Abstract: The present invention relates to a method and a system for controlling breathing of a patient. A system for controlling breathing of a patient includes a respiratory conduit. The respiratory conduit is configured to be coupled to a patient interface device and is further configured to be coupled to a pressurized air generating device. The respiratory conduit includes at least two air flow control devices, positioned between the patient interface device and the pressurized air generating device. The respiratory conduit includes at least two volumes, wherein one volume is positioned between a first air flow control device and a second air flow control device and another volume is positioned between a second air flow control device and a third air flow control device.

Abstract: A process and a device are provided for separating carbon dioxide from a breathing gas mixture by means of a “Fixed Site Carrier” membrane. The breathing gas mixture is guided in the device on a side of a selective, semipermeable membrane, which is provided with amine groups, which are bound covalently to a polymer. Through the membrane, the transport of the components of the gas mixture can take place. The membrane is selected to be such that the permeability for CO2 is substantially higher than the permeability for the other gas components of the breathing gas mixture. The membrane has or is associated with means for guiding the gas, which acts to guide the gas mixture on one side along the membrane. The membrane separates volume areas in which different CO2 partial pressures prevail from one another.

Abstract: The present invention relates to a method and a system for controlling breathing of a patient. A system for controlling breathing of a patient includes a respiratory conduit. The respiratory conduit is configured to be coupled to a patient interface device and is further configured to be coupled to a pressurized air generating device. The respiratory conduit includes at least two air flow control devices, positioned between the patient interface device and the pressurized air generating device. The respiratory conduit includes at least two volumes, wherein one volume is positioned between a first air flow control device and a second air flow control device and another volume is positioned between a second air flow control device and a third air flow control device.

Abstract: A prophylactic device providing the wearer with increased protection against slippage and ruptures. The device has a tubular body with an extra strength tip and a band. The band is elastic and has a ring that stretches to pass comfortably over a wearer's testicles. The band secures the prophylactic device to the wearer and prevents the device from slipping off of the wearer. Both the extra strength tip and the band are thicker than the tubular body and provide the wearer protection against ruptures.

Abstract: The present invention relates to a method and a system for controlling breathing of a patient. A system for controlling breathing of a patient includes a respiratory conduit. The respiratory conduit is configured to be coupled to a patient interface device and is further configured to be coupled to a pressurized air generating device. The respiratory conduit includes at least two air flow control devices, positioned between the patient interface device and the pressurized air generating device. The respiratory conduit includes at least two volumes, wherein one volume is positioned between a first air flow control device and a second air flow control device and another volume is positioned between a second air flow control device and a third air flow control device.

Abstract: Minimal concentrations of CO2 are mixed with pressurized air to provide a gas mix effective for stabilizing breathing of target patients or users. CO2 concentrations below about 2% and preferably between about 0.5% and 1.25% are employed. A gas modulator includes a gas mixing module, a sensor and a control processor. The gas mixing module mixes plural gases, including CO2, into a gas mix, for delivery to a substantially leak-proof patient face mask. The sensor, located substantially at the face mask, measures CO2 concentration in the face mask. The control processor, based on a signal from the sensor, controls the CO2 concentration in the gas mix.

Abstract: A system is provided for delivering a flow of breathing gas to an airway of a patient. The system includes a pressurizing flow module that generates a pressurized flow of breathing gas and a patient circuit coupled to the pressurizing flow module configured to communicate the flow of breathing gas to an airway of a patient. The system includes a sensor for monitoring a characteristic of a breathing pattern of the patient a controller that communicates with the sensor configured to increase a fraction of inspired carbon dioxide if the characteristic exceeds an upper threshold value and to provide servo-ventilation if the characteristic is less than a lower threshold value. The upper threshold value and the lower threshold value are changed based on the monitored characteristic of the breathing pattern of the patient.

