초록 ▼

A nasal cannula for supplying a respiratory gas to a patient and a method of treating a patient with sleep disorder. The nasal cannula comprises a pair of spaced apart supply lines which each have a head at one end thereof with a discharge opening located therein. The opposite end of each supply lin

A nasal cannula for supplying a respiratory gas to a patient and a method of treating a patient with sleep disorder. The nasal cannula comprises a pair of spaced apart supply lines which each have a head at one end thereof with a discharge opening located therein. The opposite end of each supply line is connectable to a high flow respiratory gas source. Each head is sized to be snugly received and retained within one of the nasal cavities of the patient while forming a sufficient leakage passage, between a portion of inwardly facing nasal cavity skin of a patient and a portion of an exterior surface of the head, to facilitate exhausting of any excess respiratory gas supplied to the patient through the leakage passage and also facilitate inhalation of any room air required in excess of the respiratory gas to be supplied to the patient.

대표청구항 ▼

1. A nasal cannula for supplying a respiratory gas to a patient, the nasal cannula comprising: a pair of supply lines which each have a head at one end thereof with a discharge opening therein for discharging a respiratory gas, and the opposite end of each of the pair of supply lines being connectab

1. A nasal cannula for supplying a respiratory gas to a patient, the nasal cannula comprising: a pair of supply lines which each have a head at one end thereof with a discharge opening therein for discharging a respiratory gas, and the opposite end of each of the pair of supply lines being connectable to a respiratory gas source, the respiratory gas being supplied at a flow rate of at least about 120 liters per minute and at a pressure of between 4 and 20 cm of H2O;a central bridge member, having a sufficiently short axial length, configured to span substantially no more than a width of a philtrum of a patient and being located adjacent the heads for integrally connecting to the supply lines to one another; andeach head being sized to be snugly received and retained within one of the nasal cavities of the patient while forming a sufficient leakage passage, between a portion of inwardly facing nasal cavity skin of a patient and a portion of an exterior surface of the head, to facilitate exhausting of excess respiratory gas supplied to the patient through the leakage passage;wherein the central bridge member defines an internal flow passage therein which provides an interconnecting gas flow path between which generally operates to equalize the flow of gas from the pair of supply lines to the pair of heads and provides alternate flow in the event that one of the heads becomes partially or completely obstructed or restricted during use; andthe nasal cannula forming an open system such that when the respiratory gas is introduced into the nostrils of the patient's nose, a portion of the respiratory gas, along with a portion of the exhaled gases from the patient, being allowed to leak out through the leakage passage via a nostril/head interface. 2. The nasal cannula according to claim 1, wherein each gas supply line, once attached to a patient in use, upon exiting the nasal cavities of the patient generally follows along a cheek of the patient and passes below a chin and near a mid-line of a face of the patient;a pair of adjustable straps are attached to the gas supply line and around a head of the patient to facilitate retention of the nasal cannula to the head of the patient;a first adjustable strap is attached to a first gas supply line and is adapted to pass from the first gas supply line, above a first ear of the patient, around a head of the patient, under a second ear of the patient and attach again to a second gas supply line; anda second adjustable strap is attached to the second gas supply line and is adapted to pass from the second gas supply line, above the second ear of the patient, around a head of the patient, under the first ear of the patient and attach again to the second gas supply line. 3. The nasal cannula according to claim 1, wherein an element is located within the gas supply line, along a gas flow path, and the element is coupled to a controller which controls flow of power to the element for heating the gas flowing through the gas supply line and measuring a temperature of the gas flowing through the gas supply line. 4. The nasal cannula according to claim 1, wherein the gas supply lines each include a spiral reinforcing member which assists with reinforcing a side wall of the gas supply lines. 5. The nasal cannula according to claim 1, wherein an exterior surface of the head has a plurality elongate troughs formed therein for partially defining a plurality of leakage passages therein to facilitate exhausting of any excess respiratory gas and inhalation of any room air required by the patient. 6. The nasal cannula according to claim 5, wherein the exterior surface of the head has between six and eight elongate troughs formed therein which are equally spaced about a circumference of the head, and each of the elongate troughs partially defines one of the leakage passages in the head to facilitate exhausting of any excess respiratory gas and inhalation of any room air required by the patient. 