The present disclosure relates to medical devices, and methods for producing and using the devices. In embodiments, the medical device may be a buttress including a porous substrate possessing a therapeutic layer of a chemotherapeutic agent and optional excipient(s) thereon. By varying the form of chemotherapeutic agents and excipients, the medical devices may be used to treat both the area to which the medical device is attached as well as tissue at a distance therefrom.

The present disclosure relates to a coating with anti-adhesive properties (in order to repel or prevent bacterial or platelet adhesion) based on a naturally produced polymer. This polymer that has been extensively characterized and is produced by a marine bacteriumCyanothece sp. CCY 0110, at optimized production conditions to obtain increased amounts of polymer. Importantly, this strain is among the highly efficient polymer producers, secreting the polymer directly to the media, allowing the easy recovery of polymer with few purification steps, being a cost-effective product. The coating can be applied to medical devices or medical implants to prevent biofilm mediated infections thereof.

The present disclosure relates to a coating with anti-adhesive properties (in order to repel or prevent bacterial or platelet adhesion) based on a naturally produced polymer. This polymer that has been extensively characterized and is produced by a marine bacteriumCyanothece sp. CCY 0110, at optimized production conditions to obtain increased amounts of polymer. Importantly, this strain is among the highly efficient polymer producers, secreting the polymer directly to the media, allowing the easy recovery of polymer with few purification steps, being a cost-effective product. The coating can be applied to medical devices or medical implants to prevent biofilm mediated infections thereof.

Various embodiments disclosed relate to drug-coated balloon catheters for treating strictures in body lumens and methods of using the same. A drug-coated balloon catheter for delivering a therapeutic agent to a target site of a body lumen stricture includes an elongated balloon having a main diameter. The balloon catheter includes a coating layer overlying an exterior surface of the balloon. The coating layer includes one or more water-soluble additives and an initial drug load of a therapeutic agent.

Various embodiments disclosed relate to drug-coated balloon catheters for treating strictures in body lumens and methods of using the same. A drug-coated balloon catheter for delivering a therapeutic agent to a target site of a body lumen stricture includes an elongated balloon having a main diameter. The balloon catheter includes a coating layer overlying an exterior surface of the balloon. The coating layer includes one or more water-soluble additives and an initial drug load of a therapeutic agent.

A completely or partially implantable medical device, the surface of which has attached to it a substance having a permanent negative charge excess, to which is in turn attached an antimicrobial substance. This imparts antimicrobial properties and at the same time repels the cellular constituents of killed bacteria.

A completely or partially implantable medical device, the surface of which has attached to it a substance having a permanent negative charge excess, to which is in turn attached an antimicrobial substance. This imparts antimicrobial properties and at the same time repels the cellular constituents of killed bacteria.

In one aspect, the invention provides compounds of Formula I Formula Ia, Formula Ib, Formula Ic, and Formula Id and salts, hydrates and isomers thereof. In another aspect, the invention provides a method of promoting bone formation in a subject in need thereof by administering to the subject a therapeutically effective amount of a compound of Formula I, Formula Ia, Formula Ib, Formula Ic, or Formula Id. The present invention also provides orthopedic and periodontal devices, as well as methods for the treatment of renal disease, diabetes bone loss, and cancer, using a compound of Formula I, Formula Ia, Formula Ib, Formula Ic, or Formula Id. ##STR00001##

In one aspect, the invention provides compounds of Formula I Formula Ia, Formula Ib, Formula Ic, and Formula Id and salts, hydrates and isomers thereof. In another aspect, the invention provides a method of promoting bone formation in a subject in need thereof by administering to the subject a therapeutically effective amount of a compound of Formula I, Formula Ia, Formula Ib, Formula Ic, or Formula Id. The present invention also provides orthopedic and periodontal devices, as well as methods for the treatment of renal disease, diabetes bone loss, and cancer, using a compound of Formula I, Formula Ia, Formula Ib, Formula Ic, or Formula Id. ##STR00001##

The present invention relates to the field of implants. In particular, the present invention relates to an implant for tissue reconstruction which comprises a scaffold structure that includes a void system for the generation of prevascularized connective tissue with void spaces for cell and/or tissue transplantation. Moreover, the present invention relates to a method of manufacturing such an implant, to the internal architecture of such an implant, to a removal tool for mechanical removal of space-occupying structures from such an implant, to a kit comprising such an implant and such a removal tool, to a removal device for the removal of superparamagnetic or ferromagnetic space-occupying structures from such an implant, as well as to a guiding device for providing feedback to a surgeon during the procedure of introducing transplantation cells into the void spaces generated upon removal of space-occupying structures from such an implant.