Vasoconstrictors
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Mar 23, 2013
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Vasoconstrictors
Vasoconstrictors are the drugs that constricts the
blood vessels and thereby control tissue
perfusion.
They are added to LA to oppose the vasodilatory
action of local anesthetic agent.
Vasoconstrictors are the drugs that constricts the
blood vessels and thereby control tissue
perfusion.
They are added to LA to oppose the vasodilatory
action of local anesthetic agent.
Classification of Vasoconstrictors
Catecholamines
Epinephrine
Norepinephrine
Dopamine
Noncatecholamines
Amphetamine
Methamphetamine
Phenylephrine
Catecholamines
Epinephrine
Norepinephrine
Dopamine
Noncatecholamines
Amphetamine
Methamphetamine
Phenylephrine
Direct acting
Epinephrine
Norepinephrine
Dopamine
Phenylephrine
Indirect acting
Tyramine
Amphetamine
Methamphetamine
Mixed acting
Metaraminol
ephedrine
Epinephrine
Norepinephrine
Dopamine
Phenylephrine
Indirect acting
Tyramine
Amphetamine
Methamphetamine
Mixed acting
Metaraminol
ephedrine
Receptors β1, β2, β3, alpha receptors
Alpha receptors:- blood vessels
β 1:- heart and intestine
β 2:- bronchi, vascular bed, uterus
β3:- brown and white adipose tissue
Alpha receptors
Activation results in vasoconstriction ( blood vessels)
Alpha receptors:- blood vessels
β 1:- heart and intestine
β 2:- bronchi, vascular bed, uterus
β3:- brown and white adipose tissue
Alpha receptors
Activation results in vasoconstriction ( blood vessels)
Maximum recommended dose for
adrenaline
For healthy patients 0.2mg per appointment
For cardiac patients 0.04mg per appointment
0.0125mg ---- 1ml
0.2mg----1/0.125x 0.2 = 16ml
1:80,000 = 16 ml in healthy patients
0.0125mg ---- 1ml
0.04mg------1/0.125x0.04 = 3.2ml
1:80,000 = 3.2 ml in cardiac patients
adrenaline
For healthy patients 0.2mg per appointment
For cardiac patients 0.04mg per appointment
0.0125mg ---- 1ml
0.2mg----1/0.125x 0.2 = 16ml
1:80,000 = 16 ml in healthy patients
0.0125mg ---- 1ml
0.04mg------1/0.125x0.04 = 3.2ml
1:80,000 = 3.2 ml in cardiac patients
Dilution of vasoconstrictors
1:1000
1 gm/1000ml
1000mg/1000ml
1mg/ml
1:10,000
1000mg/10000ml
0.1mg/ml
1:80,000
0.0125mg/ml
1:200,000mg/ml
0.005mg/ml
1:100,000
0.01mg/ml
1:1000
1 gm/1000ml
1000mg/1000ml
1mg/ml
1:10,000
1000mg/10000ml
0.1mg/ml
1:80,000
0.0125mg/ml
1:200,000mg/ml
0.005mg/ml
1:100,000
0.01mg/ml
Felypressin (Citanest forte)
Available as a vasoconstrictor in combination with
prilocaine
Acts by directly stimulating vascular smooth
muscle
Has little effect on heart or on adrenergic nerve
trasmission
Actions more pronounced on venous than
arteriolar microcirculation
Available as a vasoconstrictor in combination with
prilocaine
Acts by directly stimulating vascular smooth
muscle
Has little effect on heart or on adrenergic nerve
trasmission
Actions more pronounced on venous than
arteriolar microcirculation
Epinephrine Norepinephrine
Receptor activity Powerful stimulant of α and
β receptors
With higher doses α effects
predominates, whereas
lower doses primarily
produce β receptor activity
Stimulates both α and β
receptors, but α effect
predominates
Blood Pressure (BP) Lesser effect Greater increase in BP than
epinephrine
Central Nervous System Greater effect of stimulation
of central nervous system in
large doses
Does not stimulate central
nervous system in
therapeutic doses
Cardiovascular system Greater effect of stimulation
of CVS
Bronchi Dilatation Little or no effect
Heart Rate (HR) Increase in HR is of greater
degree
Increase in HR is of lesser
degree
Receptor activity Powerful stimulant of α and
β receptors
With higher doses α effects
predominates, whereas
lower doses primarily
produce β receptor activity
Stimulates both α and β
receptors, but α effect
predominates
Blood Pressure (BP) Lesser effect Greater increase in BP than
epinephrine
Central Nervous System Greater effect of stimulation
of central nervous system in
large doses
Does not stimulate central
nervous system in
therapeutic doses
Cardiovascular system Greater effect of stimulation
of CVS
Bronchi Dilatation Little or no effect
Heart Rate (HR) Increase in HR is of greater
degree
Increase in HR is of lesser
degree
Various dilutions available in India and MRD (in terms of m) for normal healthy
adult individuals and medically compromised individuals
Dilutions Normal adult healthy
individuals
(0.2 mg/appointment)
(ml)
Medically compromised
individuals
(0.04 mg/appointment)
(ml)
1:80,000 16 3.2
1:1,00,000 20 4
1:2,00,000 40 8
adult individuals and medically compromised individuals
Dilutions Normal adult healthy
individuals
(0.2 mg/appointment)
(ml)
Medically compromised
individuals
(0.04 mg/appointment)
(ml)
1:80,000 16 3.2
1:1,00,000 20 4
1:2,00,000 40 8
What determines the potency of LA?
