Test 2 Study Guide

Question 1

What is the best method to avoid perioperative heat loss?

Answer 1

Forced air warming

Question 2

What mechanism facilitates heat loss through air currents?

Answer 2

CONVECTION

Question 3

Evaporative heat loss results from

Answer 3

fluid loss through the skin and respiratory system

Question 4

Conductive heat loss occurs when

Answer 4

direct contact between cold and warm objects.

Question 5

Radiation involves the

Answer 5

transfer of heat from infrared rays.

Question 6

Convective heat loss requires

Answer 6

currents and is dependent on thermal gradients.

Question 7

Phase I

Answer 7

To avoid the initial drop in body temperature pre-warm the patient with aforced-air warming blanket.

Question 8

Phase II → To avoid heat loss during

Answer 8

Phase II, all other warming methods in combinationare use

Question 9

What mechanism results in the greatest amount of heat loss in the operating room?

Answer 9

RADIATION (60%),

Question 10

When is body temperature loss the greatest?

Answer 10

The greatest amount of heat loss occurs during the 1st hour in the operating room (0.5-1.5C).

Question 11

Patients lose most heat through

Answer 11

radiation from their exposed skin to the surrounding cold environment.Thereafter temperature decline is gradual and then plateaus

Question 12

Most critical factor for heat loss during anesthesia and surgery ?

Answer 12

Operating room temperature

Question 13

Most body heat is lost by 2 processes

Answer 13

RADIATION and CONVECTIOn from the skin and surgical incisions

Question 14

One of the best ways to minimize body heat loss during anesthesia and surgery ?

Answer 14

Increase OR room temperature

Question 15

Padding the patient everywhere prevents heat loss by what routes?

Answer 15

Padding serves as insulation and prevents heat loss by convection and radiation

Question 16

Responsible for the metabolism of the Largest portion of drugs in the body

Answer 16

CYP450

Question 17

CYP 3A4 comprises

Answer 17

40-50% of the system’s metabolizing capabilities

Question 18

The hepatic microsomal enzymes are present with the greatest degree of metabolism occuring in the

Answer 18

HEPATIC SMOOTH ER, GI, kidneys, adrenal cortex

Question 19

4 medications all metabolizes by CYP450

Answer 19

Phenytoin, ethanol, barbiturates and Ketamine,

Question 20

The hepatic microsomal enzymes of the p450 system are generally confined to the

Answer 20

Smooth Endoplasmic reticulum

Question 21

Where is the primary location of hepatic microsomal enzymes?

Answer 21

Hepatic smooth endoplasmic reticulum

Question 22

The only process that does not involve the cytochrome P450 pathway is

Answer 22

HYDROLYSIS

Question 23

Common substrate for phase II conjugation reactions:

Answer 23

Glucuronic acid
Glycine
Acetic acid
Sulfuric acid
Methyl group

Question 24

CYP2D6 substrate ->

Answer 24

Codeine ; Oxycodone ; Hydrocodone

Question 25

Inducers of CYP2D6 →

Answer 25

Disulfiram

Question 26

Inhibitors of CYP2D6 →

Answer 26

SSRIs, Isoniazid, Quinidine

Question 27

Examples of Enzymes inducers (RPPCSC)

Answer 27

Rifampin
Phenytoin
Phenobarbital (barbiturates)
Carbamezepine
Smoking tobacco
Consuming alcohol

Question 28

Examples of Enzyme inhibitors (CAGEKOI)

Answer 28

Cimetidine
Amiodarone
Grapefruit Juice
Erythromycin
Ketoconazole
Omeprazole
Isoniazid

Question 29

CYP1A2 inhibitors →

Answer 29

Erythromycin; Ciprofloxacin

Question 30

3 drugs that under perfusion dependent hepatic elimination ?

Answer 30

Propofol
Fentanyl
Lidocaine

Question 31

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

Answer 31

5 half lives

Question 32

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

Answer 32

5

Question 33

The context sensitive half time of fentanyl ?

Answer 33

longs 240mns

Question 34

Predicts the time it takes for 50% of a drug to be eliminated from the central compartment when a continuous infusion is discontinued?

