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Evaluating and Treating Respiratory Distress

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RDS, also called HMD or hyaline membrane disease, is one of the most common ... collapse, damaged cells collect in the airways, creating a 'hyaline membrane. ... – PowerPoint PPT presentation

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Title: Evaluating and Treating Respiratory Distress


1
Evaluating and Treating Respiratory Distress
2
Respiratory Distress is a symptom of
  • TTN (transient tachypnea of the newborn)
  • RDS (premature lungs)
  • Meconium aspiration
  • pneumothorax
  • Congenital heart disease
  • Diaphragmatic hernia
  • Sepsis/pneumonia
  • Metabolic acidosis/metabolic disease

3
TTN/ transient tachypnea of the newborn
  • Also known as RDS type 2 or wet lung syndrome
  • Benign and self limited process
  • It occurs in about 11 per 1,000 live births more
    common in boys, in infants delivered by CS,
    infants with perinatal asphyxia, umbilical cord
    prolapse
  • Characterized by tackypnea and sometimes hypoxia
  • diffuse parenchymal infiltrates on CXR, a "wet
    silhouette" around the heart, or accumulation of
    fluid in the various intralobar spaces giving the
    CXR of fluffy appearance. The lungs usually are
    affected diffusely

4
Cause of TTN
  • It is thought that slow absorption of the fluid
    in the fetal lungs causes TTN. This fluid makes
    taking in oxygen harder and the baby breathes
    faster to compensate.

5
Symptoms of TTN
  • rapid breathing rate (over 60 breaths/minute)
  • grunting sounds with breathing
  • flaring of the nostrils
  • retractions (pulling in at the ribs with
    breathing)

6
Diagnoses of TTN
  • Chest x-rays are often used to help diagnose TTN.
    On x-ray, the lungs show a streaked appearance
    and appear over-inflated.
  • However, it may be difficult to tell whether the
    problem is TTN or hyaline membrane disease or
    pneumonia.
  • Often, TTN is diagnosed when symptoms suddenly
    resolve by the third day of life.

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treatment
  • Always self resolving
  • Supportive treatment
  • Diagnosis not definitive until it resolves

9
RDS/Respiratory Distress Syndrome
  • Generally occurs in premies, but can have late
    RDS
  • Increasing with increased incidence of premature
    birth
  • Risk factors in late preterm infants include -
    maternal diabetes, multiple birth, cesarean
    section prior to the onset of labor, perinatal
    asphyxia, cold stress, and infants whose siblings
    suffered from RDS.
  • RDS, also called HMD or hyaline membrane disease,
    is one of the most common problems of premature
    babies. The course of illness withRDS depends on
    the size and gestational age of the baby, the
    severity of the disease, whether or not a baby
    has a patent ductus arteriosus and whether or not
    the baby needs mechanical help to breathe.
  • RDS typically worsens over the first 48 to 72
    hours, then improves with treatment.

10
What causes HMD?
  • RDS occurs when there is a deficiency of
    surfactant.
  • Surfactant consists of phospholipids and protein.
    It begins to be produced at about 24-28 weeks of
    pregnancy. Surfactant is found in amniotic fluid
    between 28 and 32 weeks. By about 35 weeks
    gestation, most babies have adequate amounts of
    surfactant.
  • Surfactant is normally released into the lung
    tissues where it helps lower surface tension in
    the airways. This helps keep the lung alveoli
    open. When there is not enough surfactant, the
    alveoli collapse. As the alveoli collapse,
    damaged cells collect in the airways, creating a
    hyaline membrane.
  • RDS occurs in over half of babies born before 28
    weeks gestation, but only in less than one-third
    of those born between 32 and 36 weeks.

11
Other risk factors for RDS
  • Caucasian or male babies
  • previous birth of baby with RDS
  • cesarean delivery
  • perinatal asphyxia/cold stress (suppresses
    surfactant production)
  • perinatal infection
  • multiple gestation
  • infants of diabetic mothers
  • babies with patent ductus arteriosus

12
What are the symptoms of HMD?
  • respiratory difficulty at birth that gets
    progressively worse
  • cyanosis
  • flaring of the nostrils
  • tachypnea
  • grunting sounds with breathing
  • retractions

13
How is HMD diagnosed?
  • appearance, color, and breathing efforts.
  • Risk factors
  • chest x-rays of lungs - often show a unique
    "ground glass" appearance called a
    reticulogranular pattern.
  • blood gases low PaO2 and increase CO2 often
    with acidosis

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15
Levels of support
  • Hood oxygen
  • High flow nasal canula
  • CPAP
  • Mechanical ventilation
  • Surfactant replacement this is most effective
    if started in the first six hours of birth.
    Surfactant replacement has been shown to reduce
    the severity of HMD. Surfactant is given as
    prophylactically for babies at high risk for HMD.
    For others it is given as a "rescue" medication.

