Apparatus and method for monitoring respiratory gas
First Claim
1. In a system for mechanically ventilating a patient, an apparatus comprising:
- means for forming a first fluid flow circuit from which said patient is ventilated by a stream of oxygen enriched gas;
means for forming a second fluid flow circuit connected to said first circuit, said second circuit comprising means for isolating respiratory gases expired by said patient from said first circuit, said second circuit further comprising an inlet end connected at a first point in said first circuit and an outlet end connected at a second point in said first circuit, the resistance to fluid flow from said inlet end to said outlet end of said second circuit being from about 10 to about 100 times greater than the resistance to fluid flow between said first and second points in said first circuit;
a cooler capable of removing water vapor from said respiratory gases, said cooler comprising a first thermoelectric cooling block and a second insulating block mounted to said first block, a wick placed between said first and second blocks, said wick being capable of absorbing water, and a length of tubing placed between said blocks and in contact with said wick, said tubing consisting of hydrophilic material which allows for the passage of water through the walls of said tubing;
means connected to said second circuit, for detecting the concentration of one or more gases contained in a gaseous sample flowing through said second circuit; and
means for electronically processing information derived from said means for detecting the concentration of one or more said gases.
2 Assignments
0 Petitions
Accused Products
Abstract
An apparatus and method for monitoring respiratory gases in newborn infants. The apparatus includes a first fluid flow circuit from which an oxygen enriched gas is used to ventilate the patient, and a second fluid flow circuit connected in parallel to the first circuit. The second fluid flow circuit is used to isolate respiratory gases expired by the infant so that the respiratory gases can be accurately monitored for concentrations of the carbon dioxide and oxygen, which are then used to calculate metabolic rate and other clinical data used in properly caring for the patient. The apparatus also includes electronic processing capability for quickly determining the needed data and for outputting it in a format which is convenient and readily available for use by doctors, nurses or technicians.
114 Citations
27 Claims
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1. In a system for mechanically ventilating a patient, an apparatus comprising:
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means for forming a first fluid flow circuit from which said patient is ventilated by a stream of oxygen enriched gas; means for forming a second fluid flow circuit connected to said first circuit, said second circuit comprising means for isolating respiratory gases expired by said patient from said first circuit, said second circuit further comprising an inlet end connected at a first point in said first circuit and an outlet end connected at a second point in said first circuit, the resistance to fluid flow from said inlet end to said outlet end of said second circuit being from about 10 to about 100 times greater than the resistance to fluid flow between said first and second points in said first circuit; a cooler capable of removing water vapor from said respiratory gases, said cooler comprising a first thermoelectric cooling block and a second insulating block mounted to said first block, a wick placed between said first and second blocks, said wick being capable of absorbing water, and a length of tubing placed between said blocks and in contact with said wick, said tubing consisting of hydrophilic material which allows for the passage of water through the walls of said tubing; means connected to said second circuit, for detecting the concentration of one or more gases contained in a gaseous sample flowing through said second circuit; and means for electronically processing information derived from said means for detecting the concentration of one or more said gases. - View Dependent Claims (2, 3, 4, 5, 6)
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7. In a system for mechanically ventilating a patient, an apparatus comprising:
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means for forming a first fluid flow circuit through which said patient is ventilated by a stream of oxygen enriched gas; means for forming a second fluid flow circuit, said second fluid flow circuit comprising an inlet end connected at a first point to said first circuit and an outlet end connected at a second point to said first circuit, said second circuit having a resistance to fluid flow from the inlet end to the outlet end thereof which is from about 10 to about 100 times greater than the resistance to fluid flow between said first and second points in said first circuit so as to prevent said oxygen enriched gas from flowing through said second circuit during inspiration by said patient, said second circuit further comprising valve means connected to said inlet end of said second circuit such that said patient may inspire through said valve means the oxygen enriched gas from said first circuit, and may thereafter expire respiratory gases through said valve means into said second circuit, said second circuit further comprising a flow meter and a mixing chamber connected in series between the inlet and outlet ends of said second circuit; means, connected to said second circuit, for detecting the concentration of one or more gases contained in a gaseous sample flowing through said second circuit; means for