Answer 34

Context sensitive half time

Question 35

The plasma half-life of a drug is inversely proportional to its

Answer 35

RATE OF CLEARANCE

Question 36

Hepatic enzyme induction will result in a reduction in the drugs “

Answer 36

HALF TIME or LIFE”

Question 37

Elimination half-life is the

Answer 37

time taken for a drug to lose half of its pharmacologic or physiologic activity.

Question 38

Formula of T ½ is :

Answer 38

T ½ = Vd / Cl

Question 39

Half time of elimination is greater if Vd is ____and clearance is

Answer 39

volume of distribution is LARGE and Clearnce is SMALL

Question 40

Elimination half time and volume of distribution →

Answer 40

Directly proportional

Question 41

Elimination half time and clearance →

Answer 41

Inversely proportional

Question 42

How does the elimination half-time of remifentanil differ from alfentanil?

Answer 42

Elimination half-time is shorter or remifentanil

Question 43

Half-life (hours) =

Answer 43

0.693 x (Volume of distribution (L) / Clearance (L/hr))

Question 44

What causes an increased end-tidal carbon dioxide?

Answer 44

CNS depression

Question 45

INCREASES IN METABOLIC RATE (increased VO2)

Answer 45

Increases CO2 production

Question 46

Hypotension leads to

Answer 46

CO2 production

Question 47

Things that causes an increase in CO2

MASTT FPC

Answer 47

Malignant Hyperthermia
Anxiety
Seizures/ SEPSIS
Thyrotoxicosis
Tourniquet and vascular clamps removal
Fever/ Sodium bicarbonate administration
Pain 
CO2 insufflation with laparoscopic surgeries

Question 48

Main mechanism of Increased ETCO2?

Answer 48

Increase alveolar ventilation

Question 49

Elevated ETCO2 with normal plateau?

Answer 49

Make sure you look at the baseline and that it returns to zero. Its not rebreathing. Occurs with increased production of CO2 or DECREASED ALVEOLAR VENTILATION

Question 50

Capnography measures

Answer 50

ETCO2 concentration over time.

Question 51

Capnography measures 3 main things?

Answer 51

Assessment of metabolism
Circulation
Ventilation

Question 52

CO2 diffuses airway then from the tissues on, what happen?

Answer 52

from the tissue and enters the venous circulation, From here, the CO determines the rate of transfer towards the lungs. In the lungs, CO2 follows a concentration gradient as it diffuses across the alveolar capillary membrane. Once the CO2 in the alveolus, ventilation is the process by which CO2 is removed from the body

Question 53

What point in the CO2 waverform is ETCO2 measure?

Answer 53

Point D

Question 54

Normal ETCO2

Answer 54

35-40 mmHg

Question 55

ETCO2 Waveform: An increase alpha angle means

Answer 55

EXPIRATORY AIRFLOW OBSTRUCTION such as COPD, bronchospasm or a KINKED ETT TUBE.

Question 56

Widened beta angle on CO2 waveform means

Answer 56

Incompentent unidirectional valve

Question 57

Identify caused of the abnormal waveform if there is a CARDIAC OSCILLATION?

Answer 57

Heart beating against the lungs

Question 58

Leak in sample time CO2 waveform?

Answer 58

The beginning of the plateau is low, because dilution of alveolar gas at atmospheric air is aspirated into the sample line. NOT SEEN WITH SPONTANEOUS VENTILATION.

Question 59

2 Methods of CO2 analysis

Answer 59

Mainstream (in line)

Sidestream (diverting )

Question 60

Low ETCO2 indicates

Answer 60

Hyperventilation
Increased alveolar dead space
Decrease CO2 production

Question 61

Alpha angle is where?

Answer 61

between the first expiration upstroke and the plateau line

Question 62

Beta angle is

Answer 62

REBREATHING reading

Question 63

Baseline not returning to zero is

Answer 63

REBREATHING

Question 64

What CO2 analysis method has a faster response time-

Answer 64

Mainstream , does not require a water trap or pumping mechanism

Question 65

Capnogram Phases I.

Answer 65

Dead space gas exhaled

Question 66

Capnogram Phases II.

Answer 66

Transition between airway and alveolar gas

Question 67

Capnogram Phases III.

Answer 67

Alveolar plateau

Question 68

Capnogram Phase IV

Answer 68

Inspiration

Question 69

What CO2 analysis methods is the device attached to the ETT?