Lipid solubility
What determines the duration of action of LA?
Protein binding e.g. Bupivacaine
What determines the onset time of LA?
pKa
To what components of LA are patients likely to be
allergic?
Methylparaben
Sodium metabisulfite
Sulfa drugs(Articaine)
latex
Lipid solubility
What determines the duration of action of LA?
Protein binding e.g. Bupivacaine
What determines the onset time of LA?
pKa
To what components of LA are patients likely to be
allergic?
Methylparaben
Sodium metabisulfite
Sulfa drugs(Articaine)
latex
What type of LA have greater allergic potential?
Esters
How are LA metabolized?
Esters:- plasma by pseudocholinesterase
Amide:-in liver by microsomal enzymes
Why is LA often ineffective when injected in
area on infection
area of inflammation
After LA injection anesthetic effect will disappear
and re-appear in a definite order. What are the
sensation in increasing order of resistance to
conduction?
Pain < Cold < warm < touch < deep pressure
Esters
How are LA metabolized?
Esters:- plasma by pseudocholinesterase
Amide:-in liver by microsomal enzymes
Why is LA often ineffective when injected in
area on infection
area of inflammation
After LA injection anesthetic effect will disappear
and re-appear in a definite order. What are the
sensation in increasing order of resistance to
conduction?
Pain < Cold < warm < touch < deep pressure
Toxicity
The term toxicity, or toxic overdose, refers to the
symptoms manifested as the result of overdosage
or excessive administration of a drug.
This complication depends on a sufficient
concentration of the drug in the blood-stream to
adversely affect the central nervous system, the
respiratory system, or the circulatory system.
The blood level necessary to produce a toxic
effect may differ for the same drug from individual
to individual and in the same individual from day to
day.
The term toxicity, or toxic overdose, refers to the
symptoms manifested as the result of overdosage
or excessive administration of a drug.
This complication depends on a sufficient
concentration of the drug in the blood-stream to
adversely affect the central nervous system, the
respiratory system, or the circulatory system.
The blood level necessary to produce a toxic
effect may differ for the same drug from individual
to individual and in the same individual from day to
day.
Toxic effects on the central
nervous system
Although local anesthetics used in dentistry have
the ability to produce overt signs and symptoms of
central nervous system stimulation, the effect is
actually produced by depression of certain
inhibitory centers.
Depression of inhibitory areas allows excitatory
actions to occur unopposed, leading to overt
manifestation of central nervous system
stimulation.
nervous system
Although local anesthetics used in dentistry have
the ability to produce overt signs and symptoms of
central nervous system stimulation, the effect is
actually produced by depression of certain
inhibitory centers.
Depression of inhibitory areas allows excitatory
actions to occur unopposed, leading to overt
manifestation of central nervous system
stimulation.
In subtoxic doses(0.05-4 µg/ml of procaine and
lidocaine), local anesthetics may be shown to
produce anti-convulsant effects.
Epileptic patients exhibit hyper-excitable neurons
at the cortical site from which their seizures
originate.
Subtoxic doses of local anesthetics depress
these hyper-excitable neurons , thereby
producing an anticonvulsant effect.
lidocaine), local anesthetics may be shown to
produce anti-convulsant effects.
Epileptic patients exhibit hyper-excitable neurons
at the cortical site from which their seizures
originate.
Subtoxic doses of local anesthetics depress
these hyper-excitable neurons , thereby
producing an anticonvulsant effect.
Cortical stimulation
Medullary stimulation
Cortical depression
Medullary depression
Medullary stimulation
Cortical depression
Medullary depression
Increasing blood levels of local anesthetics (in the
range of 4.0 to 7.0 µg/ml) produce definite clinical
signs and symptoms by stimulation of cortex.
Signs of this degree of toxicity on cortical centers
include
talkativeness,
slurred speech,
apprehension,
localized muscular twitching
tremor of the hands and feet.
ringing in the ears (tinnitus),
difficulty focusing the eyes
disorientation
range of 4.0 to 7.0 µg/ml) produce definite clinical
signs and symptoms by stimulation of cortex.
Signs of this degree of toxicity on cortical centers
include
talkativeness,
slurred speech,
apprehension,
localized muscular twitching
tremor of the hands and feet.
ringing in the ears (tinnitus),
difficulty focusing the eyes
disorientation
Medullary stimulation occurs at the dose of 7.5-
10.0 µg/ml which causes generalised tonic clonic
seizures by medullary stimulation.
