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The use of xenon in the medical industry provides new long-term growth potential for xenon applications. Xenon is used to improve X-ray, CAT scanning and MRI imaging. A single MRI machine cannot examine many fine structures of human lungs. However, when xenon oxygen mixture is inhaled, MRI scanning can detect necessary soft tissue fine structures, helping doctors to make more accurate diagnosis of many lung diseases. Scientists at Royal College London have found that xenon helps protect damaged nerve cells. It has been nearly 60 years since xenon was found to have a sedative effect. As anesthesia, xenon will not react with various surgical materials, nor will it produce any metabolites in the body. As we all know, xenon has the least impact on the cardiovascular and cerebrovascular systems. Like other anesthetics, xenon has no toxic and side effects on the human body. Xenon anesthesia has the advantages of rapid induction, rapid recovery, protection of the heart and nervous system, analgesia and less side effects. It has become an ideal anesthetic for pregnant women, patients with heart disease, elderly patients and other high-risk patients.
The medical field provides new long-term potential growth for xenon application. Xenon is used to enhance the imaging of X-ray, CAT scanning and MRI. Many fine structures of human lungs cannot be examined by a single MRI device. However, when xenon/oxygen mixture is inhaled, MRI scanning can detect necessary soft tissue fine structures to help doctors make more accurate diagnosis of many lung diseases. Scientists at Royal College London found that xenon can help protect damaged nerve cells. Xenon has been found to have anesthetic effect for almost 60 years. A series of clinical studies have confirmed that cylinder air inhalation anesthesia is safe and effective, and has broad prospects for clinical application. As an anesthetic, xenon does not react with various surgical materials, and does not produce metabolites in the body. It is an anesthetic that is known to have the smallest impact on the cardiovascular and cerebral blood vessels, and unlike other anesthetics, it does not have toxic and side effects on the human body. Xenon does not destroy the ozone layer, produce greenhouse effect, burn or explode after being discharged into the atmosphere, and has little impact on the ecological environment. The application of xenon anesthesia has the advantages of quick induction, quick awakening, cardio and nervous system protection, analgesic effect, small side effects, etc. It has become an ideal anesthetic for high-risk patients, such as pregnant women, heart patients and elderly patients. At present, however, xenon production is far from meeting this potential high demand. The main disadvantage of xenon anesthetics is its high cost, which can be reduced by using xenon recovery devices
The use of xenon in the medical industry provides new long-term growth potential for xenon applications. Xenon is used to improve X-ray, CAT scanning and MRI imaging. A single MRI machine cannot examine many fine structures of human lungs. However, when xenon oxygen mixture is inhaled, MRI scanning can detect necessary soft tissue fine structures, helping doctors to make more accurate diagnosis of many lung diseases. Scientists at Royal College London have found that xenon helps protect damaged nerve cells. It has been nearly 60 years since xenon was found to have a sedative effect. As anesthesia, xenon will not react with various surgical materials, nor will it produce any metabolites in the body. As we all know, xenon has the least impact on the cardiovascular and cerebrovascular systems. Like other anesthetics, xenon has no toxic and side effects on the human body. Xenon anesthesia has the advantages of rapid induction, rapid recovery, protection of the heart and nervous system, analgesia and less side effects. It has become an ideal anesthetic for pregnant women, patients with heart disease, elderly patients and other high-risk patients.
The medical field provides new long-term potential growth for xenon application. Xenon is used to enhance the imaging of X-ray, CAT scanning and MRI. Many fine structures of human lungs cannot be examined by a single MRI device. However, when xenon/oxygen mixture is inhaled, MRI scanning can detect necessary soft tissue fine structures to help doctors make more accurate diagnosis of many lung diseases. Scientists at Royal College London found that xenon can help protect damaged nerve cells. Xenon has been found to have anesthetic effect for almost 60 years. A series of clinical studies have confirmed that cylinder air inhalation anesthesia is safe and effective, and has broad prospects for clinical application. As an anesthetic, xenon does not react with various surgical materials, and does not produce metabolites in the body. It is an anesthetic that is known to have the smallest impact on the cardiovascular and cerebral blood vessels, and unlike other anesthetics, it does not have toxic and side effects on the human body. Xenon does not destroy the ozone layer, produce greenhouse effect, burn or explode after being discharged into the atmosphere, and has little impact on the ecological environment. The application of xenon anesthesia has the advantages of quick induction, quick awakening, cardio and nervous system protection, analgesic effect, small side effects, etc. It has become an ideal anesthetic for high-risk patients, such as pregnant women, heart patients and elderly patients. At present, however, xenon production is far from meeting this potential high demand. The main disadvantage of xenon anesthetics is its high cost, which can be reduced by using xenon recovery devices
