Visually monitored anesthesia breathing circuit

1. A visually monitored anesthesia breathing circuit, comprising:

• an absorber having a pair of spaced apart end walls joined by a side wall, said spaced apart end walls of said absorber including a top wall and a bottom wall and said side wall being formed of a transparent material and being generally cylindrically shaped, and a disposable single use cartridge having a particulate carbon dioxide absorbent material therein;
  
  said disposable single use cartridge being defined by a pair of spaced apart, perforated end walls joined by a generally cylindrical side wall, at least said side wall being formed of a transparent material, said disposable single use cartridge being removably positioned within said absorber in spaced relation to said side wall and one of said end walls thereof;
  
  means internally adjacent said transparent side wall of said disposable single use cartridge for visually indicating the extent of depletion of carbon dioxide absorption potential of said carbon dioxide absorbent material in said disposable single use cartridge, said visual indicating means substantially entirely surrounding said carbon dioxide absorbent material within said disposable single use cartridge and being visibly perceptible externally of said absorber through said transparent side wall thereof;
  
  one of said end walls of said absorber including an expiratory valve in communication with said disposable single use cartridge and including an inspiratory valve in communication with said absorber;
  
  said expiratory valve being adapted to direct expired gas from a patient directly to one of said perforated end walls of said disposable single use cartridge for removal of carbon dioxide as said expired gas flows through said carbon dioxide absorbent material in said disposable single use cartridge to the other of said perforated end walls;
  
  said expiratory valve including an inlet leading from a patient into a vertically extending valve tube, said valve tube having a valve seat for a valve ball to define a one-way expiration monitoring valve, said expiratory valve also including a vertically extending flow passage surrounding said valve tube in radially spaced relation, said flow passage having a dome at the upper end thereof, said dome being disposed in vertically spaced relation to said valve tube to receive said valve ball to permit expired gas to pass from said valve tube onto said flow passage, said flow passage communicating with an upper one of said perforated end walls of said disposable single use cartridges for passage of expired gas first vertically upward through said valve tube and then vertically downward through said flow passage, said expiratory valve including said valve tube and said flow passage being transparent to accommodate visual monitoring of expiration by viewing vertical movement of said valve ball between said valve seat and said dome;
  
  said inspiratory valve being adapted to receive anesthetic gases and oxygen for a patient from the other of said perforated end walls of said disposable single use cartridge following removal of carbon dioxide after said expired gas flows through said carbon dioxide absorbent material in said disposable single use cartridge and the other of said perforated end walls;
  
  said inspiratory valve including an outlet leading to a patient from a vertically extending valve tube, said valve tube having a valve seat for a valve ball to define a one-way inspiration monitoring valve, said inspiratory valve also including a vertically extending flow passage surrounding said valve tube in radially spaced relation, said flow passage having a dome at the upper end thereof, said dome being disposed in vertically spaced relation to said valve tube to receive said valve ball to permit inspired gas to pass from said valve tube into said flow passage, said flow passage communicating with a lower one of said perforated end walls of said disposable single use cartridge for passage of inspired gas first vertically upward through said valve tube and then vertically downward through said flow passage, said inspiratory valve including said valve tube and said flow passage being transparent to accommodate visual monitoring of inspiration by viewing vertical movement of said valve ball between said valve seat and said dome;
  
  external means for delivering an anesthetic to a patient in a metered flow, said external anesthetic delivering means being in communication with said absorber upstream of said inspiratory valve and downstream of said disposable single use cartridge, said inspiratory valve being adapted to provide anesthetic with oxygen from said absorber;
  
  external means for delivering oxygen to a patient in a metered flow, said external oxygen delivering means being in selectively operable communication with said absorber upstream of said inspiratory valve and downstream of said disposable single use cartridge, said inspiratory valve being adapted to provide a fresh oxygen supply from said absorber; and
  
  an overflow valve in communication with said absorber for connection to an operating room scavenger system.