Method and device for reducing the carbon dioxide content in a dead volume
First Claim
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1. A method for reducing the carbon dioxide content in a dead volume in a breathing apparatus, comprising the steps of:
- respirating a patient with a gas supplied to the patient via a primary gas flow path containing a dead space into which carbon dioxide containing gas is exhaled by the patient that is re-breathed by the patient in a subsequent inhalation by the patient, said dead space having opposite first and second sides with said first side being closer to the patient than said second side;
connecting a bypass path at respective bypass connections at said opposite sides of said dead space and generating a gas flow of said exhaled gas from said dead space through said bypass path from said second side to said first side and through a carbon dioxide absorber in said bypass path; and
returning gas that has passed through the carbon dioxide absorber from the bypass path to said primary gas flow path at said first side of said dead space, with said gas that passed through said dead volume and said carbon dioxide absorber then being inhaled by said patient.
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Abstract
In a method and device for reducing the carbon dioxide content in a dead volume intended for connection to the respiratory system of a patient, and an anesthesia apparatus embodying such a device, a flow of gas is generated from an outlet associated with the dead volume and the gas is conducted through a carbon dioxide absorber, and the gas after passing through the carbon dioxide absorber is returned to an inlet associated with the dead volume.
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7 Claims
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1. A method for reducing the carbon dioxide content in a dead volume in a breathing apparatus, comprising the steps of:
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respirating a patient with a gas supplied to the patient via a primary gas flow path containing a dead space into which carbon dioxide containing gas is exhaled by the patient that is re-breathed by the patient in a subsequent inhalation by the patient, said dead space having opposite first and second sides with said first side being closer to the patient than said second side; connecting a bypass path at respective bypass connections at said opposite sides of said dead space and generating a gas flow of said exhaled gas from said dead space through said bypass path from said second side to said first side and through a carbon dioxide absorber in said bypass path; and returning gas that has passed through the carbon dioxide absorber from the bypass path to said primary gas flow path at said first side of said dead space, with said gas that passed through said dead volume and said carbon dioxide absorber then being inhaled by said patient. - View Dependent Claims (2, 3)
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4. An anesthesia apparatus comprising:
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a primary gas flow path having a first end configured for gaseous connection to a ventilator and a second end configured to communicate with the respiratory system of a patient to be artificially respirated by said ventilator with gas containing an anesthetic, said primary gas flow path having a dead space therein in which carbon dioxide-containing gas exhaled by the patient is located that is re-breathed by the patient in a subsequent inhalation by the patient, said dead space having opposite first and second sides with said first side being closer to the patient than said second side; a reflector located in said dead space of said primary gas flow path between said first side of said dead space and said second side of said dead space, that absorbs and desorbs said anesthetic; a bypass outlet from said primary gas flow path located between said first end and said second side of said dead space, and a bypass inlet to said first gas flow path located between said second end and said first side of said dead space; a bypass flow path connected between said bypass outlet and said bypass inlet, that bypasses said dead space; a carbon dioxide absorber connected in said bypass flow path; a flow generator connected in said bypass flow path in series with said carbon dioxide absorber that conducts said gas from said bypass outlet through said carbon dioxide absorber to remove carbon dioxide from the exhaled gas in the dead space and returns gas after passing through said carbon dioxide absorber to said primary gas flow path via said bypass inlet for inhalation by said patient via said second end. - View Dependent Claims (5, 6, 7)
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Specification