METHODS AND DEVICES TO TREAT NASAL AIRWAYS
First Claim
1. A method of modifying at least one property of at least one tissue of or near a nasal valve of a nose, without using a surgical incision or an implant, to decrease airflow resistance or perceived airflow resistance in a nasal airway, the method comprising:
- contacting a treatment element of a treatment device with the at least one tissue inside the nasal airway, with sufficient force to at least temporarily deform the at least one tissue;
applying energy to, or removing energy from, the at least one tissue, using the treatment element; and
removing the treatment element from the nostril.
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0 Petitions
Accused Products
Abstract
A method is described for modifying at least one property of a tissue of or near a nasal valve of a nose, without using a surgical incision or an implant, to decrease airflow resistance or perceived airflow resistance in a nasal airway. The method may involve contacting a treatment element of a treatment device with the at least one tissue inside the nasal airway, with sufficient force to at least temporarily deform the at least one tissue, applying energy to, or removing energy from, the at least one tissue, using the treatment element, and removing the treatment element from the nostril.
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Citations
31 Claims
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1. A method of modifying at least one property of at least one tissue of or near a nasal valve of a nose, without using a surgical incision or an implant, to decrease airflow resistance or perceived airflow resistance in a nasal airway, the method comprising:
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contacting a treatment element of a treatment device with the at least one tissue inside the nasal airway, with sufficient force to at least temporarily deform the at least one tissue; applying energy to, or removing energy from, the at least one tissue, using the treatment element; and removing the treatment element from the nostril.
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2. A method as in claim 1, wherein the treatment element has a convex shape, such that contacting the treatment element against the at least one tissue at least temporarily deforms the tissue into a concave shape.
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3. A method as in claim 2, wherein contacting the treatment element with the tissue causes at least one protrusion on the treatment element to deform the tissue.
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4. A method as in claim 1, wherein applying energy comprises applying energy in a form selected from the group consisting of ultrasound, microwave, heat, radiofrequency, electrical, light and laser.
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5. A method as in claim 4, wherein applying energy comprises delivering radiofrequency energy to one or more electrodes of the treatment element to locally heat the at least one tissue, wherein delivering radiofrequency energy while deforming the at least one tissue causes the tissue to change shape.
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6. A method as in claim 1, wherein the at least one tissue comprises nasal valve tissue.
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7. A method as in claim 1, wherein the at least one tissue comprises nasal mucosa at or near a junction of a pyriform aperture and a lower lateral cartilage.
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8. A method as in claim 1, wherein the at least one tissue comprises upper lateral cartilage.
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9. A method as in claim 1, wherein removing energy comprises using cryogenic therapy provided by the treatment element.
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10. A method as in claim 1, wherein the energy is applied to or removed from the at least one tissue while the at least one tissue is deformed.
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11. A method as in claim 1, wherein the energy applied by the treatment element is generated from a power source within the treatment device.
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12. A method as in claim 1, further comprising injecting a substance into the at least one tissue prior to applying the energy, wherein the applied energy affects the injected substance to help modify the property of the tissue.
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13. A method as in claim 1, further comprising applying a substance to the at least one tissue or to an outer surface of the nose before applying the energy.
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14. A method as in claim 1, wherein the at least one property of the at least one tissue is modified without reshaping the at least one tissue.
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15. A method as in claim 1, wherein modifying the at least one property comprises stiffening the at least one tissue, with or without reshaping it.
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16. A method as in claim 1, wherein the at least one tissue is selected from the group consisting of epithelium, cartilage, mucosa, sub-mucosa, muscle, ligament, tendon and skin.
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17. A method as in claim 1, further comprising cooling the at least one tissue and/or other tissues in or on the nose, before, during, or after applying the energy.
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18. A method as in claim 1, further comprising:
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measuring at least one parameter at or near the at least one tissue to be treated; and adjusting a level of energy application or removal, based on the measured parameter.
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19. A method as in claim 1, wherein the at least one parameter is selected from the group consisting of temperature and impedance.
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20. A method of treating a nasal valve of a nose, without using a surgical incision or an implant, to decrease airflow resistance or perceived airflow resistance in a nasal airway, the method comprising:
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contacting a treatment element of a treatment device with an outer surface of the nose; applying energy to at least one of a subdermal layer or a dermal layer of tissue in the nose, using the treatment element, wherein the tissue is located at least partially above the nasal valve; and cooling at least one of an epidermal layer or a superficial dermal layer of the nose, using the treatment device.
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21. A method as in claim 19, wherein the applied energy comprises thermal energy, and wherein applying the energy causes at least some of the tissue to tighten.
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22. A method as in claim 19, further comprising applying a substance to the outer surface of the nose before applying the energy to enhance at least one of the application of the energy or the cooling epidermal layer or the superficial dermal layer.
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23. A device for treating a patient'"'"'s nasal airway by modifying at least one property of at least one tissue of or near a nasal valve of the airway, without using a surgical incision or an implant, to decrease airflow resistance or perceived airflow resistance in a nasal airway, the device comprising:
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an energy delivery member sized to be inserted into a nose and configured to deliver energy to tissues within the nose to modify the at least one property of the at least one tissue; a shaft extending from the energy delivery member; and a handle attached to the shaft at an opposite end from the energy delivery member, wherein the handle includes a housing to hold a power source for providing energy to the energy delivery member.
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24. A device as in claim 23, wherein the energy delivery member has a contact surface with convex shape configured to at least temporarily create a concavity in nasal tissue.
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25. A device as in claim 23, wherein the energy delivery member has a contact surface with flat shape.
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26. A device as in claim 23, wherein the energy delivery member comprises multiple protruding electrodes configured to at least temporarily deform nasal tissue.
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27. A device as in claim 26, wherein the protruding electrodes comprise two rows of electrodes, wherein the energy delivery member comprises a bipolar radio frequency delivery member, and wherein radio frequency energy travels from one row of electrodes to the other row of electrodes.
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28. A device as in claim 23, wherein the housing is configured to hold at least one battery.
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29. A device as in claim 23, further comprising at least one sensor configured to sense at least one of temperature or impedance in nasal tissue.
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30. A device as in claim 29, wherein the at least one sensor is attached to the device on or near the energy delivery member.
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31. A device as in claim 23, further comprising a tissue cooling member attached to the device at or near the energy delivery member.
Specification