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 known as hyperbaric chambers, these vessels were originally adapted from the steel boilers used to power ships. They were already being used in a a high-pressure capacity, and could easily be transformed into airtight rooms big enough to hold people. This solution worked well, and the basic structural concept has been modified over the years with additional safety features and construction techniques.
While there are still some metal cylinders being used, most modern units are made of acrylics, and often closely resemble a treatment room at a hospital. In order to fend off patient boredom, many new facilities contain entertainment systems to pass the time. They are also built to the most stringent fire suppression standards, and are generally computer controlled. In all cases, patient comfort is emphasized.
Those intended for use by a single individual are monoplace chambers, and the air mixture inside is replaced by pure oxygen when pressurized. They are the most common type, and are slightly more expensive than those made with metal frames. They have an excellent safety record and a reputation for reliability, and allow users to be closely monitored and observed medically.
Multiplace chambers are intended for use by several people, and also contain advanced monitoring systems. There may be more than one airlock used to maintain room integrity, and individual oxygen is supplied by a mask or hood, or sometimes through an endotracheal tube. This makes it unnecessary to completely fill the room with pure oxygen, and reduces the possibility of fire. People with different degrees of distress can be treated simultaneously .
The same type of pressurized chamber is widely used by many hospitals today to help those having problems healing normally. Hyperbaric chambers are used to aid those suffering from diabetic open wounds, people with severe burns requiring skin grafts or who have been accidentally crushed, or patients undergoing intensive chemotherapy. Breathing oxygen under pressure increases levels more efficiently.
Because these installations may be needed at any hour, any unscheduled down-time is not acceptable. Specialized services exist that present and install these chambers, as well as monitoring and maintaining them once in place. There is a strong emphasis on deploying repair technicians as quickly as possible when problems do emerge, and remote maintenance software that recognizes and corrects problems from a distance has become essential.
Not only do they maintain and service those products, but some also provide ongoing training for the people who operate them, using replicated environments that can demonstrate new innovations and techniques. The primary goal of these services is the reduction of time spent upgrading and maintaining a chamber, and to allow decompression centers to be ready to provide high-quality treatment when required.
Also known as hyperbaric chambers, these vessels were originally adapted from the steel boilers used to power ships. They were already being used in a a high-pressure capacity, and could easily be transformed into airtight rooms big enough to hold people. This solution worked well, and the basic structural concept has been modified over the years with additional safety features and construction techniques.
While there are still some metal cylinders being used, most modern units are made of acrylics, and often closely resemble a treatment room at a hospital. In order to fend off patient boredom, many new facilities contain entertainment systems to pass the time. They are also built to the most stringent fire suppression standards, and are generally computer controlled. In all cases, patient comfort is emphasized.
Those intended for use by a single individual are monoplace chambers, and the air mixture inside is replaced by pure oxygen when pressurized. They are the most common type, and are slightly more expensive than those made with metal frames. They have an excellent safety record and a reputation for reliability, and allow users to be closely monitored and observed medically.
Multiplace chambers are intended for use by several people, and also contain advanced monitoring systems. There may be more than one airlock used to maintain room integrity, and individual oxygen is supplied by a mask or hood, or sometimes through an endotracheal tube. This makes it unnecessary to completely fill the room with pure oxygen, and reduces the possibility of fire. People with different degrees of distress can be treated simultaneously .
The same type of pressurized chamber is widely used by many hospitals today to help those having problems healing normally. Hyperbaric chambers are used to aid those suffering from diabetic open wounds, people with severe burns requiring skin grafts or who have been accidentally crushed, or patients undergoing intensive chemotherapy. Breathing oxygen under pressure increases levels more efficiently.
Because these installations may be needed at any hour, any unscheduled down-time is not acceptable. Specialized services exist that present and install these chambers, as well as monitoring and maintaining them once in place. There is a strong emphasis on deploying repair technicians as quickly as possible when problems do emerge, and remote maintenance software that recognizes and corrects problems from a distance has become essential.
Not only do they maintain and service those products, but some also provide ongoing training for the people who operate them, using replicated environments that can demonstrate new innovations and techniques. The primary goal of these services is the reduction of time spent upgrading and maintaining a chamber, and to allow decompression centers to be ready to provide high-quality treatment when required.
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