Intravenous Sedatives and Hypnotics - Part I 2 PDF

Summary

This document is a pharmacology lecture covering intravenous sedatives and hypnotics. It discusses the properties of various drugs, such as propofol, etomidate, and midazolam, and their effects on the body. The document includes information regarding mechanisms of action, clinical applications, and potential adverse effects.

Full Transcript

INTRAVENOUS
SEDATIVES AND
HYPNOTICS
University of Puerto Rico –
Medical Sciences Campus
School of Nursing – Nurse
Anesthesia Program
E N F E 7 1 3 1 – A d va n c e d
Pharmacology I
J o r g e H e r n a n d e z , D N A P, C R N A

Hypnotics
Sedatives
En induction se dan dosis iniciales para dormir el paciente las dosis son significativas mas grande
Saber propofol, etomidate y ketamine

Anxiolytics

Sedatives: drug that induces a state of calm or sleep.
Hypnotic: drug that induces hypnosis or sleep.
Anxiolytic: drug that reduces anxiety.

Rapid drug induced uncounscioussness
GENERAL ANESTHESIA

Sedative-hypnotics

Sedative hypnotics are drugs they reversible depress the activity of the
central nervous system.

Chemical Structures

Saber

quiz question

quien

nene

-

mas
o

menos

50% erythrocytes
+
48% Albumin

know !

Propofol (1.5 – 2.5 mg/Kg Induction)
Ø 2,6-diisopropyl phenol
Ø IV as a 1% solution

10% soybean oil
2.25% glycerol
1.2% purified egg

Discard 6 hrs.
afer opening
quiz quest

medium
maintains isotonic with blood
emulsifier

Ø Formulation supports bacterial growth and increases triglyerides with prolonged infussion

! − #$%&'()*+,%- #-%. #/'%0*0
Propofol
§

Mixing of propofol with other drugs is not recommended

§

Lidocaine + propofol could result in droplets that pose risk of pulmonary embolism

Propofol Alternatives
§

Ampofol: low-lipid emulsion that does not require preservative but has higer pain on injection

§

Aquavan & fospropofol: prodrug has risk of infection, pain on injection, hypertryglyceridemia and pulmonary embolism.

•

Formulations with cyclodextrins: non-lipid formulation

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Propofol Mechanism of Action

Cuales van al gaba a directamente? Benzos enhace the action of gaba

§ Selective modulator of GABAA receptors. Evidence of potentiation at glycine receptors.
§ Immobility not caused by drug-induced spinal cord depression (as opposed to volatile
anethetics).

know
h

! − #$%&'()*+,%- #-%. #/'%0*0
Propofol Pharmacokinetics

High hepatic extraction ratio

• Clearance of propofol from plasma exceeds
hepatic blood flow.

Tissue uptake (first-pass into lung)
First pass in the lungs

Hepatic oxidative metabolism P450

CYP lo convierte en

Rapid and extensive

Water soluble sulfate and glucuronic acid

Drug Distribution

:

ex

brain

! − #$%&'()*+,%- #-%. #/'%0*0
Propofol Clinical Uses “Drug of Choice”
§ Induction of Anesthesia (1.5 to 2.5 mg/kg IV or blood levels of 2 to 6 !/mL
ü Children

Higher dose on a mg/kg basis

Dosis en niños es mas alta porque tienen un vol
de distribución y un clearance rate mas alto

Larger central distribution & clearance rate
ü Elderly

Require a lower induction dose 25% - 50%
Smaller distribution & clearance rate, &

pharmacodynamic activity

Awakening without residual CNS effects occurs at plasma concentrations of 1.0 to 1.5
!/mL

Saber

clarify

&

↓

! − #$%&'()*+,%- #-%. #/'%0*0
Propofol Clinical Uses
Intravenous Sedation

Short context-sensitive half-time & short site equilibrium (ideal)
Typical conscuouss sedation 25 to 100 !%/kg/min
Low incidence of nause and vomiting and residual sedation
A good characteristic of propofol