16
Indications for surfactant
  • RDS requiring greater than 40 FIO2
  • hypercarbia
  • a/A gradient lt 0.36

17
a/A gradient
  • Can be helpful in determining if a baby would
    benefit from Surfactant therapy.
  • Calculated indices of lung function (such as the
    arterial to Alveolar (a/A) oxygen tension ratio)
    predict the severity and outcome of respiratory
    failure more accurately than looking at the FiO2
    alone.
  • how to calculate the arterial/Alveolar oxygen
    tension ratio
  • FiO2 measured from headbox, CPAP, or vent (not
    accurate from nasal canula).
  • The simplified equation looks like this
  • a/A Ratio PaO2 / (FiO2 x 720) (PCO2 x
    1.25).
  • (the 720 is 593 in Denver)
  • A normal a/A ratio is 0.75. As lung disease
    worsens, the a/A ratio will decrease. It is well
    accepted that infants with RDS and an a/A ratio
    less than 0.22 should receive surfactant. A
    recent study found that infants with RDS and an
    a/A ratio less than 0.36 will benefit from
    surfactant.

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19
Complications of HMD
  • pneumomediastinum
  • pneumothorax
  • pneumopericardium
  • pulmonary interstitial emphysema (PIE) - air
    leaks and becomes trapped between the alveoli,
    the tiny air sacs of the lungs.
  • chronic lung disease or bronchopulmonary
    dysplasia

20
MAS/meconium aspiration syndrome
  • 13 of all infants have MSAF
  • About 5 of these develop MAS
  • 50 require mechanical ventilation and mortality
    is about 5-10
  • Can result in severe respiratory distress
    requiring mechanical ventilation, surfactant,
    iNO, ECMO
  • Suctioning on the perineum and routine tracheal
    suctioning ??

21
Symptoms of MAS
  • MAS is characterized by early onset of
    respiratory distress (within 2 hours) in a
    meconium-stained infant.
  • Tachypnoea, cyanosis and hyperinflation are the
    main clinical findings.
  • Radiologically the typical progression is from
    global atelectasis in early X-rays to a
    widespread patchy opacification accompanied by
    areas of hyperinflation and/or atelectasis.
  • Blood gas shows hypoxia, accompanied by
    hypercarbia in those infants with significant
    airway obstruction or severe respiratory failure.

22
Treatment of MAS
  • oxygen is critically important in infants with
    MAS, and in many infants is the only therapy
    needed. The pulmonary vasculature in the term
    infant is very sensitive to oxygen tension, and
    failure to maintain good sats can lead to
    pulmonary hypertension. Give oxygen early and
    liberally in any baby with potential MAS. Target
    range for oxygen saturation is 94-98 target
    PaO2 60 90 mm Hg.
  • Nasal CPAPConsider as additional support for
    infants with MAS where there is moderate
    respiratory distress and hypoxia.
  • Intubation and positive pressure
    ventilationIndicationsPersistent hypoxia (SaO2
    lt 90, PaO2 lt 50) in 100 oxygenRespiratory
    acidosis with pH lt 7.20

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24
pneumothorax
  • Risk factors include MSAF, use of PPV,
    respiratory distress, prematurity
  • Can occur spontaneously
  • If non-symptomatic treatment is just observation
  • If respiratory distress, needle the air and
    consider chest tube

25
Signs of a pneumothorax
  • Acute decompensation with increasing respiratory
    distress, including rapid breathing, grunting,
    nostril flaring, and chest wall retractions
  • difficulty hearing breath sounds
  • change in the location of heart or lung sounds
    when the organs are moved by the presence of air
  • changes in arterial blood gas levels

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27
Pneumonia/sepsis
  • 90 of infants will have tachypnea or other
    respiratory symptoms as part of their clinical
    presentation.
  • Risk factors include GBS, preterm delivery,
    maternal chorio, prolonged ROM
  • Occurs because of interuterine infection (i.e.
    cytomegalic inclusion virus) or shortly after
    birth.
  • Virus can be principle cause although other
    organism such as strep, staph or E Coli. Common
    viral pneumonias include H. flu and herpes.
  • X-ray - patchy infiltrate in perihilar area. May
    lead to diffuse involvement of entire lungs.
    Occasionally pleural effusion may occur.
  • Complications - generalized sepsis or lung
    abscess may occur.

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29
CDH/congenital diaphragmatic hernia
  • developmental abnormality of the diaphragm
    resulting in a defect that permits abdominal
    viscera to enter the chest
  • 1 in 3,000 live births
  • Males gt females
  • Mortality approaches 50

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31
CDH treatment
  • NG/OG to suction for decompression
  • Early intubation avoid BMV or CPAP

32
CHD/Congenital Heart Disease
  • Differentiate between heart and lung
  • Reponse to oxygen
  • Hyperoxyia challenge
  • PaO2
  • 300 normal
  • 150-300 think lung disease
  • lt150 think cardiac or PPHN
  • CXR

33
ETC.
  • "THE MISFITS"
  • T-Trauma (nonaccidental and accidental)
  • H-Heart disease/hypovolemia/hypoxia
  • E-Endocrine (congenital adrenal hyperplasia,
    thyrotoxicosis)
  • M-Metabolic (electrolyte imbalance)
  • I-Inborn errors of metabolism Metabolic
    emergencies
  • S-Sepsis (meningitis, pneumonia, urinary tract
    infection)
  • F-Formula mishaps (under- or overdilution)
  • I-Intestinal catastrophes (volvulus,
    intussusception, necrotizing enterocolitis)
  • T-Toxins/poisons
  • S-Seizures

34
Cheap metabolic work up
  • Glucose
  • Bicarb
  • Ammonia
  • Urine ketones
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