Trauma Fact Sheet
What is physical trauma?
Physical trauma is a serious injury to the body.
Blunt force trauma occurs when the body is struck with an object or force, causing concussions, lacerations or fractures.
Penetrating trauma occurs when an object pierces the skin or body, usually creating an open wound.
Trauma also results from “controlled injury,” such as that caused by surgery.
Psychological trauma is an emotional or psychological injury, usually resulting from an extremely stressful or life-threatening situation. For more information on psychological trauma, visit the National Institute of Mental Health’s Coping with Traumatic Events.
How many people die from physical trauma each year in the United States?
According to the Centers for Disease Control and Prevention, unintentional injury kills more people between the ages of 1 and 44 than any other disease or illness. More years of potential life are lost due to injury than to heart disease or cancer.
What is the prognosis for severely injured people?
People with major injuries have a better chance of survival today than in any time in the past. Yet trauma patients still face the risk of death from shock (caused by massive blood loss), infection, multiple organ dysfunction syndrome, acute respiratory distress syndrome or sepsis.
How has basic research improved care for trauma patients?
Research on the body’s physiological response to trauma led to advances in fluid resuscitation, wound cleaning, infection control and nutritional support. As a result, survival rates increased dramatically, along with the health, functioning and quality of life of survivors.
What are researchers learning about the body’s response to major trauma?
Research is revealing that inflammation plays critical and complex roles following injury—it is necessary for healing but is also linked to many life-threatening complications.
Genomic studies are showing that severe injury alters the activity levels of a large number of genes. A close analysis of these changes could help scientists better understand the body’s immediate and long-term responses to trauma and might point to new treatment strategies.
The discovery of new connections between the brain and the inflammatory system throughout the body is leading to exciting new therapeutic possibilities, including stimulation of the vagus nerve to control systemic inflammation.
Investigators have learned that internal organs often suffer damage after a critical injury. This is because, when faced with a life-threatening injury, the body will redirect blood to try to save the brain and heart. This may rob the intestines and lungs of oxygen and other vital blood-borne substances.
Researchers and clinicians are increasingly gathering to share information on new approaches for treating severely injured patients, changing clinical practice and health policy. For example, The Federal Interagency Conference on Traumatic Brain Injury has helped spread the word about the latest research on traumatic brain injury, helping to improve the clinical care of patients with this condition.
What is on the horizon for trauma research?
Currently, doctors cannot predict how individual trauma patients will fare based solely on the type and severity of their injuries. Researchers hope to identify specific genes or proteins that could serve as markers to better predict outcomes and guide doctors to the best course of treatment for each patient.
Laboratory-grown cells and other advances in wound treatment promise to speed the healing of damaged tissue and may enable a greater return to function and less scarring.
Continued testing of experimental approaches will bring new treatments, leading to further declines in death rates from traumatic injuries and reduced severity of complications.