Abstract: One embodiment is directed to a print media coating device that includes first and second web supplies, first and second web take-ups, and a fuser defining a media path therethrough. The first web supply and the first web take-up are positioned on one side of the media path and the second web supply and the second web take-up are positioned on the other side of the media path opposite the first web supply and the first web take-up. A first coating material web runs from the first web supply, along the media path through the fuser, to the first web take-up and a second coating material web runs from the second web supply, along the media path through the fuser, to the second web take-up. Another embodiment is directed to a method for coating print media that includes sandwiching the print media between two layers of coating material and then fusing the coating material to the print media.

Abstract: A method to maintain isocapnia for a subject. A fresh gas is provided to the subject when the subject breathes at a rate less than or equal to the fresh gas flowing to the subject. The fresh gas flow equal to a baseline minute ventilation minus a dead space gas ventilation of the subject contains a physiological insignificant amount of CO2. An additional reserve gas is provided to the subject when the subject breathes at a rate more than the fresh gas flowing to the subject. The reserve gas has a partial pressure of carbon dioxide equal to an arterial partial pressure of carbon dioxide of the subject. A breathing circuit is applied to the method to maintain isocapnia for a subject. The breathing circuit has an exit port, a non-rebreathing valve, a source of fresh gas, a fresh gas reservoir and a reserve gas supply.

Abstract: The gas mixture is fed in a circulating stream at a volume flow rate of 3-120 l/min, the mixture being cleaned and its temperature and qualitative and quantitative composition regulated. The gas mixture contains oxygen and at least one of the following gases in quantities of up to 95%: helium, argon, neon, krypton, xenon, radon, nitrogen, nitrous oxide, sulfur hexafluoride, or a mixture of these gases. Pharmaceutical preparations can also be introduced into the breathing mixture, and the level of inhaled carbon dioxide can be adjusted with the aid of the exhaled carbon dioxide. The apparatus has a circulation loop comprising connecting pipes, a respirator bag, flow booster, temperature regulator, and at least one absorption unit for absorbing the carbon dioxide, moisture, and harmful trace contamination exhaled by the patient.

Abstract: A method to maintain isocapnia for a subject. A fresh gas is provided to the subject when the subject breathes at a rate less than or equal to the fresh gas flowing to the subject. The fresh gas flow equal to a baseline minute ventilation minus a dead space gas ventilation of the subject contains a physiological insignificant amount of CO2. An additional reserve gas is provided to the subject when the subject breathes at a rate more than the fresh gas flowing to the subject. The reserve gas has a partial pressure of carbon dioxide equal to an arterial partial pressure of carbon dioxide of the subject. A breathing circuit is applied to the method to maintain isocapnia for a subject. The breathing circuit has an exit port, a non-rebreathing valve, a source of fresh gas, a fresh gas reservoir and a reserve gas supply.

Abstract: A differential Fick technique including a first phase in which baseline breathing parameters may be established and a second phase in which a change in the effective ventilation of a patient is induced. The durations of the first and second phases may be substantially the same, and may be abbreviated relative to the durations of comparable phases of previously known differential Fick techniques. The disclosed differential Fick technique also lacks a recovery period in which the respiratory parameters of a patient are permitted to return to “normal” levels.

Abstract: A method for providing assisted ventilation which avoids hypoxia and hypocapnia in which a predetermined dead space in an assisted ventilation system is provided external to the patient. The method may also be used to create normocapnia or moderate hypercapnia without causing hypoxia during assisted ventilation. Improved assisted ventilation devices, including an improved proximal terminal, improved tubular attachments and improved coaxial filters, are disclosed which are safer and less expensive to use than corresponding prior art unilimb assisted ventilation devices. Connector fittings and adapters to provide connector fittings on assisted ventilation devices are disclosed which provide positive indication of attachment of assisted ventilation devices and resist detachment of assisted ventilation devices. The devices of the present invention also reduce medical waste in comparison to prior art assisted ventilation devices.

