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- Oxygen deprivation due to drowning
- Effects of submersion in cold water
- Symptoms of Drowning
- Diagnosis of Drowning
- Prevention of Drowning
- Prognosis for Drowning
- Treatment of Drowning
- More Information
- Resources In This Article
(Fatal Drowning; Nonfatal Drowning)
Drowning occurs when submersion in liquid causes suffocation or interferes with breathing.
During drowning, the body is deprived of oxygen, which can damage organs, particularly the lungs and brain.
Doctors evaluate people for oxygen deprivation and problems that often accompany drowning (such as spinal injuries caused by diving).
Treatment focuses on correcting oxygen deprivation and other problems.
Drowning may be nonfatal (previously described as near drowning) or fatal. About four times as many people are hospitalized for nonfatal drowning as die as a result of drowning. Drowning is a leading cause of accidental death around the world and in the United States, particularly among children and adolescents younger than 19 years. From 2005 to 2009 in the United States, among children 1 to 4 years, drowning was the most common cause of accidental death, and drowning was more often fatal (than nonfatal) than at other ages. Drowning was the second most common cause of death by injury in children ages 5 to 9 years, and the third most common cause for children under 1 year and for those ages 10 to 19 years. Other groups at higher risk of drowning death include the following:
African American children and children from immigrant or impoverished families
People who have taken alcohol or other drugs that affect judgment and alertness
People who have conditions that cause temporary incapacitation, such as seizures, low blood sugar (hypoglycemia), stroke, heart attacks, and certain kinds of irregular heartbeat ( arrhythmias)
People who engage in dangerous underwater breath-holding behaviors (DUBBs)
Drowning is common in pools, hot tubs, and natural water settings. Children and toddlers are also at risk even around small amounts of water, such as in toilets, bathtubs, and buckets of water or other fluids, because they may be unable to escape after falling in.
People swimming near an exhaust vent of a boat may develop carbon monoxide poisoning, which may cause unconsciousness and drowning.
Dangerous underwater breath-holding behaviors (DUBBs) are practiced mostly by healthy young men (often good swimmers) trying to prolong their capacity to remain submerged. There are three described types of DUBB:
Intentional hyperventilation—rapid breathing before submerging lowers carbon dioxide levels, prolonging the time before the levels become high enough to signal the need to return to the surface and breathe
Hypoxic training—extending capacity for underwater distance swimming or breath-holding
Static apnea—breath-holding for as long as possible while submerged and motionless, including as a game
In DUBB, people who intentionally hold their breath under water for extended periods may pass out (called hypoxic blackout or breath-hold blackout) and sometimes drown.
When people are submerged under water, one of two things can happen:
In either case, the lungs cannot transfer oxygen to the blood. The decrease in the level of oxygen in the blood that results may lead to brain damage and death.
Water in the lungs, in very large amounts, causes drowning immediately. Smaller amounts, particularly water that is contaminated by bacteria, algae, sand, dirt, chemicals, or vomit, can cause lung injury that is not apparent until hours after being removed from the water. This problem is sometimes called secondary drowning. Lung injury tends to cause continuing oxygen deprivation. Freshwater in the lungs is absorbed into the bloodstream. Absorbing large amounts of freshwater sometimes causes electrolyte abnormalities, such as a low sodium level in the blood.
Vocal cord spasm may develop only after a person is removed from the water. If so, it usually occurs within a few minutes. Because water does not enter the lungs, this condition is sometimes called dry drowning.
Submersion in cold water has both good and bad effects. Cooling of the muscles makes swimming difficult, and dangerously low body temperature ( hypothermia) can impair judgment. Cold, however, protects tissues from the ill effects of oxygen deprivation. In addition, cold water may stimulate the mammalian diving reflex, which may prolong survival in cold water. The diving reflex slows the heartbeat and redirects the flow of blood from the hands, feet, and intestine to the heart and brain, thus helping to preserve these vital organs. The diving reflex is more pronounced in children than in adults, so children have a greater chance of surviving prolonged submersion in cold water than do adults.
People who are drowning and struggling to breathe are usually unable to call for help. Children who are unable to swim may submerge in less than 1 minute. Adults may struggle longer.