Answer 69

-Mainstream (in line)

Question 70

Impaired RELAXATION is what phase of diastolic dysfunction

Answer 70

Grade I

Question 71

Phase I of diastolic dysfunction is

Answer 71

Impaired relaxation

Question 72

Phase II of diastolic dysfunction

Answer 72

Pseudonormal filling

Question 73

Phase III of diastolic dysfunction

Answer 73

Restrictive filling

Question 74

Phase III of diastolic dysfunction

Answer 74

Reversible Restrictive filling

Question 75

Phase IV of diastolic dysfunction

Answer 75

Irreversible Restrictive filling

Question 76

The early manifestation of diastolic dysfunction is characterized by an

Answer 76

impaired relaxation,

Question 77

This stage of disease is known as grade I diastolic dysfunction

Answer 77

inability of the LV to fill adequately during the rapid filling phase. A compensatory increase in filling occurs with atrial contraction.

Question 78

In summary, in grades II and III of diastolic dysfunction, there is a decrease in

Answer 78

LV compliance ensues.

Question 79

Compliance is defined as a

Answer 79

change of volume with respect to a change in pressure. decrease in LV compliance will lead to a disproportionate increase in LV pressures and, ultimately, LA pressures.

Question 80

Grade I : the TMF curve of an individual with abnormal relaxation is represented by a (LeHapDT)

Answer 80

low E, high A, and prolonged DT

Question 81

Grade I diastolic dysfunction, as the LV is

incompletely relaxed when early ventricular filling occurs, t

Answer 81

The pressure gradient, and thus E wave velocity, is less than normal.

Question 82

In Grade I, E wave velocity is

Answer 82

less than normal

Question 83

In Grade I, The delayed relaxation prolongs LV filling late into diastole, and therefore the DT is

Answer 83

prolonged.

Question 84

Because the DT is prolonged in grade I, A compensatory increase in

Answer 84

TMF during atrial contraction, due to the higher residual atrial preload, generates a high A wave velocity

Question 85

A wave in Grade I is

Answer 85

High

Question 86

Progression of diastolic disease leads to grade II diastolic dysfunction, which is marked by

Answer 86

decreases in LV compliance

Question 87

For Grade II, LA pressure rises as a compensatory mechanism to normalize the pressure gradient across the MV. In this scenario, the

Answer 87

TMF velocities resemble the normal curve; thus, this

stage is known as pseudonorma

Question 88

Grade III diastolic dysfunction, known as the

Answer 88

Restrictive phase,

Question 89

Grade III diastolic dysfunction, known as the restrictive phase is characterized by a

Answer 89

significantly decreased LV compliance

Question 90

In Grade III, The high LA–LV pressure gradient produces a

Answer 90

fast acceleration of blood flow in the LV.

Question 91

A high E velocity on the TMF curve is representative for

Answer 91

grade III diastolic dysfunction

Question 92

What represent Grade III diastolic dysfunction?

Answer 92

A high E velocity on the TMF curve

Question 93

In Grade III diastolic dysfunction: LV pressure and effect on DT?

Answer 93

LV pressure increases rapidly during filling because of the increased LV stiffness resulting in a short DT. The forward filling velocity at atrial contraction is low (small A wave) because of the decreased compliance

Question 94

Cardiac tumors either can originate

Answer 94

from the heart or are metastases from other sites.

Question 95

Cardiac masses can

Answer 95

embolize, cause arrhythmias, or cause heart failure.

Question 96

The most common primary tumor of cardiac is

Answer 96

myxoma,

Question 97

Myxoma most common location

Answer 97

most frequently at the interatrial septum

Question 98

The potential of myxomas to

Answer 98

obstruct the inflow or outflow region of a ventricle is

demonstrated with Doppler echocardiography.

Question 99

The 2nd most common cardiac tumor next most frequent tumor

is . (Fig. 27-42C).

Answer 99

fibroma of the ventricular wall.

Question 100

Fibromas are usually

Answer 100

calcified and can decrease the ventricular volume

Question 101

Renal cell tumors often

Answer 101

extend into the inferior vena cava and right atrium

Question 102

Should be differentiated from tumors.

Answer 102

Pacemaker wires, thrombus, and normal anatomic structures that mimic the appearance of
pathology (Eustachian valve, crista terminalis, Chiari network, or “Coumadin”ridge)

Question 103

During exposure of the aneurysm, burst-suppression on the EEG may be desired to

Answer 103

decrease the impending ischemic burden on the brain from temporary occlusion of large cerebral vessels

Question 104

Burst-suppression can be accomplished with .

