Pediatric & Neonatal anesthesia pathophysiology Part 1

Question 1

Prematurity is considered to be

Answer 1

birth before 37 weeks gestation

Question 2

Low-birth weight is

Answer 2

<2500 g

Question 3

Very low birth weight is

Answer 3

<1500 g

Question 4

Extremely low birth weight is

Answer 4

<1000g

Question 5

Deaths from prematurity could be prevented from

Answer 5

warmth
breastfeeding
basic care for infections
safe O2 use for breathing difficulties

Question 6

The major differences that exist between the pediatric and adult airway include:

Answer 6

tongue
position of the larynx
epiglottis
vocal cords
subglottis

Question 7

The older child will have airway features that represent

Answer 7

a transition between neonate and adult

Question 8

Describe how the infants tongue differs from that of an adult.

Answer 8

infant’s tongue is relatively large in proportion to the rest of the oral cavity
contributes to easy obstruction of the infant’s airway
oral airway helps to relieve the obstruction

Question 9

Describe the nasal passages of the pediatric airway.

Answer 9

relatively narrow

Question 10

Describe the tonsils and adenoids in the infant airway

Answer 10

pronounced salivary secretions

large tonsils and adenoids

Question 11

Describe the larynx in the infant.

Answer 11

the position of the larynx is higher (more cephalad) for neonates to 2 years of age
larynx seems more anterior
infant’s C3-C4 (adult is C4-C5)
a straight laryngoscope blade more effectively lifts the tongue from the field of view

Question 12

Describe the difference in the epiglottis of the infant.

Answer 12

adult’s epiglottis is flat & broad with an axis parallel to the trachea
infant’s epiglottis is narrower, omega shaped and angled away for the axis of the trachea
often obstructs the view of the vocal cords and is more difficult to lift

Question 13

Describe the difference in the vocal cords of the infant.

Answer 13

infant’s vocal cords have a lower (caudad) attachment anteriorly than posteriorly, whereas in the adult the axis of the vocal cords is perpendicular to the trachea
can lead to difficult intubation with the tip of the ETT help up at the anterior portion of the folds

Question 14

Describe the trachea in infants.

Answer 14

Shorter than adults (infant 4-5 cm- adult 10-12 cm)

insertion is 3x size of tube

Question 15

Describe the sublgottic in infants.

Answer 15

traditionally thought it was the narrowest portion of a child’s larynx and that it is funnel shaped BUT recent studies say that it is oblong shaped (football shaped) and may be more narrow and cylindrical in the AP dimension but wider in the transverse

Question 16

Small airways are predisposed to

Answer 16

obstruction & difficulty with ventilation

Question 17

Resistance to airflow is

Answer 17

inversely proportional to the 4th power of the radius (Pousielle’s Law)

Question 18

Partial occlusion of the ETT due to kinking or secretions greatly

Answer 18

increases the work of breathing of the premature infant

Question 19

A tight-fitting ETT that compresses tracheal mucosa may

Answer 19

cause edema= reduced luminal diameter (and to a greater degree in children)

Question 20

Diseases that narrow the pediatric airway include.

Answer 20

subglottic stenosis
tracheal stenosis
tracheobronchomalacia

Question 21

Describe subglottic stenosis.

Answer 21

90% of acquired subglottic stenosis are the result of ETT and prolonged intubation
often requires placement of a smaller ETT

Question 22

Describe tracheal stenosis.

Answer 22

often occurs at carina and creates added resistance distal to the ETT

Question 23

Describe tracheobronchomalacia.

Answer 23

the intrathoracic airway collapses during exhalation

PEEP & CPAP are helpful to stent open the airway

Question 24

Production surfactant begins between

Answer 24

23 to 24 weeks gestation ****

-concentration of surfactant is often inadequate until 36 weeks post conception

Question 25

The structure and function of immature lungs predisposes the infant to

Answer 25

alveolar collapse & hypoxia

-these factors lead to reduced lung volumes and lung compliance, increased intrapulmonary shunting, and V/Q mismatch

Question 26

Prenatally, alveoli are thick-walled,

Answer 26

fluid-filled saccular spaces that are surfactant deficient and require greater pressures to initially expand

Question 27

There are low numbers of ______ in the intercostal & diaphragmatic muscles in infants.