Mechanical Ventilation & Cardiac Surgery
Modulates postop. hemodynamic response
(decreased incidence of HTN & Tachycardia)

! − #$%&'()*+,%- #-%. #/'%0*0
Propofol Clinical Uses
•
•

Maintenance of Anesthesia: 100 tp
⑧ 300 mcg/kg/min (often in combination with an
opioid).
Nonhypnotic Therapeutic Applications

Aplicaciones no hypnóticas, usualmente es luego de que se use el zofran juno con el decadron y /o el
scopolamine te tienes que quedar con el paciente por lo menos de 3-5 min.
Esto no se hace así por que si, ósea es para cuando post op los medicamentos no funcionan***

1. Antiemetic Effects – subhypnotic dose of propofol (10 – 15 mg IV)
2. Anticonvulsant Activity – possesses antiepileptic properties and GABA-mediated
presynaptic and postsynaptic inhibition of chloride ion channels.
Lo ideal es usar (versed) para terminar convulsion pero si tienes propofol a la mano puedes usar el propofol

Propofol is not indicated for bronchodilation but it

can help
3. Attenuation of Bronchoconstriction – decreases prevalence
of wheezing after
induction & intubation in healthy & asthmatic patients. Formulation with
metabisulfite can caus2 bronchoconstriction in asthmatic patients.
Por que el sodium metabisulte libera histamina

! − #$%&'()*+,%- #-%. #/'%0*0
Solid squares = wheezing

Con el propofol no hay eventos de wheezing
No quiere decir que el etomidate esta contraindicado en pacientes asthmaticos

Respiratory resistance after tracheal
intubation is less after induction of
anethesia with thiopental or etomidate.

! − #$%&'()*+,%- #-%. #/'%0*0
•

•

Interaction with Opioids (Pharmacokinetics)
1.

Alfentanil and propofol have effect on each others plasma concentration through
changes in elimination and distribution clearance.

2.

Coadministration increases remifentanil concentration (decrease in central Vd and
distribution clearance of remifentanil by 40% & elimination clearance by 15%)

Interaction with Opioids (Pharmacodynamics)
1.

Coadministration with any of phenylpiperidines (fentanyl and cogeners) show
synergism.

2.

The higher the opioid dose, the less propofol is needed.

3.

Short acting opioid = use low dose propofol / Long acting opioid = use higher propofol dose

Effects on Organ Systems
Know

Por el efecto
Sube y baja

sympathetico

No usar KETAMINA en pt con
“ masa” en la cabeza o Increased ICP

Effects on Organ Systems
Etomidate cardiac safe, no tiene mucho efecto, es beneficiosos en los cuales no quieres aumentar el oxygen consumption del myocardium, para pacientes con CAD. Problemas con las valvulas
problemas con inotropias, pt con CHF, tiempo circulatorio lento

Versed se da usualmente pre-op. Asegúrate de que el paciente tenga firmado todos los papeles antes de dar el versed

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Effects on Organ Systems/Central Nervous System
1.

Decreases cerebral metabolic rate for oxygen (CMRO2).

2.

Decreases cerebral blood flow (CBF).

3.

Decreases intracranial pressure (ICP).

4.

Large doses can decrease blood pressure significantly

Saber como sacar el MAP

and consequently, cerebral perfussion pressure (CPP).
2BP
(MAP
zen

or ICP) whichever one is greater.

Saber formula

5.

CPP = MAP –

6.

Propofol does not affect cerebral autoregulation

7.

Produces EEG changes similar to thiopental (including burst

Como el cerebro se protege de cambios en presiones y
mantiene la perfusion constante

suprrresion).
8.

SSEPʼs are not signigicantly modified (unless addtion of N2O or
volatile)

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Effects on Organ Systems/Cardiovascular System
•

Decreases systemic blood pressure often accompanied by decrease in SVR and CO.

•

Inhibition of sympathetic vasoconstrictor nerve activity.