Answer 104

propofol administered as a 1- to 2-mg/kg bolus followed

by infusion of 100 to 150 μg/kg/min. Additional vasopressor may be required during this time to maintain CPP.

Question 105

→ Does not produce burst suppresion

Answer 105

Benzodiazepines

Question 106

Electroencephalogram (EEG) burst suppression is characterized by

Answer 106

periods of isoelectric EEG punctuated by “bursts” of EEG activity.

Question 107

Electroencephalogram (EEG) burst suppression is characterized by

Answer 107

periods of isoelectric EEG punctuated by “bursts” of EEG activity.

Question 108

Burst suppresion is caused by

Answer 108

BARBITURATES and PROPOFOL

Question 109

Burst suppression occurs at close to

Answer 109

to 1.5 MAC

Question 110

Define burst suppression

Answer 110

The “burst” is high-frequency activity and the “suppression” is O.S· to several-second periods of isoelectric activity

Question 111

At greater than 2 MAC, all of the potent agents can produce.

Answer 111

burst suppression or electrical silence

Question 112

These are important factors to remember because EEG changes during administration of general anesthesia can also be caused by

Answer 112

hypoxia, hypercarbia, and hypothermia.

Question 113

Burst suppression can be done by

Answer 113

It can be attained at concentrations of propofol (8 μg/mL) that are significantly higher than the blood concentrations needed to reach the initial stages of general anesthesia (3 μg/mL). A further increase in propofol concentration will lead to an isoelectric EEG pattern.

Question 114

Unlike benzodiazepines, etomidate can

Answer 114

achieve burst suppression with a concomitant

decrease in ICP

Question 115

However, despite its neurodepressant properties at high

doses, etomidate is often associated with

Answer 115

epileptogenic activity (excitatory spikes) on EEG.

Question 116

Thiopental induced

Answer 116

burst suppression and isoelectric EEG prior to potential focal ischemic insult

Question 117

TIVA is associated with

Answer 117

smooth induction and rapid emergence with less postoperative nausea and vomiting.

Question 118

is emerging as a standard method to administer safe anesthesia in neurosurgical patients.
.

Answer 118

Administration of TIVA using target-controlled infusion technique

Question 119

What has become very popular due to their favorable pharmacokinetic and pharmacodynamic properties for neurosurgery case?

Answer 119

The propofol–remifentanil combination has

Question 120

Attractive for ICU sedation in neurosurgery, as patients can participate in neurologic examinations while receiving this medication

Answer 120

Dexmedetomidine

Question 121

The BIS uses a proprietary algorithm that processes the in near real time and computes an index between that

Answer 121

0 and 100

Question 122

EEG indicates the patient’s

Answer 122

level of consciousness.

Question 123

EEG; BIS A value of 100 corresponds to ____and a value of 0 is ____

Answer 123

being completely awake, whereas 0 corresponds to a profound state of coma or unconsciousness that is reflected by an isoelectric or flat EEG.

Question 124

A patient is considered to be appropriately anesthetized when the BIS value is between

Answer 124

40 and 60

Question 125

Since the bispectral index (BIS) is based upon the hypnotic action of agents, the BIS is not affected by

Answer 125

opioids or analgesics.

Question 126

Nitrous oxide alone on BIS

Answer 126

will have no effect on BIS

Question 127

At BIS values lower than 40,

Answer 127

cortical suppression becomes discernible in a raw electroencephalogram as a burst suppression pattern

Question 128

BIS values o 65-85 have been recommended or sedation, whereas values o

Answer 128

For sedation

Question 129

BIS valueshave been recommended for general anesthesia.

Answer 129

40-65

Question 130

BIS and Ketamine

Answer 130

has minimal effect on BIS, and may slightly increase BIS transiently

Question 131

Common second-messenger molecules include

Identify the cyclic nucleotide second messenger that mediates the cellular actions of natriuretic peptide?

Answer 131

cyclic adenosine 3′-5′-monophosphate (cAMP), inositol 1,4,5-trisphosphate (IP 3), 1,2-diacylglycerol (DAG), and calcium ions (Ca 2+).

