WO2020210327A1 - Tube endotrachéal capable de déviation distale multidirectionnelle à fixation de stylet et d'endoscope au cours du fonctionnement - Google Patents

Tube endotrachéal capable de déviation distale multidirectionnelle à fixation de stylet et d'endoscope au cours du fonctionnement Download PDF

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Publication number
WO2020210327A1
WO2020210327A1 PCT/US2020/027226 US2020027226W WO2020210327A1 WO 2020210327 A1 WO2020210327 A1 WO 2020210327A1 US 2020027226 W US2020027226 W US 2020027226W WO 2020210327 A1 WO2020210327 A1 WO 2020210327A1
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WIPO (PCT)
Prior art keywords
stylet
tube
endotracheal tube
distal end
flexible
Prior art date
Application number
PCT/US2020/027226
Other languages
English (en)
Inventor
Edward R. PEREZ-LIZANO
Original Assignee
Dvl, Inc.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Dvl, Inc. filed Critical Dvl, Inc.
Publication of WO2020210327A1 publication Critical patent/WO2020210327A1/fr

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M16/00Devices for influencing the respiratory system of patients by gas treatment, e.g. mouth-to-mouth respiration; Tracheal tubes
    • A61M16/04Tracheal tubes
    • A61M16/0488Mouthpieces; Means for guiding, securing or introducing the tubes
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
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    • A61M16/00Devices for influencing the respiratory system of patients by gas treatment, e.g. mouth-to-mouth respiration; Tracheal tubes
    • A61M16/04Tracheal tubes
    • A61M16/0402Special features for tracheal tubes not otherwise provided for
    • A61M16/0404Special features for tracheal tubes not otherwise provided for with means for selective or partial lung respiration
    • AHUMAN NECESSITIES
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    • A61M16/04Tracheal tubes
    • A61M16/0402Special features for tracheal tubes not otherwise provided for
    • A61M16/0425Metal tubes
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    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B1/00Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor
    • A61B1/267Instruments for performing medical examinations of the interior of cavities or tubes of the body by visual or photographical inspection, e.g. endoscopes; Illuminating arrangements therefor for the respiratory tract, e.g. laryngoscopes, bronchoscopes
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    • A61M2202/02Gases
    • A61M2202/0208Oxygen
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    • A61M2205/00General characteristics of the apparatus
    • A61M2205/02General characteristics of the apparatus characterised by a particular materials
    • A61M2205/0216Materials providing elastic properties, e.g. for facilitating deformation and avoid breaking
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    • A61M2205/00General characteristics of the apparatus
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    • A61M2205/3306Optical measuring means
    • A61M2205/3313Optical measuring means used specific wavelengths
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    • A61M2205/00General characteristics of the apparatus
    • A61M2205/35Communication
    • A61M2205/3576Communication with non implanted data transmission devices, e.g. using external transmitter or receiver
    • A61M2205/3592Communication with non implanted data transmission devices, e.g. using external transmitter or receiver using telemetric means, e.g. radio or optical transmission
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
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    • A61M2205/00General characteristics of the apparatus
    • A61M2205/50General characteristics of the apparatus with microprocessors or computers
    • A61M2205/502User interfaces, e.g. screens or keyboards
    • A61M2205/505Touch-screens; Virtual keyboard or keypads; Virtual buttons; Soft keys; Mouse touches
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    • A61M2205/00General characteristics of the apparatus
    • A61M2205/58Means for facilitating use, e.g. by people with impaired vision
    • A61M2205/583Means for facilitating use, e.g. by people with impaired vision by visual feedback
    • A61M2205/584Means for facilitating use, e.g. by people with impaired vision by visual feedback having a color code
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
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    • A61M2205/587Lighting arrangements
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    • A61M2205/70General characteristics of the apparatus with testing or calibration facilities
    • AHUMAN NECESSITIES
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    • A61M2205/80General characteristics of the apparatus voice-operated command
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    • A61M2205/82Internal energy supply devices
    • A61M2205/8206Internal energy supply devices battery-operated
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    • A61M2207/00Methods of manufacture, assembly or production
    • AHUMAN NECESSITIES
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    • A61M2230/20Blood composition characteristics
    • A61M2230/205Blood composition characteristics partial oxygen pressure (P-O2)

Definitions

  • the disclosure relates to intubation devices, and more particularly to endotracheal tubes and stylets for use with endotracheal tubes.
  • a wide variety of devices are described in the art that facilitate viewing of confined spaces. Frequently, such devices rely upon fiber optic conduits to transfer the image from the distal end of the fiber optic conduit inserted into the confined space to the operator at the proximal end of the fiber optic conduit. Such confined spaces frequently lack illumination and consequently such viewing systems often provide an illumination source. Examples of such commercially available fiber optic viewing devices include bore scopes, endoscopes, and the like. However, such devices are frequently complex involving a viewing system integral with the fiber-optic channel. Due to the complexity of these devices and the specialized nature of their applications, they are often very expensive restricting their use to professionals whose work demands the use of such instrumentation.
  • endotracheal intubation is a common technique that is used when an individual must be ventilated such as after receiving a general anesthetic.
  • the technique consists of placing an endotracheal tube (i.e. a flexible, plastic tube) into the patient’s trachea to ventilate his/her lungs.
  • an endotracheal tube i.e. a flexible, plastic tube
  • the endotracheal tube must be inserted past the patient’s teeth and tongue and then past the epiglottis and the vocal cords into the trachea.
  • an ET During tracheal intubation, an ET must be inserted into a patient’s airway.
  • a clinician standing above/behind the head of the supine patient will use a laryngoscope to move the tongue and epiglottis out of the way and then insert an ET through the patient’s vocal cords into the trachea.
  • a cuff on the ET will be inflated to allow positive ventilation of the patient. It is necessary to ensure accurate placement of the ET in the trachea and to avoid incorrect placement of the ET e.g. into the esophagus rather than into the trachea.
  • the patient is commonly anesthetized and apneic, so the intubation procedure has to be completed rapidly, and it is advantageous to confirm correct placement of the ET quickly and accurately so that ventilation can begin.
  • Location of the ET can be determined using a number of methods, including visualization, capnography, and X-ray location of the tube, alongside physical examination methods such as auscultation of the chest and epigastrium, and visualization of thoracic movement.
  • many of these methods of determining ET placement are not sufficiently reliable to be used as sole techniques to correctly determine ET location.
  • Direct visualization of the ET passing through the vocal cords into the trachea is the most reliable method of quickly and accurately determining correct placement of the ET.
  • the clinician performing the intubation may be able to directly visualize placement of the ET, but this is not always possible, depending on the particular anatomy of the patient. For example difficulties may be encountered where the patient has restricted neck flexibility, or is obese.
  • video laryngoscopes are a well-known option for facilitating intubation.
  • video laryngoscopes can have drawbacks.
  • the video apparatus is typically provided at an intermediate location along the laryngoscope blade, the distal end of the blade can partially obstruct the field of view.
  • the ET itself may obstruct the view of the vocal cords and trachea as it advances past the end of the laryngoscope.
  • Video laryngoscopes tend to be expensive, which further limits their use as single use devices.
  • an ET is made from semi-rigid polymer, and has a gentle curve to align with the airways of the patient.
  • patient anatomy may require that the ET has a specific shape, for example, a sharper bend at the distal end, to aid insertion through the vocal cords into the trachea.
  • a stylet may be used with the ET.
  • a stylet is an elongate device inserted into an ET to hold it in a specific - perhaps altered - shape to facilitate intubation. Stylets may also provide additional rigidity to the ET to aid navigation of the ET into the desired location.
  • Some known stylets can be inserted into the ET and shaped by the clinician so the form of the ET is retained before and during insertion of the combined devices into the patient’s airway.
  • setting the shape of the stylet before intubation can lead to undesirable delays during the intubation procedure where the set shape turns out to be not quite right for the patient’s anatomy.
  • the laryngoscopist visualizes the patient’s vocal cords by means other than obtaining a direct line of sight. This is usually accomplished with a video laryngoscope or a bronchoscope.
  • CMOS-equipped bronchoscopes and video laryngoscopes such as US8790250B2 to Peterson and US2010261967A1 to Pacey offer high resolution images without orientation issues and are quickly replacing their fiberoptic and mirror/prism device equivalents. With video laryngoscopy, the laryngoscopist is able to visualize the larynx with a high success rate.
  • the ET must now retroflex to take on an“S shape” in order to be successfully aligned with the patient’s tracheal axis for intubation; 3) soft tissue damage from the ET as it passes without direct or indirect observation through the patient’s oropharynx. See (Video-assisted Laryngoscopy) section from“Practice Guidelines for Management of the Difficult Airway” ASA - American Society of Anesthesiologists, 2013; and 4) correct placement of the ET within the trachea is not able to be verified visually.
  • bronchoscopy the following problems exist: 1) blood, secretions, and fogging can all obscure the cameras view on these single view bronchoscopes; 2) the bronchoscope can be steered into the trachea.
  • the ET still needs to be“railroaded” over it in a“blind” procedure which can lead to laryngeal inlet injury or failed intubation; 3) the bronchoscope is unable to flex or retroflex a standard ET.
  • Another problem encountered during video laryngoscopy or bronchoscopy is that the patients cardiorespiratory data is not incorporated into the video monitor used for laryngoscopy.
  • the laryngoscopist either has to make available a second monitor or shift attention away from the laryngoscopy monitor or use only auditory cues such as the pitch change associated with a falling oxygen saturation on the pulse oximeter.
  • a second provider can call out the oxygen saturation values and other cardiorespiratory parameters. None of these solutions are ideal as they all require extra monitoring equipment, personnel, or simply do not provide the data to the clinician in a timely manner without distraction. Only 67% of the population can detect a pitch change corresponding to a 1% fall in oxygen saturation and 11% cannot detect a pitch change until there is a change with every beat. See (Can People Hear the Pitch Change on a Variable Pitch Pulse Oximeter) Journal of Clinical Monitoring 1992 July 8 (3): 198-200. Due to this problem the video monitor for this device may incorporate cardiopulmonary data into the video display.
  • Portability is also an important feature lacking in many video airway device designs. This feature allows the device to be easily used in austere conditions inside or outside of a hospital.
  • the present invention provides a device and system which combines a stylet with imaging and display capabilities to enable visualization of confined spaces. Accordingly, in one aspect, the invention provides an imaging system.
  • the imaging system includes: a) a stylet having a distal end, a proximal end and a deflectable section disposed therebetween; and b) an image acquisition element disposed toward the distal end of the stylet.
  • the stylet includes: i) a first shaft having a distal end and a proximal end, the proximal end of the first shaft being coupled to a first pressure receiving element at the proximal end of the stylet; and ii) a second shaft having a distal end and a proximal end, the distal end of the second shaft being coupled to the distal end of the first shaft at the distal end of the stylet, and the proximal end of the second shaft being coupled to a second pressure receiving element disposed distal to the first pressure receiving element at the proximal end of the stylet, the second pressure receiving element slidably coupled to the first shaft, wherein application of opposing forces to the first and second pressure receiving elements produces a deflection in the deflectable section.