Abstract: A multilumen unilimb conduit for providing respiratory gases to and receiving expiratory gases from a patient connected to a unilimb respiratory circuit. The conduit has unique fittings for connection to patient devices or assisted ventilation systems and components. In a preferred embodiment, the conduit has fasteners or blocking devices at either or both of its distal and proximal ends.

Abstract: Apparatus for exercising the muscles of the respiratory system for improving endurance. The apparatus includes a bag which is inflatable for receiving a predetermined volume of expired air. A valve is closed during rebreathing of expired air in the bag and is adapted to open in response to deflation of the bag to admit fresh air to the air way. The valve is also adapted to open when the bag is fully inflated to release excess expired air. The breathing frequency is paced so that, in combination with the predetermined volume, the overall ventilation may be maintained over a period of time for increasing endurance. As endurance is increased over time, the bag may be replaced with incrementally larger volume bags or the bag volume may be incrementally increased. Guidance of the training schedule and central monitoring of the training are also provided.

Abstract: A method for providing assisted ventilation which avoids hypoxia and hypocapnia is disclosed, in which a predetermined dead space in an assisted ventilation system is provided external to the patient. The method may also be used to create normocapnia or moderate hypercapnia without causing hypoxia during assisted ventilation. Preferably, hypoxia can be avoided while inducing and/or maintaining the arterial carbon dioxide tension between about 35 and 95 mmHg. Dead space volumes as small as 10 ml and exceeding 150 ml are utilized in the method. An improved proximal terminal, tubular attachments, and coaxial filter are disclosed, which are safer the less expensive to use than prior art unilimb assisted ventilation systems; the devices of the present invention also reduce medical wastes in comparison to prior art assisted ventilation systems.

Abstract: A method for providing assisted ventilation which avoids hypoxia and hypocapnia is disclosed, in which a predetermined dead space in an assisted ventilation system is provided external to the patient. The method may also be used to create normocapnia or moderate hypercapnia without causing hypoxia during assisted ventilation. Preferably, hypoxia can be avoided while inducing and/or maintaining the arterial carbon dioxide tension between about 35 and 95 mmHg. Dead space volumes as small as 10 ml and exceeding 150 ml are utilized in the method. An improved proximal terminal, tubular attachments, and coaxial filter are disclosed, which are safer and less expensive to use than prior art unilimb assisted ventilation systems; the devices of the present invention also reduce medical wastes in comparison to prior art assisted ventilation systems.

Abstract: A method for providing assisted ventilation which avoids hypoxia and hypocapnia is disclosed, in which a predetermined dead space in an assisted ventilation system is provided external to the patient. The method may also be used to create normocapnia or moderate hypercapnia without causing hypoxia during assisted ventilation. Preferably, hypoxia can be avoided while inducing and/or maintaining the arterial carbon dioxide tension between about 35 and 95 mmHg. Dead space volumes as small as 10 ml and exceeding 150 ml are utilized in the method. An improved proximal terminal, tubular attachments, and coaxial filter are disclosed, which are safer and less expensive to use than prior art unilimb assisted ventilation systems; the devices of the present invention also reduce medical wastes in comparison to prior art assisted ventilation systems.

Abstract: A method for providing assisted ventilation which avoids hypoxia and hypocapnia is disclosed, in which a predetermined dead space in an assisted ventilation system is provided external to the patient. The method may also be used to create normocapnia or moderate hypercapnia without causing hypoxia during assisted ventilation. Preferably, hypoxia can be avoided while inducing and/or maintaining the arterial carbon dioxide tension between about 35 and 95 mmHg. Dead space volumes as small as 10 ml and exceeding 150 ml are utilized in the method. An improved proximal terminal, tubular attachments, and coaxial filter are disclosed, which are safer and less expensive to use than prior art unilimb assisted ventilation systems; the devices of the present invention also reduce medical wastes in comparison to prior art assisted ventilation systems.