•

Negative inotropic effect

•

Blood pressure effects of propofol may be exaggerated in hypovolemic patients, elderly and
compromised left ventricle.

•

Addition of N2O does not alter CV effects & pressor response to ephedrine is augmented.

•

HR typically remains unchanged

•

Acceptable in patient with Wolff-Parkinson-White syndrom and does not prolong QT.

decrease in intracellular calcium availability.

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Effects on Organ Systems/Cardiovascular System

Thiopental

l
l
Propofol

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Effects on Organ Systems
Bradycardia Related Death
v Profound bradycardia and asystole have been
described in healthy adult patients even with
anticholinergic prophylaxis (1.4:100,000).

5 mg/kg/hr

v Increases risk of oculocardiac reflex during
pediatric strabismus surgery repair.
v Decreased responsiveness to atropined
⑧ may be
observed.
v May require treatment with Isoproterenol

Book says epinephrine

10 mg/kg/hr

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Effects on Organ Systems

Hepatic and Renal Function

Lungs

• Does not affect hepatic or renal function

•

Dose-dependent depression of ventilation
(apnea occurring in 25 – 35% of patients after
induction. Pt sin esfuerzo expiratorio

• Uric acid excretion may manifest as cloudy
urine but does not signify renal damage.
Propofol Infusion Syndrome

•

Opioids potentiate respiratory depression.

“Can occur with prolonged infusions”

•

Ventilatory response to arterial hypoxemia is
decreased.

•

Maintenance infusion will decrease frequency
and tidal volume.

1.
2.
3.
4.

Hepatocellular injury
Lactic acidosis
Bradydysrhythmias
Rhabdomyollysis

! − #$%&'()*+,%- #-%. #/'%0*0
Effects on Organ Systems
Intraocular Pressure
•

Propofol is associated with significant
decrease in intraocular pressure.

Coagulation
•

Does not alter test of coagulation or
platelet function.

•

Inhibit platelet aggregation that is induced
by proinflammatory lipid mediators
including thromboxane A2 & platelet
activating factor.

Other Side Effects (oil-in-water emulsion
formulation related)
• Bradycardia, risk of infection, pain on
injection and hypertiglyceridemia
Allergic Reactions
• Allergenic components: phenyl nucleus
and diisopropyl side chain.
• Diisopropyl radical present in many
cosmetic formulations.
• Anaphylaxis on first exposure has been
observed, especially if Hx of other
R often NMBDʼs
allergiesl,

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Effects on Organ Systems
Lactic Acidosis

Proconvulsant Activity

•

Prolonged high-dose (>75 mcg/kg/min) for
longer than 24 hours.

• Seizure like movement reflect a
subcortical origin.

•

Unexpected tachycardia should prompt lab.
evaluation for metabolic acidosis.

• Prolonged myoclonus can be observed.

•

Metabolic acidosis (reversible when early and
discontinued).

•

Reflect poisoning (cytopathic hypoxia) of the
electron transport chain & impaire oxidation of
fatty acids.

•

Differential diagnosis with anion-gap

• No reason to avoid propofol in patients
with history of seizures.
Abuse Potential
• 2009 - Michael Jackson

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Effects on Organ Systems
Antioxidant Properties
•

•

•

Potent antioxidant properties (resemble
Vitamin E).

Neuroprotective effect of propofol related
to antioxidant properties of phenol ring.
Inhibits lipid peroxidation (benficial in
acute lung injury and coronary artery
bypass graft surger).
Y

Pain on Injection
• Most commonly reported adverse event.
• Minimized by injecting in large vein.
• Lidocaine 1% preceding injection or use of
potent short-acting opiod helps.
Airway Protection
• Altered pharyngeal function with risk of
aspiration due to loss of protective airway
reflexes.

1*'$%.2*3
“Carboxylated imidazole-containing compound that is chemically unrelated to any other drug
used for IV induction”
v Imidazole nucleus renders etomidate (like midazolam), water soluble at acidic pH and
lipid-soluble at physiologic pH.

