SEE BASIC SCIENCES: PHARMACOLOGY REVIEW

Question 1

Rate of change proportional to amount of drug at any given time is PROPORTIONAL to the concentration present

Answer 1

FIRST-ORDER KINETIC

Question 2

Constant amount of drug elimination over a specific amount of time

Answer 2

Zero order kinetic

Question 3

A drugs that undergoes first order kinetic: increase drugs concentration will

Answer 3

lead to a larger amount of drugs elimination

Question 4

What are determinant of drug tissue uptake include?

Answer 4

Blood flow
BBB
Ionization
lipid solubilty 
Protein binding

Question 5

4 methods of Drug metabolism are

Answer 5

Oxidation
Reduction
Hydrolysis
Conjugation

Question 6

3 methods prepare for the fourth one with drug metabolism

Answer 6

Oxidation, reduction and hydrolysis prepare for conjugation

Question 7

Effect on MAC: GENDER

Answer 7

No change in MAC

Question 8

Effect on MAC: woman with red hair

Answer 8

Increased MAC

Question 9

Effect on MAC: Pregnancy

Answer 9

Decrease MAC

Question 10

Effect on MAC: Chronic ETOH abuse

Answer 10

Increase MAC

Question 11

Effect on MAC: BP means greater than 40mmHg

Answer 11

No change in MAC

Question 12

Effect on MAC: Alpha 2 agonists

Answer 12

Decrease MAC

Question 13

Effect on MAC: Hyperthermia

Answer 13

Increase MAC

Question 14

Effect on MAC: Drugs that increase CNS catecholamines

Answer 14

Increase MAC

Question 15

Effect on MAC: Lidocaine

Answer 15

Decrease MAC

Question 16

Effect on MAC: Hypernatremia

Answer 16

Increase MAC

Question 17

Effect on MAC: acute alcohol intoxification

Answer 17

Decrease MAC

Question 18

When do pharmacokinetics interactions occur

Answer 18

When a drug alters the ADME of another drug

Question 19

Drugs with identical mechanism lead to ____Effects

Answer 19

Additive (2 effects leads to a greater effect of the 2 drugs combined

Question 20

Inducer of hepatic drug metabolism (RPP CSC)

Answer 20

Rifampin
Phenytoin
Phenobarbital
Carbamazepine
Smoking
St John's Wort 
Barbiturates 
Tobacco

Question 21

What is the alveolar anesthetic concentration that blunts ADRENERGIC RESPONSE to noxious stimuli in 50% of patients?

Answer 21

MAC-BAR

Question 22

MAC BAR is the

Answer 22

MAC required to blunt adrenergic response in 50% patients

Question 23

Goals of drug combination

Answer 23

Decrease toxicity

Increase and maintenance of efficacy

Question 24

Most important organ for metabolism

Answer 24

Liver

Question 25

Hepatic drug clearance depends on

Answer 25

Hepatic blood flow
Extent of binding of the drug to blood
intrinsic ability of the liver to Metabolize the drug

Question 26

Vd: is greater with lipophillic or lipophobic?

Answer 26

lipophillic

Question 27

Dose response curve can determine pharmacodynamics?

Answer 27

no

Question 28

What does the dose response curve tell you?

Answer 28

Response observed to a quantity of a drug.

Question 29

Which of the following requires energy provided by the hydrolysis of ATP ?

Answer 29

Active transport

Question 30

What is the phase II reaction?

Answer 30

Drug molecules who underwent reduction , hydrolysis or oxidation are assimilated- CONJUGATED into compounds more readily removed from the body.

Question 31

Occurence of plasma concentration of a drug exceeding the capacity of metabolizing enzymes

Answer 31

Zero order kinetics.

Question 32

Prolonged exposure of receptors leads to

Answer 32

lower drug effect at the target site

Question 33

Prolonged receptor inactivity results in production of a

Answer 33

Relative maximal or super-maximal effect at the receptor

Question 34

Chronically denervated NMJ will _____the specific receptors in an attempt to produce a signal in the face of lower concentration of agonists

Answer 34

Up regulate

Question 35

Drugs that are incapable of producing a MAXIMAL effect even at very high concentration are called?

Answer 35

Partial agonist (only a limited response)

Question 36

During a constant infusion , plasma steady state drug concentration reaches 90%

Answer 36

3 half lives.

Question 37

When a steady state is achieved when

Answer 37

The quantity of a drug administered is equal to the quantity of drug that is eliminated via metabolism

Question 38

and

Answer 38

50% of steady state

Question 39

After 2 half-lives, you will have reached

Answer 39

75% of steady state,

Question 40

After 3 half-lives you will have reached

Answer 40

87.5% of steady state.

Question 41

The rule of thumb is that steady state will be achieved after

Answer 41

5 half-lives (97% of steady state achieved)

Question 42

What % of IV -administered drug remains after after 5 elimination half-times have passed ?

Answer 42

3%

Question 43

How to calculate 5 half lives

Answer 43

50x50x50x50x50 = 312500000 x 100 = 3.125

100- 3.125= 96.

Question 44

Why is IV loading dose use ?

Answer 44

To achieve effective target concentration (therapeutic plasma concentration) immediately

Question 45

For anaphylaxis to occur what must have happened?

