Premature newborns and newborns whose mother had diabetes while pregnant are at increased risk of developing respiratory distress syndrome.
Affected infants have severe difficulty breathing and may appear blue because of a lack of oxygen in the blood.
The diagnosis is based on presence of breathing trouble, oxygen levels in the blood, and chest x-ray results.
If low oxygen levels in the blood cannot be improved with treatment, the syndrome may cause brain damage or death.
If the fetus will be born prematurely, the mother may be given a corticosteroid by injection to speed up the fetus’s production of surfactant.
Oxygen is given, continuous positive airway pressure can be used to keep the air sacs open, and a ventilator may be necessary if breathing becomes too difficult for the newborn.
Treatment with synthetic surfactant given into the newborn’s windpipe can provide the surfactant that is missing until newborns start producing enough of their own surfactant.
(See also Overview of General Problems in Newborns Overview of General Problems in Newborns Problems in newborns may develop Before birth while the fetus is growing During labor and delivery After birth About 10% of newborns need special care after birth due to prematurity, problems... read more .)
Respiratory distress is trouble breathing. For newborns to be able to breathe easily, the air sacs (alveoli) in the lungs must be able to remain open and filled with air. Normally, the lungs produce a substance called surfactant. Surfactant coats the surface of the air sacs, where it lowers the surface tension. Low surface tension allows the air sacs to remain open throughout the respiratory cycle.
Usually, the fetus begins producing surfactant at around 24 weeks of pregnancy. By between 34 weeks and 36 weeks of pregnancy, there is enough surfactant in the fetus' lungs to allow the air sacs to remain open. Thus, the more premature Premature Newborn A premature newborn is a baby delivered before 37 weeks of gestation. Depending on when they are born, premature newborns have underdeveloped organs, which may not be ready to function outside... read more the newborn, the less surfactant is available, and the greater the likelihood that respiratory distress syndrome will develop after birth. Respiratory distress syndrome occurs almost exclusively in premature newborns but may also occur in full-term and near full-term newborns whose mother had diabetes while pregnant Diabetes During Pregnancy For women who have diabetes before they become pregnant, the risks of complications during pregnancy depend on how long diabetes has been present and whether complications of diabetes, such... read more .
Other risk factors include multiple fetuses (such as twins, triplets, or quadruplets) and being a white male.
Rarely, this syndrome is caused by a mutation in certain genes that causes a deficiency of surfactant. This genetically caused type of respiratory distress syndrome may occur in full-term babies as well.
In affected newborns, the lungs are stiff and the air sacs tend to collapse completely, emptying the lungs of air. In some very premature newborns, the lungs may be so stiff that the newborns are unable to begin breathing at birth. More commonly, newborns try to breathe, but because the lungs are so stiff, severe trouble breathing (respiratory distress) occurs. Symptoms of respiratory distress include
Visibly labored and rapid breathing
Retractions (pulling in of the chest muscles attached to the ribs and below the ribs during rapid breathing)
Flaring of the nostrils during breathing in
Grunting while breathing out
Because much of the lung is airless in this condition, newborns with respiratory distress syndrome have low levels of oxygen in the blood, which causes a bluish discoloration to the skin and/or lips ( cyanosis Cyanosis Cyanosis is a bluish discoloration of the skin resulting from an inadequate amount of oxygen in the blood. Cyanosis occurs when oxygen-depleted (deoxygenated) blood, which is bluish rather than... read more ). Over a period of hours, the respiratory distress tends to become more severe as the muscles used for breathing tire, the small amount of surfactant in the lungs is used up, and increasing numbers of air sacs collapse. If the low oxygen levels are not treated, newborns may have damage to their brain and other organs and may die.
Signs of respiratory distress
Cultures of blood and sometimes of cerebrospinal fluid
The diagnosis of respiratory distress syndrome is based on signs of respiratory distress, levels of oxygen in the blood, and abnormal chest x-ray results.