Commercial Preparation
•

Original formulation contained 35% propylene glycol

High Incidence of Pain on Injection

•

Has been changed to a fat emulsion which has eliminated pain on injection but retained
myoclonus.

•

Oral formulation for transmucosal delivery is available and avoids firs-pass hepatic metabolism.

1*'$%.2*3
Mechanism of Action
1. Administerd as a single isomer R(+) which is 5x more potent tha S(-) isomer.
2. Selective modulator of GABAA receptors.
Pharmacokinetics
1. Large Vd which suggests large tissue uptake.
2. Weak base (pK 4.2, pH 8.2) 99% unionized at physiologic pH (penetrates bain rapidly with peak
concentrations at 1 minute.
3. 76% proteing bound to albumin.
4. Prompt awakening after a single dose of etomidate reflects redistribution from brain to inactive
tissue sites.

1*'$%.2*3
Metabolism
v Rapidly metabolized by hydrolysis of the ethyl ester side chain to its carboxylic acid ester
Water-soluble, pharmacologically inactive compound
v Hepatic microsomal enzymes and plasma esterases are responsible for this hydrolysis.
v 85% of a single dose of etomidate is accounted as carboxylic acid in urine and 10 to 13% in bile.
v Clearance is somewhat slower than propofol 18-25 mL/Kg vs 20 – 30 mL/Kg (contributes to slower
elimination).
v Vd is half that of propofol 2.5 – 4.5 L/kg vs. 2-10 L/kg (contributes to faster elimination).
v Vd dominates with a shorter terminal elimination half-life (3-5 hrs) vs. propofol (4-7 hrs.).
v Context sensitive half-life less likely to increase with continous infusion when compared to propofol.

1*'$%.2*3
Cardiopulmonary Bypass
1.

Alternative to propofol or barbiturates for IV induction (0.2 – 0.4 mg/kg), especially in the
presence of an unstable CV system.

2.

Onset = arm to brain circulation.

3.

Common myoclonus after induction (imbalance of inhibitory & excitatory influences in the
thalamicocortical tract). Attenuated by prior administration of opioid.

4.

Awakening occurs 5 to 15 minutes after administration (similar to propofol).

5.

Phsychomotor function recovery is somewhat slower than propofol.

6.

Analgesia is not produced by etomidate (as with propofol and barbiturates).

7.

Prinicipal limiting aspect is ability of drug to suppress adrenocortical function.

8.

Increased PONV after etomidate administration.

10-20 seconds

Side Effects – CNS
• Potent direct cerebral vasoconstrictor that
decreases CBF & CMRO2 35% to 45%.
• Decreases ICP.
• Adrenocortical suppression limits clinical
usefulness (not viable for long term care).
• May activate seizure foci (similar to
methohexital)
• Augments amplitude of SSEPʼs which makes
monitoring reliable.

Adrenocortical Suppression

1*'$%.2*3
Side Effects – Cardiovascular System
v Cardiovascular stability is characteristic of induction with etomidate
v Minimal changes in HR, SV and CO. MAP may decrease 15% due to decreases in SVR (watch out for
hypovolemic patients).
v Doses greater than the recommended (>0.4 mg/kg) can significantly decrease BP and CO
v Within the established dose ranges there is none to negligible negative inotropic effects on the
heart.

Others
v Hepatic and renal function tests are not altered by etomidate
v Intraocular pressure is decreased with etomidate (similar degree to propofol).
v Does not result in detrimental effects when accidentally injected into an artery.

1*'$%.2*3
Side Effects – Ventilation
v Depressant effects of etomidate on ventilation seem to be less than barbiturates and propofol.
v Decreases in TV are offset by compensatory increases in the frequency of breathing.
v Etomidate may stimulate ventilation independent of medullary centers.

Pain on Injection
• Eliminated with the use of etomidate in lipid emulsion rather than
propylene glycol.

