CHAPTER 37 Gases Used in Anesthesia: Road to Mountain





Introduction


The gases used in anesthesia practice deserve special attention. The existence of life without oxygen is known to all. Oxygen is the most frequently used gas by anesthetists in perioper­ative as well as critical care settings. In addition, nitrous oxide (N2O), medical air, Entonox, carbon dioxide, and heliox are other gases of importance. The gases in anesthesia can be categorized as follows:




  • Nonliquefied compressed gas: A nonlique­fied compressed gas does not liquefy at ordinary ambient temperatures regardless of the pressure applied. Examples include oxygen, air, nitrogen, and helium.



  • Liquefied compressed gas: Liquefied com­pressed gas is one that becomes liquid to a large extent in containers at ambient temperature and pressures from 25 to 1500 psig. Examples include nitrous oxide and carbon dioxide.



Oxygen


Joseph Priestley first synthesized oxygen. It is colorless and odorless with a boiling point of –183°C and a critical temperature of –118°C. The critical temperature of oxygen above the room temperature makes its existence as a gas
at normal ambient temperature. The importance of it lies in the fact that reading on the pressure gauge correlates with the volume of oxygen remaining inside the cylinder.



Manufacture


Manufacturing of oxygen is a two-step process. First, atmospheric air is liquefied. Second, liquid air is separated into its components by fractional distillation. The commercial production of a large volume of oxygen also involves the fractional distillation of air.


Oxygen concentrators are portable devices that produce oxygen by absorption of nitrogen on zeolites. These are suitable for use in homes, hospitals, and remote locations.



Storage




  • Medical oxygen is stored in oxygen cylinders at 2000 psi.



  • Also stored as liquid oxygen in vacuum-insulated evaporator (VIE).



Heliox


Heliox comprises a variable proportion of oxygen and helium. The percentage of oxygen may vary from 21 to 50%. Heliox is useful in patients with upper airway obstruction. Theoretically, patients with airway obstruction offer more resistance to flow of gases, resulting in turbulent flow inside the airways. The low density (0.1669) of helium provides the advantage of low resistance to flow when breathed in as heliox. The decreased resistance lowers the work of breathing significantly.



Storage


Heliox is stored in black color cylinders with brown and white shoulders at the pressure of 2000 psi.



Xenon


Xenon is a rare gas, contributing no more than 0.0875 ppm of the atmosphere. It is manufactured by fractional distillation of air. Xenon has a good safety and efficacy profile, but its cost is the major barrier to its widespread clinical use.


The estimated minimum alveolar concen­tration (MAC) of xenon is 63%. Xenon has the lowest blood–gas partition coefficient (0.115) of all known inhaled anesthetics, making induc­tion and emergence from anesthesia rapid. Other advantages are neuroprotection, less cardiovascu­lar depression, and profound analgesia.



Carbon Dioxide


Carbon dioxide is the most commonly used as an insufflation gas during laparoscopy. It was used as a respiratory stimulant in the 1930s during the respiratory arrest. Other uses in the past were:




  • To hasten recovery at the emergence.



  • To open the glottis during blind intubation.



  • Treatment of postdural puncture headache.



Manufacture


It is produced as a byproduct during the hydro­genation of ammonium.

Only gold members can continue reading. Log In or Register to continue

Dec 11, 2022 | Posted by in ANESTHESIA | Comments Off on CHAPTER 37 Gases Used in Anesthesia: Road to Mountain

Full access? Get Clinical Tree

Get Clinical Tree app for offline access