Answer 45

Prior exposure is needed for sensitization . UPon subsequent exposure, the IgE antibodies form during the initial exposure

Question 46

Type I hypersensitivity reaction

Answer 46

Mediators release from mast cells and basophils after antigen binding to IgE antibodies on cell membrane

Question 47

Type II hypersensitivity reaction (2 cells)

Answer 47

Antibody dependent, cell mediated cytotoxic hypersensitivity: IgG or IgM mediated

Question 48

Type III hypersensitivity reaction

Answer 48

Circulating soluble antigens and antibodies bind to form iNSOLUBLE complexes that deposit in vasculature

Question 49

Type IV hypersensitivity reaction I

Answer 49

interaction with sensitized cytotoxic ells.

DElayed hypersensitivity reaction I

Question 50

Type IV hypersensitivity reaction I

Answer 50

interaction with sensitized cytotoxic ells.

DElayed hypersensitivity reaction

Question 51

Anaphylaxis is what type of hypersensitivity reactions?

Answer 51

Type I

Question 52

ABO incompatibility is what type of hypersensitivity reactions?

Answer 52

Type II

Question 53

Serum sickness after SNAKE BITE what type of hypersensitivity reactions?

Answer 53

Type III

Question 54

Contact dermatitis is what type of hypersensitivity reactions?

Answer 54

Type IV

Question 55

Vasoactive mediators release during anaphylaxis are

Answer 55

HIstamine
Leukotrienes
Prostaglandins

Question 56

Vasoactive mediator that releases endothelium derived factor Nitric oxide from vascular endothelium?

Answer 56

Histamine

Question 57

Vasoactive mediators that releases endothelium derived factor Nitric oxide from

Answer 57

HIstamine

Question 58

All vasoactive mediators do that

Answer 58

Increased capillary permeability

Question 59

Vasoactive mediator that contracts vascular smooth muscle and airway

Answer 59

Histamine

Question 60

Vasoactive mediator that cause intense bronchoconstriction

Answer 60

Leukotrienes

Question 61

Vasoactive mediator that causes NEGATIVE INOTROPY

Answer 61

Leukotrienes

Question 62

Vasoactive mediator that causes coronary artery vasoconstriction?

Answer 62

Leukotrienes

Question 63

Vasoactive mediator that is synthesized after mast cell activation through Lipoxygenase pathway? (LL)

Answer 63

Leukotrienes

Question 64

Vasoactive mediators that causes Pulmonary HTN and bronchospasm

Answer 64

Prostaglandins

Question 65

Vasoactive mediator that is synthesized after mast cell activation through cyclooxygenase pathway?

Answer 65

Prostaglandins

Question 66

What lab provide immediate proof of anaphylaxis?

Answer 66

Serum Tryptase level (within 60-120 mins)

Question 67

Tryptase and anaphylaxis

Answer 67

Stored in mast cells, an is an integral component, and released into the systemic circulation when anaphylaxis occur but NOT DURING ANAPHYLACTOID

Question 68

Primary treatment of anaphylaxis should include

Answer 68

Airway support
100% O2
stopping all drugs
IV fluids and EPINEPHRINE

Question 69

Responsible for MOST INTRAOPERATIVE anaphylactic reactions?

Answer 69

Muscle relaxants (not ABT)

Question 70

Patient with which allergies have a cross-sensitivity to LATEX (BAK)

Answer 70

Bananas
Avocados
Kiwis

Question 71

Pharmacodynamic interaction when

Answer 71

Drug alters the sensitivity of a target receptor or tissue to the effects of a second drug. (differ from pharmacokinetics which is when one drugs alter ADME)

Question 72

An example of Pharmacodynamic interaction?

Answer 72

Second gas effect

Question 73

What is the second gas effect?

Answer 73

Administration of Nitrous along with VA results in an additive effect by both agents

Question 74

Drug that activates or stimulates a receptor

Answer 74

Agonist

Question 75

Absorption, distribution, metabolism and excretion of inhaled or injected drugs

Answer 75

pharmacokinetics

Question 76

Responsiveness of receptors to drugs, and the mechanims by which drugs causes these effects to occur?

Answer 76

Pharmacodynamics

Question 77

A drug that binds to receptors to prevent exogenous or endogenous substances from activating them

Answer 77

Antagonists

Question 78

An effet produced by 2 drugs acting together that is greater than would occur with each drug alone

Answer 78

Synergistic

Question 79

Calculation by which a dose of a drug is administred by IV and is divided by the plasma concentration to reflect the apparent volume of the drug into various intercellular compoenents

Answer 79

Volume of distribution

Question 80

Transmembrane protein macromolecule that acts as a mechanism for a drug to being to and exert its effect?

Answer 80

Receptor

Question 81

Reflect the concentration of an inhaled anesthetic measureed at 1 atm in the body to prevent skeletal muscel movement in response to a srugical incision

Answer 81

MAC

Question 82

Difference in slope, efficacy and individual responses, , depics relationship between the dose of a drug administered or plasma concentration, and the resulting pharmacological effect

Answer 82

Dose-response curve

Question 83

Enantiomers are

Answer 83

Chemical substance of exact bu opposite shape, mirror images of each other

Question 84

When 2 enantiomers are present in 50:50 portion, subtances are known as

Answer 84

Racemic mixtures

Question 85

Define competitive antagonism

Answer 85

Competitive antagonism is based on the principle that an agonist or antagonist can bind to the same recognition site(s) on the receptor, and when both agonist and antagonist are present concomitantly, they can compete for such sites. Increasing concentration of an antagonist drugs (such as NDNMB, progressively inhibit the responses to an unchanging concentration of an agonists

Question 86

Simple competitive antagonism definition?

