This document describes various methods for attaching biological tissues, such as amniotic membranes, to contact lenses. The techniques include using anchor points on the lens surface, employing biological or synthetic glues, and utilizing a piggybacking method. The materials involved in these processes can include silicon hydrogel, collagen, or other hydrogel materials, which may be loaded with growth factors or pharmaceutical agents. Additionally, the piggybacking configuration is designed to degrade or be bioabsorbed over a period of 1-10 days on the ocular surface.

A system and method for using augmented reality device for use during a surgical procedure are described. A system may include an augmented reality device to present a virtual indication, such as a virtual indication of a surgical instrument, a force vector, a direction, or the like. The augmented reality device may present a virtual aspect of a procedure, such as a virtual animation of a step of a procedure. The augmented reality device may present a virtual object, indication, aspect, etc., within a surgical field while permitting the surgical field or aspects of the surgical field to be viewed through the augmented reality display (e.g., presenting virtual objects mixed with real objects).

A portable patient-care kit is disclosed. The kit includes a housing, a plurality of compartments and a touch-screen user interface device. The housing forms a container space. The plurality of compartments is disposed within the container space such that each compartment is configured to retain at least one medical apparatus. The touch-screen user interface device has a transceiver that can communicate via a mobile data network.

A medical instrument coordination system and method for automated surgical guidance using body-worn camera devices are described. A system may include an automated body-worn camera device configured to identify and track medical instruments, surgical supplies, and treatment apparatus within a surgical field through object recognition and automated monitoring capabilities. The system may provide cross-device communication to coordinate multiple treatment devices, enabling transmission of surgical guidance information to external displays and networked medical instruments. The body-worn camera device may provide auditory feedback mechanisms for procedural alerts and instrument identification guidance. The system may present automated analysis of surgical procedures, such as automated detection of surgical step completion and real-time monitoring of medical instrument usage. The medical instrument coordination system may facilitate surgical procedure guidance while enabling visualization of surgical fields and treatment areas through integrated diagnostic equipment and surgical assistance technologies.