electronically processing information derived from said means for detecting the concentration of one or more said gases; a first fluid flow conduit having one end thereof connected at the outlet end of said mixing chamber and the other end thereof in fluid communication with said means for detecting the concentration of one or more said gases; a second fluid flow conduit having one end thereof connected to said second circuit between said valve means and said mixing chamber, said second fluid flow conduit having the other end thereof connected in fluid communication with said means for detecting the concentration of one or more said gases; a third fluid flow conduit having one end thereof connected at the inlet end of said valve means and having the other end thereof connected in fluid communication with said means for detecting the concentration of one or more said gases; and means for automatically selecting one of said first, second and third fluid flow conduits so as to place the selected conduit in fluid communication with said means for detecting the concentration of one or more said gases, said means for automatically selecting one of said conduits being electronically connected to and controlled by said means for electronically processing said information. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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14. In a system for mechanically ventilating a patient, a method for monitoring the respiratory gases expired by said patient, said method comprising the steps of:
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ventilating said patient with a stream of oxygen enriched gas provided through a first fluid flow circuit; isolating the respiratory gases expired by said patient in a second fluid flow circuit connected in parallel at the inlet end thereof to said first circuit and connected at the outlet end thereof to said first fluid flow circuit at a point downstream from said inlet end connection; structuring said first and second circuits such that the resistance to fluid flow within said second circuit is from about 10 to about 100 times greater than the resistance to fluid flow within said first circuit; placing a length of hydrophilic tubing in contact with a thermoelectric block; reducing the temperature of said thermoelectric block; introducing said respiratory gases expired by said patient into said length of hydrophilic tubing such that said respiratory gases will be cooled as said gases flow through said hydrophilic tubing, whereby water vapor is condensed out of said respiratory gases and is allowed to pass through the walls of said hydrophilic tubing while said respiratory gases remain within said hydrophilic tubing; placing an absorbent material in contact with at least a portion of the length of said hydrophilic tubing, such that said absorbent material will absorb and evaporate said water vapor which is passed through the walls of said hydrophilic tubing; detecting the concentrations of one or more gases contained in said respiratory gases isolated in said second circuit; and electronically processing information derived from the detected concentration of said gases. - View Dependent Claims (15, 16, 17, 18)
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19. In a system for mechanically ventilating a patient, an apparatus for removing water vapor from respiratory gases expired by said patient and carried away in a respiratory gas conduit attached to said mechanically ventilating system, comprising:
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a first thermoelectric cooling block and a second insulating block mounted to said first block, said first and second blocks having a chamber formed therebetween; a length of hydrophilic tubing placed in said chamber between said first and second blocks, said tubing having an inlet end for introducing of a gaseous sample into said tubing and an outlet end through which said gaseous sample is removed after water vapor has been removed from said gaseous sample, said length of hydrophilic tubing being in contact along at least a portion of its length with said thermoelectric block such that said gaseous sample will be cooled as it travels from the inlet end of said tubing to the outlet end thereof, whereby water vapor will be condensed and will pass through said hydrophilic tubing; and means for absorbing and evaporating the water vapor which has passed through said hydrophilic tubing. - View Dependent Claims (20, 21, 22)
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23. A method of using a system for mechanically ventilating a patient and for removing water vapor from respiratory gases expired by said patient, said method comprising the steps of:
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placing a length of hydrophilic tubing in contact with a thermoelectric block along at least a portion of the length of said hydrophilic tubing; reducing the temperature of said thermoelectric block so as to cool the portion of said length of hydrophilic tubing in contact with said thermoelectric block; introducing a gaseous sample into said length of hydrophilic tubing such that said gaseous sample will be cooled to permit condensation of water vapor as said gaseous sample travels from the inlet to the outlet end of said length of hydrophilic tubing; whereby, said water vapor will pass through the walls of said hydrophilic tubing while said gaseous sample will remain within said hydrophilic tubing; and placing an absorbent material in contact with at least a portion of said hydrophilic tubing such that said water vapor passed through the walls of said hydrophilic tubing will be absorbed and evaporated by said absorbent material.