Answer 86

increase in the available concentration of an agonist cannot overcome the effect produced by the antagonist.

Question 87

A drug that activate a receptor by binding to it

Answer 87

Agonist

Question 88

Define Non-competitive antagonism?

Answer 88

After administration of an antagonist, even high concentrations of an agonists cannot completely overcome the antagonism

Question 89

A drug that bins to the receptor without activating the receptor and at the same time prevents an agonist from stimulating the receptor

Answer 89

Antagonist

Question 90

What does HOFFMAIN ELIMINATION rely on to degrade CISATRACURIUM?

Answer 90

Normal body temperature

pH

Question 91

What is therapeutic Index?

Answer 91

relates the dose of a drug required to produce a desired effect to the dose that produces an undesired effect.

Question 92

Formula for TI

Answer 92

LD 50/ ED 50

Question 93

Where are the hepatic microsomal enzymes that participates in metabolism of many drugs found? (GHAK)

Answer 93

GI tract
Hepatic smooth ER
Adrenal cortex
Kidneys

Question 94

How many half lives to eliminate 97 % of the drugs?

Answer 94

5

Question 95

CYP 450 3 A4 composes what % of CYP 450 activity?

Answer 95

40-45

Question 96

Responsible for the largest portion of drug metabolism in the body?

Answer 96

CYP 450

Question 97

Name ending “tron” associated with

Answer 97

Serotonin blockers

Question 98

Serotonin blocking drugs act on the

Answer 98

5HT3 receptor

Question 99

Name 3 serotonin blockers

Answer 99

ondansetron
dolesetron
granisetron

Question 100

Name ending “pril” associated with

Answer 100

ACEI

Question 101

Name ending “dipine” associated with

Answer 101

CCB exception verapamil, cardizem

Question 102

Name ending “tidine” associated with

Answer 102

H2 receptors blockers (antagonists)

Question 103

Phase I reactions are (everything except conjugation)

Answer 103

Methylation
Oxidation
Reduction
Dealkylation
Deamination

Question 104

What is the significance of phase II reactions?

Answer 104

Compound can be readily eliminated from the body

Question 105

Phase II reaction involves conjugation of the drug with

Answer 105

Glucuronide
Sulfate
Taurine
Glycine

Question 106

Is phase II always required to complete drug metabolism ?

Answer 106

NO

Question 107

Does phase II always follow phase I

Answer 107

NO

Question 108

Physiological stimuli responsible for stimulating the release ADH include?

Answer 108

Stress and anxiety
Hyperthermia
Presence of histamine-releasing stimulus

Question 109

Pharmacological stimuli that stimulates the release of ADH

Answer 109

PPV of the lungs

Beta adrenergic stimulation

Question 110

ADH secreted by

Answer 110

Posterior pituitary

Question 111

Increased serum osmolarity indicates

Answer 111

Insufficient water content

Question 112

What is the target site for ADH ?

Answer 112

Collecting tubules of the kidney

Question 113

Primary goal of ADH is to e prevent

Answer 113

water loss thereby decrease serum osmolarity and increasing circulating volume.

Question 114

To minimize risk of Compound A production during SEVOFLURANE administration which of the following actions may be taken?

Answer 114

Run lower levels of sevoflurane
Use hydrated soda lime absorbent
Maintain gas flows equal to or greater than 2L/min

Question 115

What are the factors that increase the risk of compound A formation ?

Answer 115

Low gas flow states
Increased levels of sevoflurane
Dry or warm CO2 absorbents

Question 116

Which inhaled anesthetic is associated with the greatest production of heat in dessicated Co2 absorbent? how?

Answer 116

Sevoflurane; loss of moisture into the CO2 absorbent, facilitates an exothermic reaction between sevo and the absorbent. CAN lead to fire in the circuit

Question 117

Which of the inhaled anesthetic is associated with the highest production of CO in dessicated CO2 absorbent?

Answer 117

Desflurane; Results in the production of the greatest amount of CO

Question 118

Does higher doses of opioid decrease the MAC requirements of VA?

Answer 118

NO. MAC of VA is influenced to only a small degree so even higher amount of opiods analgesics won’t affect MAC

Question 119

VP of desflurane is (high/low)

Answer 119

High

Question 120

Halogenated anesthetics least metabolized?

Answer 120

Desflurane

Question 121

The speed of an inhaled anesthetic action is determined by its solubility and expressed as which of the following?

Answer 121

Blood:gas solubility coefficient

Question 122

The speed with which a volatile anesthetic vapor enters the pulmonary circulation is represented by the

Answer 122

Blood: gas solubility coefficient

Question 123

Which of the following are the 2 main organs involved with volatile agent metabolism?

Answer 123

Lunger

Liver

Question 124

The main elimination of volatile anesthetics via the

Answer 124

lung on exhalation

Question 125

Responsible for a small amount of VA metabolism

Answer 125

Cytochrome isoenzymes

Question 126

Vapor pressure refers to

Answer 126

Pressure of the vapor resulting from vaporization . Pressure at which molecules of a volatile liquid escape the liquid phase.

