuronium
- Commonly used
- Derived from
Pancuronium
- Intermediate duration
of action (20 - 30 min)
- Little cumulative
effects after
repeated doses
- Few cardiovascular
effects
- Few cardiovascular
effects
- Little cumulative
effects after
repeated doses
- Commonly used
- Used to be the
most popular
relaxant
- Atracurium
- Intermediate
duration of action
- Rapid onset
- Hofmann elimination
- Drug molecule
spontaneously
degrades
- Good for animals
with renal &
hepatic disease
- Drug molecule
spontaneously
degrades
- Hofmann elimination
- Rapid onset
- Intermediate
duration of action
- Rocurium
- New
- Very rapid onset
- limited advantage in
animals
- limited advantage in
animals
- New
- Pancuronium
- No Effect on cardiac
or smooth muscle
- Commonly used
- Depolarizing Drugs
- Depolarize the
post-synaptic membrane
before stabilizing its RMP to
cause paralysis
- Rigidity => Flaccid paralysis
- Rigidity => Flaccid paralysis
- Suxamethonium
- Rapid onset (secs)
- Short acting (3 -5min)
- Short acting (3 -5min)
- Horses, pigs, cats,
primates & humans
- Facilitate endotracheal
intubation
- Facilitate endotracheal
intubation
- 2 combined molecules
of Ach ( drug exerts
cholinergic behavior)
- Initial sarcolemmal
depolarization (w/
muscle faciculations)
& some ANS effects
- Initial sarcolemmal
depolarization (w/
muscle faciculations)
& some ANS effects
- Increases intragastric
& introcular pressure
- Rapid onset (secs)
- Decamethonium
- Not used in animals
much anymore
- Depolarize the
post-synaptic membrane
before stabilizing its RMP to
cause paralysis
- Advantages
- Predictable total relaxation for
surgeon & anesthetist
- Reduces anaesthetic requirement
- Reduces surgical traction
- Facilitates surgery
- Reduces wound
margin trauma
- Reduces wound
margin trauma
- Facilitates PPV
- Facilitates ETT
- May be Antagonized (Reversible)
- May be Antagonized (Reversible)
- Facilitates ETT
- Facilitates surgery
- Reduces surgical traction
- Reduces anaesthetic requirement
- Predictable total relaxation for
surgeon & anesthetist
- Disadvantages
- Controlled ventilation vital
- Difficulty in monitoring anaesthesia
- Absence of motor response to nerve
stimulation
- Complexity of blockade monitoring
- Post- op weakness
- Post- op weakness
- Zero motor response to Nn stimulation
- Ex. spinal surgery
- No twitch
response when
near motor
nerves
- No twitch
response when
near motor
nerves
- Ex. spinal surgery
- Complexity of blockade monitoring
- Muscle paralyzed, so can't
indicate consciousness
- Depth monitoring
complicated
- Can't use eye
positioning
- Can't use eye
positioning
- Absence of motor response to nerve
stimulation
- Difficulty in monitoring anaesthesia
- No guarantee of unconsciousness
- Do NOT cross BBB
- Do NOT effect
consciousness
- Do NOT effect
consciousness
- Do NOT cross BBB
- Controlled ventilation vital
- Indications
- High risk cases
- Reduce anaesthetic
requirement =>
Cardiopulmonary function
is preserved
- Thoracic surgery &
Diaphragmatic Hernia
Repair
- Laparotomy
- Microsurgery
- Orthapedics
- Inefficient ventilatory pattern
- Insuppressible spinal reflexes
- Ex. Chronic otitis externa
- Scratch reflex
- Head shaking
- Head shaking
- Scratch reflex
- Race Horses
- Ex. Chronic otitis externa
- Endotracheal intubation
- Facilitated in species
with laryngeal reflexes
resistant to GA
- Primates, Pigs & Cats
- Primates, Pigs & Cats
- Facilitated in species
with laryngeal reflexes
resistant to GA
- PPV without animal
"fighting the ventilator"
- Insuppressible spinal reflexes
- Inefficient ventilatory pattern
- Intraocular & neurological
surgery (performed under
microscopes)
- Orthapedics
- Less surgical traction
required => less tissue
trauma on wound margins
- Microsurgery
- Reduced rigidity in the
thoracic cage => lower
inflation pressure for
PPV
- Laparotomy
- Reduce anaesthetic
requirement =>
Cardiopulmonary function
is preserved
- High risk cases
- Contraindications
- Neuromuscular blocking drugs
must NOT be used if there is
any doubt that the animal is
adequately anaesthetized
- These drugs eliminate some of
the obvious signs of inadequate
anaesthesia (Movement, ocular
position, cranial nerve reflexes)
- These drugs eliminate some of
the obvious signs of inadequate
anaesthesia (Movement, ocular
position, cranial nerve reflexes)
- Neuromuscular blocking drugs
must NOT be used if there is
any doubt that the animal is
adequately anaesthetized
- Muscle Sensitivity to Blockers
- Muscles of expression > Neck, distal limb > Proximal limb> Abdominal muscles > Intercostal muscles > Diaphragm
- Muscles affected in this order
during onset, sequence is
reversed during offset
- Consequences:
- 1) If neuromuscular blockade
is monitored at a resistant
unit then overall overdose
may occur with prolonged
recoveries
- 2) Monitoring at a sensitive
site may mean muscle
relaxation is inadequate at
the operating site
- 3) Attempting to capitalize on
selective sensitivities ( Low doses
to block sensitive muscles while
preserving resp. muscle function) =>
Very Dangerous!