Question 132

lpratropium (Atrovent) works by blocking the production of what second messenger?

Answer 132

Blockade of the muscarinic receptor by ipratropium will lead to a decrease in inositol triphosphate (IPJ). Notes: In the absence of IP3, what happens to calcium? less calcium is released from intracellular vesicles, so smooth muscle tone is decreased.

Question 133

By what receptor and second messenger system does glucagon exert its positive inotropic and chronotropic effects?

Answer 133

Glucagon acts through its own G-protein coupled receptor (GPCR) and generation of cyclic adenosine monophosphate (cAMP). In other words, glucagon binds to glucagon receptors to promote the formation of cAMP.

Question 134

Cyclic GMP, a second messenger, action?

Answer 134

relaxes vascular smooth muscle, thereby promoting vasodilation and a decrease in blood pressure.

Question 135

Certain G-protein subunits

Answer 135

can stimulate or inhibit membrane-bound adenylate cyclase, which catalyzes cAMP formation.

Question 136

Cyclic guanosine monophosphate (cGMP) mediates the

Answer 136

cellular actions of natriuretic peptides.

Question 137

Nitroprusside and nitroglycerin donate nitric oxide (NO). 
Nitric oxide (NO) activates the enzyme soluble

Answer 137

guanylate cyclase, which increases the production of cyclic guanosine monophosphate (cGMP).

Question 138

Within the VSMCs, NO reacts with the heme moiety in soluble guanylate cyclase, leading to a greater than
100-fold increase in the conversion of guanosine triphosphate to the secondary messenger

Answer 138

cyclic guanosine monophosphate [cGMP])

Question 139

cGMP associated with this medication

Answer 139

Sodium Nitroprusside

Question 140

The b1-adrenergic receptor located on the cardiac sarcolemma is coupled to

Answer 140

adenyl cyclase via a G protein.

Question 141

When activated, adenyl cyclase converts

Answer 141

adenosine triphosphate (ATP) to cyclic adenosine monophosphate (cAMP), a secondary intracellular messenger, that stimulates protein kinase A to phosphorylate membrane calcium channels,
leading to an increase in cytoplasmic Calcium

Question 142

For CCB , The Ca21 functions as a s

Answer 142

econdary messenger—its divalent charge is sufficient to produce conformational change in a number
of cytoplasmic proteins, such as actin-myosin.

Question 143

Name four second messengers for mediating intracellular hormonal functions besides cAMP.

Answer 143

Calcium ions, calmodulin, cyclic guanosine monophosphate (cGMP), and inositol triphosphate ([P3).

Question 144

opioids action can be reversed by direct antagonism with

Answer 144

naloxone,inhibitors of cyclooxygenase, histamine antagonist

Question 145

A direct acting antagonist has

Answer 145

affinity for a receptor but lacks efficacy

Question 146

Silent antagonists are competitive receptor antagonists that have

Answer 146

zero intrinsic activity for activating a receptor.

Question 147

What local anesthetics, those with high pKas or those with low pKas, are most ionized at physiological pH (pH=7.4)? ,

Answer 147

Those local anesthetics with the highest pKas are most ionized at pHz:7.4. Procaine (pKa = 8.9, 97% ionized), chloroprocaine (pKa = 8.7, 95% ionized), and tetracaine (pKa = 8.5, 93% ionized) are most ionized at pH =7.4.

Question 148

The speed of onset of a local anesthetic is determined by its

Answer 148

degree of ionization which, in turn, is determined by its pKa.

Question 149

The greater the degree of ionization of a local anesthetic {the higher the pKa),

Answer 149

the slower the speed of onset.

Question 150

Bupivacaine has a slower onset than

Answer 150

lidocaine because it is more ionized (has a higher pKa of 8.1) than lidocaine (pKa - 7.9) at physiological pH

Question 151

Approximately what % of CO delivered to the vessel-rich organs, although they constitute ______-%only body mass.

Answer 151

75% of resting cardiac output; 10% of total

Question 152

Muscle group % of CO

Answer 152

16% CO

Question 153

Adipose tissue Bone , ligament % CO

Answer 153

6% of CO

Question 154

Phase II of drug metabolism is CONJUGATION

Answer 154

Compound can be readily eliminated from the body

Question 155

What is the significance of phase II reactions?

