An implant material having an implant surface comprising a plurality of tissue-contacting members arranged in a regular or irregular two-dimensional array, each tissue-contacting member having a convex curved tissue-contacting surface. Methods of preparing and using such implant materials.

Disclosed herein is a multi-modal imaging methodology for creating patient-specific three-dimensional images of a breast volume, for use in the production of breast implants. In one aspect, a surface imaging technique may be used to create a three-dimensional model of an external shape of a patient, such as the external morphology of a breast. In one aspect, an internal imaging technique may be used to create a three-dimensional model of the internal shape of the thorax underneath the breast. The external and internal models may then be referenced to one another and a unified model may be created to generate a reliable, personalized model of breast volume.

Systems, methods, and devices useful in medical procedures, such as, e.g., aesthetic and/or reconstructive surgeries, are described. The system may be an imaging system that includes a database and a computer system configured to create, modify, and/or display three-dimensional images created from digital image data of an anatomical region of a subject. The digital image data may be obtained with an imaging device such as a scanner.

A cerebral aneurysm stent (1) of the present invention comprises a hollow tubular main body (10) and a coil support (20) integrally formed with the main body (10) at one end of the main body (10) in the longitudinal direction, wherein the coil support (20) comprises a closed structure (21) with respect to the radially inner side of the cerebral aneurysm stent (1), the closed structure (21) being located at an outer end portion of the cerebral aneurysm stent (1) in the longitudinal direction.

A method for manufacturing a cardiac valve prosthesis is disclosed. This method comprises the following steps: a) shaping human or animal body tissue in a shaping process to give the body tissue a shape of a cardiac valve, and b) fixation and stabilization of the body tissue by a cross-linking agent, thereby preserving the shape given to the body tissue by the shaping process and thus obtaining a cardiac valve prosthesis. Furthermore, a method of implanting an autologous or allogenic cardiac valve prosthesis to an individual in need thereof is disclosed.

Systems and methods produce implants for treating keratoconus or other eye disorders. An example method includes identifying a subject with keratoconus. The method includes obtaining, with assessment means, an assessment of a cornea of a subject; determining, by processor(s), inverse measurements for correcting one or more irregularities associated with the keratoconus based on the assessment; and shaping, with a laser system, a donor cornea according to a pattern based on the inverse measurements. The example method may further include determining smoothing effects associated with the cornea, wherein the inverse measurements are based further on the smoothing effects, and the pattern for shaping the donor cornea is based further on the smoothing effects. Obtaining the assessment of the cornea may include obtaining a topographic measurement, a tomographic measurement, anterior segment optical coherence tomography (OCT), Scheimpflug imaging, an epithelium mapping, a stromal thickness mapping, and/or one or more biomechanical measurements.

Soft tissue supports, soft tissue implants, and methods of making and using soft tissue supports are disclosed. One soft tissue support includes a unitary piece of processed porous tissue material having an anterior portion and a posterior portion. The anterior and posterior portions define a cavity therebetween. The cavity is sized to receive a breast implant therein. The cavity has at least one opening sized to receive the breast implant therethrough. One soft tissue implant includes the soft tissue support and a breast implant positioned within the cavity of the soft tissue support. The implant may further include a soft tissue graft configured to support the processed porous tissue material and the breast implant. A method of using a soft tissue support includes inserting a breast implant into the soft tissue support, and implanting the soft tissue support containing the breast implant in the cavity.

An implant material having an implant surface comprising a plurality of tissue-contacting members arranged in a regular or irregular two-dimensional array, each tissue-contacting member having a convex curved tissue-contacting surface. Methods of preparing and using such implant materials.

An orthopaedic prosthetic component includes a manufactured acetabular shell component having an outer wall and an additively manufactured augment coupled to the outer wall. The augment includes an outer surface that defines a customized patient-specific negative contour shaped to conform to a positive contour of a patient's bone. A method for manufacturing the prosthetic component is also disclosed.

According to an aspect, an implant includes an inflatable member and a pump assembly configured to facilitate a transfer of a fluid from the reservoir to the inflatable member. The inflatable member has a sidewall that defines a lumen. The sidewall has an outer surface and an inner surface disposed opposite the outer surface. The inner surface has a series of undulations.