Respiratory distress syndrome can sometimes accompany a disorder, such as infection in the blood ( sepsis Sepsis in Newborns Sepsis is a serious bodywide reaction to infection spread through the blood. Newborns with sepsis appear generally ill—they are listless, do not feed well, often have a gray color, and may have... read more ) or transient tachypnea of the newborn Transient Tachypnea of the Newborn Transient tachypnea of the newborn is temporary difficulty with breathing and often low blood oxygen levels due to excessive fluid in the lungs after birth. This disorder can occur in premature... read more . Therefore, doctors may do other tests to rule out these disorders. Cultures Culture of Microorganisms Infectious diseases are caused by microorganisms, such as bacteria, viruses, fungi, and parasites. Doctors suspect an infection based on the person's symptoms, physical examination results,... read more of blood and sometimes cerebrospinal fluid may be done to look for certain kinds of infections.
With treatment, most newborns survive. Natural production of surfactant increases after birth. With continued production of surfactant and sometimes with breathing support and synthetic surfactant therapy (see Treatment Treatment Respiratory distress syndrome is a lung disorder in premature newborns in which the air sacs in their lungs do not remain open because a substance that coats the air sacs called surfactant is... read more below), respiratory distress syndrome usually resolves within 4 or 5 days.
Without treatment that increases blood oxygen levels, newborns may develop heart failure and have damage to the brain or other organs or may die. Some infants who need treatment for a long time go on to develop bronchopulmonary dysplasia Bronchopulmonary Dysplasia (BPD) Bronchopulmonary dysplasia is a chronic lung disorder in newborns caused by extended use of a ventilator (a machine that helps air get in and out of the lungs) and/or extended need for supplemental... read more .
Before birth, doctors are able to test the maturity of the fetus's lungs by measuring the level of surfactant in the amniotic fluid. Amniotic fluid is collected from the sac surrounding the fetus during a procedure called amniocentesis Amniocentesis Prenatal diagnostic testing involves testing the fetus before birth (prenatally) to determine whether the fetus has certain abnormalities, including certain hereditary or spontaneous genetic... read more or is collected from the mother's vagina (if the membranes have ruptured). The surfactant level helps doctors determine the best time to deliver the fetus. The risk of respiratory distress syndrome is greatly reduced if delivery can be safely delayed until the fetus’s lungs have produced sufficient surfactant.
When premature birth cannot be avoided, obstetricians may give the mother injections of a corticosteroid (betamethasone). The corticosteroid goes into the fetus and accelerates the production of surfactant. Within 48 hours after the injections are started, the fetal lungs may mature to the point that respiratory distress syndrome is less likely to develop after delivery or, if it does develop, is likely to be milder.
After delivery, doctors may give a synthetic surfactant preparation to newborns who are at high risk of developing respiratory distress syndrome. At-risk newborns are those who were delivered before 30 weeks of gestational age Gestational age Problems in newborns may develop Before birth while the fetus is growing During labor and delivery After birth About 10% of newborns need special care after birth due to prematurity, problems... read more , especially those whose mother did not receive corticosteroids. The surfactant preparation can be lifesaving and reduces the risk of some complications, such as collapse of the lung ( pneumothorax in the newborn Pneumothorax in the Newborn Pneumothorax is a collection of air between the lung and the chest wall that develops when air leaks out of the lung. This disorder may develop in newborns who have lung disorders such as respiratory... read more ). The surfactant preparation acts in the same way that natural surfactant does. Surfactant therapy can be given to the newborn through a tube placed in the mouth that leads to the windpipe (called endotracheal intubation) and may be given immediately after birth in the delivery room to attempt to prevent respiratory distress syndrome before symptoms develop.
Sometimes synthetic surfactant therapy
Oxygen and measures to support breathing
In some newborns with respiratory distress syndrome, a breathing tube may need to be passed into the windpipe after delivery. The tube is attached to a ventilator Mechanical Ventilation Mechanical ventilation is use of a machine to aid the movement of air into and out of the lungs. Some people with respiratory failure need a mechanical ventilator (a machine that helps air get... read more (a machine that helps air get in and out of the lungs) to support the newborn’s breathing. Synthetic surfactant is given to the newborn through the endotracheal tube. Several doses of the synthetic surfactant may be needed.
After delivery, less premature newborns and newborns with mild respiratory distress syndrome may require only supplemental oxygen or may require oxygen delivered by continuous positive airway pressure Obstructive sleep apnea (CPAP). Supplemental oxygen is given through prongs placed in the newborn’s nostrils. CPAP allows newborns to breathe on their own while being given slightly pressurized oxygen.
Surfactant treatments may be repeated several times during the first days of life if respiratory distress continues.
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