There are many devices available on the market today to help people breathe at night while they sleep. One of these machines is called a CPAP, or Continuous Positive Airway Pressure machine. They work by supplying a fixed amount of air through a tube attached to your nose or mouth as you sleep, which lowers the pressure in your lungs and widens your air passages so that you can easily use them for breathing. This is why you need to get your cpap machines here.
History of the Device
The history of this device can be traced back to 1965 when Dr. Curber first demonstrated a device that administered air through a tube placed in participants’ noses. The participants, who suffered from sleep apnea, found that they were able to breathe easier and fall asleep faster with the use of this device. Because of this, scientists sought to develop an even more efficient version that could provide even more air than Dr. Curber’s original device.
In 1979, the first prototype of a CPAP was developed. This machine used a turbine fan to blow air into a tube that was attached to the participant’s nose. Inside of this machine was also an air pressure monitor which would regulate the amount of air being supplied to the participant; this allowed scientists to control how much pressure would be placed in the lungs each minute. Further research and development continued on this device for many years, and it became known as the standard for treatment for sleep apnea and other breathing disorders.
In 1982, Dr. Colin Sullivan developed a more flexible and efficient form of this device. He wanted to replace the turbine fan in the machine with a blower that used air pressure to operate instead of air flow. This allowed the device to supply more air at a lower cost, which made it much more available and affordable for patients with breathing disorders.
It also eliminated noise common with the turbine fan models. This design has since been modified further and is used on many of the most popular CPAPs sold today. The most recent research is being focused on how the position of the patient’s head can be monitored so that doctors can adjust settings of these machines to provide better results for each individual patient.