Question 127

What are the 2 most soluble volatile anesthetics

Answer 127

Isoflurane

Halothane

Question 128

Rate of uptake is dependent on

Answer 128

1) alveolar ventilation rate 2) partial pressure of gas (concentration effect) 3) breathing system

Question 129

For poorly soluble anesthetic agents (ex. N2O, desflurane), an increase in FA/Fi depends

Answer 129

very little on alveolar ventilation

Question 130

Enflurane has a blood/gas partition coefficient of 1.7. What does that mean?

Answer 130

if the gas is in equilibrium the concentration in blood will be 1.7 times higher than the concentration in the alveoli. Thus, it makes sense that a gas with a higher blood gas coefficient will require higher uptake of gas into the blood and induction will be slower.

Question 131

Higher partition coefficient = ______ipophilicity = _____potency = ______ solubility

Answer 131

higher; higher; higher

Question 132

MAC and Blood gas coefficient

Answer 132

MAC decreases as blood gas partition coefficient increases, generally speaking

Question 133

High solubility = more anesthetic needs to be dissolved =

Answer 133

slower onset

Question 134

Solubility represented by a higher blood:gas coefficient represents

Answer 134

The speed with which the agent is taken up into the pulmonary circulation

Question 135

The oil:gas partition coefficient is related to a volatile’s agent

Answer 135

Potency

Question 136

Potency and MAC relationship

Answer 136

Potency is inversely related to MAC

Question 137

The slowest induction is possible with which of the following

Answer 137

Halothane and INCREASED CO state

Question 138

The speed of an inhalation induction is inversely related to the

Answer 138

Blood: gas coefficient in the presence of increased CO.

Question 139

MAC decrease ______per decade of age

Answer 139

6%

Question 140

Inhalational anesthetics on CBF and ICP

Answer 140

All inhalational anesthetics increase CBF and ICP

Question 141

Nitrous compared to volatile agents

Answer 141

Nitrous increase CMRO2, volatile agents do not

Question 142

NO has a blood:gas partition ratio of 0.47 and is thus

Answer 142

30 times more soluble in blood than nitrogen,

Question 143

Nitrous and volatile agents of seizure threshold

Answer 143

Increase the seizure threshold but only nitrous increase CMRO2

Question 144

Nitrous is a myocardial depressant or stimulant?

Answer 144

Nitrous is a sympathetic stimulant produce increase blood pressure, CO and HR

Question 145

Volatiles agents: myocardial depressant or stimulant?

Answer 145

VA are myocardial depressants

Question 146

What hemodynamics may be afffected with the use of Nitrous oxide?

Answer 146

Elevated RV EDP

Question 147

PVR and N2O

Answer 147

PVR is increased in the presence of N2O due to vasoconstriction of the pulmonary vasculature. Increase PVR results in increase RVEDP

Question 148

What is the B:G coefficient of Nitrous

Answer 148

0.47

Question 149

What is the B:G coefficient of sevo

Answer 149

0.65

Question 150

What is the B:G coefficient of Isoflurane

Answer 150

1.4

Question 151

What is the B:G coefficient of Desflurane

Answer 151

0.42

Question 152

Which inhalational agent is a halogenated alkane?

Answer 152

Halothane

Question 153

Which inhalational agent is halogenated with FLUORINE

Answer 153

Desflurane

Sevoflurane

Question 154

Which agent results in an increased heart rate during

inhalational anesthesia?

Answer 154

Sevoflurane > 1.5 MAC

Question 155

Which inhalational agent is the least desirable
or a patient with chronic bronchitis and a 50-pack/
year history o smoking?

Answer 155

Desflurane

Question 156

Which agent increases the cerebral metabolic rate or

oxygen (CMRO2)?

Answer 156

N2O

Question 157

Which o the following halogenated agents potentiates

the effects of epinephrine the most?

Answer 157

Halothane

Question 158

What is the recommended minimum liter flow to

avoid renal injury when using sevoflurane?

Answer 158

2L/min

Question 159

T e patient is scheduled or a total knee arthroscopy
under general anesthesia. T e patient’s history includes
retina surgery using sulfur hexafluoride 2 months ago.
What will you avoid?

Answer 159

(A) Nitrous oxide Nitrous oxide expands the gas bubble and may cause intraocular hypertension

Question 160

Which o the following would be appropriate
anesthesia induction techniques or a severely hypertensive patient with coronary artery disease and moderate ventricular dysfunction?

Answer 160

(A) Inhalational induction with sevoflurane

Question 161

Which inhaled agent is most associated with emergence

delirium in children?

Answer 161

(A) Sevoflurane

Question 162

An inhalational induction with will likely cause catecholamine release, urther increasing blood pressure and heart rate?

Answer 162

desflurane

Question 163

What type of vaporizer contains desflurane?

Answer 163

Electronic

Question 164

When using evoked potentials, which o the ollowing

will you avoid?

Answer 164

Isoflurane

Question 165

The patient is scheduled or laser removal of vocal

cord papilloma. What will you avoid?

Answer 165

Nitrous

Question 166

What is the Vapor pressure of isoflurane?

Answer 166

239

Question 167

What is the Vapor pressure of Desflurane?

