March 31, 2021 – Kyocera Medical Technologies, Inc. is pleased to announce our new YouTube channel which highlights our spine, joint, and biologics products and technologies. Currently featured videos include the following: In a webinar on the ReBOSSIS®️ bone scaffold, Dr. Boyle Cheng presents the cell culture and in vivo studies that demonstrate how ReBOSSIS enhances bone […]
Kyocera Announces December 15 ReBOSSIS Webinar
December 7, 2020 – ReBOSSIS®️ from Kyocera Medical Technologies, Inc. is the only biosynthetic bone scaffold with electrospun microfiber construction. This process results in a material with excellent handleability, similar to cotton. ReBOSSIS is hydrophilic, meaning it absorbs and retains bioactive fluids, enhancing osteoinductive potential
KYOCERA to Purchase Major Assets of U.S.-based Renovis Surgical Technologies, Inc.
— Press Release — January 16, 2019 – Kyocera Corporation (President: Hideo Tanimoto) today announced that its U.S. headquarters, Kyocera International, Inc., has finalized an agreement with Renovis Surgical Technologies, Inc. (herein “Renovis”), a U.S.-based orthopedic and spinal medical device manufacturer and developer, to purchase the major assets of Renovis’ business operations relating to artificial […]
Renovis Surgical Receives FDA Clearance for 3D-printed Posterior Lumbar Interbody Fusion Systems
— Press Release — Redlands, CA / Austin, TX (August 9, 2017) – Renovis Surgical Technologies, Inc. announced today that it has received 510(k) clearance from the U.S. Food and Drug Administration (FDA) to market posterior lumbar Tesera® porous titanium interbody fusion systems. These systems feature implants for direct posterior (PLIF) or transforaminal (TLIF) approaches […]
Tesera Lumbar Interbody Fusion TLIF Solutions
Tesera TLIF solutions feature our revolutionary Tesera Trabecular Technology in both a traditional curved, as well as straight formats, giving you maximum intraoperative options to fit any patient anatomy. Tesera T and ST Transforaminal Lumbar Interbody Fusion (TLIF) System with Tesera Trabecular Technology KYOCERA is committed to advancing patient care through better products, based on […]
Tesera Lumbar Interbody Fusion PLIF System
Tesera P features our revolutionary Tesera Trabecular Technology in posterior lumbar cage form. Tesera P Posterior Lumbar Interbody Fusion (PLIF) System with Tesera Trabecular Technology Tesera Trabecular Technology Optimal environment for bone IN-GROWTH and ON-GROWTH 3D-printed Titanium-alloy (Ti6Al4V) Truly-porous trabecular structure Random, interconnected pores (500 micron average pore size) 68% Average Porosit Hydroxyapetite-blasted, for micro-surface […]
Tesera SC Sizes and Specs
Tesera SC Stand-alone Cervical Interbody Fusion System has two footprints.
Tesera SC Features and Benefits
The Tesera SC – Stand-alone Cervical Interbody Fusion System combines our most advanced material science and revolutionary manufacturing process into a powerful stand-alone cervical interbody fusion system. Cages Tesera Trabecular Technology – allows bone on-growth and ingrowth Triple screw fixation for immediate stability Single-step locking plate secures all 3 screws with tactile and visual locking […]
Tesera Trabecular Technology Acetabular System
Sizes and Specs
Cup and Head Combination Options The Tesera Trabecular Acetabular System includes configurations for head sizes up to 40 mm and cup sizes up to 66 mm. Femoral heads are available in CoCr and BIOLOX®† delta ceramic. Components with the Tesera structure are created using electron beam manufacturing (EBM). The solid and porous regions of the […]
Tesera Trabecular Technology Acetabular System
Combines a highly porous bone in-growth structure and advanced bearing options for enhanced performance in primary and revision hip replacement. The Tesera Trabecular Technology Acetabular System offers a full range of shell and liner configurations, providing intraoperative flexibility for optimizing the reconstruction of the acetabular anatomy. The Tesera Trabecular Technology porous structure provides the initial […]