Useful when
of
maintenance
spontaneous
ventilation is
desired.

1*'$%.2*3
Side Effects – Adrenocortical Suppression
v 11-! hydroxylase inhibition lasts 4 to 8 hours after an induction dose.
v Patients experiencing sepsis or hemorrhage might be at a disadvantage due to cortical suppression.
v Asses risk vs. benefits when using etomidate.

Allergic Reactions
v Incidence is low.

43&5'.%2536%&30
Principal Pharmacologic Effects:
q Although effective for acute insomnia not used
(cognitive problems & mortality)

1.

Anxiolysis

2.

Sedation

3.

Anticonvulsant

4.

Spinal cord-mediated skeletal muscle
relaxation (not adequate itself for
surgery nor it potentiates NMBDʼs)

5.

q Fewer tendencie to produce tolerance, less
potential for abuse & greater margin of safety
vs. barbiturates & opioids.
q Do not induce micrsomal enzymes vs. barbiturates.

Anterograde amnesia (greater potency
than sedative effects)
Midazolam is the most commonly used benzodiazepine.

43&5'.%2536%&30
Mechanism of Action
•

Produces pharmacologic effect by
facilitating action of GABA (enhance
affinity rather than activate directly).

•

Postsynaptic neurons are rendered
resistant to excitation.

•

Benzodiazepines have built-in ceiling
effect that prevents them from exceeding
physiologic maximum of GABA inhibition
(low toxicity).

• Differences in onset and duration among benzodiazepines reflect differences in:
ü Potency (receptor binding affinity)
ü Lipid solubility (ability to cross the BBB)
ü Pharmacokinetics (uptake, distribution,
metabolism and elimination).
§ All benzodiazepines are highly lipid soluble and highly
protein bound (albumin).

43&5'.%2536%&30
Nucleoside Transporter Systems

Side Effects – Chronic Administration

•

Benzos decrease adenosine degradation
by inhibiting the nucloside transporter.

•

•

Adenosine = reduces cardiac O2 demand
(lowers HR) and causes coronary
vasodilation.

• Does not adveresly affect BP, HR, cardiac rhythm.

Electroencephalogram
•

Resemble effects of barbiturates

•

Midazolam incapable of producing
isoelectric EEG

Fatigue and drowsiness in patients treated
chronically (sedation could last up to 2 weeks).

• Careful administration should ensue if patient has
respiratory disease or poor oxygenation.
• Anterograde amnesia is accentuated by alcohol
consumption.

43&5'.%2536%&30
Side Effects – Drug Interactions
•

Benzodiazepines exert synergistic
sedative effects with:
ü
ü
ü
ü

Alcohol
Inhaled anesthetics
Opioids
"2 agonists

•

Anesthetic requirements are decreased.

•

Potentiate ventilatory depressant effects
of opioids.

•

Analgesic action of opioids is reduced.

Hypothalamic-Pituitary-Adrenal Axis
•

Alprazolam – Inhibition of ACTH & Cortisol

Dependence
• Signs – onset of physical or psychologic
symptoms after dose adjustment or DC.
• Symptoms – can occur after > 6 months of
use of low-potency benzos.
ü Irritability
in
ü Insomnia
ü Tremulousness

the

morning

43&5'.%2536%&30
Side Effects – Aging

Platelet Aggregation

• Aging and liver disease affect
glucuronidation < oxidation.

• May inhibit platelet aggregating factor resulting
in drug-induced inhibition of platelet aggregation.

• Lorazepam, oxazepam and temazepam
preferred given metabolism by
glucuronidation.

• Not clinically significant.

• Can accelerate cognitive decline in elderly
patients.
• Intrinsically sensitive to benzos.
• Avoid Diazepam

43&5'.%2536%&30
Midazolam
•

Water-soluble bzdp. with imidazole ring
that provides stability in aqueous solution
and rapid metabolism.

•

pKa of 6.15 buffered to 3.5 pH for water
solubility purposes.