Answer 167

664

Question 168

What is the Vapor pressure of Sevoflurane?

Answer 168

157

Question 169

What is the Vapor pressure of Nitrous oxide?

Answer 169

39000

Question 170

Blood-gas Partition coefficient of Isoflurane

Answer 170

1.4

Question 171

Blood-gas Partition coefficient of Desflurane

Answer 171

0.42

Question 172

Blood-gas coefficient Partition of Sevoflurane

Answer 172

0.69

Question 173

Blood-gas coefficient Partition of Nitrous oxide

Answer 173

0.47

Question 174

Brain-Blood coefficient Partition of Isoflurane

Answer 174

1.6

Question 175

Brain-Blood coefficient Partition of Desflurane

Answer 175

1.3

Question 176

Brain-Blood coefficient Partition of Sevoflurane

Answer 176

1.7

Question 177

Brain-Blood coefficient Partition Nitrous Oxide

Answer 177

1.1

Question 178

MAC of Isoflurane

Answer 178

1.1

Question 179

MAC of Desflurane

Answer 179

6.0

Question 180

MAC of Sevoflurane

Answer 180

2.0

Question 181

MAC of Nitrous oxide

Answer 181

104

Question 182

What is the relationship between the partition coefficient with the rate of induction?

Answer 182

INVERSELY proportional

Question 183

What are the determinant of the speed of onset and offset ? BIAC2CG

Answer 183

B/G partition coefficient
Inspired anesthetic concentration
Alveolar ventilation
Concentration effect
2nd gas effect
Cardiac output
Gradient between alveolar and venous blood

Question 184

The mechanism of action of nitrous oxide is thought to be attributed to ?

Answer 184

The antagonisms of NDMA receptors in the CNS

Question 185

The mechanism of action of Volatile anesthetics is thought to be attributed to what actions on what receptors?

Answer 185

GABAa, Glycine and glutamate receptors play a role

Question 186

What determines the speed of induction of general anesthesia?

Answer 186

The rate of the rise of the ration of FA/FI

Question 187

What are the 2 opposing processes that determine FA/FI at a given time?

Answer 187

Anesthetic delivery to and uptake from alveoli

Question 188

How does the blood gas partition coefficient affect the rate of rise of the FA/FI?

Answer 188

Lower solubility in blood will lead to lower uptake of anesthetic into the bloodstream, thereby increasing the rate of rise of teh FA/FI at a given time.

Question 189

2 patient condition that increases solubility of halogenated volatile anesthetics in blood

Answer 189

Hypothermia

Hyperlipidemia

Question 190

How does Alveolar Ventilation affect the rate of rise of the FA/FI?

Answer 190

Increasing MV increasing FA/FI

Question 191

What is the concentration effect?

Answer 191

As FI increases, the rate of FA/FI also increases. For a gas with a FI like nitrous , a large amount is taken up into blood and there is a large loss of the total gas volume. The remaining nitrous is concentrated and the addition of more anesthetic with the next breath will increase the concentration further.

Question 192

With the concentration effect the uptake of a large gas volume (such as nitrous) creates what?

Answer 192

draws more fresh what into the alveoli, thereby increasing FA and augmenting the inspired TV.

Question 193

What explains why the rate of FA/FI is faster for nitrousoxide than desflurane? (even though the blood-gas partition coefficient for desflurane is smaller)

Answer 193

The concentration effect.

Question 194

What is the 2nd gas effect?

Answer 194

It is a direct outcome of the concentration effect. When nitrous and a potent inhalation anesthetic are administered together, the uptake of nitrous oxide concentrates the second gas (such as isoflurane) and increases the input of additional second gas in the alveoli via the augmentation of inspired volume.

Question 195

How does CO affects the rate of rise of FA/FI?

Answer 195

An increase in cardiac output, and therefore pulmonary blood flow, will increase the anesthetic uptake and decrease the rate of rise in FA/FI?

Question 196

Mnemonic for FA/FI chart (FA on the left, time bottom)

Answer 196

NDSIEH

Question 197

Explain how the gradient between alveolar and venous blood affect FA/FI?

Answer 197

The uptake of anesthetic into the bloodstream will decrease as the anesthetic partial pressure gradient between the alveolar gas and the venous blood decreases. This gradient is particularly large early in the course of anesthetic administration.

Question 198

Distribution of volatile anesthetics in the tissues: Rate of equilibration of anesthetic partial pressure between blood and a particular organ system depends on what factors?

Answer 198

Tissue Blood flow
Tissue solubility
Gradient between arterial blood and tissue

Question 199

Tissue blood flow affect rate of equillibration of anesthetics partial pressure, explain.

Answer 199

Equillibration occurs first in the tissue with increase perfusion. VESSEL RICH GROUP of highly perfused organs system, which receives about 75% of the CO . Remainder of the CO goes to muscle and fat

Question 200

Anesthetic agents with high-tissue solubility are ______(slower/faster) to equillibrate?

Answer 200

Slower

Question 201

Gradient between arterial blood and tissue: Until equillibration is reached between the anesthetic partial pressure in the blood and a particular tissue, a _______exist that leads to the uptake of anesthetic by the tissue. The rate of uptake will (decrease/Increase) _____as the gradient decreases

Answer 201

gradient ; decrease

Question 202

What is the predominant route of elimination of VA?

