InLab Software 18.0 New Digital Options - Dentsply Sirona

inLab Software 18.0New digital optionsdentsplysirona.com/inlab

02 I 03inLab CAD Software 18.0Dental design requires good softwareThe new inLab CAD Software 18.0 focuses even more closely on the requirementsof dental laboratories. As a stand-alone CAD component, the application canbe used independently from scanners and production units. Furthermore, inLabSoftware is better integrated into the digital workflow between practice andlaboratory than ever before. For the first time, it also links CAD/CAM processesbetween different inLab laboratories, using Sirona Connect.The inLab design software stands out for its needs-based indications, optimizeddesign processes, and user-friendly interface. Its four software modules offer awide range of indications and functionalities. inLab users can freely decide whento perform available updates – without counting dongles, mandatory updates,expiration dates or annual license fees.ContentsinLab CAD Software ModulesinLab CAD Software 18.003Basic module06Implantology module12Removables module16Interface module20inLab CAM Software 18.022Implantology moduleRemovables moduleBasic module** Minimum requirement for Implantology, Removables, and Interface modulesInterface module

04 I 05inLab SoftwareEasy to use –professional resultsEfficient support for design and functionIntuitive, simple, process-oriented – inLab CAD Software is one of the most userfriendly applications in dental CAD/CAM. The user interface clearly displays allrelevant information and selection menus on a case-specific basis. The inLab Softwareworkflow with focus on dental technology professionally and reliably guides the userthrough all steps to the desired restoration result without needing to forgo individualdesign and functional options. The design process is supported by short menu paths,quick tool access and a variety of view options.NEW from inLab CAD SW 18.0: Multi-layer gingivafor separating the framework structure with gingivalelement and veneer structure for bridge design projectsinvolving the gingiva.NEW from inLab CAD SW 18.0: Gingiva element designfor all restoration types.NEW from inLab CAD SW 18.0: Tooth color displayin inLab Software for digital impressions with CERECOmnicam that were sent via Sirona Connect.Virtual insertion for designing several restoration layersin complex cases.Virtual articulator for visualizing entire motion rangesand determining static and dynamic contact surfacesfor proper functional occlusion.inLab Check for reviewing the fully designed restorationfor possible critical areas, using a FEM load calculationon the basis of the material selected for the restoration.Everything at a glanceThe intelligent administration phase does more than display the entire restoration case with all desired designdetails on a clearly structured screen. The flexible case administration feature also saves valuable user time ifadjustments are necessary during the design process.

Basic module06 I 07inLab CAD SW 18.0:Basic moduleNEW from inLab CAD SW 18.0: ModelsAs of inLab CAD Software 18.0, digital impressiondata models can be designed with removable or nonremovable dies – for conventional full arch models andfor models with implant analogues.* The design toolscan be used to create a separate gingival mask for anymodel type.The Basic module of the inLab CAD Software covers basic indications and provides allnecessary design tools along with access to digital impression with Sirona Connect.InlayOnlayVeneerFull crownCopingFully anatomical bridgeAnatomically reduced bridgeNEW from inLab CAD SW 18.0: ModelsFor dies, users can either transfer existing preparationmargins from the inLab Software or enter themmanually (e.g. for removable adjacent teeth). Die fittingand undercuts for removable and non-removable dieelements can be individually adjusted.In the case of implant models, the selected digitalimplant analog is automatically included in thecalculation and visualized in the software.Support structures for various articulator attachmentscan be added to the model and edited.**Additional model labels can be inserted in the finalizingphase of the model. The finished model data canbe sent to production via, for instance, an in-house3D printer or a central production unit.Overview of inLab CAD Software Basic module: Inlay, onlay, veneer, full crown, bridges, coping, bridgeframeworks, multi-layer, models Virtual insertion All design tools Smile design J.O.B.S. Jaw Orientated Biogeneric Settings Gingiva element 1:1 copy function Sirona Connect access Tooth databases inLab Check to review design data for stress sensitivity Virtual articulator* Implantology module required for implant models** Vertext/Ceramco articulator and others

Basic moduleQuick and reliable resultsNEW from inLab CAD SW 18.0: 1:1 copy functionWith the 1:1 copy function, all geometric dimensions of a restoration can be faithfully copied and transferred tothe final restoration. That saves an enormous amount of work time. The feature is particularly well-suited for largebridge and implant cases with a gingival component, in which existing long-term temporary solutions are to beprecisely converted to final restorations. Attachment geometries of any size can also be copied 1:1.J.O.B.S. – Jaw Orientated Biogeneric SettingsThis unique jaw-orientated biogeneric procedure reconstructs teeth true to nature. The inLab CAD Softwareincludes the positioning and morphology of the existing teeth in its analysis and uses this data to generatepatient-specific fully anatomical first proposals – both for individual teeth in the anterior and posterior regionsas well as for large bridges and multiple unit restorations. That eliminates the need to perform time-consumingdesign rework.08 I 09

