During the 20th century scuba diving was introduced, allowing frogmen to attain previously unreachable depths. Those who ascended too rapidly sometimes suffered from expanding gas bubbles in the blood, which could cause extreme pain, paralysis, and even death. The solution that still remains in use today is slow equalization of atmospheric pressure accomplished inside a special room. A decompression chamber service helps those facilities run without interruption.
Also called hyperbaric chambers, they were adapted originally from steel boilers in ship power plants. Because they were already meant for high-pressure uses, boilers could be easily redesigned as sealed rooms with a capacity for more than one person. This solution proved successful, and that original concept is still being used, although greatly modified for increased safety.
Although metal is still used in certain models, most current chambers today are made of acrylics, and generally resemble a modern treatment room. In order to reduce boredom during long sessions spent inside, many are equipped with electronic entertainment centers. All employ the most advanced methods of preventing accidental fire, and most are computer controlled. Patient comfort is emphasized.
Those designed for one person at a time are called monoplace chambers, and can be pressurized and the air inside replaced with pure oxygen. These models are featured by most manufacturers, and cost slightly more than those made of metal. The safety records associated with this design show a high level of reliability, and allow patients to be closely observed and medically monitored.
Multiplace chambers have greater capacity, and advanced monitoring. Most have one or more airlocks that fully seal the chamber, and pure oxygen is supplied via a hood or mask, or through an endotracheal tube. This method does not require the room to be completely filled with pure oxygen, reducing the possibility of accidental fire. They are ideal for treating several patients in varying degrees of distress.
The same type of device is used by many hospitals to help patients with difficulty healing normally. Time spent in a hyperbaric chamber assists those suffering from open diabetic wounds, those with burns and subsequent skin grafts, and individuals who have an injury sustained from being crushed as well as those undergoing intensive chemotherapy. Measurable oxygen levels in the blood are significantly raised.
Because of these systems are integral during emergencies, unexpected down-time is unacceptable. Specific services exist today that specialize not only in the installation of these facilities, but also help maintain them in peak operating condition. The emphasis today is on rapid employee deployment whenever mechanical repair issues arise, and remote computer diagnostics allows developing problems to be discovered quickly.
These services not only maintain their products, but also provide specialized training for those who operate them in centers featuring equipment designed to demonstrate the latest techniques and operations. The goal of these services is to reduce the time needed for service and upgrading, and to enable hospitals and other decompression locations to present the highest level of treatment at all times.
Also called hyperbaric chambers, they were adapted originally from steel boilers in ship power plants. Because they were already meant for high-pressure uses, boilers could be easily redesigned as sealed rooms with a capacity for more than one person. This solution proved successful, and that original concept is still being used, although greatly modified for increased safety.
Although metal is still used in certain models, most current chambers today are made of acrylics, and generally resemble a modern treatment room. In order to reduce boredom during long sessions spent inside, many are equipped with electronic entertainment centers. All employ the most advanced methods of preventing accidental fire, and most are computer controlled. Patient comfort is emphasized.
Those designed for one person at a time are called monoplace chambers, and can be pressurized and the air inside replaced with pure oxygen. These models are featured by most manufacturers, and cost slightly more than those made of metal. The safety records associated with this design show a high level of reliability, and allow patients to be closely observed and medically monitored.
Multiplace chambers have greater capacity, and advanced monitoring. Most have one or more airlocks that fully seal the chamber, and pure oxygen is supplied via a hood or mask, or through an endotracheal tube. This method does not require the room to be completely filled with pure oxygen, reducing the possibility of accidental fire. They are ideal for treating several patients in varying degrees of distress.
The same type of device is used by many hospitals to help patients with difficulty healing normally. Time spent in a hyperbaric chamber assists those suffering from open diabetic wounds, those with burns and subsequent skin grafts, and individuals who have an injury sustained from being crushed as well as those undergoing intensive chemotherapy. Measurable oxygen levels in the blood are significantly raised.
Because of these systems are integral during emergencies, unexpected down-time is unacceptable. Specific services exist today that specialize not only in the installation of these facilities, but also help maintain them in peak operating condition. The emphasis today is on rapid employee deployment whenever mechanical repair issues arise, and remote computer diagnostics allows developing problems to be discovered quickly.
These services not only maintain their products, but also provide specialized training for those who operate them in centers featuring equipment designed to demonstrate the latest techniques and operations. The goal of these services is to reduce the time needed for service and upgrading, and to enable hospitals and other decompression locations to present the highest level of treatment at all times.
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