Answer 202

Exhalation ; After the VA is turned off, the anesthetics tissue and alveolar partial pressure decrease

Question 203

What is the predominant route of metabolism of VA?

Answer 203

VA undergoes degrees of hepatic biotransformation

Question 204

What is the predominant route of Anesthetic loss?

Answer 204

Skin or/and visceral membranes

Question 205

CV effect and nitrous oxide

HR, BP, SNS

Answer 205

Mild sympathetic NS stimulant

HR and BP unchanged usually

Question 206

Resp effect and nirous oxide

Answer 206

May increase PVR

Mild resp depressant

Question 207

VA and CNS effects: low doses

Answer 207

Alpha, delta and slow oscillation are present at lower does of iso, des, and sevo.

Question 208

VA and CNS effects: high doses

Answer 208

theta oscillation appears follwed by burst suppression

Question 209

VA on SSEPs (remember dail)

Answer 209

DAIL
Decrease amplitude of SSEPS
Increase latency of SSEPS

Question 210

VA on CBF and CMRO2

Answer 210

Increase CBF and decrease CMRO2: uncouple autoregulation of CBF

Question 211

VA on Cardiovascular system?

Answer 211

Dose dependent Myocardial depression and systemic Vasodilation
HR unchanged

Question 212

Action of desflurane on CV

Answer 212

Increase SNS stimulation
Tachycardia
Hypertension
Usually on induction, or when the concentration is abruptly increased.

Question 213

What can VA do to the myocardium?

Answer 213

May sensitize the myocardium to the arrhythmogenic effects of catecholamines, which is a concern during infiltration of epi-containing solutions, or administration of sympathomimetic agents.

Question 214

What are the RESP effects of VA?

Answer 214

Dose dependent respiratory depression with decrease TV, increase RR and increase arterial CO2 pressure

Question 215

VA, light anesthesia and resp

Answer 215

May precipitate coughing, laryngospasm, or bronchospasm particularly in patients with asthma or COPD

Question 216

What makes sevo more suitable for use as an inhalation agent?

Answer 216

Lower pungency

Question 217

VA on bronchioles

Answer 217

Bronchodilatory effects EXCEPT desflurane which has mild bronchoconstricting activity

Question 218

What are the effects of VA on HPV?

Answer 218

Inhibit HPV which may contribute to pulmonary shunting.

Question 219

Neuromuscular system and VA

Answer 219

Dose dependent decrease in skeletal muscle tone’

May lead to MH

Question 220

VA and hepatic system

Answer 220

Halothane can lead to hepatitis

Question 221

VA and renal system

Answer 221

Decrease RBF through decrease in MAP or increase in renal vascular resistance

Question 222

3 adverse effects of NITROUS OXIDE

Answer 222

Expansion of closed gas spaces
Diffusion hypoxia
Inhibition of tetrahydrofolate synthesis

Question 223

Nitrous and explansion of closed gas spaces, explain?

Answer 223

Because nitrous oxide is 35 times more soluble in blood than nitrogen , closed air space will expand as the amount of nitrous oxide diffusing into these spaces is greater than the amount of nitrogen diffusing out.

Question 224

What is the predominant constituent in closed gas-contraining spaces in the body ?

Answer 224

Nitrogen

Question 225

Spaces that nitrous oxide can diffuse to?

Answer 225

Pneumothorax
occluded middle ear
Bowel lumen
Pneumocephalus

Question 226

ETT cuff and the use of N2O

Answer 226

Nitrous oxide will diffuse into the cuff of an ETT and may increase the pressure within the cuff. The cuff pressure should be assessed intermittently and if necessary , adjusted.

Question 227

Diffusion hypoxia with which gas? explain

Answer 227

Nitrous oxide; After you d/c nitrous oxide , its rapid elimination from the blood into the lung may lead to a low partial pressure of O2 in the alveoli, resulting in hypoxia and hypoxemia with supplemental oxygen is not administered.

Question 228

Caution of nitrous oxide administration in patient with this deficiency ? why?

Answer 228

B12 ; because nitrous inhibits methionine synthase, a vitamin B12 dependent enzyme necessary for the synthesis of DNA. It should be use with caution with pregnant patients and those deficient in vitamin B12

Question 229

Desflurane can be degraded to

Answer 229

CO in CO2 absorbents (especially baralyme). More likely when absorbent is new or dry.

Question 230

Sevoflurane can be degraded to

Answer 230

Fluoromethyl 2-2 difluoro-1-vinyl ether (compound A) which shows that it can lead to renal toxicity in animal models

Question 231

Compound A concentration increase at

Answer 231

low fresh gas rates.

Question 232

Mechanism of action of barbiturates? on RAS, neurotransmitters

Answer 232

Depresses the Reticular activating system
Depression of NDMA in a concentration dependent manner
Depression of Excitatory neutrotransmitters (glutamate and nicotinic)
Enhance Inhibitory neutrotransmitters

Question 233

The sodium salts of barbiturate in solution are (acidic/basic; stable/unstable)

Answer 233

Alkaline (pH>10)

Relatively unstable

Question 234

Are sodium salts of barbiturates water soluble?

Answer 234

yes

Question 235

Prompt awakening from a a single dose of thiopental or methohexital reflects ?

Answer 235

Redistribution

Question 236

What is the determining or limiting factor for the duration of action of a barbiturate?