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24. In a system for mechanically ventilating a patient, an apparatus comprising:
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means for forming a first fluid flow circuit from which said patient is ventilated by a stream of oxygen enriched gas; means for forming a second fluid flow circuit connected to said first circuit, said second circuit comprising means for isolating respiratory gases expired by said patient from said first circuit; a cooler in fluid communication with said second circuit, said cooler being capable of removing water vapor from said respiratory gases and said cooler comprising; means for cooling said respiratory gases such that water vapor in said respiratory gases condenses comprising a first thermoelectric cooling block and a second insulating block mounted to said first block; a length of tubing consisting of hydrophilic material which allows for the passage of water through the walls of said tubing, and through which said respiratory gases are passed as they are cooled by said cooler; and means for removing water from said cooler comprising a wick capable of absorbing water, said hydrophilic tubing being placed between said blocks and in contact with said wick, said wick also being in contact with said hydrophilic tubing; means, connected to said second circuit, for detecting the concentration of one or more gases contained in a gaseous sample flowing through said second circuit; and means for electronically processing information derived from said means for detecting the concentration of one or more said gases. - View Dependent Claims (25)
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26. In a system for mechanically ventilating a patient, an apparatus comprising:
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means for forming a first fluid flow circuit through which said patient is ventilated by a stream of oxygen enriched gas; means for forming a second fluid flow circuit, said second fluid flow circuit comprising an inlet end connected at a first point to said first circuit and an outlet end connected at a second point to said first circuit, said second circuit having a resistance to fluid flow from the inlet end to the outlet end thereof which is greater than the resistance to fluid flow between said first and second points in said first circuit so as to prevent said oxygen enriched gas from flowing through said second circuit during inspiration by said patient, and said second circuit further comprising valve means connected at said inlet end of said second circuit such that said patient may inspire through said valve means the oxygen enriched gas from said first circuit, and may thereafter expire respiratory gases through said valve means into said second circuit; a cooler connected in fluid communication with said second circuit for removing water vapor from gases passing through said cooler, said cooler comprising; a first thermoelectric cooling block and a second insulating block mounted to said first block; a wick placed between said first and second blocks, said wick being capable of absorbing water; and a length of tubing placed between said blocks and in contact with said wick, said tubing consisting of hydrophilic material which allows for the passage of water through the walls of said tubing; means, connected to said second circuit, for detecting the concentration of one or more gases contained in a gaseous sample flowing through said second circuit; and means for electronically processing information derived from said means for detecting the concentration of one or more said gases.
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27. A method of using a system for mechanically ventilating a patient and for monitoring the respiratory gases expired by said patient, said method comprising the steps of:
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ventilating said patient with a stream of oxygen enriched gas provided through a first fluid flow circuit; isolating the respiratory gases expired by said patient in a second fluid flow circuit connected to said first circuit; placing a length of hydrophilic tubing in contact with a thermoelectric block; reducing the temperature of said thermoelectric block; introducing said respiratory gases expired by said patient into said length of hydrophilic tubing such that said respiratory gases will be cooled as said gases flow through said hydrophilic tubing, whereby water vapor is condensed out of said respiratory gases and is allowed to pass through the walls of said hydrophilic tubing while said respiratory gases remain within said hydrophilic tubing; placing an absorbent material in contact with at least a portion of the length of said hydrophilic tubing, such that said absorbent material will absorb and evaporate said water vapor which is passed through the walls of said hydrophilic tubing; detecting the concentrations of one or more gases contained in said respiratory gases isolated in said second circuit; and electronically processing information derived from the detected concentrations of said gases.
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Specification