  • the imaging system further includes an image conduit coupled to the image acquisition element and traversing along the length of the first or second shaft and optionally includes a coupling for operably engaging a display of the system.
  • the image acquisition element is in wireless communication with the display.
  • the system further includes a malleable rod removably disposed within a lumen, channel, groove, or recess of the first or second shaft.
  • the invention provides an intubation device.
  • the intubation device includes: a) a stylet having a distal end, a proximal end and a deflectable section disposed therebetween; and b) a malleable rod removably disposed within a lumen or recess of the stylet extending along its length.
  • the stylet further includes: i) a first shaft having a distal end and a proximal end, the proximal end of the first shaft being coupled to a first pressure receiving element at the proximal end of the stylet; and ii) a second shaft having a distal end and a proximal end, the distal end of the second shaft being coupled to the distal end of the first shaft at the distal end of the stylet, and the proximal end of the second shaft being coupled to a second pressure receiving element disposed distal to the first pressure receiving element from the user's perspective at the proximal end of the stylet, the second pressure receiving element coupled to the first shaft, wherein application of opposing forces to the first and second pressure receiving elements produces angular deflection in the deflectable section.
  • the intubation device further includes an illumination source disposed toward the distal end of the stylet which may be arranged as an array.
  • the invention provides an imaging system having: a) a stylet having a distal end and a proximal end; b) an image acquisition element disposed toward the distal end of the stylet; and c) a malleable rod removably disposed within a lumen or recess extending along the length of the stylet.
  • the stylet further includes: i) a first shaft having a distal end and a proximal end; and ii) a second shaft having a distal end and a proximal end, the distal end of the second shaft being coupled to the distal end of the first shaft at the distal end of the stylet, and wherein the first shaft and the second shaft are of different lengths.
  • the imaging system further includes an image conduit coupled to the image acquisition element and traversing along the length of the first or second shaft and optionally includes a coupling for operably engaging a display of the system.
  • the image acquisition element is in wireless communication with the display.
  • the system further includes a malleable rod removably disposed within a lumen or recess of the first or second shaft.
  • the invention provides a kit.
  • the kit may include an imaging system or intubation device as described herein.
  • the kit may further include instructions for obtaining images of a confined space, such as an airway.
  • the kit further includes one or more spacer elements.
  • the invention provides a method of intubating a subject.
  • the method includes: a) inserting the stylet of the system of claim 1 into an ET; b) insert the stylet and the ET into the airway of the subject; c) visualizing the airway of the subject via the image acquisition element; d) inserting the stylet and the ET into the trachea of the subject; and e) removing the stylet from the subject’s trachea, thereby intubating the subject.
  • the method may further include confirming correct depth of placement of the ET in the trachea of the subject.
  • a malleable rod may be inserted into the first or second shaft of the stylet and bent to a desired curvature before inserting the stylet in to the airway.
  • the invention provides a method of imaging a confined space.
  • the method includes applying opposing forces to the first and second pressure receiving pads to generate a deflection in the stylet of the present invention, inserting the stylet into the confined space, and visualizing the space via an image acquisition element before, during or after insertion of the device into the confined space, thereby imaging the confined space.
  • the invention provides a stylet for guiding an ET during intubation.
  • the present invention includes a number of individual proposals relating to various features of a stylet, each of which may be considered individually or in combination with any other of the proposals herein.
  • the disclosure provides a single or double lumen ET that includes: a tube having a lumen; optionally a connector operable to connect the tube to a breathing circuit; and one or more bumps, ribs, fins, or projections on an inner wall of the tube for contacting the distal end of a stylet or endoscope disposed within the tube to reversibly secure the stylet or endoscope in a set position during deflection and minimize the impedance to airflow through the tube during operation.
  • the tube has a flexible bending segment located at a distal end of the tube to allow angular deflection coinciding with angular deflection of the stylet or otherwise bending of the tube while preventing kinking of the tube.
  • the ET may include markings or color coding for identification of depth of insertion when the ET is advanced in an intubation conduit to identify the exact depth of insertion where the endotracheal tube's flexible bending segment has exited the intubation conduit and is able to be deflected without impedance.
  • the ET includes a power supply and wiring in electrical communication with an illumination source and an image acquisition element coupled to a distal end of the tube, and optionally multiple wavelength light emitters and sensors in electrical communication with the power supply, the sensors being coupled with a wall of the tube and positioned longitudinally and/or radially along the wall of the tube for the purpose of obtaining oxygen saturation readings and cardiopulmonary data from a patient.
  • the ET includes one or more spatial position sensors disposed at any point along the length of the tube or the connector and optionally a wireless transmitter for transmission of image acquisition data, oxygen sensor data, and/or spatial position data to a display monitor.
  • the ET is double lumen ET
  • the tracheal lumen and the bronchial lumen are substantially the same length longitudinally to enable rapid use of an endoscope or a stylet in either lumen without adjustment.
  • the disclosure provides a method of manufacturing the ET of the disclosure.
  • the method includes the ET, wherein the flexible bending segment is manufactured as a locally thinned segment to allow angular deflection while preventing kinking of the tube; wherein the flexible bending segment is manufactured as a concertina or bellows to allow angular deflection while preventing kinking of the tube; wherein the flexible bending segment is manufactured of a different material than the remaining portion of the endotracheal tube to allow angular deflection while preventing kinking of the tube, and/or wherein the flexible bending segment is manufactured as a flexible wire reinforced segment to allow angular deflection while preventing kinking of the tube.
  • the invention provides a stylet for guiding an endotracheal tube during intubation.
  • the stylet includes: a flexible stylet body having an angularly deflectable tip located at the distal end of the flexible stylet body, the angularly deflectable tip moveable in two opposing directions from the distal end of the flexible stylet body, wherein the flexible stylet body includes a first thermoset plastic coating covering stylet components located in an attachable endotracheal tube or attachable video endotracheal tube proximal to the angularly deflectable tip of the stylet; and an actuator control mechanism configured with one or more pressure receiving elements to receive pressure from the hand of a user and deliver forces to one or more flexible shafts of the flexible stylet body for controlling the deflection angle of the angularly deflectable tip.
  • the stylet includes a second thermoplastic elastomer covering stylet components located in an attachable endotracheal tube or attachable video endotracheal tube, the second thermoplastic elastomer covering having a distal opening for an image acquisition element and an illumination source.
  • the stylet includes an actuator control mechanism.
  • the actuator control mechanism includes a wheel having a plurality of discrete stop points which provide locking of the angularly deflectable tip at discrete incremental deflection angles by including releasably interlocking elements that prevent transition of the stylet back to the relaxed configuration while the stylet is being deflected.
  • the actuator control mechanism includes a plurality of discrete stop points which provide locking of the angularly deflectable tip at discrete incremental deflection angles by including releasably interlocking elements that prevent transition of the stylet back to the relaxed configuration while the stylet is being deflected.
  • the disclosure provides a steerable stylet, optionally preloaded in a single or double lumen ET.
  • the stylet includes a flexible stylet body; at least one flexible shaft of the flexible stylet body for controlling an angularly deflectable tip located proximate to a distal end of the stylet, the shaft(s) being disposed in a lumen or recess of the stylet body thereby forming an elongated unitary shaft, the angularly deflectable tip being movable via a deflectable section from the longitudinal axis of the distal end of the stylet; and an actuator control mechanism having a control mechanism for engaging a user's hand and controlling the deflection angle of the angularly deflectable tip.
  • a deflection point at which point an angle is generated in the stylet body (as opposed to a continuous bend) to angularly deflect the deflectable tip to allow steering of the tip though the airway.
  • the angularly deflectable tip is deflected with respect to the longitudinal axis of the stylet shaft through a deflection zone which defines the range of motion and deflection angle.
  • the stylet comprises a flexible stylet body having an angularly deflectable tip located at a distal end of the flexible stylet body.
  • Angularly deflectable refers to the fact that the tip angularly deflects at a defined deflection point.
  • the pivotable tip is rigid, and affixed to the distal end of stylet body at a pivot hinge.
  • the pivot angle of the tip is defined as the angle between the longitudinal axis of the distal end of the stylet body, and the longitudinal axis of the tip.
  • the pivotable tip is pivotable in two opposing directions relative to the direction of the longitudinal axis of the distal end of the stylet body, and/or relative to a neutral or rest position of the tip.
  • This pivot range of the tip may be at least ⁇ 10°, at least ⁇ 20°, at least ⁇ 30°, at least ⁇ 40°, at least ⁇ 50°, at least ⁇ 60°, at least ⁇ 70°, at least ⁇ 80°, at least ⁇ 90°, at least ⁇ 100°, at least ⁇ 110°, at least ⁇ 120°, at least ⁇ 130°, at least ⁇ 140°, at least ⁇ 150°, at least ⁇ 160°, at least ⁇ 170°, or at least ⁇ 180°, to allow a degree of deflection suitable for guiding the end of an ET into the desired location.
  • the range of movement of the tip may or may not be symmetrical, of course.
  • a range of at least ⁇ 10° therefore includes a tip which is movable between, e.g. -10° and +15°.
  • the pivot range of the tip may be as large as ⁇ 45°, ⁇ 50°, ⁇ 60°, ⁇ 70°, ⁇ 80°, ⁇ 90°, ⁇ 100°, ⁇ 110°, ⁇ 120°, ⁇ 130°, ⁇ 140°, ⁇ 150°, ⁇ 160°, ⁇ 170°, or ⁇ 180° from the longitudinal axis of the distal end of the stylet body.
  • a pivot range of ⁇ 90° from the longitudinal axis of the distal end of the stylet body means that the tip can pivot through a 180° pivot range, from a position substantially perpendicular to the distal end of the stylet body on one side of the body (-90°), through a position substantially parallel to the longitudinal axis of the distal end of the stylet body (0°), to a position substantially perpendicular to the distal end of the stylet body on the opposing side of the stylet body (+90°).
  • a pivot range of ⁇ 360° means that the tip can pivot through a 360° pivot range, from a position substantially parallel to the distal end of the stylet body on one side of the body (-180°) through a position which is substantially parallel to the longitudinal axis of the distal end of the stylet body (0°) to a position substantially parallel to the longitudinal axis of the distal end of the stylet body on the opposing side of the stylet body (+ 180°).
  • the stylet allows for movement of the stylet tip through a wider range of motion than typical known stylets. Furthermore, more accurate control of the distal end of the ET into which the stylet in inserted during an intubation procedure can be achieved.
  • the pivotable tip is operable to move omnidirectionally, is rotationally moveable with 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18 or more flexible shafts, and is movable within a pivot angle range of about 0° to about 5°, 10°, 20°, 30°, 40°, 50°, 60°, 70°, 80°, 90°, 100°, 110°, 120°, 130°, 140°, 150°, 160°, 170° or 180° with respect to the distal end of the stylet.