Answer 236

redistribution the barbiturate undergoes

Question 237

CV effects following barbiturate administration?

Answer 237

Increase HR
Decrease Venous return
Decrease BP

Question 238

Barbiturates on CBF , CMRO2 and iCP

Answer 238

Decrease CBF, CMRO2 and ICP

Question 239

Barbiturates are neuro____

Answer 239

protective

Question 240

Names 2 barbiturates

Answer 240

Thiopental

Methohexital

Question 241

Onset of action of barbiturates

Answer 241

30-45 seconds, f/b rapid termination of effects due to redistribution

Question 242

How are barbiturates metabolized?

Answer 242

Hepatic metabolism

Question 243

With hepatic metabolism, thiopental vs methohexital which one has higher clearance?

Answer 243

Methohexital

Question 244

Prolonged infusion of barbiturates effects

Answer 244

Prolonged sedation and unconsciousness due to reduced rate of consciousness , return of the drug to the central compartment and hepatic metabolism

Question 245

The context senstive half time of thiopental is

Answer 245

long even after short infusion

Question 246

Barbiturates on cerebral vascular bed

Answer 246

Dose-dependent cerebral vasoconstriction decrease CBF and CMRO2, and ICP

Question 247

Do barbiturates affect cerebral autoregulation?

Answer 247

NO, Cerebral autoregulation remains unaffected.

Question 248

Thiopental and EEG

Answer 248

At high does will produce isoelectric EEG

Question 249

Methohexital and seizures

Answer 249

Methohexital can elicit seizure activity

Question 250

Barbiturates on SSEPs, MEPs,

Answer 250

Minimal effects

Question 251

Barbiturates on BAEPs

Answer 251

Dose dependent depressio

Question 252

Barbiturates on CV

Answer 252

Venodilation and depress myocardial contractility , leading to dose-dependent decreases in BP and CO especially for patient who are preload dependent.

Question 253

Barbiturates on baroreceptors

Answer 253

Remain intact; so hypotension will still lead to tachycardia.

Question 254

Barbiturates on RESP

Answer 254

Dose dependent decrease in RR and TV

Question 255

Barbiturates on ventilatory response

Answer 255

Ventilatory responses to hypoxia and hypercabia are depressed.

Question 256

Barbiturates: after induction what occurs

Answer 256

Apnea result for 30-90 seconds.

Question 257

Barbiturates compared with propofol

Answer 257

Laryngeal reflexes remain intact with barbiturates, so the incidence of cough and laryngospasm is higher,

Question 258

Reduce dose of barbiturates in those kind of patients?

Answer 258

Hypovolemic
elderly
Hemodynamically compromised patients

Question 259

Barbiturates admnistration caution

Answer 259

Do not mix with drugs with lower pH solution such as succinylcholine and cause precipitation of other drugs such as VEC. Therefore, use free running IV and avoid simulataneously injection with other drugs.

Question 260

Thiopental have histamine release

Answer 260

yes

Question 261

Absolute contraindications of barbiturates

Answer 261

Acute intermittent Porphyria

Question 262

Why no barb in porphyria?

Answer 262

Barb induce porphyrin synthetic enzymes such gamma-aminolevulinic acid synthetase

Question 263

Barbiturates and IV

Answer 263

May cause pain at the site of administration due to venous irritation.

Question 264

Thiopental injection what can it cause? How do you treat?

Answer 264

Can cause severe pain and tissue necrosis if injected extravascularly or intra-arterialy . Treat with PHENTOLAMINE (alpha blocker) heparin, vasodilators, and regional sympathetic blockade.

Question 265

Often seen during induction with methohexital

Answer 265

Myoclonus

Hiccups

Question 266

Barbiturates protect agains focal ischemia or global?

Answer 266

focal

Question 267

Barbiturates and EEG

Answer 267

High does can cause electrical silence on the EEG.

Question 268

Anticonvulsant activity of a barbiturate is structurally related to

Answer 268

PHENYL GROUP (the methyl group does not have anticonvulsant property)

Question 269

What can lead to higher concentration of thiopental in the brain?

Answer 269

When the central component is reduced(hypovolemia)’
When albumin is decreased (Liver disease)
When there is increased non-ionized fraction of the drug (acidosis)

Question 270

Thiopental and elimination

Answer 270

Prolonged in the elderly because with increasing age the time for the drug to go from the central compartment via redistribution increases.

Question 271

When using methohexital , full recovery of psychomotor function after the single dose is more rapid compared to thiopental why?

Answer 271

ENHANCED METABOLISM; hepatic extraction of methohexital occurs at a rate 3-4 times greather than that for either thiopental or thiamylal.

Question 272

How is methohexital excreted?

Answer 272

Feces

Question 273

The only opioid receptor that produces respiratory stimulation ?

Answer 273

sigma receptor

Question 274

The sigma opioid receptor produces

Answer 274

Respiratory stimulation

Question 275

What are the endogenous peptide that bind to opioid receptors?

Answer 275

Endorphin
Enkephalin
Dynorphin

Question 276

What is the principal effect of opioid receptor activation ?

Answer 276

Decrease in release and response to excitatory neurotransmitters.

Question 277

What happens when opiate receptors are activated?

Answer 277

Excitatory neurotransmitter release is inhibited presynaptically, while a decrease response to the transmitters occurs postsynaptically.

