Abstract: The present disclosure relates generally to the field of medical devices. In particular, the present disclosure relates to medical devices and systems with control knobs designed for improved usability and ergonomics. For example, the control knobs of the present disclosure may include surface features for improved gripping, surface features for improved perception of medical device orientation within a patient and/or knobs dimensioned for improved thumb reach and reduced torque.

Abstract: The present disclosure relates generally to the field of medical devices. In particular, the present disclosure relates to medical devices and systems with control knobs designed for improved usability and ergonomics. For example, the control knobs of the present disclosure may include surface features for improved gripping, surface features for improved perception of medical device orientation within a patient and/or knobs dimensioned for improved thumb reach and reduced torque.

Abstract: An elongated tissue traction device adhered to target tissue and configured to lift the target tissue away from surrounding tissue. The tissue traction device may lift the target tissue as a surgical procedure is performed, such as resecting or cutting of the target tissue. The tissue traction device may be a bistable spring. The tissue traction device is in a first stable configuration when initially adhered to the target tissue. The tissue traction device may be shifted (e.g., actuated) into the second configuration, such as when the tissue is resected or cut around the target tissue to which the tissue traction device is adhered. In the second stable configuration, the tissue traction device curls and lifts the target tissue from the surrounding tissue.

Abstract: A tissue traction device including a scaffold structure configured to anchor the tissue traction device in place such that a tissue traction element is anchored upon deployment of the scaffold structure and without further manipulation of the tissue traction device (such as to grasp tissue or otherwise anchor the tissue traction element to tissue). The scaffold structure may be self-supporting/self-standing to be in a deployed expanded configuration to anchor the tissue traction device with respect to the tissue. The tissue traction element may be pivotably coupled to the scaffold structure, such as to a rigid element of the scaffold structure. The tissue traction element, when anchored by the scaffold, exerts a force (e.g., traction force) on a region of target tissue to which the tissue traction element is coupled, such as via a tissue engagement member.

Abstract: The present disclosure relates generally to the field of medical devices. In particular, the present disclosure relates to medical devices and systems with control knobs designed for improved usability and ergonomics. For example, the control knobs of the present disclosure may include surface features for improved gripping, surface features for improved perception of medical device orientation within a patient and/or knobs dimensioned for improved thumb reach and reduced torque.