Esophageal stethoscope with carrier members for cardiac pacing and oximetry
First Claim
1. An esophageal stethoscope, comprisinga tubular flexible body having a proximal end and a distal end and including an acoustic input region toward the distal end, a first carrier member separate from the tubular flexible body and including one or more stimulation devices for use in transesophageal cardiac pacing, and a second carrier member separate from the tubular flexible body and including one or more oximetry sensors for use in esophageal oximetry, wherein the tubular flexible body includes first engagement structure located distally of the acoustic input region and second engagement structure located proximally of the acoustic input region, wherein the first engagement structure is adapted to engage the first carrier member, wherein the second engagement structure is adapted to engage the second carrier member, wherein each of the first and second engagement structures comprises one or more openings in wall structure defined by the tubular flexible body at a predetermined axial location relative to the acoustic input region, and wherein each carrier member defines an internal passage for receiving the tubular flexible body, and one or more engagement members extending into the internal passage and engageable with the one or more openings.
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Accused Products
Abstract
An esophageal stethoscope includes a tubular flexible body having an acoustic input region. A carrier member, which is separate from the tubular flexible body, is selectively engageable with the tubular flexible body either proximally or distally of the acoustic input region. The carrier member carries one or more devices for providing esophageal recording, monitoring or stimulation functions. For transesophageal cardiac pacing, electrodes are mounted to the carrier member such that engagement of the carrier member with the tubular flexible body functions to convert the esophageal stethoscope to a pacing stethoscope. To carry out a sensing, recording or monitoring function, such as esophageal oximetry, one or more oximetry probes are mounted to the carrier member such that engagement of the carrier member with the esophageal stethoscope converts the stethoscope for use in an oximetry sensing application. A “universal” stethoscope includes engagement structures at predetermined locations along the length of the tubular flexible body, for use in engaging a stimulation carrier and/or a recording/monitoring carrier with the esophageal stethoscope.
38 Citations
5 Claims
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1. An esophageal stethoscope, comprising
a tubular flexible body having a proximal end and a distal end and including an acoustic input region toward the distal end, a first carrier member separate from the tubular flexible body and including one or more stimulation devices for use in transesophageal cardiac pacing, and a second carrier member separate from the tubular flexible body and including one or more oximetry sensors for use in esophageal oximetry, wherein the tubular flexible body includes first engagement structure located distally of the acoustic input region and second engagement structure located proximally of the acoustic input region, wherein the first engagement structure is adapted to engage the first carrier member, wherein the second engagement structure is adapted to engage the second carrier member, wherein each of the first and second engagement structures comprises one or more openings in wall structure defined by the tubular flexible body at a predetermined axial location relative to the acoustic input region, and wherein each carrier member defines an internal passage for receiving the tubular flexible body, and one or more engagement members extending into the internal passage and engageable with the one or more openings.
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2. An esophageal stethoscope, comprising:
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a tubular flexible body having a proximal end and a distal end and including an acoustic input region toward the distal end, a first carrier member separate from the tubular flexible body and including one or more stimulation devices for use in transesophageal cardiac pacing, and a second carrier member separate from the tubular flexible body and including one or more oximetry sensors for use in esophageal oximetry, wherein the tubular flexible body includes first engagement structure located distally of the acoustic input region and second engagement structure located proximally of the acoustic input region, wherein the first engagement structure is adapted to engage the first carrier member, and wherein the second engagement structure is adapted to engage the second carrier member, wherein at least one of the first and second engagement structures comprises an outward protrusion on wall structure defined by the tubular flexible body at a predetermined axial location relative to the acoustic input region. - View Dependent Claims (3, 4, 5)
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Specification