An intubation shield having a viewing panel and a front opening surrounded by a first side wall, a second side wall, a back wall and a front dome wall configured to cover at least a portion of the head, the neck and/or the upper torso of a patient to form a barrier between the covered parts of the patient and the upper body of the practitioner, wherein the viewing panel allows for uninterrupted visibility of an anatomical feature of the patient, and the front opening allows the body of the patient to be inserted while minimizing the droplet contamination, and a first arm hole on the first side wall and a second arm hole on the second side wall to increase the freedom of movement of the practitioner while performing medical procedures.

A disposable surgical drape is provided for use while performing surgical procedures on an eyes of a patient, or other surgical procedures. The surgical drape comprises a base sheet, defining first and second surgical apertures, for attachment to a patient, and at least one protective patch which can be applied over one of the surgical apertures after the drape has been positioned on the patient. The protective patch defines a slit through which the procedure can be performed, while the other surgical aperture remains open and unobstructed to minimize any patient claustrophobia. After the procedure is performed on one eye of the patient, the protective patch can be removed, and a fresh protective patch applied to the other surgical aperture to permit the procedure to be performed on the other eye of the patient.

A disposable surgical drape is provided for use while performing surgical procedures on an eyes of a patient, or other surgical procedures. The surgical drape comprises a base sheet, defining first and second surgical apertures, for attachment to a patient, and at least one protective patch which can be applied over one of the surgical apertures after the drape has been positioned on the patient. The protective patch defines a slit through which the procedure can be performed, while the other surgical aperture remains open and unobstructed to minimize any patient claustrophobia. After the procedure is performed on one eye of the patient, the protective patch can be removed, and a fresh protective patch applied to the other surgical aperture to permit the procedure to be performed on the other eye of the patient.

The present invention relates to a connector for connection through a flexible barrier. The connector comprises at least a device pad and at least a landing pad. The device pad is arranged in close proximity to the landing pad for contactless connection through the flexible barrier to transmit and/or receive data and/or power between each other. The device pad and the landing pad are configured to attach and/or align to each other. Furthermore, a system for connection through a flexible barrier, an according method, computer program element and computer readable medium are provided.

The present invention relates to a connector for connection through a flexible barrier. The connector comprises at least a device pad and at least a landing pad. The device pad is arranged in close proximity to the landing pad for contactless connection through the flexible barrier to transmit and/or receive data and/or power between each other. The device pad and the landing pad are configured to attach and/or align to each other. Furthermore, a system for connection through a flexible barrier, an according method, computer program element and computer readable medium are provided.

The present disclosure provides a method of medical procedure using augmented reality for superimposing a patient's medical images (e.g., CT or MRI) over a real-time camera view of the patient. Prior to the medical procedure, the patient's medical images are processed to generate a 3D model that represents a skin contour of the patient's body. The 3D model is further processed to generate a skin marker that comprises only selected portions of the 3D model. At the time of the medical procedure, 3D images of the patient's body are captured using a camera, which are then registered with the skin marker. Then, the patient's medical images can be superimposed over the real-time camera view that is presented to the person performing the medical procedure.

The present disclosure provides a method of medical procedure using augmented reality for superimposing a patient's medical images (e.g., CT or MRI) over a real-time camera view of the patient. Prior to the medical procedure, the patient's medical images are processed to generate a 3D model that represents a skin contour of the patient's body. The 3D model is further processed to generate a skin marker that comprises only selected portions of the 3D model. At the time of the medical procedure, 3D images of the patient's body are captured using a camera, which are then registered with the skin marker. Then, the patient's medical images can be superimposed over the real-time camera view that is presented to the person performing the medical procedure.

A transparent article of manufacture with improved and convenient access ports, light weight, venting, and ready for quick deployment. It may be single-use or reusable (upon proper sanitation). It has a vent for removal of aerosolized bacterial and viruses, and ports for clinicians to insert their hands. The general pyramidal shape promotes air flow to the vent, where aerosolized bacteria and viruses may be safely expelled, and allows for stacking.

A transparent article of manufacture with improved and convenient access ports, light weight, venting, and ready for quick deployment. It may be single-use or reusable (upon proper sanitation). It has a vent for removal of aerosolized bacterial and viruses, and ports for clinicians to insert their hands. The general pyramidal shape promotes air flow to the vent, where aerosolized bacteria and viruses may be safely expelled, and allows for stacking.

SA surgical room power system including at least one source of power wired to a power source for a surgical room, the at least one source of power being wired to the surgical room; at least one power receiver; and a surgical power consumer wired to the at least one power receiver, the surgical power consumer being configured to assist a surgeon during a surgical procedure on a patient. The at least one source of power wirelessly transfers power to the at least one power receiver for powering the surgical power consumer.