7. The nasal cannula according to claim 5, wherein each of the plurality elongate troughs is formed by a pair of adjacent planar side surfaces which diverge away from a common elongate valley toward a pair of spaced apart but adjacent elongate ridges to partially define one of the plurality of leakage passages. 8. The nasal cannula according to claim 5, wherein each one of the leakage passages has a cross sectional open area of between about 0.002 square inches (0.013 cm2) and 0.0055 square inches (0.035 cm2); and each head has a maximum width dimension of between about 0.345 of an inch (0.88 cm) about 0.70 of an inch (1.8 cm) and a length of between about 0.30 of an inch (0.76 cm) and about 0.60 of an inch (1.5 cm). 9. The nasal cannula according to claim 1, wherein the central bridge member aligns the pair of supply lines parallel to one another to facilitate insertion of the heads, carried by the pair of supply lines, within the nostrils of the patient. 10. The nasal cannula according to claim 1, wherein the nasal cannula is manufactured from a flexible material; and a second end of each of the supply lines bends away from one another and is curved so as to conform generally with a curvature of a face of a patient. 11. The nasal cannula according to claim 10, wherein the second end of each of the supply lines is coupled to an auxiliary respiratory gas supply line, at least the second end of each of the supply lines has a sufficient stiffness so as to urge the attached auxiliary respiratory gas supply line, coupled thereto, to pass beneath a patient's cheekbone area when the nasal cannula is donned by a patient. 12. A nasal cannula assembly for supplying a respiratory gas to a patient, the nasal cannula assembly comprising: a pair of supply lines which each have a head at one end thereof with a discharge opening therein for discharging a respiratory gas, and the opposite end of each of the pair of supply lines being connected to an auxiliary respiratory gas supply line, and a remote end of each of the auxiliary respiratory gas supply line is connected with a respiratory gas source for supplying a respiratory gas to a patient, the respiratory gas being supplied at a flow rate of at least about 120 liters per minute and at a pressure of between 4 and 20 cm of H2O;a central bridge member being located adjacent the heads for integrally connecting to the supply lines to one another; andeach head being sized to be snugly received and retained within one of the nasal cavities of the patient while forming a sufficient leakage passage, between a portion of inwardly facing nasal cavity skin of a patient and a portion of an exterior surface of the head, to facilitate exhausting of excess respiratory gas supplied to the patient through the leakage passage;wherein the central bridge member defines an internal flow passage therein which provides an interconnecting gas flow path between which generally operates to equalize the flow of gas from the pair of supply lines to the pair of heads and provides alternate flow in the event that one of the heads becomes partially or completely obstructed or restricted during use; andthe nasal cannula forming an open system such that when the respiratory gas is introduced into the nostrils of the patient's nose, a portion of the respiratory gas, along with a portion of the exhaled gases from the patient, being allowed to leak out through the leakage passage via a nostril/head interface. 13. The nasal cannula according to claim 12, wherein each gas supply line is adapted attach to a patient and each gas supply line, once attached to a patient in use, upon exiting the nasal cavities of the patient generally follows along a cheek of the patient and passes below a chin and near a mid-line of a face of the patient; a pair of adjustable straps are attached to the gas supply line and around a head of the patient to facilitate retention of the nasal cannula to the head of the patient;a first adjustable strap is attached to a first gas supply line and is adapted to pass from the first gas supply line, above a first ear of the patient, around a head of the patient, under a second ear of the patient and attach again to a second gas supply line;a second adjustable strap is attached to the second gas supply line and is adapted to pass from the second gas supply line, above the second ear of the patient, around a head of the patient, under the first ear of the patient and attach again to the second gas supply line and the pair of adjustable straps are adapted to cross one another at only one location behind the head of the patient. 14. The nasal cannula according to claim 12, wherein an element is located within the gas supply line, along a gas flow path, and the element is coupled to a controller which controls flow of power to the element for heating the gas flowing through the gas supply line and measuring a temperature of the gas flowing through the gas supply line. 15. The nasal cannula assembly according to claim 14, wherein the nasal cannula is manufactured from a flexible material; and a second end of each of the supply lines bends away from one another and is curved so as to conform generally with a curvature of a face of a patient. 