Better Airflow Airplane Technology Leads to Better Breathing

Advancement in avionics is leading to advancements in healthcare as well. Patients that suffer from pulmonary problems may be able to breathe easier thanks to developments in airplane design. Better airflow airplane technology is helping people with respiratory conditions to breathe easier. 

There is a science that studies how algorithms can affect the flow of air or liquid. These computer codes help airflow for airplanes. Since it has been successful, many consider using these algorithms to be more cost-effective than using models. Recently, researchers have started applying this science, also known as computational fluid dynamics (CFD), to study the flow of air in the body, especially as it relates to problems involving the respiratory system. Conditions like asthma and sleep apnea may find new treatments thanks to these algorithms.

The respiratory system is a channel made up of different parts, some firm and others not, that distribute oxygen throughout the body. Many disorders related to disruption of oxygen circulation are caused by the more delicate structures being deformed or even collapsing. Disorders that result can range from annoying to life-threatening. 

Researchers are now using the airplane science of CFD and its computer codes to examine medical data taken from people that have respiratory conditions. With the help of MRI, these algorithms allow physicians to better assess problems and recommend relevant treatments to patients. This practice has led to an increased success rate of surgery as well as a decrease in the number of unneeded surgeries being performed. 

In the past, doctors have only been relying on clinical diagnosis and medical imaging machines to view the respiratory landscape. Since every case is different and there might be normal variants of a person’s airway, success rates of treatment and surgery were somewhat limited. With airflow airplane technology algorithm, or CFD, physicians can better tailor their treatments to the needs of each patient.