Answer 27

type 1 muscle fibers**
marathon muscles, slow twitch muscles, used for prolonged activity
-do not develop adequate type 1 fibers until >6-8 months (adult 55%)

Question 28

The chest wall is more

Answer 28

horizontal & pliable***** in pediatrics

minimal vertical movement= decreased room for lung expansion & diaphragmatic ventilation

Question 29

Decreased type 1 muscle fibers and differential chest wall shape results in

Answer 29

early fatigue & propensity for apnea

Question 30

_______ respirations begin in utero

Answer 30

episodic

Question 31

The passage of the fetus through birth canal forces

Answer 31

much of the fluid from the lungs through the nose and mouth

• during birth approx. 90 mLs of fluid is forced via the “vaginal squeeze”
• delivery- compression is relieved and air is sucked into lungs
• infants delivered by C-section may have more residual fluid in the lungs

Question 32

The respiratory rate is _____ in infants and small children

Answer 32

increased

Question 33

Oxygen consumption is

Answer 33

2-3x’s higher in babies

also have immature hypoxic and hypercapnic drives

Question 34

**Vt/kg is

Answer 34

constant throughout development

Question 35

Infants have ______ FRC & closing capacity compared to adults.

Answer 35

decreased FRC & increased CC

Question 36

Premature infants possess a ___________ response to hypoxia

Answer 36

biphasic ventilatory response
initially ventilation increases in response to hypoxia, but after several minutes ventilation decreases and bradycardia* & apnea* may occur
- the ventilatory response to hypothermia* and carbon dioxide* is also decreased

Question 37

The combination of anesthetic effects, an immature respiratory control system and immature intercostal and diaphragmatic muscles increases the risk of

Answer 37

hypoxia, hypercapnia, and apnea in the postoperative period

Question 38

Respiratory distress syndrome is a

Answer 38

breathing disorder that affects newborns; common in premature infants born >6 weeks early

Question 39

Respiratory distress syndrome develops secondary to a

Answer 39

lack of surfactant production and results in airway collapse with hypoxia

Question 40

Treatment of RDS may lead to

Answer 40

bronchopulmonary dysplasia

Question 41

Anesthetic concerns with respiratory distress syndrome include:

Answer 41

anemia
history of apnea, residual chronic respiratory disease, impaired gas exchange
history of prolonged ventilation, residual subglottic stenosis

Question 42

Bronchopulmonary dysplasia is a form of

Answer 42

chronic lung disease that occurs in patients who have survived severe neonatal lung disease (kind of like emphysema in adults)

Question 43

The cause of bronchopulmonary dysplasia is uncertain, but may be related to

Answer 43

increased end-inspiratory lung volumes and frequent collapse and reopening of alveoli
- oxygen toxicity, barotrauma of positive-pressure ventilation, inflammation, and ETT intubation on immature lungs have also been suggested as causative factors

Question 44

Infants with bronchopulmonary disease may require supplemental oxygen and may develop

Answer 44

lower airway obstruction and air trapping, CO2 retention, atelectasis, bronchiolitis, and bronchopneumonia

Question 45

The ventilation strategies for patients with bronchopulmonary dysplasia includes

Answer 45

using small tidal volumes (4-6 mL/kg), greater respiratory rates, PEEP, and minimize inspired oxygen concentration

Question 46

Apnea in the premature infant is inversely related to

Answer 46

preconceptual age**

- the sum of the conceptional age and the postnatal age

Question 47

Apneic episodes in the premature infant include both

Answer 47

failure to breath (central apnea) and failure to maintain a patent airway (obstructive apnea)

Question 48

Apnea may also be accompanied by

Answer 48

bradycardia & desaturations

Question 49

Additional risk factors for apnea in the premature infant include

Answer 49

low birth weight, anemia, hypothermia, sepsis, neurological abnormalities, and type of surgical procedure

