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Hi all,
Xenon is an attractive anesthetic on Earth but is little used because of its expense. However, it is a side product of liquefying oxygen cryogenically which industries are likely to do on Mars. Furthermore, it will be cheaper as Mars is some 80 degrees C colder than Earth which will significantly reduce the expense of cooling the air to liquid oxygen temperatures.
Xenon is about as common on Mars as Earth (a bit surprising as much of it is formed by radioactive decay of plutonium which Mars formed much less than Earth). There are 90 parts per billion (ppb) on Earth and 80 ppb on Mars.
Here is some information on Xenon as a anesthetic:
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Xenon: A modern anesthetic
Dr Sanjay Singh
Xenon is well known as an inert gas filled inside incandescent lamps. Although, named after a Greek word ‘stranger’, Xenon is becoming less and less of a stranger for anesthesiologist. Knowledge of the anesthetic properties of xenon goes back to 1939, where Behnke and Yarborough investigated for the US Navy, the reason for mental effects in deep sea diving. Lawrence published initial experiments with xenon anesthesia in 1946. With a minimum alveolar concentration of 0.63, it is more potent than N2O. However, the extremely high cost (approx USD 10.00 per liter) has hindered its wide clinical application. Xenon was completely forgotten for more than 30 years since the early clinical trials in 1950’s, until Lachmann, Erdmannand their colleagues at Rotterdam rediscovered it in 1990. Since then, there has been a growing interest in xenon, especially in Europe and Japan, and two multi-centre clinical trials have been completed in the European Union.
Xenon belongs to the group of noble gases and is found in very small concentration in the air (0.0000087 per cent). It is manufactured by fractional distillation of liquefied air, which is obtained as a by-product during the process of pure oxygen production. After several separation processes, a purity of 99.995 per cent can be obtained; only impurity being O2 and N2. The production of one liter of Xenon consumes 220-Watt hours of energy. Corresponding to its rarity, xenon is expensive. The current world production of xenon is approximately 10 million liters per year.
Only 1.5 million liter per year is utilized for medical purposes, with half of this amount being used for anesthetic purposes. Xenon has been used for decades to study blood flow and gas distribution in lung although recent technical developments have expanded its use in magnetic resonance imaging. The resurgence of xenon as anesthetic despite its rarity and high cost may invite natural wonder in this era of cost containment.
There are three major reasons for Xenon’s popularity:
* Pharmacological and clinical advantage
* Its usefulness as scientific tool
* Environment friendliness.
Pharmaco clinical advantage –Xenon exists as a monatomic gas under normothermic and normobaric conditions. Although virtually inert, the very large outer electron shell of xenon may get polarized and distorted by nearby molecules and permits xenon to interact with and bind to proteins such as myoglobin as well as bi-layer lipids. Xenon’s ability to interact with cell proteins and cell membrane constituents is presumably responsible for its anesthetic potency.
Xenon also inhibits plasma membrane Ca++ pump, an action similar to that of volatile anesthetics, which may be responsible for an increase in neuronal Ca++ concentration and altered excitability.
Franks et al found that xenon despite a relatively simple atomic structure, acts selectively by blocking the N-methyl-d-aspartate receptor. This NMDA receptor inhibitor is responsible for inhibition of nociceptive responsiveness of spinal dorsal horn neurons.
Xenon has been shown not to alter voltage gated ion channels in the myocardium, nor does it sensitises the myocardium to the dysrhythmogenic effects of epinephrine. Xenon has many properties of an ideal anesthetic gas. These include:
1. Non-inflammable and non explosive
2. Rapid induction and emergence due to its low blood gas partition coefficient (0.12), which is lowest of all known anesthetics.
3. Human minimum alveolar conc (MAC) value of 0.63 makes it suitable as an inhalation anesthetic in a mixture of 30 percent O2. It is 1.5 times more potent then N2O.
