neonatal respiratory care. the respiratory therapist reviews the chart of a newborn and notes a...
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Neonatal Neonatal Respiratory Respiratory
CareCare
The respiratory therapist reviews the chart of a newborn and notes a 1-minute Apgar of 2 and a 5-minute Apgar of 3. For which of the following is this newborn at increased risk?
I. mental impairmentII. AtelectasisIII. BronchiolitisIV. first month mortality
A.I and III onlyB.I and IV onlyC.II and III onlyD.II and IV only
APGAR ScoreAPGAR Score• 0 – 3 Resuscitate• 4 – 6 Support
– Stimulate, warm, O2
• 7 – 10 Monitor– Routine care
A 1000 g neonate who is 6 hours old is receiving time-cycled, pressure-limited ventilation. The neonate shows signs of developing RDS on a chest radiograph and severe hypoxemia is noted with an FIO2 of 0.80. Which of the following should the respiratory therapist recommend be used?
A.extracorporeal membrane oxygenation B.volume-controlled ventilationC.exogenous surfactantD.nitric oxide
Surfactant AdministrationSurfactant Administration• Beneficial to premature neonates
with inadequate natural surfactant (RDS)– Preventive– Rescue
• Watch for improved compliance• Be prepared to reduce ventilator
settings shortly after administration
Respiratory Distress Respiratory Distress SyndromeSyndrome
• Immature lungs with inadequate surfactant– Leads to atelectasis and hypoxemia– Leads to hyaline membrane disease
• Lecithin-Sphingomyelin Ratio < 2:1• Infants bore before 35 weeks of
gestation
Respiratory Distress Respiratory Distress SyndromeSyndrome
• Clinical Manifestations– Nasal flaring– Grunting– Retractions– Tachypnea– Cyanosis
• Chest X-ray– “Ground glass” appearance– Diffuse atelectasis– Air bronchograms
Respiratory Distress Respiratory Distress SyndromeSyndrome
• Treatment– O2 Therapy– CPAP– Mechanical Ventilation– Surfactant replacement– Thermoregulation– Adequate fluids– Packed RBCs
The major component of pulmonary surfactant is
A. protein. B. glucose. C. phospholipid. D. polysaccharide.
After instillation of exogenous surfactant, it is expected that the patient’s lung compliance will improve. As compliance improves, the RCP should be prepared to make which of the following ventilator changes?I. Decrease pressure limitII. Decrease PEEPIII. Decrease rateIV. Decrease FiO2
A. IB. I and IIC. I, II, and IIID. I, II, III, and IV
At 1 minute after birth a neonate has the following: acrocyanosis slow, irregular respiratory effort heart rate of 102/min sneezes with the use of a nasal catheter partial flexion of the extremities
The Apgar score for this neonate is A. 3. B. 5. C. 7. D. 9.
APGAR ScoreAPGAR Score
The respiratory therapist is asked to review a newborn's history. The following information is available:
What would the respiratory therapist expect to see for the 1 and 5 minute Apgar scores for this neonate?
A.5,9B.6,8C.6,10D.7,10
Tachypnea in the newborn is defined as a respiratory rate greater than what level?
A. 40/minB. 50/minC. 60/minD. 70/min
Vital SignsVital Signs• Respiratory Rate: 30 – 60 bpm• Heart Rate: 120 – 160 bpm• Blood pressure: 60/40
– Preterm: 50/30
A 7-day-old neonate of 28-weeks gestational age is having frequent periods of apnea with desaturation. Which of the following should the respiratory therapist recommend?
A.racemic epinephrine (Vaponefrin)B.naloxone (Narcan)C.surfactant (Survanta)D.theophylline (Aminophylline)
A 34-week gestational age infant is receiving mechanical ventilation and the chest is being transilluminated. The transillumination device produces a small halo appearance at the point of contact with the skin. Which of the following does this indicate?
A. pneumothorax B. pneumomediastinum C. pneumopericardium D. normal lung appearance
During which of the following should apnea monitoring be implemented for an infant?