Question 278

Endorphins are agonists of which opioid receptor?

Answer 278

Epsilon

Question 279

The primary mechanism of action of opiates is via

Answer 279

µ-receptor agonism.

Question 280

Opioids location in the brain?

Answer 280

the dorsal horn (layers 4 and 5 of the substantia gelatinosa) of the spinal cord, which inhibits the transmission of nociceptive information;

Question 281

EnKEphalins are agonist of which opioid receptor?

Answer 281

DELTA (KEd)

Question 282

Dynorphins are agonists of which opioid receptor?

Answer 282

Kappa

Question 283

What increases the amount of pulmonary uptake of lipid soluble opioids?

Answer 283

History of tobacco use.

Question 284

Advantage of the use of neuraxial opioids over IV opioids or regional anesthesia over local anesthetics

Answer 284

NO loss of proprioception
No SNS denervation
No skeletal muscle weakness

Question 285

What is the most common side effect of neuraxial opioids?

Answer 285

Pruritus (highest incidence of occurrence)

Question 286

What is the triad of opioid overdose? MHC

Answer 286

Miosis
Hypoventilation
Coma

Question 287

The primary sign of opioid overdose is

Answer 287

Respiratory depression that can progress to apnea

Question 288

Morphine cause supraspinal analgesia by acting on which opioid receptor?

Answer 288

Mu 1

Question 289

Morphine cause spinal analgesia by acting on which opioid receptor?

Answer 289

Mu 2

Question 290

How is morphine metabolized?

Answer 290

Hepaticallly and renally

Question 291

Morphine metabolims occurs by

Answer 291

glucoronic acid conjugation primarily in hepatic and renal (extra hepatic sites)

Question 292

What is the least protein-bound opioid agonist?

Answer 292

Morphine (35% only )

Question 293

Protein bound % of Meperine, sufentanyl and fentanyl

Answer 293

> 60%

Question 294

Both analgesic and possess weak local anesthetic properties?

Answer 294

Meperidine (alteration of nerve conduction)

Question 295

What is the least-lipid soluble opioid agonist?

Answer 295

Morphine

Question 296

In order of LEAST to most lipid soluble opiods : MR. MASF

Answer 296

Morphine < remifentanil< meperidine< alfentanil< sufentanily< fentanyl

Question 297

Morphine-6- Glucuronide is a ______Potent and_______-lasting opioid agonist than morphine

Answer 297

MORE ; LONGER

Question 298

What is the metabolite of morphine?

Answer 298

Morphine-6-glucuronide

Question 299

Which of the following patients would have a prolonged elimination half time of fentanyl?

Answer 299

Elderly (aging changes in the liver main cause)

Continuous infusion lasting longer than 2 hours

Question 300

What is the pharmacologically active metabolite of fentanyl?

Answer 300

No significant active metabolite.

Question 301

The context sensitive half time of fentanyl

Answer 301

Initially it is shorter than that of sufentanil, but after 2 hours of infusion its longer.

Question 302

When a continuous infusion of fentanyl last beyond 2 hours, the half life becomes become _____Than sufentanil

Answer 302

Greater than sufentanil

Question 303

How long does it take for plasma fentanyl concentration to plateau with the use of the transdermal patch?

Answer 303

12-18 hours

Question 304

What is the major obstacle to transdermal administration of a medication?

Answer 304

Stratum corneum

Question 305

How much of an initial IV fentanyl dose undergoes first pass pulmonary uptake? why?

Answer 305

75%; because it is highly lipid solubility

Question 306

Compared to fentanyl and sufentanil, alfentanil has a more ________onset of action? why?

Answer 306

rapid; high degree of nonionization

Question 307

At physiological pH, what % of alfentanil is in the non-ionized form?

Answer 307

90%

Question 308

Compared to fentanyl, alfentanil is ______potent and has a ______ onset of action

Answer 308

less : more rapid

Question 309

Alfentanyl potency

Answer 309

10-20% of that of fentanyl strength, 1/3 of fentanyl duration

Question 310

What can alter the elimination half time of alfentanil? and why?

Answer 310

Cirrhosis of the liver; Because almost all of a dose of alfentanil is metabolized by the liver within an hour of administration. Therefore, disease of the liver alters the half life of alfentanyl

Question 311

What is the most potent analgesis?

Answer 311

Sufentanil

Question 312

The standard to which opioid are compared to ?

Answer 312

Morphine

Question 313

Fentanyl potency

Answer 313

75-125 times more potent than morphine

Question 314

Sufentanil potency

Answer 314

5-10 times more potent than fentanyl

Question 315

Sufentanil is _____Protein bound than fentanyl, and it has a _______volume of distribution

Answer 315

more; smaller (sufentanil 92.5% PB, 79-87% proteinb for fentanyl)

Question 316

For a continuous infusion lasting more than 2 hours (fentanyl) and less than 8 hours (alfentanil) rank the following opioid agonists from shortest to longest context-sensitive half-time? SAF

Answer 316

Sufentanil< alfentanil< fentanyl

Question 317

Symptom of normeperidine toxicity ?

Answer 317

Seizures and myoclonic activity

Question 318

Most effective opioid for decreasing shivering?

Answer 318

Meperidine (NDMA receptor activity , NE inhibitor in central neurons)