  • the invention relates to a stylet tip portion which can be deflected from a rest or neutral position relative to the stylet body, especially at a local flexure portion between the body and tip portion such as a pivot, such as in the first proposal above.
  • the tip deflection is controlled by a control mechanism having an actuator.
  • the actuator may be disposed at a proximal end of the stylet body, for ease of access by a clinician during an intubation procedure.
  • the actuator may comprise a rotatable, pivotable or slidable control portion.
  • it may comprise a ball, wheel, dial, lever or joystick.
  • the actuator of the control mechanism is hand-operated, however various electronically-controlled mechanisms are also contemplated.
  • the actuator comprises a rotatable control portion, this could be connected to a motor for driving rotation of the control portion, the motor being controlled by an electronic control module.
  • the actuator control mechanism is connected to the angularly deflectable tip by one or more control connectors, one or more flexible shafts that form an elongated unitary shaft that may be disposed within the flexible stylet body.
  • the tip can be angularly deflected through the deflection range at a deflection point within the deflectable section.
  • the deflectable section is disposed at a distal region of the shaft body and in proximity to the distally disposed angularly deflectable tip.
  • Pivotable refers to the fact that the tip pivots at a defined pivot point.
  • a pivot point such as the deflection point of the deflectable section
  • the deflection section is less than about 5, 4, 3, 2 or 1 cm in length and located within 10, 9, 8,
  • the pivotable tip is operable to move omnidirectionally, is rotationally movable with 3, 4, 5, 6, 7,
  • the actuator may connected to the pivotable tip by one or more control connectors, such as flexible lines such as wires (henceforth“wires”).
  • control connectors such as flexible lines such as wires (henceforth“wires”).
  • wires hereinafterth“wires”.
  • first and second wire portions may be part of a single piece of wire.
  • the first and second wire portions may be two separate wires.
  • the control mechanism provides a plurality of discrete predetermined stop points for the actuator.
  • the actuator may include first and second relatively moveable members, wherein the first member has e.g. a series of notches which act as discrete stop points by engagement with a portion of the second of the relatively moveable members.
  • the first relatively moveable member is a rotatable control portion having a series of notches which sequentially engage with a detent of the second relatively moveable member as the control portion is rotated.
  • the stop points may provide incremental pivot angle changes of between 1° and 20°.
  • the stop points may provide incremental pivot angle changes of 1°, 2°, 5°, 10° or 15°.
  • the detent may be moveable to allow it to move into and out of engagement with notches on the first relatively movable member.
  • the first and second members are biased into engagement e.g. of one or more detents with one or more notches.
  • one or both members e.g. member having the detent, may be attached to a spring member which acts to urge the detent into engagement with the notches.
  • the detent may preferably be shaped to help prevent jamming of the actuator.
  • the detent may have a protrusion which restricts the distance the detent can enter into the notches on the first relatively moveable member.
  • the detent is pivotable, and can pivot into and out of engagement with the notches.
  • the actuator may have one or more end stops which restrict a movement range of the actuator and correspondingly the pivot range of the pivotable tip.
  • the end stops may be formed as part of a sliding arrangement.
  • the end stops may be formed as end stops of a groove in which a pin slides.
  • One proposed configuration includes a recessed slot formed in the dial of the actuator, into which a pin projecting from the actuator body is located. On rotation of the dial, the pin slides along the slot until it reaches an end stop at one end of the slot, thereby preventing further rotation of the dial, and corresponding movement of the tip.
  • the skilled person will be aware of a range of other suitable configurations which would be suitable for restricting the movement range of the actuator.
  • a simple modification of the above proposed configuration is the pin may be formed on the dial, and the slot may be formed on the actuator body.
  • stylet of the invention may further include one or more bumps, ribs, fins or projections on the distal end of the stylet body for contacting a wall of an ET, e.g., contact a lumen wall of the tube.
  • The allows securement of the stylet in a set position during pivoting movement. It also allows impedance of airflow through the ET during operation to be minimized.
  • the bumps, ribs, fins or projections may be spaced around the circumference of the stylet body and include recesses between them which allow gas to continue flowing through the ET and external to the stylet body during operation.
  • the stylet may have an image acquisition element disposed on the pivotable tip.
  • the image acquisition element is disposed at the distal end of the tip portion, and is arranged to capture images in a direction along the longitudinal axis of the tip, distal to the tip.
  • the image acquisition element may be arranged to capture images from the end of the ET.
  • the image acquisition element may be arranged to capture images in a direction radial to the longitudinal axis of the stylet.
  • the tip can be adjusted as desired to better capture the desired field of view. Furthermore, because the stylet will typically be located within the ET during intubation, placement of the image acquisition element at the stylet tip allows for visualization of the vocal cords and trachea of a patient as the ET passes through the vocal cords.
  • the stylet may comprise a preforming rod, (also referred to herein as a‘malleable rod’) removably disposed within a lumen of the stylet body.
  • a preforming rod also referred to herein as a‘malleable rod’
  • the stylet body is tubular with a central lumen.
  • preforming rods are known as such and are of material and dimensions selected for ready plastic deformation.
  • Providing a preforming rod allows a clinician to bend the stylet into a desired shape to assist with intubation.
  • the rod is removable to facilitate certain procedures such as intubation with a hyperangulated video laryngoscope blade, nasal intubation, intubation through an intubating oropharyngeal airway, or intubation through a supraglottic airway device.
  • the rod may have a rectangular cross section, which can increase the stylet’s resistance to torsion, however this is not essential, and rods with other cross sections, (e.g. square, circular or otherwise) may also be used.
  • An oblong cross section is desirable to promote preferential bending in a single plane.
  • the material of the preforming rod may be of a malleable material such as metal (which may be metal alloy), as is known, for example, titanium, aluminum, or steel.
  • metal which may be metal alloy
  • the rod is made of titanium.
  • the rod may be substantially the same length as the stylet body.
  • the rod may have a handle at the proximal end to increase ease of insertion and/or removal of the rod from the lumen of the stylet body.
  • the handle portion may have a textured (e.g. ridged) gripping portion to further assist in insertion/removal of the rod from the lumen of the stylet body.
  • the stylet may have an attaching portion located at a proximal end of the stylet body, adapted for attachment to an ET connector.
  • ET connectors are well-known in the art, and are used to connect an ET to ventilation apparatus. Typically, they will be a single component having a tapered portion for removable insertion into an ET, a flange to aid grip, and a ventilation attachment portion for attaching to the ventilation apparatus.
  • the attaching portion of the stylet is adapted to connect to the ventilation attachment portion of an ET connecter.
  • the attaching portion of the stylet may therefore be a plug portion adapted to provide a plug fit connection to the corresponding ET connector.
  • the stylet can be attached to an ET via attachment to an ET connector.
  • This is not essential, but is advantageous, as it helps to prevent relative longitudinal movement of the stylet with respect to the ET during intubation, and can additionally help to prevent the stylet from protruding from the distal end of the ET during intubation, which may be undesirable as such protrusion can cause damage to the patient’s airways.
  • the attaching portion is integral with a body or retaining housing of the actuator of the stylet.
  • the stylet may have a port for connection to an oxygen line.
  • the port passes through a body or retaining house of the actuator of the control mechanism, into a space defined by an attaching portion of the stylet.
  • Such a configuration can allow oxygen, air, or medication to be delivered directly into an ET to which the stylet is connected via an ET connector.
  • the stylet may be attached to a single or double lumen ET. This may be done by attachment of the stylet and ET through the attaching portion located at a proximal end of the stylet body and a proximally disposed ET connector of an ET.
  • the disclosure further provides an ET which is particularly suitable for use with stylets of the type proposed herein, but which may also be used in combination with other stylets.
  • General features of an ET include the following, which may be used in our proposals and are familiar to the skilled person. This means that a clinician using the ET will be familiar with the overall configuration of the ET, which is helpful for successful intubation in the limited time available.
  • the ET has a body comprising a flexible, hollow tube having a distal end for insertion into a patient’s trachea during intubation, and a proximal end, which the clinician may hold and use to direct movement of the distal end of the tube.
  • the proximal end is typically attached to an ET connector for connection of the ET to ventilation apparatus after the intubation procedure has been completed.
  • the ET connector may be removable so that it can be removed to allow the ET to be cut to length after insertion, and then subsequently replaced to allow connection of the ET to ventilation apparatus.
  • the tube may have an inflatable cuff which can be inflated during the intubation procedure once the ET is in place, to hold the tube in the correction position to protect from pulmonary aspiration, and permit positive pressure ventilation of the patient.
  • the tube has an inflatable cuff, this is connected to an inflation line through which air may be pumped to inflate the cuff. At least a portion of the inflation line may be recessed into the wall of the ET.
  • the distal end of the tube may have a beveled tip, to aid in insertion of the tube between the vocal cords of the patient.
  • the distal end of the tube will also have a subsidiary opening to provide an alternate gas passage in the case of occlusion of the main opening, e.g. an opening known as a Murphy eye formed in a sidewall of a tip portion of the tube.
  • the ET may have multiple such subsidiary air openings, for example two Murphy eyes.
  • the openings may be formed in opposing sidewalls of a distal tip portion of the ET. Where there are multiple openings, they can be smaller whilst retaining the same total flow area for the passage of gas in comparison to typical known tubes having only one Murphy eye.
  • the advantage of providing multiple, smaller openings or Murphy eyes is that it can prevent a stylet tip from passing through or catching in these openings.
  • an ET has a bending portion or local flexure at the distal end of the tube.
  • a bending portion is a portion of the tube which is more susceptible to bending under a bending force than the body of the ET.
  • the bending portion may extend out to the distal tip of the ET.
  • the bending portion may be a portion at the distal end region of the ET, but intermediate the body and a less flexible distal tip portion of the tube. The exact location and length of the bending portion will depend on a number of factors, as discussed below.
  • the position of the bending portion is selected to align with the expected position of the pivot point of the pivotable tip of the stylet of the first aspect when the stylet and ET are used together.
  • the flexible bending segment may be a concertina portion or bellows, i.e. with one or more wall corrugations to enable easier flexing at that location.
  • the flexible bending segment may have a portion made from a different material to the material of the rest of the body of the ET.
  • the flexible bending segment may be locally thinned in comparison to the thickness of the rest of the body of the tube.
  • the flexible bending segment may be manufactured as a flexible wire reinforced segment to allow curved or angular deflection while preventing kinking of the ET.
  • the entire ET may also be manufactured as a flexible wire reinforced ET to allow angular deflection while preventing kinking of the ET at any point along its length.
  • the distal end of the ET may be easier to direct by control of the angularly deflectable tip of the stylet. This can allow the ET to be more easily guided into the correct location by the clinician.
  • the stylet may include one or more gears in operable connection to a dial of the actuator.
  • the one or more gears are configured to interact with the flexible shafts or control wire(s) disposed within the stylet body.