I. night time II. breast feeding III. naps
A. I only B. I and II only C. I and III only D. II and III only
An 18-month-old infant is to receive 30% oxygen by mist tent. While performing a routine equipment check, the respiratory therapist notices the oxygen analyzer inside the tent reads 25%. After calibrating the oxygen analyzer, it still indicates 25%. The therapist should
A. change oxygen analyzers. B. check the air inlet for an obstruction. C. check the oxygen inlet for an obstruction.D. add sterile water to the nebulizer
reservoir.
The respiratory therapist attended the birth of a full-term neonate. Vital signs are:
Which of the following should be the initial treatment?
A. manual ventilation with 100% O 2 B. endotracheal intubation C. oxyhood with 100% O 2 D. chest compressions
Copyright ©2005 American Heart Association
Circulation 2005;112:IV-188-IV-195
Neonatal Flow Algorithm
During resuscitation of a newborn, after 30 seconds of positive pressure ventilation (PPV), what should the clinician do?
A. Evaluate the heart rate.B. Suction the mouth, then the nose.C. Begin chest compressions.D. Initiate medications.
Which of the following are indications to start CPAP for a neonate?I. AtelectasisII. Respiratory distress syndromeIII.Pulmonary edemaIV.Ventilatory failure
A. IB. I and IIC. I, II, and IIID. I, II, III, and IV
The decision is made to place the neonate in CPAP. Which of the following settings would you recommend to start CPAP?I. CPAP 2 cmH2OII. CPAP 5 cmH2OIII.FiO2 30%IV.FiO2 60%
A. I and IIIB. I and IVC. II and IIID. II and IV
CPAPCPAP• Initial Settings
– Usually 4 - 7 cmH2O• Adjusted based on clinical assessment• Increments of 1 – 2 cmH2O• Observe for changes in:SpO2, Respiratory rate,
WOB, Breath sounds, Blood pressure
– Flow 5 – 10 L/min– FiO2 to maintain SpO2 > 90%– ABG in 30 – 60 minutes– CXR when stable to assess lung inflation
2 hours later the neonate has the following clinical presentation: HR 130, RR 30, SpO2 94%, expiratory grunting and nasal flaring continues on CPAP of 5 cmH2O and FiO2 30%. What adjustment would you recommend at this time?
A.Increase CPAP by 2 cmH2OB.Increase CPAP by 4 cmH2OC.Increase FiO2 by 10%D.Intubate and mechanically ventilate
4 hours later you notice a sudden drop in the CPAP level, what could be the cause of this?
A.The patient’s condition is improvingB.The patient’s condition in worseningC.DisconnectionD.Occlusion
A patient on CPAP is demonstrating frequent apnea episodes associated with desaturation and bradycardia. Which of the following actions would you recommend?
A. Increase CPAP by 2 cm H2OB. Obtain a chest x-ray and increase
FIO2C. Institute high-frequency ventilationD. Intubate and mechanically ventilate
CPAP FailureCPAP Failure• Recurrent apnea or symptoms of
distress• Persistent acidosis (pH < 7.20)• Unsatisfactory PaO2 on > 50%
oxygen• Consider surfactant therapy if RDS
Weaning CPAPWeaning CPAP• Decrease FiO2 < .50• Decrease CPAP in increments of 1
– 2 cmH2O• Assess PaO2 with periodic ABGs• Remove patient interface when:
– Adequate PaO2 at lower FiO2– No signs of respiratory distress– On 2 – 3 cmH2O and FiO2 < .50
Most neonatal mechanical ventilatorsI. provide time-triggered, pressure-
limited, time-cycled ventilation.II. are pneumatically powered.III.have electrical controls and alarms.IV.feature a continuous flow of gas.