Answer 155

Phase II reactions couples (conjugate a parent drug) or a phase I metabolite with an endogenous substrate such as GLUCURONIC acid to form water soluble metabolites that are eliminated in urine or stoool

Question 156

Phase I metabolites may be excreted without

Answer 156

undergoing phase II, and a phase II reaction can precede or occur without a phase I reaction

Question 157

CYP2D6 is functionally absent in 7 percent of , while deficiency is rare among

Answer 157

Caucasians and African Americans; Asians

Question 158

At conventional doses, subjects who are poor metabolizers based upon CYP2D6 genotype will

Answer 158

derive no therapeutic benefit from codeine

Question 159

Cytochrome P450 2C19 enzymes are involved in the metabolism of

Answer 159

proton pump inhibitors and antidepressants.

Question 160

An example is the enzyme CYP2D6, which catalyzes the

Answer 160

conversion of codeine into morphine.

Question 161

Patients with multiple copies of the CYP2D6 gene and who receive codeine will have

Answer 161

large plasma morphine concentrations with all related

beneficial and adverse side effects

Question 162

This is important for drugs that rely on CYP2D6 to convert an

Answer 162

inactive precursor (prodrug), such as codeine, into the active component of pain therapy (for codeine this is
morphine)

Question 163

Poor metabolizers display incomplete analgesia. The

frequency of poor metabolizers varies by ethnicity and is reported to be

Answer 163

8% in whites, 2% to 7% in African Americans and 0% to 0.5% in Asian populations.

Question 164

With CYP 2D6 Patients without an active gene will have no

Answer 164

benefit from treatment with codeine.

Question 165

With CYP2D6 Dangerous circumstances may occur when a

Answer 165

patient is an extensive metabolizer and produces large amounts of the active component.

Question 166

Loading dose is =

Answer 166

Vd x target concentration

Question 167

The loading dose is contingent on the

Answer 167

volume of distribution

Question 168

Maintenance doses are dependent on

Answer 168

plasma clearance.

Question 169

The loading dose is only required for a

Answer 169

few drugs in certain situations while maintenance doses are required for most drugs to maintain the steady-state plasma concentration

Question 170

However, from the clinical perspective, the single most important utility of Vd is calculating the

Answer 170

loading dose of a drug.

Question 171

The most significant aspect of the metabolism of barbiturates (e.g., phenobarbital, thiopental, methohexital) is their effect on the Chronic use of

Answer 171

hepatic microsomal enzyme system (cytochrome P450 (CYP) enzymes).

Question 172

These effects are dependent on the duration of exposure to the barbiturate. Acutely, barbiturates interact with various

Answer 172

CYPs and inhibit the biotransformation of other CYP substrates;

Question 173

Other substrates (e.g., other drugs or endogenous substrates) can inhibit the barbiturate

Answer 173

metabolism.

Question 174

Barbiturates will cause upregulation, or induction, of the microsomal enzymes (CYPs 1A2, 2C9, 2C19, and 3A4), increasing the

Answer 174

metabolism of drugs metabolized by these enzymes. This can lead to patients requiring larger dosages of medication to achieve therapeutic effect and/or increased clearance. This enzyme induction also causes barbiturate tolerance due increased barbiturate metabolism

Question 175

Acute barbiturates abuse

Answer 175

decrease anesthetic requirements.

Question 176

A phenol group substitution at position 5 of barbiturates forms phenobarbital. What clinically useful feature does the phenol substitution create

Answer 176

Phenobarbital has a phenol group substitution at position 5-the phenol substitution confers an anticonvulsant property to the barbiturate.

Question 177

On the ECG, ST segment depression of greater

Answer 177

than 1 mm provides evidence of myocardial ischemia

Question 178

ST segment monitoring To interpret ST segment changes properly, the

Answer 178

ECG must be standardized so that a 1-mV signal results in a deflection of 10mm on a standard strip monitor. Newer units continuously analyze ST segments for early detection of myocardial infarction.

Question 179

ST-segment elevation

Answer 179

(J point

Question 180

The “a” wave on the central venous pressure tracing corresponds to which on the EKG tracing?

Answer 180

P wave

Question 181

The y-descent of the CVP waveform corresponds to the

Answer 181

opening of the tricuspid valve during diastole and therefore is observed immediately following the v wave on CVP and shortly after the wave on the ECG.