  • the one or more torque generating gears to allow the amount of force required by the operator to manipulate the stylet to be reduced thereby enabling the deflection of a standard, unmodified, endotracheal tube.
  • the invention also provides a single or double lumen ET having one or more bumps, ribs, fins or projections on an inner wall of the tube for contacting the distal end of a stylet disposed within the tube to secure the stylet in a set position during pivoting movement and minimize impedance of airflow through the tube during operation.
  • the tube may be used with a laryngoscope having an oxygen line and suction port at its distal end, supraglottic airway, or video ET.
  • an ET of the invention may include power and wiring in electrical communication with multiple wavelength light emitters and sensors, the sensors being coupled with a wall of the single or double lumen ET and positioned longitudinally and/or radially along the length of the wall for the purpose of obtaining oxygen saturation readings and cardiopulmonary data from a patient.
  • the invention further provides an intubation kit, including a stylet, optionally in combination with an ET.
  • the kit may include a stylet of the disclosure and/or an ET (single or double lumen) of the disclosure.
  • the kit can be used to perform an intubation process by a) inserting the stylet into the ET, b) inserting the stylet and ET into the airway of a patient, c) visualizing the airway of the patient, preferably using an image acquisition element of the stylet, d) guiding the ET and stylet through the vocal cords of the patient into the trachea, and e) removing the stylet from the ET.
  • Such a kit can offer increased ease of intubation, in particular for patients with difficult airways.
  • An intubation method using the present stylet, ET or intubation kit is a further aspect of the invention.
  • Figure 1 is a perspective view of one embodiment of a stylet of the disclosure.
  • Figure 2 is a side view of one embodiment of a stylet of the disclosure.
  • Figure 3 is a top view of one embodiment of a stylet of the disclosure.
  • Figure 4 is a perspective view of one embodiment of a stylet of the disclosure.
  • Figure 5 is a perspective view of one embodiment of an imaging system of the disclosure.
  • Figure 6 is a perspective view of one embodiment of a spacer of the disclosure.
  • Figure 7 is a front view of one embodiment of a spacer of the disclosure.
  • Figure 8 is a perspective view of one embodiment of a spacer of the disclosure.
  • Figure 9 is a front view of one embodiment of a spacer of the disclosure.
  • Figure 10 is a perspective view of one embodiment of a stylet of the disclosure with spacers.
  • Figure 11 is a side view of one embodiment of a spacer of the disclosure with spacers.
  • Figure 12 is a side view of one embodiment of a stylet of the disclosure with a deflected distal tip.
  • Figure 13 is a side view of the stylet of Figure 12.
  • Figure 14 is a side view of the stylet of Figure 12 wherein the malleable rod is removed from the stylet and shown separate from the stylet.
  • Figure 15 is a side view of the malleable rod of Figure 14.
  • Figure 16 is an expanded perspective view of the tab region of the malleable rod of Figure 15.
  • Figure 17 is an expanded perspective view of the proximal end of the stylet of Figure 12.
  • Figure 18 is an expanded side view of the proximal end of the stylet of Figure 12.
  • Figures 19A-19B, 19(A) shows a front aspect, and 19(B) a side aspect of a stylet.
  • Figures 20A-20B, 20(A) shows a side aspect of a stylet showing movement of the angularly deflectable tip
  • 20(B) a detail view of the angularly deflectable tip showing the deflection angle of the tip.
  • Figure 21 shows a perspective view of an actuator control mechanism of the stylet of Figures 19 and 20 (control wire omitted).
  • Figure 22 shows a perspective exploded view of the actuator control mechanism of Figure 21.
  • Figure 23 is a sectional view of the actuator control mechanism of Figure 21.
  • Figures 24-24B, 24(A) and 24(B) show two different perspective views of the angularly deflectabletip of a stylet.
  • Figures 25A-25C, 25(A) shows a side aspect and 25(B) a front aspect of a first embodiment of an ET, and further shows 25(C) a side aspect showing bending of the flexible bending segment of the ET.
  • Figure 26 shows a schematic view of a second embodiment of an ET.
  • Figure 27 shows a schematic view of an intubation kit.
  • Figure 28 is a perspective view of the kit.
  • Figure 29 is a schematic view of the kit in use.
  • Figure 30 is a front view of a stylet in one embodiment of the invention.
  • Figure 31 is side view of the stylet of Figure 30 in one embodiment of the invention.
  • Figure 32 is an ET in one embodiment of the invention.
  • Figure 33 illustrates use of the stylet depicted in Figures 30 and 31 with the ET of Figure 32.
  • Figure 34 illustrates use of a spatial orientation/position sensor for the double lumen ET of Figures 32 or 33 and sets for diagrams of monitor image orientation vs. video camera orientation.
  • Figure 35 illustrates an embodiment of the control mechanism of the actuator which includes torque generating gears for reducing the amount of force required by the operator to manipulate the stylet.
  • Figure 36 illustrates a double lumen ET in one embodiment of the invention which includes multiple sensors disposed along the length of each tube
  • Figure 37 illustrates a video laryngoscope utilizing a stylet of the disclosure in one embodiment of the invention.
  • Figure 38 is a schematic view of a stylet of the disclosure in use in one embodiment of the invention.
  • Figure 39 illustrates a video laryngoscope utilizing a stylet of the disclosure in one embodiment of the invention. Also illustrated are various connectors.
  • Figure 40 illustrates an attachment and spacer device for coupling a stylet with an ET in one embodiment of the invention.
  • Figure 41 are side and front views of a distal region of an ET tube having projections extending into the ET tube lumen from the inner wall of the tube for contacting and stabilizing the distal end of a stylet or endoscope inserted into the tube in one embodiment of the invention.
  • Figure 42 is an illustration of an ET having makings or color coding on the tube for making the depth of intubation conduit during intubation of a patient in one embodiment of the invention.
  • Figure 43 is an illustration of stylet depicting operation of the actuator control mechanism and including markings for controlling the depth of intubation conduit during intubation of a patient in one embodiment of the invention.
  • Figure 44 is a view of a stylet having an actuator control mechanism having opposing pins extending perpendicular from the rotational axis of the control mechanism, the pins being configured to be disposed in the attachment and spacer device of Figure 40, as well as two opposing sets of pressure receiving elements aligned to rotate the mechanism about its rotational axis, each pressure receiving element having recesses oriented toward the rotational axis in one embodiment of the invention.
  • the invention relates to an imaging system having improved functionality for imaging of an enclosed space, such as a patient’s respiratory tract.
  • the invention provides a device and system which combines a stylet with imaging and display capabilities to enable visualization of confined spaces.
  • the system provides a low cost alternative that exhibits improved functionality as compared to existing imaging systems and is useful in a variety of fields including, but not limited to, medical treatment and diagnosis, surveillance, and mechanical and automotive applications.
  • all terms not defined herein have their common art-recognized meanings. To the extent that the following description is of a specific embodiment or a particular use of the invention, it is intended to be illustrative only, and not limiting of the claimed invention. The following description is intended to cover all alternatives, modifications and equivalents that are included in the spirit and scope of the invention, as defined in the appended claims.
  • the present disclosure generally relates to a system and device for imaging a confined space, such as an airway of a subject.
  • the imaging system includes: a) a stylet (10) having a distal end (15), a proximal end (20) and a deflectable section (100) disposed therebetween; and b) an image acquisition element (25) disposed toward the distal end of the stylet.
  • the stylet includes: i) a first shaft (40) and a second shaft (30). The proximal end of the first shaft is coupled to a first pressure receiving element (50) at the proximal end of the stylet.
  • the distal end of second shaft is coupled to the distal end of the first shaft at the distal end of the stylet (at 55), while the proximal end of the second shaft is coupled to a second pressure receiving element (60) disposed distal to the first pressure receiving element at the proximal end of the stylet.
  • the second pressure receiving element engages the first shaft (i.e., at 65), such that application of opposing forces (arrows A and B) to the first and second pressure receiving elements (50, 60) produces a deflection in the deflectable section
  • the tip is pivoted with respect to the longitudinal axis of the stylet shaft through a deflection zone (102) which defines the range of motion and deflection angle.
  • the deflection zone refers to the area encompassed by the range of motion of the tip through angles a and b.
  • the stylet illustrated in Figures 1-10 includes only 2 flexible shafts, the stylet may have a multitude of flexible shafts, e.g., 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20 or more.
  • the disclosure provides a steerable stylet that includes a stylet body (250); at least 3 flexible shafts (255) for controlling a pivotable tip (270) located proximate to a distal end of the stylet (D or E).
  • the shafts (255) are disposed in a lumen (260) of the stylet body thereby forming an elongated unitary shaft (265).
  • the pivotable tip (270) is movable via a deflectable section (100) in at least three directions from the longitudinal axis of the distal end of the stylet (D or E).
  • the stylet also includes an actuator control mechanism (275) having a ball-type control (280) for engaging a user’s hand and controlling the pivot angle of the pivotable tip (270).
  • the stylet further includes removable malleable rod (285) and an image acquisition element (290) disposed in the pivotable tip (270)
  • a deflection point (101) at which point an angle b is generated in the shafts (as opposed to a continuous bend) to pivot the tip thereby allowing steering of the tip though the airway.
  • the tip Upon deflection at the deflection point (101), the tip is pivoted with respect to the longitudinal axis of the stylet shaft through a deflection zone (102) as illustrated for the embodiment in Figure 2.
  • the stylet of the invention may include multiple deflectable sections each with a deflection point. As such, the multiple angles of deflection may be imparted along the stylet body at each deflection point. This may be achieved by incorporating multiple shafts of varying lengths in the stylet body. Alternatively, as discussed below, this may also be achieved by incorporating multiple control wires of which are connected a different points along the stylet body.
  • image acquisition element is used to refer to a means to acquire an optical image and convert said optical image into an electronic signal.
  • An image acquisition element may be used to digitize individual still images or for digitization of multiple images in the form of motion picture images.
  • digital image sensors include the charge coupled device (CCD) or the complementary metal-oxide-semiconductor (CMOS) active pixel sensor imagers.
  • CMOS complementary metal-oxide-semiconductor
  • An active pixel sensor imager refers to a two-dimensional array of individual active pixel sensors, each active pixel sensor containing a photo-detector and an active amplifier.
  • Such image acquisition elements are well known in the art as well as others which may be utilized.
  • the image sensor is a CMOS active pixel sensor imager.
  • CMOS active pixel sensor arrays possess desirable characteristics such as ease of manufacture, low power consumption, and are less prone to the blooming effect where the light source overloads the sensitivity of each individual sensor causing bleeding of the light source into surrounding pixels enabling the use of a brighter light source to assist in visualization.
  • image acquisition element may also refer to a component of an infrared thermal scanning system comprising an infrared imaging sensor.
  • CCD image sensors are sensitive to near-infrared light which facilitates infrared image capture sufficient for video transmission in zero lux (or near zero lux).