16. The nasal cannula assembly according to claim 15, wherein the second end of each of the supply lines is coupled to an auxiliary respiratory gas supply line, at least the second end of each of the supply lines has a sufficient stiffness so as to urge the attached auxiliary respiratory gas supply line, coupled thereto, to pass beneath a patient's cheekbone area when the nasal cannula is donned by a patient. 17. The nasal cannula according to claim 12, wherein the gas supply lines each include a spiral reinforcing member which assists with reinforcing a side wall of the gas supply lines. 18. The nasal cannula assembly according to claim 12, wherein an exterior surface of the head has a plurality elongate troughs formed therein for partially defining a plurality of leakage passages therein to facilitate exhausting of any excess respiratory gas and inhalation of any room air required by the patient; and the exterior surface of the head has between six and eight elongate troughs formed therein which are equally spaced about a circumference of the head, and each of the elongate troughs partially defines one of the leakage passages in the head to facilitate exhausting of any excess respiratory gas and inhalation of any room air required by the patient. 19. The nasal cannula assembly according to claim 18, wherein each of the plurality elongate troughs is formed by a pair of adjacent planar side surfaces which diverge away from a common elongate valley toward a pair of spaced apart but adjacent elongate ridges to partially define one of the plurality of leakage passages. 20. The nasal cannula assembly according to claim 18, wherein each one of the leakage passages has a cross sectional open area of between about 0.002 square inches (0.013 cm2) and 0.0055 square inches (0.035 cm2). 21. The nasal cannula assembly according to claim 18, wherein each head has a maximum width dimension of between about 0.345 of an inch (0.88 cm) about 0.70 of an inch (1.8 cm) and a length of between about 0.30 of an inch (0.76 cm) and about 0.60 of an inch (1.5 cm). 22. A respiratory therapy system for supplying a respiratory gas to a patient via a nasal cannula, the respiratory therapy system comprising: a source of respiratory gas for supplying a respiratory gas to a patient, and the source of respiratory gas supplying the gas at a flow rate of at least about 120 liters per minute and at a pressure of between 4 and 20 cm of H2O;a nasal cannula connected to the source of respiratory gas for receiving the respiratory gas and supplying the respiratory gas to nostrils of a patient;the nasal cannula comprising: a pair of supply lines which each have a head at one end thereof with a discharge opening therein for discharging a respiratory gas, and the opposite end of each of the pair of supply lines being connected to an auxiliary respiratory gas supply line, and a remote end of each of the auxiliary respiratory gas supply line is connected with the source of respiratory gas for supplying a respiratory gas to a patient;a central bridge member being located adjacent the heads for integrally connecting to the supply lines to one another; andeach head being sized to be snugly received and retained within one of the nasal cavities of the patient while forming a sufficient leakage passage, between a portion of inwardly facing nasal cavity skin of a patient and a portion of an exterior surface of the head, to facilitate exhausting of excess respiratory gas supplied to the patient through the leakage passage;wherein the central bridge member defines an internal flow passage therein which provides an interconnecting gas flow path between which generally operates to equalize the flow of gas from the pair of supply lines to the pair of heads and provides alternate flow in the event that one of the heads becomes partially or completely obstructed or restricted during use;the nasal cannula forming an open system such that when the respiratory gas is introduced into the nostrils of the patient's nose, a portion of the respiratory gas, along with a portion of the exhaled gases from the patient, being allowed to leak out through the leakage passage via a nostril/head interface;each gas supply line is adapted to attach to a patient such that when in use, upon exiting the nasal cavities of the patient each gas supply line generally follows along a cheek of the patient and passes below a chin and near a mid-line of a face of the patient; anda pair of adjustable straps are attached to the gas supply lines and are adapted to wrap around a head of the patient to facilitate retention of the nasal cannula to the head of the patient. 23. The respiratory therapy system according to claim 22, wherein the respiratory therapy system further includes a heater for heating the respiratory gas to a desired temperature prior to delivering the respiratory gas to the patient; and the respiratory therapy system further includes a humidifier for supplying humidity to the respiratory gas prior to delivering the respiratory gas to the patient. 