Features to improve and sense tympanic membrane apposition by tympanostomy tube delivery instrument
First Claim
1. An apparatus comprising:
- (a) a shaft assembly having a distal end, wherein the shaft assembly comprises;
(i) a cannula, and(ii) a pusher operable to translate relative to the cannula;
(b) a pressure equalization tube positioned within the shaft assembly, wherein the pusher is operable to drive the pressure equalization tube out of the shaft assembly;
(c) a sensor, wherein the sensor is operable to detect a physical parameter associated with engagement between the distal end of the shaft assembly and a tympanic membrane;
(d) a vacuum source coupled with the shaft assembly, wherein the vacuum source is operable to provide suction at the distal end of the shaft assembly;
(e) a controller, wherein the controller is in communication with the sensor; and
(f) a memory, wherein the memory is in communication with the controller, wherein the controller is configured to alter the condition of the vacuum source in response to detecting the physical parameter based on control logic stored in the memory.
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Accused Products
Abstract
A tympanostomy tube delivery device comprises a shaft assembly, a pressure equalization tube, and a sensor. The shaft assembly comprises a cannula and a pusher operable to translate relative to the cannula. The pressure equalization tube is positioned within the shaft assembly. The pusher is operable to drive the pressure equalization tube out of the shaft assembly. The sensor is operable to detect a physical parameter associated with engagement between the distal end of the shaft assembly and a tympanic membrane. A controller may activate a feedback device to inform an operator that the distal end of the shaft assembly has achieved suitable apposition with the tympanic membrane, based on information from the sensor.
42 Citations
10 Claims
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1. An apparatus comprising:
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(a) a shaft assembly having a distal end, wherein the shaft assembly comprises; (i) a cannula, and (ii) a pusher operable to translate relative to the cannula; (b) a pressure equalization tube positioned within the shaft assembly, wherein the pusher is operable to drive the pressure equalization tube out of the shaft assembly; (c) a sensor, wherein the sensor is operable to detect a physical parameter associated with engagement between the distal end of the shaft assembly and a tympanic membrane; (d) a vacuum source coupled with the shaft assembly, wherein the vacuum source is operable to provide suction at the distal end of the shaft assembly; (e) a controller, wherein the controller is in communication with the sensor; and (f) a memory, wherein the memory is in communication with the controller, wherein the controller is configured to alter the condition of the vacuum source in response to detecting the physical parameter based on control logic stored in the memory. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An apparatus comprising:
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(a) a shaft assembly having a distal end, wherein the shaft assembly comprises; (i) a cannula, and (ii) a pusher operable to translate relative to the cannula; (b) a pressure equalization tube positioned within the shaft assembly, wherein the pusher is operable to drive the pressure equalization tube out of the shaft assembly; (c) a vacuum source coupled with the shaft assembly, wherein the vacuum source is operable to provide suction at the distal end of the shaft assembly; (d) a sensor, wherein the sensor is operable to detect a physical parameter associated with a vacuum level at the distal end of the shaft assembly; and (e) a controller, wherein the controller is in communication with the sensor and the vacuum source, wherein the controller is configured to alter the condition of the vacuum source based on the detected physical parameter.
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10. An apparatus comprising:
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(a) a shaft assembly having a distal end, wherein the shaft assembly comprises; (i) a cannula, and (ii) a pusher operable to translate relative to the cannula; (b) a pressure equalization tube positioned within the shaft assembly, wherein the pusher is operable to drive the pressure equalization tube out of the shaft assembly; (c) a sensor, wherein the sensor is operable to detect a physical parameter associated with engagement between the distal end of the shaft assembly and a tympanic membrane; (d) a vacuum source operable to draw a tympanic membrane against the distal end of the shaft assembly; and (e) a controller, wherein the controller is in communication with the sensor, wherein the controller is in further communication with the vacuum source, wherein the controller is configured to deactivate the vacuum source based at least in part on information from the sensor indicating one or more conditions associated with engagement between the distal end of the shaft assembly and a tympanic membrane.
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Specification