CPC Class B33Y

A hybrid additive manufacturing approach that incorporates three-dimensional (3D) printing and placement of modules selected from a library of modules to fabricate an electromechanical assembly. By virtue of fabrication of the electromechanical assembly, mechanical properties and electrical properties of the assembly are created. The invention overcomes the material and process limitations of current printable electronics approaches, enabling complete, complex electromechanical assemblies to be fabricated.

An implant containing a structurally encoded region, the implant comprising an implant body defining adjacent first and second encoded regions, the first encoded region comprising a first series of shaped inclusions in a first pattern of relatively differing opacity figures, and the second encoded region comprising a second series of shaped inclusions in a second pattern of relatively differing opacity figures, the first and second encoded regions being disposed such that, when the first encoded region and second encoded regions are viewed by reading illumination from a position wherein the first pattern and second pattern overlap, a third pattern is revealed by the reading illumination, the third pattern being different than the first and second patterns, and comprising shape or surface characteristics representing structurally encoded data. The invention further comprises systems and methods of manufacturing, using and reading the same.

Disclosed herein is a customized ossicular prosthesis suitable for treatment of conductive hearing loss due to ossicular chain defects, and a method and system for manufacturing the same. Medical imaging equipment can detect specifically designated landmarks in normal human middle ear ossicles, including significant anatomic differences in those structures. Those anatomic features are used to generate a customized ossicular prosthesis specifically configured for a particular patient's anatomy using 3D printing techniques and devices.

A biphasic calcium phosphate/hydroxyapatite (CAP/HAP) bone substitute material having a sintered CAP core and a closed epitactically grown layer of nanocrystalline HAP deposited on the external surface of the sintered CAP core, wherein the closed epitactically grown layer of nanocrystalline HAP deposited on the external surface of the sintered CAP core has a homogeneous coarse external surface comprising flat crystal platelets, which shows an enhanced osteogenic response, a method of promoting bone formation, bone regeneration and/or bone repair by implanting the biphasic calcium phosphate/hydroxyapatite (CAP/HAP) bone substitute material, and a process of preparation thereof.

Respiratory protection systems are provided containing a form-fitting facial frame and a removable filter media. The respiratory protection systems can alleviate the problems with fit and comfort of traditional respiratory protection systems. The form-fitting facial frame can intimately contact face of a subject and can be configured to removably secure a filter media. The form-fitting facial frame can include an upper frame portion configured to intimately contact the dorsum nasi and cheekbone of a subject, and lower frame portion configured to intimately contact the jaw line of the subject. In some embodiments, the form-fitting facial frame is manufactured based upon a facial feature of a subject. The form-fitting facial frame can be manufactured by 3D printing. The respiratory system can be used with common mechanical filter media including N95 and N100 filter media.

According to one embodiment, a material feeding device includes a feeding unit. The feeding unit includes an electrode unit electrically chargeable by application of voltage thereto and an insulating unit covering the electrode unit, the electrode unit being configured to attract and separate a material to and from a surface of the insulating unit by control of a charged state of the electrode unit.