Abstract: A system is disclosed for rapidly restoring ventilatory drive to an anesthetized patient after surgery. The end-expired carbon dioxide partial pressure is used as feedback to determine the amount of CO.sub.2 to be added to the inspired breathing mixture of the patient's breathing circuit. The CO.sub.2 added to the patient's breathing circuit increases CO.sub.2 within the blood stream to a level sufficient to stimulate the central ventilatory center in the brain, thereby rapidly restoring ventilatory drive to the patient.

Abstract: A breathing method and apparatus adapted for use on an animal comprising a generally cylindrically shaped device having one open end and one closed end; padding secured to the device within the circumference of the open end adapted to accept and contact the muzzle of the animal; ports formed in the periphery of the device for the passage of air therethrough; tubes removably secured to the ports to allow for greater or lesser breathing enhancement as a function of the size of the tubes.

Abstract: The heat transfer sheet according to this invention includes a substrate sheet and a dye carrier layer formed on one surface of said substrate sheet, and is characterized in that the dye included in the dye carrier layer is represented by the following general formula (I): ##STR1## wherein R.sub.1 -R.sub.4 and X each represent a substituent. According to this invention, it is possible to obtain image representations improved in terms of printing density and clearness as well as storability and resistance to discoloring and browning.

Abstract: A lung and chest exerciser that arranges for some of the air expired from the lungs on an outbreath to be collected and then to be breathed back into the lungs on the next inbreath, together with some fresh air. By so arranging, the lungs have to open deeper or more often to receive an equivalent amount of fresh air. An embodiment of the invention may have a body, a collector bag, an adjustment slider, a filter and a nose-piece. The exerciser directly develops the lungs and the respiratory muscles and indirectly exercises the heart thereby affecting the body's metabolism, circulation and relaxation level.

Abstract: A single-use, disposable patient valve for use in cardiopulmonary test apparatus comprises a molded, flexible, elastomeric tubular body of a cruciform shape an cooperating with the stem portion of the cross are first and second selective actuatable clamps which, when actuated, pinch off the flow of gases across the pinched portion.

Abstract: An incentive lung exercise apparatus includes an inhalation spirometer, a coupling attached thereto with a unidirectional outlet valve and a source of oxygen. A relatively long flexible hose connects this portion of the structure to a mouthpiece or face mask and medication nebulizer which can be held by a patient. Oxygen and medication can be administered while the patient is using the spirometer structure for lung exercise following surgery or the like. Oxygen is passed through a small hose within the major hose, leaving a substantial volume to retain exhaled gas which is then rebreathed, giving the patient greater incentive to utilize the apparatus for maximum lung inflation. A further small hose can be included and connected to an infrared capnograph for monitoring CO.sub.2 in the hose. Control of the depth of respiration is accomplished by varying the oxygen flow and inspired carbon dioxide content as judged by the analyzed expired endtidal carbon dioxide content.

Abstract: An apparatus for increasing the respiratory tidal volume of athletes is described. The invention provides additional volume to the anatomical dead space requiring the athlete to ventilate at a higher rate than that dictated by the actual work or training being done. This results in a respiratory effort in excess of the respiratory requirement.

Abstract: A rebreather apparatus for negating temporary hearing threshold shifts due to noise exposure and other physiological conditions related to CO.sub.2 concentration. One embodiment of rebreather is formed with three chambers. A mouthpiece communicates with a first chamber and this chamber has limited access to the second chamber sandwiched thereto. A third chamber is sandwiched to the second chamber and has limited communication with the second chamber. The third chamber has limited communication therefrom to the atmosphere thus providing an elongated air pathway from the atmosphere to the mouthpiece. This elongated pathway with the restrictions of the openings between chambers achieves an accumulation of carbon dioxide from a user's breath. Accordingly, air inhaled from the rebreather elevates the carbon dioxide content in the lungs of a user and thus in the blood stream of the user.