  • the system of the present disclosure may include one or more image acquisition elements, for example 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or more. Additionally, while at least one image acquisition element is generally disposed toward or at the distal tip of the stylet, an image acquisition element may be located at any point along the length of the stylet to assist in imaging the interior of a cavity. Additionally, an image acquisition element may be angled in any direction with respect to the longitudinal axis of the device and be fully incorporated into the design of the stylet without protruding from the stylet's external surface. In one embodiment, at least one image acquisition element is arranged such that images distal to the distal tip are obtained while any additional image acquisition elements are arranged such that images radial to the longitudinal axis of the stylet may be obtained.
  • the system may further include an image conduit (70) for transmission of electrical signals from the image acquisition element, to, for example, a display (90).
  • image conduit (70) traverses the length of the second shaft (30) and through the second pressure receiving element (60) via hole (80) which traverses the thickness of the second pressure receiving element (60).
  • Image conduit (70) allows electrical communication between the image acquisition element and, display (90) for example.
  • image conduit (70) may be coupled with multiple image acquisition elements for transmission of electrical signals.
  • image conduit (70) may alternatively traverse the length of the first shaft (40).
  • the image conduit traverses the first or second shaft via a lumen or groove disposed within or on the surface of the respective shaft.
  • the system of the disclosure may further include one or more illumination sources for illuminating the inside of a cavity to assist in image acquisition.
  • illuminating light may be provided to the interior of a cavity via an illumination source disposed along the stylet.
  • at least one illumination source is arranged on the stylet such that light is emitted distal to the distal tip of the stylet.
  • the illumination source may be arranged in any manner that facilities illuminating the cavity.
  • the illumination source may be arranged an array having a plurality of sources.
  • One or more optical channels may be provided in the stylet to house the illumination source which may be equipped with its own power source or be in electrical communication with the display which may be equipped with functionality to operate the illumination source.
  • electrical communication for the illumination source may be achieved by integrating the wiring into the optical conduit.
  • the illumination source may receive illuminating light from an external source or the display via an optical channel suitable to transmit light.
  • the illumination source may emit any source of illumination including infrared, ultraviolet, visible light of one or more frequencies or white or colored light.
  • the illumination source may convey electromagnetic radiation of a specific nature (e.g., light of specific color or hue, laser light, infrared or ultraviolet light, and the like.).
  • the illumination source is employed to deliver electromagnetic radiation of a particular wavelength.
  • an acquired image may also be wirelessly transferred to the display.
  • an image acquisition element of the disclosure may include functionality for wirelessly transmitting a signal, such as via a data communication link.
  • wireless communication pathways may be configured for secure, encrypted uni- or bi-directional data exchange.
  • wireless functionality may include radio data communication, satellite data communication, Wi-Fi data communication, IrDA data communication, infrared data communication, BluetoothTM data communication, and ZigBeeTM data communication.
  • Additional wireless communication protocols include, Wi-FiTM 802.11 a/b/g/n, Bluetooth®, or cellular data transfer protocols such as GSM, 3G. 4G, LTE and similar protocols for the wireless transfer of data.
  • the term“display” refers to a device for providing a two-dimensional or three-dimensional representation of the image acquired by the image acquisition element.
  • Commercially available versions of such displays include but are not liquid crystal displays as well as light emitting diodes (LED), polymer light emitting diodes (PLED), organic light emitting diodes (OLED), polymer organic light emitting diodes (PLOED), passive matrix organic light emitting diode (PMOLED), or active matrix organic light emitting diode (AMOLED) arrays.
  • LED light emitting diodes
  • PLED polymer light emitting diodes
  • OLED organic light emitting diodes
  • PLOED polymer organic light emitting diodes
  • PMOLED passive matrix organic light emitting diode
  • AMOLED active matrix organic light emitting diode
  • Multiple layers of transparent OLED layers may also be incorporated to provide three dimensional image display which may be useful in some applications where the apparatus of the present invention is used to visualize the use of remote manipulating tools where depth perception or three dimensional details are of interest to the operator.
  • Such displays may also incorporate touch screen technology to facilitate manipulation (e.g. zoom, rotation, or perspective) of the image displayed on the display means.
  • it may be useful to have a power supply capable of supplementing the power supply of the system to facilitate extended use of the system and/or illumination source if so provided.
  • the power source for the display of the disclosure may be external voltage from, for example, a wall outlet, or may be provided via batteries.
  • batteries may be non-rechargeable or rechargeable.
  • batteries useful in the practice of the present invention include zinc- carbon, zinc-chloride, alkaline (e.g zinc -manganese dioxide), lithium (e.g., lithium-copper oxide, lithium-iron disulfide, lithium manganese dioxide), silver oxide, silver-zinc, NiCd, NiMH, NiZn, lithium ion batteries.
  • the term battery includes a single cell or a plurality of two or more cells.
  • the device of the present invention may also be provided with a recharging system adapted for the particular configuration and specifications of the rechargeable battery employed.
  • images generated by the image acquisition element may be transferred to the display, and alternatively to a one or more additional displays. This may be accomplished by direct wireless transmission from the image acquisition element to the additional display or by wireless transmission from the primary display to the additional display.
  • the system provides for remote monitoring. For example, a supervising physician may be able to receive images acquired by different systems being utilized in multiple different rooms.
  • first and second shaft of the stylet are coupled at the distal end of the stylet, with the first and second shafts being independent at the proximal end of the stylet. It will be understood that the point at which the first and second shaft are uncoupled to one another along the length of the stylet determines the amount of deflection of the distal tip as well as the size and location of the deflection zone.
  • the first and second shaft may be uncoupled at any point along the length of the stylet, for example the shafts are uncoupled at about .25, .50, .75, 1.0, 1.25, 1.50, 1.75, 2.0, 2.25, 2.50, 2.75, 3.0, 3.25, 3.50, 3.75, 4.0, 4.25, 4.50, 4.75, 5.0, 5.25, 5.50, 5.75, 6.0, 6.25, 6.50, 6.75, or 7.0 inches from the distal tip of the stylet.
  • the stylet may be configured to split into or be comprised of more than two independent shafts upon transition of the stylet to the deflected state.
  • each shaft may form 2, 3, 4, or 5 more independent shafts each connected to one or more of the other shafts at various locations along the length of the stylet.
  • the stylet may include a third flexible shaft coupled to a first flexible shaft and a second flexible shaft at the distal end of the stylet.
  • Application of force to the third flexible shaft produces curved or angled deflection in the deflectable section to facilitate steering in a third direction.
  • Such steering is needed for correct placement of a single or double lumen endotracheal tube in a mainstem bronchus.
  • a simple tab or loop at the proximal end of the stylet can be used for delivery of force by the hand of the user to these extra flexible shafts. All or part of any of these extra flexible shafts may be composed of materials with different or the same elasticity as the other shafts.
  • the third shaft may be composed of a flexible wire or flexible plastic material while the first two shafts are composed of the same of different material.
  • first and second flexible shaft may be configured to be coextensive or conterminous in a variety of geometries.
  • the one shaft may be disposed within a lumen or recess of the other along a portion of, or the entire length of the shafts.
  • the shafts may be manufactured of the same or different materials.
  • one shaft may be more rigid than the other.
  • one shaft is disposed within a lumen or recess of the other along a portion of, or the entire length of the shafts, and one shaft is composed of material having a different elasticity than the other.
  • all or part of one shaft may be composed of a malleable metal or composed of a flexible wire while the other is entirely or partially composed of a plastic material.
  • Many combinations are suitable for this invention as well as synthetic wire materials.
  • thermoform or thermoset plastics are well known in the art including thermoform or thermoset plastics but are not limited to polycarbonate (PC), polyethylene (PE), high density polyethylene (HDPE), polyetherimide (PEI), polysulfone (PSO), polyethersulfone (PES), polyethylene terepthalate (PET), polypropylene, polystyrene, high impact polystyrene (HIPS), acrylanitrile butadiene styrene (ABS), polyvinylchloride (PVC), acetal, Nylons (e.g., Nylon 4-6, Nylone 6- 6, Nylon 11, or Nylon 12) , acrylic-styreneacetonitrile (ASA), polyester liquid crystal polymer (LCP), stylene acrylonitrile (SAN), polyvinyldiene difluoride (PVDF), melamine, phenolics and the like.
  • PC polycarbonate
  • PE polyethylene
  • HDPE high density polyethylene
  • PEI
  • Typical procedures for forming the materials into suitable housing may be formed by compression molding, blow molding, casting, extrusion, pressure forming, and the like.
  • one or more of the components of the present invention is/are fabricated from or coated with materials that provide improved non-slip surfaces, particularly when wet such as rubber, Neoprene or other suitable thermoplastic elastomers.
  • the present invention also provides software application capable of execution on elements of the system which are provided with microprocessors.
  • an application which upon initiation places the system in condition for display of the image conducted to the display from the image acquisition element.
  • such software would place the system in video mode, and optionally turn on the illumination source, and enable controls such as illumination level, zoom control, and focus control of the image acquisition element, recording, and broadcast of the signal to remote devices such as other networked computers and portable computing and communication devices such as smartphones.
  • Each module can be implemented as a software program stored on computer readable media provided in a component of the system.
  • Computer-readable media in which such formatted data and/or instructions may be embodied include, but are not limited to, a tangible memory (e.g random access memory, read only memory, etc.) to be read by a central processing unit to implement the functions.
  • the application software may be accessed from within or loaded into a component of the system.
  • embodiments and features of the invention may be implemented through computer-hardware, software and/or firmware. Although some of the disclosed implementations describe components such as software, systems and methods consistent with the innovations herein may be implemented with any combination of hardware, software and/or firmware.
  • the system of the present disclosure may further include a malleable rod.
  • the rod may be received within a lumen or groove which traverses all or a portion of the length of the stylet.
  • first shaft (40) includes a central lumen or recess traversing all or a portion of its length, and accessed by opening (85) in the first pressure receiving element (50). While the embodiment of Figures 1-3 depicts the first shaft being configured to receive the malleable rod, it will be understood that the second shaft may alternatively, or also, be configured to receive the malleable rod.
  • the malleable rod is inserted into the shaft such that the shaft may be bent to have a predetermined shape or deflection.
  • the first or second pressure receiving element is provided with a recess configured to house the end of the malleable rod so that the end of the rod does not interfere with the user.
  • the embodiment shown in Figure 1 includes recess (95) in the first pressure receiving element (50).
  • the display allows the user to view the inside of a cavity while manipulating the distal end of the stylet within the cavity. This is extremely advantageous when conducting medical procedures such as endotracheal intubation of a subject which requires exact placement and advancement of the distal tip of the stylet into the trachea.
  • the display is positioned such that the user may easily view the display while also manipulating and operating the stylet.
  • the display is adapted to be worn on the wrist of a user so that the user has a direct view of the display at all times during an intubation procedure.
  • the display may be attached to a sleeve to be worn by the user.
  • the system may also include a display holder to house the display having a malleable or articulating arm adapted to attach or couple to an object in the user’s surrounding, such as an IV pole, side rail or operating room table.