People who are rescued may have a wide range of symptoms and findings. Some are only mildly anxious, whereas others are near death. They may be alert, drowsy, or unconscious. Some people may not be breathing. People who are breathing may gasp for breath or vomit, cough, or wheeze. The skin may appear blue ( cyanosis) indicating insufficient oxygen in the blood. In some cases, respiratory problems may not become evident for several hours after submersion.
Some people who are revived after prolonged submersion have permanent brain damage because of the lack of oxygen. People who inhale foreign particles may develop secondary drowning, with aspiration pneumonia or acute respiratory distress syndrome, causing prolonged difficulty breathing. Such difficulty breathing may not become severe or even apparent until hours after being removed from the water. People who drown in cold water often have hypothermia.
Doctors diagnose drowning based on the events and the symptoms. Measurement of the level of oxygen in the blood and chest x-rays help reveal the extent of lung damage. Body temperature is measured to check for hypothermia.
Other tests, such as x-rays and computed tomography (CT), may be done to diagnose head injuries or spinal injuries. An electrocardiogram (ECG) and sometimes blood tests may be done to diagnose disorders that may have contributed to drowning. For example, certain previously unrecognized heart arrhythmias can cause unconsciousness while swimming.
People should not use alcohol or drugs before and during swimming, boating (even as a passenger), or when supervising children around water.
Swimming pools should be adequately fenced because they are one of the most common sites of drowning accidents. In addition, all doors and gates leading to the pool area should be locked. Children in or near any body of water, including pools and bathtubs, need constant supervision, regardless of whether flotation devices are used. Ideally, supervision should be at arm's length. Because infants and young children can drown in only a few inches of water, even water-filled containers, such as buckets or ice chests, are hazardous. Adults should remove water from these containers immediately after use. Small children should wear United States Coast Guard–approved life jackets or personal flotation devices when playing near bodies of water. Air-filled swimming aids and foam toys (water wings, noodles, and similar items) are not designed to keep swimmers safe and should not be used as a substitute for Coast Guard–approved equipment.
Formal swimming lessons reduce the risk of fatal drowning in children age 1 to 4 years. Swimming lessons are a good idea for all children. However, even children who have taken swimming lessons should be supervised when they are in or around water.
Swimmers should use common sense and be aware of weather and water conditions. Swimming should stop if people feel or look very cold. People who have seizures that are well controlled need not avoid swimming, but they should be careful near water, whether boating, showering, or bathing.
To decrease the risk of drowning, people should not swim alone and should swim only in areas patrolled by lifeguards. Ocean swimmers should learn to escape rip currents (strong currents that pull away from the shore) by swimming parallel to the beach rather than by swimming toward the beach. People who practice DUBBs should be supervised and should know the dangers of this activity. Also, swimming near boat exhaust ports should be avoided.
Wearing Coast Guard–approved life jackets when in boats is encouraged for everyone and is required for nonswimmers and for small children. Spinal injuries can be prevented by not diving into shallow water.
Community swimming areas need to be supervised by lifeguards trained in water safety, resuscitation, and rescue techniques. Life preservers, life jackets, and a shepherd's crook (a long staff with one end hooked) should be available close to poolside. Pool areas should have access to automated external defibrillators, equipment for opening airways, and telephones to contact emergency medical services. Comprehensive community prevention programs should do the following:
The factors that most increase the chances of survival without permanent brain and lung damage are the following:
Some children have survived without permanent brain damage after submersion for as long as 60 minutes in cold water. Many people who need CPR can also recover fully, and almost all people who are alert and conscious upon their arrival at the hospital recover fully. People who have consumed alcoholic beverages before submersion are more likely to die or develop brain or lung damage.
Immediate on-site resuscitation is the key to increasing the chance of survival without brain damage. Attempts should be made to revive people even when the time under water is prolonged. Artificial respiration and CPR should be provided as necessary. Rescue breathing is begun before chest compressions, unlike in most other conditions in which CPR is done.
The neck should be moved as little as possible if there is a chance of spinal injury. People who were submerged involuntarily or have any symptoms must be transported to a hospital, by ambulance if possible. People who were submerged but have only mild symptoms may be discharged to their home after several hours of observation in the emergency department. If symptoms persist for a few hours, or if the level of oxygen in the blood is low, people need to be admitted to the hospital.
Most people need supplemental oxygen, sometimes in high concentrations or given via a ventilator at high pressures. If wheezing develops, bronchodilators can help. If an infection develops, antibiotics are given.
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