Basic module10 I 11Sirona Connect links digital processes –practice-to-lab and lab-to-labThe Basic module of the inLab CAD Software offers dental laboratories access to thedigital transmission platform Sirona Connect. It offers safe and convenient sharingoptions for scan, restoration and order data, both between practice and laboratoryand between different dental laboratories.With the optional Interface module, the inLab CAD Software can be also usedto process intraoral and extraoral scan data that are transmitted in STL format.This enables the integration of scan data from intraoral scanners by othermanufacturers in the inLab CAD Software restoration design.Sirona Connect: From practice-to-labSirona Connect: From lab-to-labFull transfer of digital intraoral impressions with CERECOmnicam, including order form as well as image andadditional data from the practice to the laboratory, ina matter of seconds:NEW from inLab CAD SW 18.0: Transmission of inLabscan or restoration data from one laboratory to another,directly from the inLab Software via Sirona Connect: Flexible production of restorations with inLab ortransfer of scan data to another CAD/CAM system inLab design service for CEREC users: Dentalexpertise for complex or aesthetically demandingorders, which can be designed in the laboratory andfinalized in the dental practice. Expansion of production capacities and use ofexternal know-how Receiving and/or offering design service forlaboratories Order-based chat via Sirona Connect possible No additional costs for separate cloud services orthe like The inLab Software provides direct access to thepatient-specific solutions from Atlantis for the designand manufacture of abutments and superstructuresfrom Dentsply Sirona

Implantology module12 I 13inLab CAD SW 18.0:Implantology moduleThe Implantology module of the inLab CAD Software comprises all required CAD toolsand functions for the customized treatment of single and multiple implants as wellas for surgical guide design – for seamless transfer to the inLab production units,inLab MC X5 and inLab MC XL. Or alternatively, for export to other production units.For greater flexibility, the tooth setup and implant superstructure can be designed separately. Teeth can be set upaccording to function and with consideration for esthetics, independent of the implant position.Screw-retained bridges and bars at implant levelScrew-retained bridges and bars on multi-unitabutments and adhesive capsThe screw channel tool allows for setting of individual screw channels with the corresponding settings for position,angle and diameter. This is a convenient tool, for example to generate screw-retained restorations on scannedstandard abutments.Individual abutments on TiBase adhesive base andfrom titanium preformsSurgical guideIndividual production methods for inLab usersOverview of inLab CAD Software Implantology module: Screw-retained bridges and bars at implant level Individual abutments (zirconium oxide and titanium) Screw-retained bridges and bars on multi-unitabutments Surgical guide (integrated implantology)As of inLab SW 18.0, inLab users can access the extensive service portfolio of Dentsply Sirona witheven greater ease and flexibility for implant cases. You can decide at any time on a case-by-case basiswhether the design is to be done directly in-house with the inLab Software or alternatively, whetherAtlantis patient-specific solutions are to be used for the design and production of abutments andsuperstructures – now with direct access to the Atlantis WebOrder system from within the inLab Software.

Implantology moduleScrew-retained bridges and bars at implant level14 I 15Surgical guide for integrated implantologyWith inLab CAD Software, individual surgical guides can be quickly designed andproduced in the lab at low cost. The surgical guide created with CAD/CAM is theideal planning basis for surgical implementation as part of the integrated implantplanning with 3D X-ray systems from Dentsply Sirona.Design professional implant-supported bridges and bars with the inLab CAD SW atimplant level, based on high-precision inEos X5 scan data and in combination with theFLO-S scanbody by Atlantis . The restoration data can then be made available forproduction in a suitable CAD/CAM production system.Screw-retained bridges and bars on multi-unit abutments and adhesive capsThe prerequisite is the intraoral scan of the situationfrom the model, for example by using inEos X5 or byway of a digital intraoral impression. In addition, arestoration is designed for implant planning based onprosthetic aspects. These optical data are thenexported.*The optical data is combined with the 3D X-ray data(Orthophos SL 3D, Orthophos XG 3D or Galileos), forsubsequent implant planning and output as a *.cmg.dxdplanning file.The *.cmg.dxd planning file is imported into the inLabCAD Software to design the surgical guide.* The designof the surgical guide can be customized for any spansize with one or more drill holes.This surgical guide is then milled (e.g. with theinLab MC X5 or inLab MC XL**) or exported as STLfor production with a 3D printer.***For in-house production, for example with inLab MC X5 (zirconium oxide or PMMA),screw-retained bridges and bars are designed on multi-unit abutments by nt-tradingand Medentika, using inLab CAD SW. The inEos X5 model scanner relies on the specialinPost scanbody by Dentsply Sirona to acquire the exact implant position.Custom abutments on TiBase adhesive base and from titanium preformsThe inLab CAD Software enables the in-house production of individual abutments: as amilled zirconium oxide abutment for bonding with TiBase by Dentsply Sirona or madefrom one-piece titanium preforms* (e.g. milled with inLab MC X5). The design is donedirectly or top-down, i.e. the fully contoured design is split into crown or crown copingand abutment.* Medentika PreFaces * Required interface included in the Implantology module of the inLab CAD SW** inLab MC XL is limited to surgical guides with a maximum of one drilling hole*** inLab CAD SW Interface module required