  • the stylet of the disclosure transitions from a first relaxed configuration to a second deflected state upon application of opposing forces to the first and second pressure receiving elements.
  • application of opposing forces (arrows A and B) to the first and second pressure receiving elements (50, 60) produces a deflection in the deflectable section (100).
  • application of opposing forces allows deflection of the tip to be adjusted while entering a confined space, such as an airway.
  • the stylet is transitioned from the first configuration to the second configuration by forces applied by a thumb and one or more fingers of a user such that the first and second pressure receiving elements are squeezed together.
  • the first and second pressure receiving elements of the stylet may by electromechanically coupled and configured to draw the first and second pressure receiving elements closer to one another.
  • the stylet may further include an actuator to facilitate generation of force.
  • the electromechanical coupling may be voice activated or activated by a mechanical or digital switch.
  • the system of the disclosure may be configured such that the stylet may be maintained in a particular configuration, for example, the first relaxed configuration or the second deflected configuration. One in the art would appreciate that this may be accomplished in a variety of ways.
  • the stylet may be configured such that the first and second pressure receiving elements interlock with one another during transitioning of the stylet between configurations. This may be achieved via the electromagnetic coupling or alternatively, the first and second pressure receiving elements may include releasably interlocking elements that prevent transition of the stylet back to the relaxed configuration while the stylet is being deflected.
  • the stylet of the system of the disclosure is adaptable to be used with accessory devices of different lengths and types.
  • the length of the stylet may be altered by inclusion of stylet spacers or an attaching portion that may be disposed over that first and second shafts of the stylet.
  • Figures 6-9 illustrate spacers that may be utilized with the present system embodiments of the invention.
  • Figures 6 and 7 depict an embodiment of a spacer that is disposed over the stylet shaft and configured to couple to a pressure receiving element.
  • Figures 8 and 9 illustrate an embodiment of a spacer that is disposed over the stylet shaft and configured to engage the spacer shown in Figures 6 and 7.
  • spacer 120; that shown in Figures 6 and 7 couples with the second pressure receiving element (60) and engages a second spacer (130; that shown in Figures 9 and 10).
  • the spacers may be configured or shaped such that rotational motion between the spacers is prevented. This may be accomplished in a number of ways.
  • the spacers may include surface grooves or ridges that prevent rotation with an adjacent spacer.
  • a stylet may be configured to include any number of spacers, such as 1, 2, 3, 4, 5, 6, 7, 8 or more spacers.
  • the stylet spacer or attaching portion may optionally be configured to engage with the actuator control mechanism designed as a wheel with pressure receiving elements about its circumference.
  • the ability to adjust the length of the stylet allows the system to be used with a variety of accessory devices of different lengths and types.
  • the system of the disclosure is adaptable for use with accessory devices for both pediatric and adult application, such as pediatric and adult ETs.
  • the system of the disclosure is ideal for use with a video laryngoscope, video supraglottic airway, video ET or a video oral airway.
  • this system has the added benefit of being a standalone low-cost alternative to video laryngoscopes for use with difficult intubations. It can also augment the use of a video laryngoscope by providing a view of the larynx from the tip of the ET during intubation thus providing an immediate image of a correctly placed (trachea) or incorrectly placed (esophagus) ET.
  • the view of the larynx is often obstructed during video laryngoscope intubation as the distal end of the ET passes in front of the video laryngoscope’s camera. Additionally, the correct ET depth placement within the trachea can be quickly visually verified thus preventing an inadvertent endobronchial intubation; a benefit not provided by a video laryngoscope used without this invention.
  • the system of the disclosure is used for intubating a subject.
  • the invention provides a method for intubating a subject.
  • the method includes inserting the stylet of the disclosure into an ET.
  • the stylet and the ET are then inserted into the airway of the subject.
  • the airway of the subject is visualized via images acquired by the image acquisition element and transmitted to the display.
  • the stylet and the ET are then inserted into the trachea of the subj ect and subsequently the stylet is removed from the subj ecf s trachea.
  • the method may further include confirming correct depth of placement of the ET in the trachea of the subject.
  • a malleable rod may be inserted into the first or second shaft of the stylet and bent to a desired curvature before inserting the stylet into the airway.
  • the ability to controllably place a display near the patient’s oral opening allows the laryngoscopist to intubate the patient without having to move his head and neck to view a distant screen.
  • a display placed near or adjacent to the proximal end of a stylet or ET is similarly out of the laryngoscopist’ s field of view during direct laryngoscopy. Any small movement of the head and neck away from the view during direct laryngoscopy complicates visualization of the vocal cords and can lead to injury of the teeth, gums, or lips.
  • the term“patient” or“subject” refers to a variety of animal types. Generally the patient or subject is human, although as will be appreciated by those in the art, the patient or subject may be an animal. Thus other animals, including mammals such as rodents (including mice, rats, hamsters and guinea pigs), cats, dogs, rabbits, farm animals including cows, horses, goats, sheep, pigs, etc., and primates (including monkeys, chimpanzees, orangutans and gorillas) are included within the definition. As such, it is clear that the system of the invention may be utilized in veterinary applications.
  • rodents including mice, rats, hamsters and guinea pigs
  • cats dogs, rabbits, farm animals including cows, horses, goats, sheep, pigs, etc.
  • primates including monkeys, chimpanzees, orangutans and gorillas
  • Figure 19 shows (a) a front aspect, and (b) a side aspect of a stylet (10) of the disclosure, connected to an ET connector (200).
  • the stylet has a stylet body (300) with a distal and a proximal end. Distal and proximal are here described in relation to the use of the stylet, with the proximal end being the end of the stylet which is typically held by an operator during use in a process of intubation. The distal end of the stylet is the end which in use may be inserted into a patient’s airway to assist in an intubation process.
  • the stylet has a pivotable tip (500) located at the distal end of the stylet body, and an actuator (700) attached at the proximal end of the stylet body.
  • the actuator (shown in Figure 21 and described in detail below) is here conveniently manipulated by the operator using a thumb-pad (900) on a dial (1000) which rotates around an axle (1100).
  • the pivotable tip is affixed to the stylet body (300) at a pivot hinge (1300) which allows movement of the pivotable tip in a plane.
  • the stylet has an attaching portion (1500) located at the proximal end of the stylet, formed integrally with the body/retaining housing (1700) of the actuator.
  • the attaching portion here is formed as a receiving socket or plug portion which forms a plug- fit connection with an ET connector (200), which has a tapered portion (201) for connecting to an ET, and a flange portion (203).
  • the ET connector (200) is one of standard known ET connectors and does not in itself form part of the proposals relating to the stylet.
  • Figures 12-14 and 17-18 illustrate a stylet of the invention which is substantially the same as that of Figure 19.
  • the actuator is manipulated by the operator using a thumb- pad (900) on a dial (1000) having multiple arcuate recesses (3100) disposed about the dial (1000).
  • the thumb-pad may be composed of different material than the dial to facilitate tactile friction with a digit of the operator.
  • the handle portion of the malleable rod includes a tab (3000) that has a tip that extends beyond the housing when the rod is disposed within the stylet body to facilitate contact with a digit of the user.
  • the tab may be configured as a disk having a circular, elliptical, square, triangular, or rectangular shape.
  • Figures 12-18 illustrate a malleable rod in which the tab (3000) is generally elliptical.
  • the stylet has an image acquisition element (1600) disposed at the end of the tip.
  • This device is therefore positioned in such a way as to be able to capture images distal to the distal tip of the stylet.
  • the image acquisition element will therefore capture images from the end of the ET.
  • the images captured by the device may be transmitted in real time to a display device.
  • a wire (not shown) running along or inside the body of the stylet for electronically transmitting the image (s) from the image acquisition element at the stylet tip to such a display device. Where there is such a wire, it may be protected by a sheath.
  • FIGs 20 (a) and (b) show the range of movement of the pivotable tip in this stylet.
  • the tip can pivot at the pivotable hinge within a pivot range ⁇ X° from the longitudinal axis of the distal end of the stylet body, marked as axis A in Figure 20 (b).
  • the pivot range is observed to be approximately ⁇ 45°, however depending on the exact configuration of the stylet, a pivot range of up to ⁇ 90° or ⁇ 180° may be possible.
  • the tip can pivot in both directions from a A neutraf position where the tip is generally aligned with the stylet body. Accordingly, the stylet offers improved maneuverability of the stylet tip which can assist in more accurate guiding of an ET during an intubation process.
  • the mechanism by which the pivoting of the tip is controlled is discussed in relation to Figures 21-23, below.
  • Figures 21 and 22 show respectively a perspective view and an exploded perspective view of an actuator of the stylet of Figures 19 and 20, with control wires omitted.
  • Figure 21 shows the actuator connected to an ET connector at attaching portion (1500).
  • Figure 22 does not include an ET connector.
  • the mechanism has a thumb-pad (900) which can be manipulated to provide directional control of the tip of the stylet in a manner described in detail below.
  • the thumb-pad is formed as part of a dial (1000) which is rotatable around an axle (1100) in response to forces on the thumb-pad provided by an operator.
  • the thumb- pad is shaped to for improved ease of use, including a ridged surface for increased grip by the operator, although this is not essential.
  • the dial is attached to a body or retaining housing (1700) of the actuator via the axle (1100). Attaching portion (1500) is integrally formed with the body of the actuator. This may provide improved ease of manufacture of the device.
  • the actuator has a sliding pin and slot arrangement having end stops arranged to restrict the movement range of the actuator (and correspondingly restrict the movement range of the stylet tip) .
  • the pin (1200) is arranged to project from the actuator body (1700) to engage slot (1400) formed in the dial (1000) of the actuator.
  • the slot moves in relation to the pin until the pin hits an end of the slot, preventing further relative movement of the components.
  • a handle portion (2000) of a malleable titanium rod (1900) is visible, the remainder of the rod being removably disposed within a central lumen (1800) of the tubular stylet body (300).
  • the malleable rod here has a rectangular cross section, with the central lumen of the stylet body being correspondingly rectangular.
  • the handle has a ridged gripping portion (2100) to aid removal and insertion of the rod.
  • the handle portion of the rod lies within a recess formed in the body of the actuator, which can prevent the handle from obstructing the actuator during use.
  • the malleable rod can either be removed from the stylet completely, or can be bent into a desired shape to aid in insertion of the stylet and ET through vocal cords.
  • the dial of the actuator has a notch (2200) which enables the malleable rod to be removed easily without obstruction by the dial.
  • Figures 12-14 illustrate a stylet of the invention which is substantially the same as that of Figure 19.
  • the handle portion of the malleable rod includes a tab (3000) that has a tip that extends beyond the housing when the rod is disposed within the stylet body to facilitate contact with a digit of the user.
  • the tab may be configured as a disk having a circular, elliptical, square, triangular, or rectangular shape.
  • Figures 12-18 illustrate a malleable rod in which the tab (3000) is generally elliptical.
  • the stylet further has a port (3500) located on the body of the actuator for attachment to an air or oxygen line.
