Abstract:
A method for identifying material to be removed from a patient may use an imaging device, a display, a control unit, and an insertion device. The method may include obtaining a first set of image data from the imaging device, sending the first set of image data to the control unit from the imaging device, and analyzing the first set of image data based on at least one of a darkness, a contrast, or a saturation. The method may include generating a coded image identifying the material to be removed from the patient to be displayed on the display. The method may further include displaying the coded image on a first screen of the display, and indicating the material to be removed with the insertion device based on the displayed coded image.
Abstract:
A device or scope device is disclosed. The device may comprise: a handle body extending along an axis between first end and a second end; an actuator at the first end of the handle body; a catheter at the second end of the handle body; and a processing unit communicable with a plurality of devices to: switch-in the actuator for control of one device of the plurality of devices; configure, with the actuator, a setting of the one device, control, with the actuator, the one device based on the setting, and switch-in the actuator for control of another one of the plurality of devices. Related devices and methods also are disclosed.
Abstract:
Some embodiments are directed to implants and methods for making and using the implants. An exemplary implant includes a first elongate member and a second elongate member each having a first end portion and a second end portion. The first and second end portions of the first elongate member may be configured to be coupled to tissue of a patient proximate the vagina and sacrum, respectively. The first elongate member may define a first opening and a second opening, where the second elongate member may be configured to extend through the first opening and the second opening. The first end portion of the second elongate member may be coupled to tissue proximate the vagina of the patient.
Abstract:
The invention discloses an implant. The implant may include a first flap and a second flap. The first flap may further include a first portion, a second portion and a transition region. The first portion may be configured to be attached proximate a sacrum. The second portion may be configured to be attached to an anterior vaginal wall. The transition region lies between the first portion and the second portion. The second flap may be fabricated such that a portion of the second flap is configured to be attached to a posterior vaginal wall. The implant may be configured such that a value corresponding to a biomechanical parameter defining a biomechanical attribute of the portion of the first flap attaching to the anterior wall is different from a value of the biomechanical parameter defining the biomechanical attribute of the portion of the second flap attaching to the posterior wall.
Abstract:
According to an aspect, a medical device includes an elongate member, a first arm extending from the elongate member, a second arm extending from the elongate member, the second arm being configured to move with respect to the first arm, and a needle coupled to the elongate member, the needle being configured to move with respect to the elongate member.
Abstract:
An insertion device, includes an elongate member having a needle portion and a handle portion. The handle portion includes a visual indicator. The visual indicator is configured to indicate an orientation of the needle portion.
Abstract:
Some embodiments are directed to implants and methods for making and using the implants. An exemplary implant includes a first elongate member and a second elongate member each having a first end portion and a second end portion. The first and second end portions of the first elongate member may be configured to be coupled to tissue of a patient proximate the vagina and sacrum, respectively. The first elongate member may define a first opening and a second opening, where the second elongate member may be configured to extend through the first opening and the second opening. The first end portion of the second elongate member may be coupled to tissue proximate the vagina of the patient.
Abstract:
A medical device assembly includes an implant having a support portion, and an arm portion and a dilator. The medical device assembly further includes a first suture having a first portion coupled to the arm portion of the implant, and a second portion coupled to the dilator. In addition, the assembly includes a second suture having a first portion coupled to the arm portion of the implant, and a second portion coupled to the dilator.
Abstract:
In one embodiment, a medical device includes a tissue anchor has a first portion and a second portion. The tissue anchor is configured to be placed within bodily tissue of a patient. The first portion of the tissue anchor includes an extension member configured to engage the bodily tissue to help retain the tissue anchor within the bodily tissue. The first portion has an inner surface and defines a cavity. The second portion of the tissue anchor has a helical ridge. The helical ridge is configured to engage the inner surface of the first portion of the tissue anchor to movably couple the second portion of the tissue anchor to the first portion of the tissue anchor.
Abstract:
The invention discloses an implant. The implant may include a first flap and a second flap. The first flap may further include a first portion, a second portion and a transition region. The first portion may be configured to be attached proximate a sacrum. The second portion may be configured to be attached to an anterior vaginal wall. The transition region lies between the first portion and the second portion. The second flap may be fabricated such that a portion of the second flap is configured to be attached to a posterior vaginal wall. The implant may be configured such that a value corresponding to a biomechanical parameter defining a biomechanical attribute of the portion of the first flap attaching to the anterior wall is different from a value of the biomechanical parameter defining the biomechanical attribute of the portion of the second flap attaching to the posterior wall.