There is disclosed an endotracheal tube which has a minimal cross-sectional profile for easy viewing of anatomical features during intubation. After the tube is placed into the trachea, the tube is adapted to increase the diameter. In this manner the tube diameter may be expanded to allow for decrea
There is disclosed an endotracheal tube which has a minimal cross-sectional profile for easy viewing of anatomical features during intubation. After the tube is placed into the trachea, the tube is adapted to increase the diameter. In this manner the tube diameter may be expanded to allow for decreased Work of Breathing (WOB) for patient, while not having so large a diameter as to cause tracheal discomfort.
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1. A tracheal tube comprising: a tube defining a passageway for transferring respiratory gas to a patient's lungs, the tube comprising:a distal end portion having a distal inner diameter and a distal outer diameter;an intermediate portion connected to the distal end portion and having an intermediat
1. A tracheal tube comprising: a tube defining a passageway for transferring respiratory gas to a patient's lungs, the tube comprising:a distal end portion having a distal inner diameter and a distal outer diameter;an intermediate portion connected to the distal end portion and having an intermediate inner diameter and an intermediate outer diameter; anda proximal end portion connected to the intermediate portion and having a proximal inner diameter and a proximal outer diameter, wherein the distal end portion, the intermediate portion, and the proximal end portion are in fluid communication with one another, and wherein the intermediate portion is adapted to change both the intermediate inner diameter and the intermediate outer diameter relative to the distal inner diameter and the distal outer diameter and relative to the proximal inner diameter and proximal outer diameter to allow the intermediate outer diameter to contact the patient's tracheal walls, and wherein at least one layer of the intermediate portion having the intermediate inner diameter forms a portion of the passageway for transferring respiratory gas to the patient's lungs to directly contact the respiratory gas, wherein the intermediate inner diameter in a relaxed state is smaller than the distal inner diameter and the proximal inner diameter. 2. The tracheal tube, as set forth in claim 1, wherein the intermediate outer diameter is adapted to expand to at least a diameter of the patient's trachea. 3. The tracheal tube, as set forth in claim 1, wherein the intermediate portion of the tracheal tube comprises polytetrafluoroethylene (PTFE), polyethylene teraphthalate (PETP), low-density polyethylene (LDPE), polyvinyl chloride (PVC), silicone, neoprene, polyisoprene, or polyurethane (PU). 4. The tracheal tube, as set forth in claim 1, wherein the intermediate portion comprises an outer layer and an inner layer coupled by connecting members. 5. The tracheal tube, as set forth in claim 4, wherein the connecting members are perforated to allow gas to flow inside a gap between the outer layer and the inner layer. 6. The tracheal tube, as set forth in claim 1, comprising an inflatable balloon cuff disposed on the distal end portion of the tracheal tube. 7. The tracheal tube, as set forth in claim 1, comprising an inflation lumen operatively connected to the intermediate portion. 8. The tracheal tube, as set forth in claim 1, comprising a stylet and wherein the at least one layer of the intermediate portion is wrapped around the stylet when the intermediate portion is in a collapsed state. 9. The tracheal tube, as set forth in claim 8, wherein the intermediate portion is configured to expand when the stylet is removed and a positive pressure is applied to the intermediate portion. 10. A method of manufacturing a tracheal tube comprising: forming a distal end portion having a distal inner diameter and a distal outer diameter;forming an intermediate portion connected to the distal end portion and having an intermediate inner diameter and an intermediate outer diameter; andforming a proximal end portion connected to the intermediate portion and having a proximal inner diameter and proximal outer diameter, wherein the distal end portion, the intermediate portion, and the proximal end portion are in fluid communication with one another and are configured to form a passage that directly contacts respiratory gases and wherein the intermediate portion is adapted to change both the intermediate inner diameter and the intermediate outer diameter relative to the distal inner diameter and the distal outer diameter and relative to the proximal inner diameter and proximal outer diameter to allow the intermediate outer diameter to contact a patient's tracheal walls, wherein at least one layer of the intermediate portion forms a portion of a passageway for transferring gas to the patient's lungs, and wherein the intermediate inner diameter in a relaxed state is smaller than the distal inner diameter and the proximal inner diameter. 