Question 50

Describe the risk of apnea for neonates <2500 grams and less than 1000 grams

Answer 50

<2500 grams= 25% risk for apnea
<1000 grams= 85% risk for apnea
reduction of 50% occurs after 44 weeks PCA

Question 51

_______ occurs commonly after anesthesia and surgery in preterm infants

Answer 51

apnea

can continue to occur up to 48 hours postoperatively

Question 52

True or false: apnea can still occur with regional anesthesia

Answer 52

TRUE

Question 53

Describe management of the preterm infant with apnea

Answer 53

plan for in-house admission for all premature infants <60 weeks postconceptual age with continuous apnea and bradycardia monitoring for 24-48 hours
deferment of elective surgery until >44-50 weeks PCA
IV caffeine (5-10 mg/kg)
Nasal CPAP or tracheal intubation with ventilation

Question 54

The premature infant is at a greater risk of _________ during anesthesia and surgery

Answer 54

cardiovascular collapse

Question 55

Cardiovascular collapse is more common in anesthesia & surgery in the neonate because of

Answer 55

fetal heart has more connective tissue, less organized contractile elements & has an increased dependence on extracellular calcium

• less compliant tissue and less sensitive to catecholamines
• small circulating blood volumes- relatively small surgical blood loss can cause result in hypovolemia & hypoperfusion
• autoregulation is not well-developed and heart rate may not increase with hypovolemia resulting in decreased blood flow and oxygen delivery to brain and organs with relatively little blood loss

Question 56

Describe the neonatal myocardium

Answer 56

general immaturity & decreased number of myofibrils- reduced contractility (inotropy) & reduced relaxation (lusitropy)

• afterload increases are poorly tolerated
• preload reductions are poorly tolerated
• reliant on serum level of ionized calcium
• decreased response to volume loads
• right & left ventricles are equal
• PSNS is well developed (more so than SNS)

Question 57

Failure of the ductus arteriosus to close in the micropremie further increases the risk of

Answer 57

cardiovascular collapse during major surgery

-as high as 20-30% of infant born before 34 weeks

Question 58

A PDA promotes

Answer 58

pulmonary hypertension

congestive heart failure

Question 59

Changes in __________ alter the direction of flow through the PDA

Answer 59

systemic or pulmonary vascular resistance

Question 60

Right to left shunting through the PDA occurs with

Answer 60

increased PVR and results in hypoxia, hypercarbia, and acidosis

Question 61

Left to right shunting through PDA occurs with

Answer 61

hypotension and pulmonary volume overload (all blood is not going forward, it is coming backwards

Question 62

The fetal heart contains

Answer 62

the ductus venosus, ductus arteriosus, and foramen ovale

Question 63

_______ originates from the fetal internal iliac arteries and delivers fetal blood to placenta where it is oxygenated

Answer 63

two umbilical arteries**

Question 64

One umbilical vein carries

Answer 64

oxygenated blood from the placenta to the fetus

Question 65

The majority of the umbilical vein blood bypasses the liver via the _________ and empties into the _________ where it mixes with less oxygenated blood from the lower half of the body.

Answer 65

ductus venosus****

inferior vena cava****

Question 66

IVC blood enters the right atrium and is directed by the Eustachian valve across the

Answer 66

foramen ovale & into the left atrium

the left ventricle pumps this blood to the upper body through the great vessels of the aortic arch

Question 67

Deoxygenated superior vena cava blood enters the

Answer 67

right atrium and primarily crosses the tricuspid valve into the right ventricle
-only a small amount of SVC blood enters the left atrium via the PFO

Question 68

High pulmonary vascular resistance forces the right ventricular output to enter th

Answer 68

systemic circulation via the ductus arteriosus*******

Question 69

The _______ originates from the pulmonary artery and inserts into the aorta at a point just distal to the origin of the left subclavian artery

Answer 69

ductus arteriosus