24. The respiratory therapy system according to claim 23, wherein a humidity sensor and a temperature sensor are coupled to a controller to provide inputs concerning the humidity and the temperature of the respiratory gas, and the controller controls operation of the humidifier and the heater to control the temperature and the humidity of the respiratory gas prior to delivery to the patient. 25. The respiratory therapy system according to claim 24, wherein the respiratory gas system provide the respiratory gas at a relative humidity of between about 70 percent and 100 percent and a temperature of between about 80° F. (26.6° C.) and about 90° F. (32.2° C.). 26. The respiratory therapy system according to claim 22, wherein the respiratory therapy system provides a variable flow of respiratory gas, during operation of the respiratory therapy system, of between about 20 and 120 liters per minute. 27. The respiratory therapy system according to claim 15, wherein the respiratory gas system further includes a respiratory gas metering device to facilitate conservation of use of the respiratory gas during operation of the respiratory gas system. 28. The respiratory therapy system according to claim 22, wherein the respiratory gas supply lines and the nasal cannula each have gradual bends, transitions, expansion and contraction therealong so that the respiratory gas, as the respiratory gas flows from the source of respiratory gas to the nasal cannula, minimizes generation of noise. 29. The respiratory therapy system according to claim 22, wherein the respiratory therapy system further includes a heater for heating the respiratory gas to a desired temperature prior to delivering the respiratory gas to the patient. 30. The respiratory therapy system according to claim 22, wherein the respiratory therapy system further includes a humidifier for supplying humidity to the respiratory gas prior to delivering the respiratory gas to the patient. 31. A method of treating a patient with sleep disorder with a respiratory gas, the method comprising the steps of: inserting prongs of a nasal cannula within respective nostrils of the patient;supplying a respiratory gas to the nasal cannula at a constant flow rate sufficient to form a back pressure within the breathing passageways of the patient, at least when the patient is exhaling, the respiratory gas being supplied at a flow rate of at least about 120 liters per minute and at a pressure of between 4 and 20 cm of H2O;forming the nasal cannula as an open system such that when the respiratory gas is introduced into the nostrils of the patient's nose, a portion of the respiratory gas, along with a portion of the exhaled gases from the patient, is permitted to leak;allowing, at least during exhalation, a portion of the supplied respiratory gas to leak from the nostril between the prongs of the nasal cannula and inwardly facing skin of the nostril;attaching each gas supply line to the patient such that, upon exiting the nasal cavities of the patient each gas supply line generally follows along a cheek of the patient and passes below a chin and near a mid-line of a face of the patient; andattaching a pair of adjustable straps to the gas supply lines and wrapping each of the pair of adjustable straps around a head of the patient to facilitate retention of the nasal cannula to the head of the patient. 32. The method of treating the patient with sleep disorder according to claim 31, further comprising the steps of using oxygen as the respiratory gas and supplying the oxygen a flow rate of between about 20 and 120 liters per minute. 33. The method of treating the patient with sleep disorder according to claim 31, further comprising the steps of forming each prong of the nasal cannula with a head at one end thereof having a discharge opening therein for discharging the respiratory gas, and the opposite end of each prong is coupled to a supply line which is connected to a respiratory gas source; and each head is sized to be snugly received and retained within one of the nasal cavities of the patient while forming a sufficient leakage passage, between a portion of inwardly facing nasal cavity skin of a patient and a portion of an exterior surface of the head, to facilitate exhausting of any excess respiratory gas supplied to the patient through the leakage passage and also facilitate inhalation of any room air required in excess of the respiratory gas to be supplied to the patient. 34. The method of treating the patient with sleep disorder according to claim 31, further comprising the step of heating the respiratory gas to a desired temperature prior to delivering the respiratory gas to the patient. 35. The method of treating the patient with sleep disorder according to claim 31, further comprising the step humidifying the respiratory gas prior to delivering the respiratory gas to the patient. 36. The method of treating the patient with sleep disorder according to claim 31, further comprising the steps of: heating the respiratory gas to a desired temperature; andhumidifying the respiratory gas to desired humidity prior to delivering the respiratory gas to the patient. 37. The method of treating the patient with sleep disorder according to claim 31, further comprising the step of interrupting the constant flow rate of the respiratory gas, with a metering device, to facilitate conservation of the respiratory gas during treatment of the patient with sleep disorder.