Question 182

The a wave follows the

Answer 182

P wave on the ECG.

Question 183

The c wave immediately follows the

Answer 183

start of the QRS complex on ECG.

Question 184

The v wave appears

Answer 184

shortly after the start of the wave on the ECG.

Question 185

Y descent Mechanical event vs electrical events →

Answer 185

RA empties through open tricuspid valve (mechanical) After T wave ends

Question 186

V wave Mechanical event vs electrical events –>

Answer 186

Passive filling of RA (mechanical) Just after T wave begins (ventricular repolarization)

Question 187

X Descent Mechanical event vs electrical events→

Answer 187

RA relaxation (mechanical) ST segment (Electrical event)

Question 188

C wave Mechanical event vs electrical events –>

Answer 188

Right ventricular contraction (building of Tricuspid in RA)’->mechanical Just after the QRS complex (ventricular depolarization)

Question 189

A wave Mechanical event vs electrical events →

Answer 189

Right atrial contraction (mechanical)

Just after the P wave (Atrial depolarization)

Question 190

T wave corresponds with _____wave →

Answer 190

v wave

Question 191

ST segment corresponds with _______→

Answer 191

x descent

Question 192

QRS complex corresponds with —>

Answer 192

C wave

Question 193

V wave is the →

Answer 193

passive filling

Question 194

X descent is →

Answer 194

Right atrial relaxation

Question 195

What three measures are taken to increase the accuracy and precision of the cardiac outputs measured by thermodilution?

Answer 195

Triplicate determinations are averaged to increase precision the variability of cardiac output measurements can be reduced by performing the measurement at end-inspiration or at end-expiration;
(3) ensuring that the rate of injection and volume of injectate are constant.

Question 196

Factors that influence themodilution CO measurement: Underestimate CO

Answer 196

Injectate volume too high

Injectate solution too cold

Question 197

Which situation underestimates CO obtained by the thermodilution method?

Answer 197

High Injectate volume

Question 198

False high thermodilution cardiac output determinations occur when the injectate volume is

Answer 198

TOO SMALL

Question 199

False low determinations occur when injectate volume is

Answer 199

TOO LARGE

Question 200

If you inject 10 ml of cold normal saline when the cardiac output computer is set for 5 ml, will calculated cardiac output be higher or lower than actual cardiac output?

Answer 200

Calculated cardiac output will be lower than the true cardiac output

Question 201

The area under the curve will be larger if a greater volume is injected; so cardiac output will be

Answer 201

falsely low

Question 202

Avoid measurements of cardiac output using the thermodilution method during

Answer 202

electrocautery.

Question 203

Right atrium:

Answer 203

15-22 cm (15-20)

Question 204

Right ventricle:

Answer 204

25- 35 cm (30)

Question 205

Pulmonary artery

Answer 205

40- 50 cm (40)

Question 206

The distance from SKIN to the junction of the VC and RA is

Answer 206

15 cm

Question 207

Insertion site to VC and RA junction: Left IJ insertion site.

Answer 207

20 cm

Question 208

Pulmonary wedge distance

Answer 208

45- 50 cm (45)

Question 209

Vena Cava and R atrial Junction –> catheter tip:

Answer 209

PA 40cm

Question 210

Provides the shortest distance to the junction of the vena cava and the right atrium (approximately 10 cm) compared to other anatomic sites such as the he

Answer 210

The subclavian vein

Question 211

Distance to the junction of the vena cava and the

internal jugular veins ; femoral vein and right basilica vein

Answer 211

(15–20 cm); 40 ; 40

Question 212

O2-Hb Curve Shifts Right Shift means

Answer 212

lower affinity for O2 = increased unloading at tissues)

Question 213

O2 dissociation curve shifts to the RIGHT with

Answer 213

Acidosis • Hyperthermia • Hypercarbia • Increased 2,3-DPG • Sickle Cell Hb • Pregnancy • Volatile anesthetics • Chronic anemia

Question 214

O2 dissociation curve: Left Shift means

Answer 214

(higher affinity for O2 = decreased unloading at tissues)

Question 215

O2 dissociation curve shifts to the LEFT with

Answer 215

• Alkalosis • Hypothermia • Hypocarbia • Decreased 2,3-DPG • CO-Hb • Met-Hb • Sulf-Hb • Fetal Hb • Myoglobin

Question 216

The P50 is the oxygen tension at which

Answer 216

hemoglobin is 50% saturated.

