The invention relates to manufacturing a surgical guide to be placed in a patient's mouth. The patient's mouth is scanned to obtain surgical-region scan data at a region where an implant is to be located. The patient's mouth is also scanned in the opened position to acquire dental conditions opposite from the surgical region to obtain opposing-condition scan data. A virtual model is developed using the surgical-region scan data and the opposing-condition scan data. Using the virtual model, a surgical plan is developed that includes the location of the implant to be installed in the patient. A virtual surgical guide is also developed based on the surgical plan. The dimensions of instrumentation to be used with the surgical guide are checked to ensure they will fit within the mouth by use of the opposing-condition scan data. After checking, final surgical-guide manufacturing information is obtained for manufacturing the surgical guide.

A medical device tray for carrying a plurality of medical devices includes: a base made of a substantially rigid material, the base forming at least one base through-hole; and a covering affixed to the base, the covering being made of a material which is softer than the substantially rigid material of the base, the covering forming at least one covering through-hole, the at least one base through-hole and the at least one covering through-hole cooperating to form at least one medical device tray through-hole configured for directly supporting a respective one of the plurality of medical devices.

A medical device tray for carrying a plurality of medical devices includes: a base made of a substantially rigid material, the base forming at least one base through-hole; and a covering affixed to the base, the covering being made of a material which is softer than the substantially rigid material of the base, the covering forming at least one covering through-hole, the at least one base through-hole and the at least one covering through-hole cooperating to form at least one medical device tray through-hole configured for directly supporting a respective one of the plurality of medical devices.

Described is a supporting base (1) for medical instruments (2), comprising a supporting layer (3) having a relative visible front surface (4) and a relative rear surface (5) opposite the visible surface (4); The supporting layer (3) also has a plurality of holes (6) extending from the front surface (4) towards the rear surface (5); More specifically, the supporting layer has a gripping portion (9) positioned on the rear surface (5) and irreversibly joined to the supporting layer (3) to form a single body with said supporting layer (3). The supporting base (1) has at least one opening (17) for inserting, in use, a medical instrument (2), positioned at each hole (6) and extending from the front surface (4) towards the rear surface (5) and through the gripping portion (9).

Described is a supporting base (1) for medical instruments (2), comprising a supporting layer (3) having a relative visible front surface (4) and a relative rear surface (5) opposite the visible surface (4); The supporting layer (3) also has a plurality of holes (6) extending from the front surface (4) towards the rear surface (5); More specifically, the supporting layer has a gripping portion (9) positioned on the rear surface (5) and irreversibly joined to the supporting layer (3) to form a single body with said supporting layer (3). The supporting base (1) has at least one opening (17) for inserting, in use, a medical instrument (2), positioned at each hole (6) and extending from the front surface (4) towards the rear surface (5) and through the gripping portion (9).

A guided drill for osteotomy for a dental implant is provided. The guided drill includes a guide body configured to fit within a guide sleeve attached to a surgical template. A surgical kit includes a series of guided drills with each guided drill having a different combination of a drilling diameter and a drilling length, a container containing the series of guided drills in a form of an array, and a chart comprising a map of the array and graphical indications. The graphical indications are configured to indicate to a user of the surgical kit a suggested order of sequentially using the series of guided drills from the array to perform a part of osteotomy procedure and obtain a hole, having a prescribed diameter and a prescribed length, for a dental implant.

A guided drill for osteotomy for a dental implant is provided. The guided drill includes a guide body configured to fit within a guide sleeve attached to a surgical template. A surgical kit includes a series of guided drills with each guided drill having a different combination of a drilling diameter and a drilling length, a container containing the series of guided drills in a form of an array, and a chart comprising a map of the array and graphical indications. The graphical indications are configured to indicate to a user of the surgical kit a suggested order of sequentially using the series of guided drills from the array to perform a part of osteotomy procedure and obtain a hole, having a prescribed diameter and a prescribed length, for a dental implant.

A storage case for a dental appliance includes a storage portion, a cover, and a location device. The storage portion includes a compartment that is configured to store a dental appliance of a user. The cover is coupled to the storage portion and configured to selectively move between an open position and closed position. The cover permits access to the compartment when in the open position and restricts access to the compartment when in the closed position. The location device includes a communications device and a speaker. The speaker is configured to generate a sound based on the communications device receiving a signal from a mobile device of the user.

A maxillary arch expander, in particular an expander for use with a human patient, is described. Also described are a method of treatment that includes the use of the maxillary arch expander and a method of inserting and removing the maxillary arch expander from the mouth of the patient. All or part of the maxillary arch expander is generally easily removable and reinsertable during use.

Described herein are compositions in nanofiber form including one or more bioactive compounds releasably incorporated thereon. In one embodiment a composition is described comprising at least one nanofiber and at least one bioactive compound. The nanofibers are formed from a base material that is solubilized with the bioactive or bioactives in an aqueous based solvent solution and the base material and bioactives are together spun via electrospinning to form dry fibers with the bioactives chemically bonded to the nanofibers and the bioactives remaining stable during storage of the composition under ambient conditions substantially free of moisture. On exposure to moisture, the nanofibers dissolve, thereby releasing the bioactives.