• Has no need for propylene glycol & does
not cause discomfort durin IV or IM
injection.

Open ring = water soluble

Closed ring = lipid soluble

43&5'.%2536%&30
Midazolam - Pharmacokinetics
•

Prompt passage into brain but slow effectsite equilibrium time (0.9 – 5.6 min.)

•

50% first-pass hepatic metabolism for orally
administered midazolam.

•

Rapidly metabolized by hepatic and small
intestine P450 (CYP3A4) to active & inactive
metabolites.

Short duration due to redistribution (lipid
soluble) and rapid hepatic clearance.

Metabolism
*

•

• Slowed in the presence of:
ü Cimetidine
ü Erythromycin
ü Calcium channel blockers
ü Antifungal drugs

Active metabolite with
Non-detectable
concentrations in plasma

Inhibit P450

Metabolite with
half the activity of
parent drug

Conjugated to be
cleared by kidneys

Consider critcally ill
patients with
renal insufficiency on
continuous infusion.

43&5'.%2536%&30
Midazolam – Renal Clearance
•

Elimination half-time, Vd, and clearance of
midazolam are not altered by renal
failure. Extensive hepatic metabolism.

Effects on Organ Systems – CNS

Ventilation
• Can produce dose dependent depression of
ventilation.
• Depression potentiated with concomitant
administration of opiods.

•

Decreases CMRO2 and CBF.

• Depress swallowing and decreases upper airway
reactivity.

•

CO2 vasomotor responsiveness is
maintained.

Cardiovascular System

•

Have not shown to be neuroprotective in
humans. May improve neurologic
outcomes.

•

Potent anticonvulsant (in status
epilepticus)

• Hemodynamic response to endotracheal
intubation is not reliably blunted.
• Large doses for induction (0.2 mg/kg) can
produce a decrease in BP & increase in HR.

43&5'.%2536%&30
Midazolam – Clinical Uses (Pre-Op)

Induction of Anesthesia

• Most common preop. medication used in
children (PO). Know pediatric dosing!

• Seldomly used for this purpos but itʼs doable.

• Recommended 20 mins. before surgery
but can be given up to 10 mins.
• Crosses placenta, but fetal-to-maternal
ratio is significantly less than that for
other benzos.

Intravenous Sedation
•

1 – 2.5 mg IV (onset 30 – 60 sec.) with
peak effect at 3 – 5 min.

•

Effective for sedation during regional as
well as brief therapeutic proc.

Maintenance of Anesthesia
• Used to supplement opioids, propofol and/or
inhaled anesthetics.
• Anesthetic requirements are decreased in a
dose-dependent manner.
• Context-sensitive half-time increases modestly
with increased duration of administration.

Postoperative Sedation
•

Observed with long duration infusion or
administration (tissues saturate).

43&5'.%2536%&30
Diazepam

Protein Binding

• Highly lipid-soluble benzodiazepine with a
longer duration of action.

• High degree of protein binding

• Seldomly used as part of the anesthesia
care plan.
Commercial Preparation
• Dissolved in organic solvents (propylene
glyco, sodium benzoate) because it is
insoluble in water.
• Rapidly absorbed from the GI tract with
near 100% bioavailability & peak
concentrations in 1 hour (adults) 15-30
min. (children).
• Readily crosses placenta & has high Vd

Metabolism
• Metabolized by hepatic microsomal enzymes by
oxidative N-demethylation.
48 - 96 hrs.
elimination half-time

Active metabolite that can contribute
to the return of drowsiness (after 6-8 hrs.)

43&5'.%2536%&30
Diazepam – Elimination Half-time
• Ranges from 21 to 37 hrs. in health
volunteers.
• Cirrhosis of the liver can cause fivefold
increase in half-time (decreased protein
binding & hepatic clearance).
• Half-time also increases with age.
• Longer elimination half-time that
lorazepam but shorter duration of action
(dissociates from GABAA faster)