Innovasis, Inc.

Innovasis, Inc. announces resolution of a five-year investigation by the U.S. government. In April of 2019, in conjunction with a business acquisition, Innovasis’ Board of Directors commenced an internal compliance audit. The audit revealed certain compliance issues including that a high level employee of the company had placed himself over the Compliance Committee and was also negotiating and executing physician agreements using his own discretion and incentives. Read more here: https://lnkd.in/gS3gZjRk

LxHA? by Innovasis, a cutting-edge LLIF device made of HA-infused PEEK for accelerated bony fusion(1). With its special design, LxHA provides a large space for grafting.? #Innovasis https://lnkd.in/gEjBWNr3 (1) As shown through peer reviewed, preclinical trials. This has not been correlated with human clinical data. Data on file at Invibio.?

Oryx?: the simple solution for anterior cervical spine fixation. With one driver for all screws and slim 1.9mm plates available in different levels, it’s designed to simplify surgery. #Innovasis

Excella 3?: a spinal system designed for versatile use in complex cases. With color-coded implants and easy-to-identify components, Excella 3 allows for efficient treatment of different patient anatomies. #Innovasis https://www.innovasis.com/

Kestrel?: the fusion plate designed to prevent migration of interbody devices. With its bi-convex profile and large graft viewing window, Kestrel matches patient anatomy and provides stability.?#Innovasis

TxHA?: a TLIF IBF device with integrated hydroxyapatite for lumbar fusion. Its radiolucent design allows for a straightforward fusion assessment. #Innovasis Interested in learning more about our HA technology? We also have an independent site that showcases the innovation behind it: https://lnkd.in/gEjBWNr3 Check it out!

HAcancellous? PEEK-C: it mimics natural bone for potentially early integration(1) and features hydroxyapatite throughout for enhanced fusion(2). With different sizes available and radiographic markers, it's designed to make surgery smoother.?#Innovasis https://lnkd.in/gEjBWNr3 (1) University of New South Wales – Surgical & Orthopaedic Research Laboratories – In-vivo evaluation of osteo integration of PEEK and surface modified PEEK in an ovine model. Note: this study was conducted on standard PEEK, not PEEK-OPTIMA? HA Enhanced from Invibio?. The porous structure for the HAcancellous PEEK-C device has been modified from the one used for this study with the intent to increase pore interconnectivity and optimize pore size for bone in-growth. In vitro performance or animal studies may not be representative of clinical performance. (2) As shown through peer reviewed, preclinical trials. This has not been correlated with human clinical data. Data on file at Invibio.?

The TruView retractor offers clarity and control for surgeons. The 2-blade design is intended to provide minimal obstruction during minimally invasive procedures. #Truview #Innovasis?

Transform TLIF procedures with the TxTiHA system. This 3D-printed titanium marvel is not just about structural integrity; it's about bone integration. Its micro-textured surface geometry, a feature of roughened titanium surfaces, has been shown to increase protein expression in contrast to smooth titanium surfaces(1). The large graft cavity and open geometric Tetracell? Technology structure further facilitate increased volume for autograft loading and bone through-growth, making it a top choice for spinal fusion. #TxTiHA #Innovasis #AdvancedSpinalTechnology (1)?Olivares-Navarrete R, Hyzy SL, Slosar PJ, Schneider JM, Schwartz Z, and Boyan BD. Implant materials generate different peri-implant inflammatory factors. Spine 40 (2015): 399-404.? ? Olivares-Navarrete R, Gittens RA, Schneider JM, Hyzy SL, Haithcock DA, Ullrich PF, Schwartz Z, and Boyan BD. Osteoblasts exhibit a more differentiated phenotype and increased bone morphogenetic protein production on titanium alloy substrates than on poly-ether-ether-ketone. The Spine Journal 12 (2012): 265-272.?

Introducing the AxTiHA System, a groundbreaking advancement in ALIF procedures. Featuring our proprietary Tetracell? open-cellular 3D matrix titanium interbody, it boasts approximately 70% porosity(1). The HAnano Surface? encourages early bone formation(2), setting a new standard in implant technology. With a large graft cavity and the unique Tetracell? Technology structure, it allows increased volume for autograft loading and bone through-growth. #AxTiHA #InnovativeSpineSolutions #ALIF? (1)?Internal testing report.? (2) Jimbo R (2011), ‘Histological and three-dimensional evaluation of osseointegration’?