In excessive medullary stimulation, cardiovascular
and respiratory parameters increase.
Usually, respiratory function is totally ineffective
during the seizure because of tonic and/or
asynchronous contraction of the muscles of
respiration.
10.0 µg/ml which causes generalised tonic clonic
seizures by medullary stimulation.
In excessive medullary stimulation, cardiovascular
and respiratory parameters increase.
Usually, respiratory function is totally ineffective
during the seizure because of tonic and/or
asynchronous contraction of the muscles of
respiration.
Following the medullary stimulation, a period of
cortical depression occurs.
This period is characterized by cortical
depression followed by medullary depression.
Cortical depression is manifested as
Unresponsiveness
unconsciousness
Stupor
coma
cortical depression occurs.
This period is characterized by cortical
depression followed by medullary depression.
Cortical depression is manifested as
Unresponsiveness
unconsciousness
Stupor
coma
Medullary depression results in severe
depression of cardiovascular function
respiratory depression
hypoxia with its subsequent effect on the cardiac
mechanism.
depression of cardiovascular function
respiratory depression
hypoxia with its subsequent effect on the cardiac
mechanism.
Syncope
It refers to a sudden, transient loss of
consciousness usually secondary to cerebral
ischemia due to peripheral pooling of blood
and reduced cardiac output.
It can be due to;
Fright and anxiety
Emotional stress
Pain of sudden and unexpected nature
Sight of blood
Non psychogenic :-
Hunger or starvation
Poor physical condition
Overcrowded places
It refers to a sudden, transient loss of
consciousness usually secondary to cerebral
ischemia due to peripheral pooling of blood
and reduced cardiac output.
It can be due to;
Fright and anxiety
Emotional stress
Pain of sudden and unexpected nature
Sight of blood
Non psychogenic :-
Hunger or starvation
Poor physical condition
Overcrowded places
Syncope
It is the most frequent complication of associated
with LA in dental office.
It is a form of neurogenic shock and is caused by
cerebral ischemia secondary to the vasodilatation
with a corresponding drop in blood pressure.
It is not always associated with loss of
conciousness.
It should be treated as early as possible.
It is characterised by change in patient’s
appearance, such as pallor.
It is the most frequent complication of associated
with LA in dental office.
It is a form of neurogenic shock and is caused by
cerebral ischemia secondary to the vasodilatation
with a corresponding drop in blood pressure.
It is not always associated with loss of
conciousness.
It should be treated as early as possible.
It is characterised by change in patient’s
appearance, such as pallor.
Management of syncope
Any procedure that is going on should
be stopped and the chair should be
lowered and legs raised (Trendelburg
position)
If the patient is conscious, ask for few
deep breaths.
Keep a check on pulse, respiration,
blood pressure
Any procedure that is going on should
be stopped and the chair should be
lowered and legs raised (Trendelburg
position)
If the patient is conscious, ask for few
deep breaths.
Keep a check on pulse, respiration,
blood pressure
CPR
Cardiopulmonary resuscitation (CPR) is an
emergency procedure for people in cardiac arrest or,
in some circumstances, respiratory arrest.
CPR is performed both in hospitals and in pre-hospital
settings.
Cardiopulmonary resuscitation (CPR) is an
emergency procedure for people in cardiac arrest or,
in some circumstances, respiratory arrest.
CPR is performed both in hospitals and in pre-hospital
settings.
CPR involves physical interventions to create
artificial circulation through rhythmic pressing
on the patient's chest to manually pump blood
through the heart, called chest compressions,
and usually also involves the rescuer exhaling
into the patient (or using a device to simulate
this) to ventilate the lungs and pass oxygen in
to the blood, called artificial respiration
artificial circulation through rhythmic pressing
on the patient's chest to manually pump blood
through the heart, called chest compressions,
and usually also involves the rescuer exhaling
into the patient (or using a device to simulate
this) to ventilate the lungs and pass oxygen in
to the blood, called artificial respiration
Tilt the head back and
listen for breathing.
If not breathing
normally, pinch nose
and cover the mouth
with yours and blow
until you see the chest
rise.
Give 2 breaths.
Each breath should
take 1 second
listen for breathing.
If not breathing
normally, pinch nose
and cover the mouth
with yours and blow
until you see the chest
rise.
Give 2 breaths.
Each breath should
take 1 second
If the victim is still not
breathing normally, coughing
or moving, begin chest
compressions. Push down
on the chest 1½ to 2 inches
30 times. Pump at the rate
of 100/minute, faster than
once per second.
breathing normally, coughing
or moving, begin chest
compressions. Push down
on the chest 1½ to 2 inches
30 times. Pump at the rate
of 100/minute, faster than
once per second.
CPR (when one person is doing):
Chest cpmpression : artificial respiration
4:1
CPR (when two persons are doing):
Chest cpmpression : artificial respiration
15 : 2
Chest cpmpression : artificial respiration
4:1
CPR (when two persons are doing):
Chest cpmpression : artificial respiration
15 : 2
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