Patents Assigned to VEXIM
  • Publication number: 20210022884
    Abstract: A system configured to increase height of a vertebral body. An implant includes plates each defining a bearing surface configured to be moved away from one another to expand the implant within the vertebral body. Supports are each coupled to one of the plates and include a reduced thickness portion defining a material web configured to plastically deform during expansion of the implant. The system includes an implant carrier with which an end element of the implant is removably coupled, and a rod configured to be translated relative to the implant carrier to cause expansion of the implant. An opposed portion may be coupled to the supports and configured to receive a longitudinal force to be moved relative to the end element. Second supports may be each coupled to the end element and one of the plates. Each of the second supports may plastically deform during expansion of the implant.
    Type: Application
    Filed: October 15, 2020
    Publication date: January 28, 2021
    Applicant: Vexim
    Inventors: Jean-François Oglaza, Christian Renaud, Alain Leonard, Gildas Huet
  • Patent number: 10813771
    Abstract: Methods and apparatuses for restoration of human or bone anatomy, which may include introduction, into a bone of an expansible implant capable of expansion in a single determined plane, positioning the expansible implant in the bone in order to correspond the single determined plane with a bone restoration plane and opening our the expansible implant in the bone restoration plane. A first support surface and a second support surface spread tissues within bone. The embodiments of the invention may also include injecting a filling material around the implant.
    Type: Grant
    Filed: September 10, 2018
    Date of Patent: October 27, 2020
    Assignee: Vexim
    Inventors: Jean-Francois Oglaza, Christian Renaud, Alain Leonard, Gildas Huet
  • Publication number: 20200281609
    Abstract: A steerable system and methods for accessing bone. A control mechanism includes a handle configured to be detachably secured to a trocar. The handle includes a drive shaft coupled to a sliding shaft such that relative rotation is prevented and relative translation is permitted. A rod having a preformed bend is removably disposed within the cannula. The rod is prevented from rotating relative to the drive shaft such that a deflection plane of the preformed bend is predefined relative to each of the sliding shaft, the handle, and the trocar when the handle is coupled to the trocar. Rotating a sliding ring of the handle translates the drive shaft to advance the rod beyond the trocar such that the preformed bend extends laterally out of the trocar in the deflection plane. The rod may be removed from the cannula, and material may be injected through the cannula.
    Type: Application
    Filed: May 26, 2020
    Publication date: September 10, 2020
    Applicant: Vexim
    Inventors: Guillaume Dutertre, Jean-Baptiste Zerlauth, Jean-Francois Oglaza, Yves-Alain Ratron
  • Patent number: 10660659
    Abstract: The present invention relates to a control mechanism for controlling a rod (210) having at least one key, the control mechanism comprising a handle comprising a sliding ring (131), a sliding shaft (132) and a drive shaft (133), each extending along a longitudinal axis (101) and comprising a central opening; and a friction reduction cannula (110) comprising an opening configured to receive the rod (210). The present invention also relates to a steerable device and a steerable system comprising the control mechanism according to the invention.
    Type: Grant
    Filed: September 16, 2016
    Date of Patent: May 26, 2020
    Assignee: Vexim
    Inventors: Guillaume Dutertre, Jean-Baptiste Zerlauth, Jean-Francois Oglaza, Yves-Alain Ratron
  • Patent number: 10603080
    Abstract: The present invention relates to an expansible intravertebral implant system comprising an intravertebral implant (1) with an expandable anterior part (11), which is expansible in a vertebral body, and a posterior part; and a pedicle fixation (2) having at least one hollow portion for receiving the posterior part. The present invention also relates to said expansible intravertebral implant system additionally comprising a posterior element (3), arranged partially outside the vertebra and rigidly connected to the pedicle fixation (2), for serving as an anchoring point for at least one intravertebral rod or at least one system of artificial ligaments.
    Type: Grant
    Filed: December 23, 2014
    Date of Patent: March 31, 2020
    Assignee: Vexim
    Inventors: Jean-Francois Oglaza, Yves-Alain Ratron, Gianluca Maestretti
  • Publication number: 20110046739
    Abstract: Methods and apparatuses for restoration of human or animal bone anatomy, which may include introduction, into a bone of an expansible implant capable of expansion in a single determined plane, positioning the expansible implant in the bone in order to correspond the single determined plane with a bone restoration plane and opening out the expansible implant in the bone restoration plane. A first support surface and a second support surface spread tissues within bone. The embodiments of the invention may also include injecting a filling material around the implant.
    Type: Application
    Filed: November 3, 2010
    Publication date: February 24, 2011
    Applicant: VEXIM
    Inventors: Jean-François Oglaza, Christian Renaud, Alain Leonard, Gildas Huet