4. Sufficient analgesic and hypnotic effect in mixture with 30 per cent O2.
5. The absence of metabolism, low toxicity and devoid of teratogenicity.
6. Compared to another anesthetic regimen, xenon anesthesia produces highest regional blood flow in the brain, liver, kidney and intestine. Dangers of tissue hypoxia are greatly reduced. It therefore appears to be an interesting alternative for anesthesia in transplant surgery.
7. It may protect neural cells against ischemic injury. During cardiopulmonary surgery its neuro protective effect is confirmed.
8. Undisturbed ventilation and pulmonary function. Despite higher density than N2O it does not alter respiratory mechanics. Airway resistance is not increased.
9. Lack of cardiovascular depression is the most appealing characteristics of Xenon. Even with 80 per cent concentration of Xe, Ca++ flow in human cardiomyocytes remains unaffected. Myocardial performance Index (MPI) and contractility, as measured by measuring the velocity of circumferential fiber shortening (Vcfe) and left ventricular and systolic wall stress (LVESW) using Tran esophageal echocardiography did not show any depression. The unique combination of analgesia, hypnosis and lack of hemodynamic depression makes it a very attractive choice for patients. Though its limited cardiovascular reserve, makes it expensive.
10. Diffusion hypoxia is less than N2O.
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More information can be found at:
Warm regards, Rick
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cool!
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NASA 'holoported' a doctor to the International Space Station
https://interestingengineering.com/nasa … doctor-iss
Scientists Develop a Technology That Reverses Hearing Loss
https://coolhunting.com/tech/scientists … ring-loss/
NASA Virtually Teleports Doctor Hundred of Miles In Space
https://wccftech.com/nasa-virtually-tel … portation/
This ability to improvise, treat injuries, illness and even perform surgery in extreme and isolated conditions has been a mainstay of explorers for centuries. And, as space agencies contemplate missions to the Moon and Mars, the next conference speaker is concerned with emergency medicine at the final frontier of exploration.
https://www.bbc.com/future/article/2015 … y-in-space
“I guess I’ve been compared to Dr McCoy from Star Trek – it’s quite flattering,” confesses Michael Barratt, medical doctor and Nasa astronaut, when I talk to him after his lecture. “But we’re not yet at that point where we have a large enough crew or are far enough away to have a dedicated medical officer.”
On the Challenges of Anesthesia and Surgery during Interplanetary Spaceflight
https://pubs.asahq.org/anesthesiology/a … ery-during
As interest in space travel continues to grow, surgeons and astronauts are teaming up to learn how to save lives in zero gravity — and some of the stories are truly out of this world.
https://allthatsinteresting.com/surgery-in-space
First, a caveat: Medical emergencies in space are quite rare. That said, it’s still something to take seriously. As London-based lecturer in aerospace physiology Dr. David Green points out, “the risk of an astronaut developing a serious illness and needing intensive care is very small, but it is still around 1% to 2% per person per year.”
In fact, in the last 50-odd years of space travel (including the last 15 of continuous occupancy of the International Space Station), no astronaut has ever undergone a surgical procedure in orbit — but that doesn’t mean it will never happen.
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This came from the Booze thread where Weed culture was also discussed
Cannabis is good soma. Only morphine woukd do the job better.
Astronauts and Workers or Martian Citziens could develop health issues
the brand name Soma among others, is a medication used for musculoskeletal pain.
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Aspera cream comes to mind for the muscle aches and pains or would you like Bengay and good proof will do for an anesthetic just drink plenty
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Sterilize wounds, pain relief... What product would be most easy to manufacture on the surface of Mars inside the Biodomes rather than transport all the way from Earth?
Special Mineral Oils, Water, Aloe Barbadensis Leaf Juice, Cetyl Alcohol, Glycerin, Methylparaben, Potassium Phosphate, Propylparaben, Stearic Acid, Triethanolamine will these products be rare to make on Mars is there some other generic Martian brand you might use with substitute ingredients?
info on xenon and krypton in Mars' atmosphere came from analyses of Martian meteorites plus measurement made by the Viking Lander.
Last edited by Mars_B4_Moon (2022-07-05 17:38:52)
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