Question 217

The normal P50 is

Answer 217

26.7 mm Hg. or 27 mmHg

Question 218

The gold standard of verification is sustained detection of D tube positively identified in it,

Answer 218

expired carbon the endotracheal tube is placed in the dioxide.irect visualization of the laryngeal inlet with the endotracheal trachea and not the esophagus

Question 219

Therefore, absence of Petco2 indicates

Answer 219

esophageal intubation, circuit disconnection, cardiac arrest, or airway obstruction.

Question 220

A false-positive result may be obtained after

Answer 220

gastric inflation with CO2 containing gas or digestion of carbohydrate-enriched beverages. E

Question 221

ETT-misplacement can be excluded by observing a

Answer 221

normal Petco2 waveform for three to six consecutive breaths.

Question 222

An end-tidal C02 (ETC02) partial pressure of< 5 mm-Hg is diagnostic of what

Answer 222

Esophageal intubation.

Question 223

Reliable signs to avoid esophageal intubation

Answer 223

auscultation of the chest and abdomen
full chest excursion
humidity in the ETT
detection of expired carbon dioxide with a capnograph or disposable colorimeter (Easy Cap) also provide
reliable evidence of tracheal rather than esophageal intubation.

Question 224

Esophageal probe contraindicated in

Answer 224

The patient who has an esophageal perforation and the patient with liver disease who has or could have esophageal varices. Do not instrument the esophagus of these patients.

Question 225

may also cause an increase in CO2 concentration.

Answer 225

A leak or obstruction in the anesthesia machine circuit, common gas outlet, or fresh gas supply line

Question 226

“Curare” cleft—seen normally in the last part of phase III caused by a

Answer 226

lack of synchrony between diaphragm and intercostal muscles in a patient who has received neuromuscular-blocking agents and in whom muscle strength is returning.

Question 227

Drugs with significant renal excretion with anesthesia \

AACDENN

Answer 227

Aminoglycosides
Atenolol
Cephalosporins
Digoxin
Edrophonium
Nadolol 
Neogstimine

Question 228

Drugs with significant renal excretion with anesthesia

4Ps and QRS

Answer 228

Pancuronium
PCN
Procainamide
Pyridostigmine
Quinolones
Rocuroncium 
Sugammadex

Question 229

CYP2C19 Substrate

Answer 229

POWD
Propranolol
Omeprazole
Warfarin
Diazepam

Question 230

Cyclic Guanosine Monophosphate (cGMP) target responses

Answer 230

Activate protein kinase

Question 231

Cyclic Guanosine Monophosphate (cGMP) common drugs effectors are

Answer 231

Nitroglycerin

Sodium Nitroprusside

Question 232

Phosphoinositides and calcium : Target responses

Answer 232

Activate Calmodulin

Question 233

Phosphoinositides and calcium : common drug effector

Answer 233

Lithium

Question 234

Cyclic Adenosine monophosphate cAMP (CMC)

Answer 234

Caffeine
Milrinone
Catecholamines

Question 235

Cyclic AMP responses

Answer 235

Release protein kinases
Beta receptor stimulation of energy release
Inotropic and chronotropic cardiac effects
Production of adrenal and sex steroids
Many endocrine and neural processes

Question 236

Distance to the Junction of the Venae Cavae and Right Atrium from Various Distal Anatomic Sites Subclavian

Answer 236

10cm

Question 237

Distance to the Junction of the Venae Cavae and Right Atrium from Various Distal Anatomic Sites Right Internal J vein

Answer 237

15 cm

Question 238

For example, at a PO2 of 40 mm Hg, Hgb is approximately

Answer 238

75% saturated

Question 239

Phenytoin on NDNMB

Answer 239

shortens the duration of action of the nondepolarizing neuromuscular junction blocking agents by inducing CYP3A4 and therefore increasing elimination
clearance of the drug.

Question 240

The patient undergoing surgery has a decline in core

body temperature that occurs via five mechanisms:

Answer 240

(1) redistribution,
(2) radiation
(3) conduction
(4) convection
(5) evaporation.

Question 241

Redistribution is the transfer of heat from

Answer 241

the peripheral compartments of the body to the central core