A. IB. I and IIC. I, II, and IIID. I, II, III, and IV
Increasing the inspiratory flow on a neonatal time-triggered, pressure-limited, time-cycled mechanical ventilator will do which of the following?I. Increase MAPII. Increase PaO2III.Increase PaCO2 IV.Increase tidal volume
A. I and IV onlyB. I and II onlyC. II and III onlyD. I, II, and IV only
Given the following choices, which would you select to decrease the PaCO2 in a neonate on a standard, pressure limited type ventilator?I. Increase FiO2II. Decrease the pressure limitIII.Increase the rateIV.Increase the flowV. Increase the pressure limit
A. I onlyB. II onlyC. III, IV, and VD. II and III
Given the following choices, which would you select to increase the PaO2 in a neonate on a standard pressure-limited type ventilator?I. Increase inspiratory timeII. Increase the pressure limitIII. Decrease flowIV. Increase PEEPV. Decrease the IMV rate
A. I and VB. II and IIIC. III and IVD. I, II, and IV
Meconium aspiration or other obstruction causes uneven airflow and results in which on the following?I. HypoxemiaII. Air trappingIII.auto-PEEPIV.Increased risk of barotrauma
A. IB. I and IIC. I, II, and IIID. I, II, III, and IV
Meconium Aspiration Meconium Aspiration SyndromeSyndrome
• Aspiration of meconium• Full or Post-term infants• Hypoxemia in utero, may cause the
infant to pass meconium• Stress in utero causes the infant to
breath deeper• Plugs airways and leads to
atelectasis and increased Raw
Meconium AspirationMeconium Aspiration• Plugs airways and leads to
atelectasis and increased Raw• Air-trapping may lead to
hyperinflation and pneumothorax• The infant may also have PDA due to
intrauterine hypoxemia
Meconium AspirationMeconium Aspiration• Clinical Manifestations
– Hypoxemia– Hypercarbia– Tachypnea– Retractions– Nasal flaring– Grunting– Barrel chest– Course crackles and rhonchi
Meconium AspirationMeconium Aspiration• Chest X-ray
– Patchy infiltrates– Atelectasis– Consolidation– Pneumothorax– Hyperinflation
Management of MeconiumManagement of Meconium
Meconium AspirationMeconium Aspiration• Treatment
– Suction oral and nasal pharynx upon delivery of the head before first cry
– Intubate and suction immediately after delivery
– O2 Therapy– May require mechanical ventilation– CPT and Suctioning
Which of the following tests are done to help confirm the diagnosis of PPHN?I. Hyperoxia testII. Preductal and postductal arterial
blood samplingIII.Hyperoxia-hyperventilation testIV.Echocradiography
A. IB. I and IIC. I, II, and IIID. I, II, III, and IV
PPHN BackgroundPPHN Background• High pulmonary vascular resistance• Persistent Fetal Circulation (PFC)
– Associated with: term or post term infants, asphyxia, meconium aspiration syndrome, congenital diaphragmatic hernia, pulmonary hypoplasia, congenital heart disease, hyaline membrane disease, pneumonia, & myocardial dysfunction.
• Further right-to-left shunting
PPHN PathophysiologyPPHN Pathophysiology
PPHN Clinical ManifestationsPPHN Clinical Manifestations• Rapidly changing oxygen saturation
without changes in FiO2• Hypoxemia out of proportion to the
lung disease detected on CXR• Significant shunt through the PDA
– > 5% difference between pre- and post-ductal SpO2
PPHN DiagnosisPPHN Diagnosis• Hyperioxa Test
– 100% O2 for 5 – 10 minutes– PaO2 < 100 mmHg = RtL shunt
• Preductal vs. postductal ABG– Preductal PaO2 15 mmHg > postductal
PaO2 = RtL shunt– SpO2, TcPO2
PPHN Diagnosis cont.PPHN Diagnosis cont.• Hyperoxia-hyperventilation test*
– Hyperventilate• CO2: 20 – 25 mmHg• pH: > 7.50
– If PaO2 was < 50 mmHg before hyperventilation and rises to > 100 mmHg after hyperventilation = PPHN
PPHN Diagnosis cont.PPHN Diagnosis cont.• Echocardiogram
– Increased pulmonary artery pressures– Right-to-left shunting– Tricuspid regurgitation– Right ventricular dilation
PPHN TreatmentPPHN Treatment• Remove the underlying cause
– Oxygen for hypoxemia– Surfactant for RDS– Glucose for hypoglycemia– Inotropes for cardiac output
PPHN TreatmentPPHN Treatment• Hyperventilation
– MV– HFV
• Tolazoline– IV vasodilator
• Nitric Oxide– Inhaled vasodilator
• ECMO
Which of the following arterial blood sampling sites are considered preductal?I. Right radialII. Left radialIII.Right brachialIV.Left brachial
A. I and IIB. I and IIIC. II and IVD. III and IV
What is inhaled nitric oxide?A.A surface tension reducing agentB.A pulmonary vasodilatorC.A systemic vasodilatorD.A bronchodilator
A newborn infant is on pressure-limited, time-cycled ventilation with the following settings: PIP 20 cmH2O; rate 30/min; FiO2 0.70; PEEP 7 cmH2O; I time 0.4 sec. Umbilical artery blood gas results are: pH 7.34; PaCO2 42 mmHg; PaO2 86 mmHg. Which of the following ventilator changes would you recommend?