- Sensitivity hierarchy is very
variable, as is response of all
animals to these drugs
- Sensitivity hierarchy is very
variable, as is response of all
animals to these drugs
- 1) If neuromuscular blockade
is monitored at a resistant
unit then overall overdose
may occur with prolonged
recoveries
- Muscles of expression > Neck, distal limb > Proximal limb> Abdominal muscles > Intercostal muscles > Diaphragm
- Monitoring
Neuromuscular
Blockade
- Peripheral nerve stimulators:
stimulating a peripheral nerve &
measuring the strength of the
evoked response (or twitch)
- Muscle units for
monitoring
neuromuscular
transmission:
- Dorsal buccal branch
of facial nerve
- Dilator nasi
lateralis (Dogs)
- Dilator nasi
lateralis (Dogs)
- Ulnar nevre
- Carpal flexors
(Dogs & Pigs)
- Carpal flexors
(Dogs & Pigs)
- Deep peritoneal
- Hind-limb digital
extensor muscles
(Horses & Dogs)
- Hind-limb digital
extensor muscles
(Horses & Dogs)
- Dorsal buccal branch
of facial nerve
- 'Train of 4' stimulation pattern
- Delivery of 4
stimuli (at 2 Hz)
every 12 secs
- Counting the # of
twitches in each
train can indicate the
extent of block
- Counting the # of
twitches in each
train can indicate the
extent of block
- Delivery of 4
stimuli (at 2 Hz)
every 12 secs
- Muscle units for
monitoring
neuromuscular
transmission:
- Peripheral nerve stimulators:
stimulating a peripheral nerve &
measuring the strength of the
evoked response (or twitch)
- Monitoring Consciousness
- Neuromuscular blockers
paralyze facial skeletal
muscle & eliminate
normal reflexes
- After paralysis: Eyelids are
open, eye is central; No
corneal or palpebral reflexes
- After paralysis: Eyelids are
open, eye is central; No
corneal or palpebral reflexes
- Paralysed animals that are NOT unconscious:
- Paradoxial Jaw tone
- Paradoxial tongue twitching
- Mydriasis
- Lacrimation
- Salivation
- Tachycardia
- Hypertension
- Arrhythmias
- Arrhythmias
- Hypertension
- Tachycardia
- Salivation
- Lacrimation
- Mydriasis
- Paradoxial tongue twitching
- Paradoxial Jaw tone
- Neuromuscular blockers
paralyze facial skeletal
muscle & eliminate
normal reflexes
- Neuromuscular Blockade Antagonism
- Anti-cholinesterase Drugs
- Edrophonium
- + Atropine
- + Atropine
- Neostigmine
- + Glycopyrrolate
- + Glycopyrrolate
- Increase Ach levels at the
neuromuscular junction
- Additional Ach competes
w/ neuromuscular
blocking agent effectively
for binding sites on the
Nicotinic receptor
- => Restores
neuromuscular
transmission
- => Restores
neuromuscular
transmission
- Rising Ach throughout the
body activates Muscarinic
receptors present on target
organs of the
Parasympathetic NS
- Anti-cholinesterases given
alone => Bradycardia,
Bradyarrhythmias (asystole),
Bronchoconstriction,
Bronchosecretion, GI
Hypermotility & Hypersecretion
- Similar to OP toxicity
- + Antimuscarinic Drugs
- Similar to OP toxicity
- Anti-cholinesterases given
alone => Bradycardia,
Bradyarrhythmias (asystole),
Bronchoconstriction,
Bronchosecretion, GI
Hypermotility & Hypersecretion
- Additional Ach competes
w/ neuromuscular
blocking agent effectively
for binding sites on the
Nicotinic receptor
- Edrophonium
- Anti-cholinesterase Drugs
- Predictable Muscle relaxation
during clinical anaesthesia
- 5) Combinations
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