Abstract: An aspirator and resuscitator for newborn animals comprising a cylindrical accordion bellows and adaptors for removing fluids from the nasal and oral passages and for delivering air to and removing air from the breathing passages. The bellows and an adaptor are connected to a central handle which is also the fluid conductor between the bellows and the adaptor. The position and arrangement of the handle provide an effective grip for the whole hand and facilitate the holding and operating of the device effectively and quickly and with safety for the animal. An arrangement is provided for assuring effective and uniform stacking or compressing of the bellows pleats and minimizing the likelihood of damage to the bellows during use.

Abstract: A rebreather apparatus for negating temporary hearing threshold shifts due to noise exposure and other physiological conditions related to CO.sub.2 concentration. The rebreather is formed with three chambers. A mouthpiece communicates with a first chamber and this chamber has limited access to the second chamber sandwiched thereto. A third chamber is sandwiched to the second chamber and has limited communication with the second chamber. The third chamber has limited communication therefrom to the atmosphere thus providing an elongated air pathway from the atmosphere to the mouthpiece. This elongated pathway with the restrictions of the openings between chambers achieves an accumulation of carbon dioxide from a user's breath. Accordingly, air inhaled from the rebreather elevates the carbon dioxide content in the lungs of a user and thus in the blood stream of the user.

Abstract: A protective breathing apparatus for traversing toxic smoke zones, having a face mask portion covering the nose and mouth of a user in a sealed relationship to the face, a pleated flexible vessel made of a gas-impermeable material and capable of containing ambient air, and a sealed air passageway between the mask and vessel. When not in use, the vessel can be tightly compressed and reduced in size for easy portability; however, for use, the vessel can be instantly expanded, drawing at least 60 cubic inches of ambient air therein.

Abstract: An improved breathing method and apparatus for enabling a user, while at a first altitude, e.g. sea level, to experience higher altitude conditions. The apparatus includes an inspiratory tube and an expiratory tube and means for mixing a portion of oxygen-reduced expired air with ambient air to supply air for inspiration. The first ends of the inspiratory and expiratory tubes are coupled to the users airway through a user breathing means. The remote end of the expiratory tube is coupled through a (carbon dioxide) CO.sub.2 absorber canister to an air storage reservoir. The remote end of the inspiratory tube is also coupled through a CO.sub.2 absorber canister to the reservoir for pulling oxygen-reduced air therefrom. The user breathing means includes a selectively dimensioned orifice to the environment so that on expiration, a predetermined portion of the user's expired air is exhausted to the environment while the remainder passes through CO.sub.2 absorber material into the reservoir.

Abstract: A ventilatory muscle training apparatus is disclosed which utilizes a gas rebreathing system having a reservoir and a mouthpiece for use in conveying gas into and out of the reservoir during inhalation and exhalation. An adjustable valve-like aperture is located in the system in a position to vent some expired gas to the ambient atmosphere during exhalation and in a position such that some ambient air is drawn into the system from the ambient during inhalation. This aperture structure is capable of being adjusted so as to normalize the carbon dioxide content of the gas breathed in during inhalation to a patient's normal respiratory level. The reservoir used is preferably an enclosed chamber which is open to the ambient air remote from the mouthpiece. The apparatus also includes a means for use in monitoring the air flow through the mouthpiece so that the patient can determine that his or her breathing is in accordance with the intended manner of use of the apparatus.

Abstract: A respiratory exerciser and rebreathing device in which inhalation and exhalation chambers are provided for mixing exhaled air with ambient air to increase the carbon dioxide content of the air to be inhaled. A mouthpiece and a valve device between the mouthpiece and the chambers for directing the air flow are provided, and an adjustable mechanism is used to vary the amount of exhaled air which is mixed with ambient air to be rebreathed. Condensation plates in the inhalation chamber remove moisture from the air which is inhaled. The breathing pressures required to operate the device may be variable, in order to control the exercise of the muscles of respiration.

Abstract: A catalytically active gel product is described consisting of a silica matrix which is amorphous to x-rays with uniform porosity, monomodal pore distribution and high surface area, within which one or more metal oxides possessing catalytic activity are dispersed. A process for preparing this catalytic gel is also described.