A. Decrease rateB. Decrease PEEPC. Decrease FiO2D. Maintain current settings
Common SettingsCommon SettingsNormal Lungs Stiff Lungs
Vt 6-8 ml/kg 6-8 ml/kg
PIP 10-20 cmH2O 20-25 cmH2O
Rate 10-20/min 20-40/min
I:E 1:2 to 1:10 1:2
I time < .4 sec 0.4 – 0.7 sec
PEEP 0-4 cmH2O 2-5 to 8-10 cmH2O
Flow 5-8 L/min 5-8 L/min
ABGsABGs• PaO2
– Neonatal safe range: 50-70 mmHg
• PaCO2– Neonatal safe range: 35-45 mmHg– Chronic disease: <60 mmHg
• pH– Neonatal safe range: 7.35-7.45– Acceptable range: 7.30-7.50
A newborn infant has been intubated and placed on pressure-limited, time-cycled ventilation with the following settings: PIP 25 cmH2O; I time 0.4 sec; PEEP 5 cmH2O; rate 20/min; FiO2 0.60. Umbilical artery blood gas reveals: pH 7.24; PaCO2 60 mmHg; PaO2 56 mmHg; HCO3- 21 mEq/L. Which ventilator adjustment would you recommend?
A. Increase PIPB. Increase rateC. Increase FiO2D. Increase PEEP
Ventilatory support parameters for an infant being weaned include: an FiO2 of 0.35; a PIP of 30 cmH2O; a PEEP of 4 cmH2O; a rate of 30/min; and an inspiratory time of 0.5 sec. Which of these parameters would you recommend trying to reduce at this time?
A. FiO2B. PIPC. PEEPD. Rate
Weaning from MVWeaning from MV• Normal ABG, adequate spontaneous
respirations, increased muscle tone and activity– FiO2: wean to <0.4 in 0.2-0.5 increments– PEEP: wean to 3-4 cmH2O in 1-2 cmH2O
increments– PIP: wean to 15-18 cmH2O in increments of 1-2
cmH2O
• Failure to Wean: tachycardia, bradycardia, retractions, hypercapnia, cyanosis. Restore previous settings.
Ventilatory support parameters for an infant being weaned include the following: FIO2 of 0.35; peak pressure of 18 cm H2O; positive end expiratory pressure (PEEP) level of 4 cm H2O; breathing rate of 10/min; and inspiratory time of 0.4 seconds. Assuming that blood gases are acceptable on these settings, which of the following actions would you now recommend?
A. Decrease the PEEP level to 2 cm H2O.B. Decrease the breathing rate to 5/min.C. Switch the infant to 5 cm H2O CPAP.D. Increase the peak pressure to 25 cm
H2O.
In high-frequency oscillatory ventilation, CO2 elimination depends mainly on which of the following?
A. Pressure amplitudeB. Mean airway pressureC. High frequency rateD. Sinusoidal waveform
The End!The End!
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