  • the port passes through the actuator body into a cavity defined by the attaching portion (1500).
  • air or oxygen can be provided into the ET via this port on the stylet.
  • the port may have a ridged outer surface to help retain an oxygen line which is connected to the port.
  • Figure 23 shows a sectional view of an actuator of Figures 21 and 22.
  • a control wire (2300) extending round a central drum (2400) of the actuator dial and attached to a retaining portion (2500) to hold its circumferential position. Turning the drum adjusts the pivot angle of the tip of the stylet.
  • there is a single control wire which is attached to the retaining portion at its center, thus providing a first control wire portion and a second control wire portion which extend down to opposing sides of the pivotable tip, as shown in Figures 24(a) and (b).
  • tension is applied to one or other of the two wire portions.
  • the tip can be moved in a first direction.
  • the tip By applying tension to the second wire portion, the tip can be moved in a second direction.
  • the first and second wire portions are part of a single wire, they may alternatively be two separate control wires, and may be attached to a single retaining portion, or separate respective retaining portions, of the actuator.
  • the stylet body may have one or more wire retainers (2400) formed on the body as shown in Figure 24(a). Such retainers can help to hold the control wire(s) flush against the stylet body and avoid snagging of the wires during use.
  • at least a part of one or more of the wire portions may run inside a channel (2500) formed in the stylet body, as shown in Figure 22.
  • the dial (1000) has a toothed portion (2700), the notches of which engage with a spring-loaded detent (2900) to provide a series of incremental stop points.
  • the detent (2900) is on an arm pivotable about a pivot axle (3100), and affixed to a spring (3300) at the opposing end. Accordingly, the detent is biased into engagement with the notches on the dial (1000) by the spring force of the spring.
  • this rotational movement of the toothed portion of the dial forces the detent out of engagement with the notches against the spring force, until the detent can click into the subsequent notch.
  • the mechanism allows for relatively smooth incremental adjustment of the pivot angle of the stylet tip.
  • One further advantage of the particular mechanism shown is that the user does not need to continuously provide input to the control mechanism to keep the stylet tip at a desired angle. Once the pivot angle of the tip has been set by rotation of the dial, the detent holds the dial in the selected position until it is again adjusted by the user. This means that the user can let go of the actuator to perform other actions as needed.
  • Figure 35 illustrates an embodiment of the stylet which includes one or more gears (3500) in operable connection to a dial (3100) of the actuator.
  • the one or more gears (3500) are configured to interact with the flexible shafts or control wire(s) (3600) disposed within the stylet body.
  • the one or more gears (3500) allows the amount of force required by the operator to manipulate the dial (3100) to be reduced.
  • FIGS 25 (a)-(c) show a first embodiment of an ET.
  • the ET has a body 1010 which comprises a flexible hollow tube.
  • the ET body may typically be made from e.g. PVC, although the skilled person will be aware of a range of other suitable materials.
  • the distal end of the tube is inserted into a patient’s trachea during intubation.
  • the proximal end of the ET may be removably attached to an ET connector for connection to a ventilation system, although this is not shown in these drawings.
  • the ET has a bending portion (1030) located towards the distal end (1020) of the body, intermediate the body and the distal tip portion (1040) of the tube.
  • the bending portion is here formed as a concertina portion of the tube to promote preferential bending at that position.
  • the concertina allows for increased bending of the bending portion in comparison to the general flexibility of the body of the ET, as demonstrated in Figure 25 (c) .
  • the length of the concertina portion is not particularly limited, but should allow a suitable range of angular movement at the bending portion without excessive strain in the material.
  • the position of the bending portion along the length of the ET is selected in this embodiment such that when used in combination with the stylet described above, the pivot hinge of the stylet will align with the bending portion of the ET.
  • the ET includes two Murphy eyes (1050) formed at the distal end of the tube, on opposing sides of the tube. These openings provide alternative flow paths for air in the cause of occlusion of the main outlet of the tube.
  • the Murphy eyes are sized to limit or prevent protrusion of a stylet through the openings.
  • the skilled person will be well aware of a wide variety of features which the ET may incorporate but which are not pictured here, including but not limited to an inflatable cuff and corresponding inflation line with pilot balloon, a radio opaque line to enhance imaging of the tube, and markings on the tube to guide positioning of the tube.
  • the ET may further include markings or color coding for identification of depth of insertion when the ET is advanced in an intubation conduit to identify the exact depth of insertion where the endotracheal tube’s flexible bending segment has exited the intubation conduit distally and is able to be deflected without impedance.
  • Corresponding marking or color coding may be placed on the stylet as well to provide identification of the stylet’s exact depth of insertion where the stylet’s deflection point of the deflectable section has exited the intubation conduit distally and the stylet is able to be deflected without impedance.
  • FIG. 26 shows a schematic view of a second embodiment of an ET.
  • the bending portion (1030) is a portion of the tube made from a different material to the material of the body (1010) of the tube.
  • the body of the tube is made from a first type of PVC
  • the bending portion is made from a second, softer PVC, although it may also be possible to use e.g. silicone.
  • the body and the bending portion are connected together using a seal (shown as a dashed rectangle) which extends across the join between these portions.
  • the material chosen for the bending portion should typically be more flexible than the material of the body of the ET, to allow increased ease of bending the bending portion compared to the body of the ET.
  • the bending portion (1030) includes the distal tip portion (1040) of the ET.
  • an inflatable cuff 1070 is also shown.
  • a cuff is a standard feature of many well-known ET designs, and as such, the size and shape of the cuff is not particularly limited.
  • the material which the inflatable cuff is made from is not particularly limited and the skilled person will be well aware of a number of suitable materials which could be used for this purpose.
  • the bending portion may not be formed of a different material, but may be made of the same material having a lower density than the body of the ET. Alternatively or additionally, the bending portion may be locally thinned for increased flexibility. It is also considered that any of the above proposed features of the bending portion may be used in combination.
  • the bending portion may be, for example:
  • FIGs 27 and 28 show views of an intubation kit, including a stylet of the first aspect and an ET of the second aspect, in addition to an ET connector (200).
  • the ET shown here is an ET having a concertina or bellows flexible bending segment.
  • the ET is shown as a dashed line. In this figure, it can be seen that the ET fits onto the tapered portion (201) of the ET connector.
  • the ET described in this application can be alternatively designed in the form of a Nasal RAE ET, Oral RAE ET, NIM (Neural Integrity Monitor) ET, or standard single or double lumen ET.
  • the position of the stylet inside the tube can be visualized.
  • the location of the flexible bending segment (1030) is selected to align with the location of the angularly deflectable hinge (1300) of the stylet when the stylet and the ET are connected.
  • the length of the stylet and ET respectively will be selected such that the stylet does not protrude from the end of the ET when the ET is connected to the stylet. This is because where the stylet protrudes from the end of the ET, there is a risk that it could cause damage to a patient's airway during the intubation due to the more rigid nature of the stylet (in particular, any rigid elements at the stylet tip) in comparison to the ET.
  • FIG 29 shows a schematic view of the intubation kit of Figure 28 in use in an intubation process.
  • the ET body (1010) is generally flexible along its length and can curve to fit the patient’s airway.
  • the additional flexibility provided by the bending portion (1030) of the ET allows for ease of manipulation of the distal end of the ET using the pivotable stylet tip, which is controlled by a user using the actuator (700) of the stylet which remains outside of the patient’s body during use. Due to the location of the image acquisition element in the stylet tip, the user can more easily guide the ET into the desired location by visualization of the airway from the distal end of the ET.
  • the kit can be used to perform an intubation process, including steps of a) inserting the stylet into the ET, b) inserting the stylet and ET into the airway of a patient, c) visualizing the airway of the patient using the image acquisition element disposed on the stylet tip, d) guiding the ET and stylet through the vocal cords of the patient into the trachea of the patient, and e) removing the stylet from the ET.
  • the stylet of the invention may be preloaded in a single or double lumen ET.
  • the stylet is used with a double lumen ET as shown in Figure 32.
  • Figure 33 illustrates an embodiment of use of a double lumen ET with the stylet shown in Figures 30 and 31.
  • the stylet is adapted for use with a double lumen ET for one lung ventilation (OLV).
  • Double lumen ETs have two lumens; a bronchial lumen that is placed so it’s distal opening is in the left or right main stem bronchus and a tracheal lumen that is placed so it’s distal lumen is in the trachea.
  • the two lumens form one lumen proximally via an extension piece that allows either lumen to be clamped shut for isolated one lung ventilation or opened for bronchoscopy or suctioning.
  • Double lumen ETs are designed with a sharp distal curve to facilitate placement to the right or left main stem bronchus. Since double lumen ETs have this sharp distal curve and are more bulky than standard ETs, they are often difficult to place with direct or even with the aid of video laryngoscopy. Consequently, many practitioners place a bronchoscope thru the double lumen ET, then place the bronchoscope in the correct main stem bronchus, and finally railroad the double lumen ET over the bronchoscope. The same bronchoscope is typically used in the tracheal lumen to check double lumen ET position after placement. These extra steps require special skills and extra time. When the double lumen ET cannot be placed, a bronchial blocker is typically used in its place. However, the double lumen ET is the preferred airway for OLV in most cases.
  • Double lumen ETs without steering capability with a fixed and integrated camera and camera lens cleaning system such as US20140128672A1 to Daher and Granot are well known but since there is no steering capability, it is not helpful with initial placement of the double lumen ET thru the vocal cords or steering into the correct bronchus - one of the most technically challenging procedures in thoracic anesthesia.
  • the camera is not removable (as it would be with the stylet of this invention) so it is subject to blurred monitor views from secretions on its camera lens. Rather than removing the camera lens and cleaning then reinserting the camera lens, an ineffective spray for the camera lens is the only option for cleaning heavy secretions from patients with pulmonary disease.
  • the tip of the double lumen ET can optionally be flexible and wire reinforced to prevent kinking.
  • the initial position can optionally be straight instead of curved to keep the images from the camera oriented correctly.
  • This embodiment of double lumen ET of the invention would not have to be physically turned 90 degrees for placement into a bronchus, leading to quicker, more accurate placement.
  • a secondary distal bronchial opening would be another embodiment for a right sided double lumen ET version to allow for ventilation of the lung’s right upper lobe.
  • the double lumen ET’s proximal extension piece is manufactured slightly longer and consequently the double lumen ET slightly shorter, with ability to disconnect from the ISO 15-22mm connectors very close to the two double lumen ET lumens’ point of separation proximally.
  • each tube of the double lumen ET, and the stylet is sized such that a single length stylet can be used in both the tracheal tube and bronchial tube.
  • length BD of the tracheal tube should be the same as length AE of the bronchial tube, and consequently equal to the length of the stylet body from the actuator to the distal tip of the stylet.
  • Left sided double lumen ETs are turned 90 degrees counterclockwise in the trachea after insertion past the vocal cords.
  • right sided double lumen tubes are turned 90 degrees clockwise in the trachea after insertion past the vocal cords.