11. The method, as set forth in claim 10, wherein forming the intermediate portion comprises forming a portion that is adapted to expand to a diameter at least equal to the diameter of a patient's trachea. 12. The method, as set forth in claim 10, comprising forming an inflation lumen operatively connected to the intermediate portion. 13. The method, as set forth in claim 10, wherein forming the intermediate portion comprises forming an outer layer and an inner layer of the intermediate portion coupled to one another by a plurality of connecting members such that the outer layer and the inner layer are adapted to move together to change the intermediate outer diameter and the intermediate inner diameter, respectively. 14. A method for sealing a patient's trachea comprising: inserting a tracheal tube into a patient's trachea, wherein the tracheal tube comprises a distal end portion, a proximal end portion, and an intermediate portion co-axially coupled to form a conduit for transfer of respiratory gas into the patient's trachea, wherein the intermediate portion comprises at least one intermediate wall, the distal end portion comprises a distal wall, and the proximal end portion comprises a proximal wall, and wherein the at least one intermediate wall is thinner than the distal wall and the proximal wall;expanding the intermediate portion with the respiratory gas so that the intermediate portion of the conduit expands as compared to the proximal end portion and distal end portion of the conduit, wherein the expanding comprises using a pressure of the respiratory gas to expand the intermediate portion, and wherein the at least one intermediate wall forms a portion of a passageway for transferring gas to the patient's lungs; andcollapsing the intermediate portion of the tracheal tube, such that an outer diameter of the intermediate portion is smaller than an inner diameter of a distal end portion when the intermediate portion of the tracheal tube is collapsed. 15. The method, as set forth in claim 14, wherein expanding the intermediate portion comprises pneumatically expanding the intermediate portion by providing positive pressure through the intermediate portion. 16. The method, as set forth in claim 14, wherein the collapsing the intermediate portion comprises pneumatically collapsing by providing negative pressure through the intermediate portion. 17. The method, as set forth in claim 14, wherein expanding the intermediate portion of the tracheal tube comprises expanding the intermediate portion to a diameter at least equal to the diameter of a patient's trachea. 18. The method, as set forth in claim 14, wherein the pressure of the respiratory gas to expand the intermediate portion is provided by a ventilator. 19. A tracheal tube comprising: a tube defining a passageway for transferring respiratory gas to a patient's lungs, the tube comprising:a distal end portion having a distal inner diameter and a distal outer diameter;an intermediate portion connected to the distal end portion and having an intermediate inner diameter and an intermediate outer diameter; anda proximal end portion connected to the intermediate portion and having a proximal inner diameter and a proximal outer diameter, wherein the distal end portion, the intermediate portion, and the proximal end portion are in fluid communication with one another, and wherein the intermediate portion is adapted to change both the intermediate inner diameter and the intermediate outer diameter relative to the distal inner diameter and the distal outer diameter and relative to the proximal inner diameter and proximal outer diameter to allow the intermediate outer diameter to contact the patient's tracheal walls, wherein at least one layer of the intermediate portion forms a portion of the passageway for transferring respiratory gas to the patient's lungs and wherein the at least one layer is configured to directly contact the respiratory gas, wherein the intermediate portion comprises an outer layer and an inner layer coupled by connecting members, and wherein the connecting members are perforated to allow gas to flow inside a gap between the outer layer and the inner layer. 20. The tracheal tube, as set forth in claim 19, wherein the intermediate outer diameter is adapted to expand to at least a diameter of the patient's trachea. 21. The tracheal tube, as set forth in claim 19, wherein the intermediate inner diameter in a relaxed state is smaller than the distal inner diameter and the proximal inner diameter. 22. The tracheal tube, as set forth in claim 19, wherein the intermediate portion of the tracheal tube comprises polytetrafluoroethylene (PTFE), polyethylene teraphthalate (PETP), low-density polyethylene (LDPE), polyvinyl chloride (PVC), silicone, neoprene, polyisoprene, or polyurethane (PU). 23. The tracheal tube, as set forth in claim 19, comprising a stylet and wherein the at least one layer of the intermediate portion is wrapped around the stylet when the intermediate portion is in a collapsed state. 24. The tracheal tube, as set forth in claim 23, wherein the intermediate portion is configured to expand when the stylet is removed and a positive pressure is applied to the intermediate portion.
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