  • a video camera located at the distal lumen of either the bronchial or tracheal lumen will have its image turned 90 degrees in the opposite direction and ultimately display an image 180 degrees from the camera’s orientation and 90 degrees from the original image orientation.
  • the system of the invention has an optional spatial orientation/position sensor placed on the double lumen ET and/or stylet to keep track of the tube and/or its associated video camera’s spatial positioning.
  • the image orientation can be chosen by the user as the following: 1) no monitor image adjustment; 2) monitor image adjustment to current camera orientation; or 3) monitor image adjustment to original image orientation.
  • An illustration of these settings is shown in Figure 34. These adjustments can be made in 90 degree intervals or in as little as less than 1 degree intervals.
  • This spatial orientation/position sensor and consequent video monitor image adjustment can be applied to any video monitor used with any video camera for Airway Management, including Bronchoscopes, Video Stylets, Video Laryngoscopes, Video ETs, Video Supraglottic Airways, Video Oral Airways, and the like.
  • the double lumen ET may include one or more sensors for sensing physiological parameters of the subject, such as deep tissue oxygen sensors located along the tracheal and bronchial sections as shown in Figure 35.
  • the sensors (4100) may be disposed longitudinally along each tube of the ET (4000) or radially around each tube.
  • the main trunk of the pulmonary artery lies directly anterior to the left main stem bronchus. This provides an ideal location for a deep tissue oxygen sensor to measure desaturated pulmonary arterial blood.
  • thermodilution techniques from a pulmonary artery catheter for example
  • echocardiography techniques from a pulmonary artery catheter for example
  • electrical impedance monitoring endotracheal cardiac output monitor -(ECOM for example)
  • hemoglobin values can be easily determined by the Fick equation:
  • V02 (CO * Ca02)- (CO * Cv02)
  • V02 rate of oxygen consumption
  • stylet attachment and spacer device for coupling a stylet with an ET.
  • the device connects the stylet to the ET attachment portion (5010) and prevents rotational or longitudinal movement during use.
  • a port (5020) for a line to connect suction, 02, air, or medication is optionally included.
  • the malleable rod has a tab (5050) bent at 90 degrees so the user can easily pull or push it into the desired location. This rod terminates distally at the stylets deflection point (not shown).
  • three points of attachment (5060) for the axle of the actuator control mechanism of the stylet This variable height option allows for the use of a single stylet with several length endotracheal tubes.
  • FIG 41 shows a side view (lateral view) of an ET’s distal end (6000) of the invention.
  • a stylet or endoscope 6010 that is held in a stable position by projections (6020) extending from the inner wall of the tube and contacting the stylet or endoscope (6010).
  • the design allows proper airflow through the endotracheal tube once the stylet or endoscope is removed.
  • the inner wall of the tube may include any number of projections, including for example, 1, 2, 3, 4,5 ,6 ,7 8, 9, 10 or more projections extending into the tube lumen to stabilize the stylet or endoscope.
  • FIG. 41 The front view of the ET’s distal end (7000) is also shown in Figure 41 with stylet or endoscope (6010) located within and reversibly secured by the projections (6020).
  • the ET includes a marking (8010) for identification of the depth of insertion in an intubation conduit where the ET’s flexible bending segment exits the intubation conduit. Not shown are the flexible bending segment and stylet or endoscope.
  • the actuator control mechanism (9010) comprises a wheel (9020) with several arcuate recesses (9030) about its circumference coupled to two flexible shafts (9040).
  • the user’s hand typically thumb and forefinger, apply force (A and B) to the pressure receiving elements (9050) located about the circumference of the wheel (9020). These forces are transmitted to the flexible shafts (9040) and result in angular deflection at the deflection point of the stylet.
  • the distal tip of the stylet and its surrounding endotracheal tube will retroflex.
  • Force B is applied by a thumb or forefinger to one of the pressure receiving elements (9050)
  • the movement (flexion and retroflexion) at the distal tip of the endotracheal tube can be accomplished with individual or simultaneous forces on more than one pressure receiving element (9050).
  • the flexible shafts (9040) can also function independently of each other with separate couplings to the actuator control mechanism (9010).
  • FIG. 43 Also shown in Figure 43 is the removable malleable rod (9065) and its lumen located in one of the flexible shafts (9040). This allows the intubation device to be temporarily shaped proximally and angularly deflected distally in either direction. Additionally, one or more markings (9060) are included on one or more of the shafts (9040) of the stylet to indicate the depth of the intubation conduit during intubation.
  • Figure 43 further includes diagram (10000) of the intubation device (9000) with the addition of a third flexible shaft (9070) that enables steering in a third direction.
  • the third flexible shaft (9070) is a wire that has a proximal loop (9080) that can be pulled with a user’s digit.
  • the deflection point (9090) of the stylet is illustrated which includes a plastic living hinge or standard hinge configuration. At the distal end of the stylet is the optional camera and illumination source (9095) with power and wiring omitted.
  • the invention provides a kit.
  • the kit may include an imaging system or intubation device as described herein.
  • the kit may further include instructions for obtaining images of a confined space, such as an airway.
  • the kit further includes one or more spacer elements, an ET, a malleable rod, a display, or a combination thereof.
  • the invention provides a kit.
  • the kit may include a stylet and single or double lumen ET as described herein.
  • the kit may further include instructions for obtaining images of a confined space, such as an airway.
  • the kit further includes a malleable rod, one or more displays, or a combination thereof.
  • the present invention is useful in the visualization of any space, particularly confined spaces not amenable to direct visualization. Therefore, the present invention is useful in a variety of fields including but not limited to medical treatment and diagnosis, surveillance including law enforcement and military applications, inspection of machinery without disassembly and automotive applications.
  • the invention provides a method of imaging a confined space. The method includes inserting a stylet or device of the disclosure into the confined space, and visualizing the space via an image acquisition element before, during or after insertion of the device into the confined space, thereby imaging the confined space.
  • the present invention is useful for surveillance, particularly in the fields of law enforcement or military applications.
  • the image conduit may be threaded through very small spaces to enable visualization of the interiors of rooms or confuted spaces while minimizing the exposure of the operator to potentially dangerous situations.
  • the present invention may be used to visualize spaces which may contain explosive devices or contraband.
  • Commercially available image sensors are capable of recognizing light outside the visible spectrum or in low or zero lux conditions. Consequently, the present invention may be useful as a“night vision” surveillance system to enable the operator to obtain an image of a space in the substantial absence of ambient light.
  • the illumination source of the present invention may provide illumination in a frequency range outside the visible spectrum and such non-visible light sources may be employed to invisibly illuminate an area and enhance such“night vision” capabilities.
  • the present invention is also useful in a variety of automotive applications.
  • the image conduit may be threaded through small spaces such as spark plug holes to enable visualization of the interiors of cylinders, intake and/or exhaust valves, intake and exhaust systems, HVAC systems, to inspect the status and operation of enclosed mechanical mechanisms without disassembly (e.g window mechanisms, door locking mechanisms, transmissions, differentials, fuel systems, and the like), assess the state of replaceable parts such as brake linings or clutches, and the like.

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  • Health & Medical Sciences (AREA)
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  • Emergency Medicine (AREA)
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  • Anesthesiology (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
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  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
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  • Otolaryngology (AREA)
  • Endoscopes (AREA)

Abstract

L'invention concerne un tube endotrachéal (ET) à lumière simple ou double et ses méthodes d'utilisation. L'ET peut réaliser une déviation distale multidirectionnelle et fournit une fixation de stylet et d'endoscope au cours du fonctionnement. L'invention concerne également un stylet, éventuellement destiné à être utilisé avec l'ET et ses méthodes d'utilisation.
PCT/US2020/027226 2019-04-08 2020-04-08 Tube endotrachéal capable de déviation distale multidirectionnelle à fixation de stylet et d'endoscope au cours du fonctionnement WO2020210327A1 (fr)

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US201962830822P 2019-04-08 2019-04-08
US62/830,822 2019-04-08

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022099103A1 (fr) * 2020-11-06 2022-05-12 Bon Secours Mercy Health, Inc. Tube endotrachéal
WO2023073446A1 (fr) * 2021-10-30 2023-05-04 Rezaee Mehdi Tube endotrachéal doté d'un manchon coulissant
US11832800B2 (en) 2022-02-09 2023-12-05 Visurraga Enterprises Llc Medical visualization and intubation systems

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4488548A (en) * 1982-12-22 1984-12-18 Sherwood Medical Company Endotracheal tube assembly
US4637389A (en) * 1985-04-08 1987-01-20 Heyden Eugene L Tubular device for intubation
US5623924A (en) * 1996-03-29 1997-04-29 Lindenman; Tammy S. Apparatus and method for retaining an endotracheal tube
US20020043266A1 (en) * 1999-09-27 2002-04-18 Toti Andrew J. Endotracheal tube with tip directional control and position preserving mechanism
US20090120444A1 (en) * 2005-01-05 2009-05-14 Sapienza Jose Carlos Romeiro Single-Lumen Endotracheal Tube for Partial Lung Ventilation
US20100313895A1 (en) * 2006-09-29 2010-12-16 Nellcor Puritan Bennett Llc Self-sizing adjustable endotracheal tube
US20110120458A1 (en) * 2009-11-24 2011-05-26 John Schwartz Endotracheal intubation device
US20110265789A1 (en) * 2010-04-28 2011-11-03 Sabry Gabriel Endo-tracheal intubation device with adjustably bendable stylet

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4488548A (en) * 1982-12-22 1984-12-18 Sherwood Medical Company Endotracheal tube assembly
US4637389A (en) * 1985-04-08 1987-01-20 Heyden Eugene L Tubular device for intubation
US5623924A (en) * 1996-03-29 1997-04-29 Lindenman; Tammy S. Apparatus and method for retaining an endotracheal tube
US20020043266A1 (en) * 1999-09-27 2002-04-18 Toti Andrew J. Endotracheal tube with tip directional control and position preserving mechanism
US20090120444A1 (en) * 2005-01-05 2009-05-14 Sapienza Jose Carlos Romeiro Single-Lumen Endotracheal Tube for Partial Lung Ventilation
US20100313895A1 (en) * 2006-09-29 2010-12-16 Nellcor Puritan Bennett Llc Self-sizing adjustable endotracheal tube
US20110120458A1 (en) * 2009-11-24 2011-05-26 John Schwartz Endotracheal intubation device
US20110265789A1 (en) * 2010-04-28 2011-11-03 Sabry Gabriel Endo-tracheal intubation device with adjustably bendable stylet

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022099103A1 (fr) * 2020-11-06 2022-05-12 Bon Secours Mercy Health, Inc. Tube endotrachéal
WO2023073446A1 (fr) * 2021-10-30 2023-05-04 Rezaee Mehdi Tube endotrachéal doté d'un manchon coulissant
US11832800B2 (en) 2022-02-09 2023-12-05 Visurraga Enterprises Llc Medical visualization and intubation systems

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