K152078

K110300, K130724, K130242

No
The document explicitly states "Neither automatic diagnosis is made, nor automatic disease detection is performed." and focuses on traditional imaging and planning tools. There are no mentions of AI, ML, or related concepts.

No.

The device is intended for diagnosis support, virtual surgery planning, and design of surgical guides/prostheses, not for direct therapeutic intervention.

Yes

The software explicitly states its intended use is to "Support to the diagnosis for trained professionals."

Yes

The device description explicitly states that the RealGUIDE Graphic Station is a "fully-featured 3D imaging application" and a "multiplatform application, running on PC, MAC and mobile devices (not provided by 3DIEMME)". The intended use and device description focus entirely on the software's functionalities for viewing, planning, and modeling based on imported DICOM data, with the output being an STL file for manufacturing by external devices. There is no mention of any accompanying hardware provided by the manufacturer.

Based on the provided information, this device is not an IVD (In Vitro Diagnostic).

Here's why:

• IVD Definition: In Vitro Diagnostics are devices intended for use in the collection, preparation, and examination of specimens taken from the human body (such as blood, urine, or tissue) to provide information for the diagnosis, treatment, or prevention of disease.
• RealGUIDE's Intended Use: The RealGUIDE software's intended uses are clearly described as:
  • Support to diagnosis: It displays existing medical images (DICOM files from CT/CBCT) for trained professionals to view and interpret. It explicitly states it does not perform automatic diagnosis or disease detection.
  • Virtual oral and maxillofacial surgery planning: It allows doctors to plan procedures virtually on the reconstructed images.
  • Dental/maxillofacial surgical guides and prosthetic modelling: It is used to design devices for surgical guidance and prosthetics based on the virtual plan.
• Lack of Specimen Analysis: The software does not involve the analysis of any biological specimens taken from the patient. Its input is medical imaging data, not biological samples.
• Focus on Planning and Design: The primary functions revolve around visualizing anatomical structures from images, planning surgical procedures, and designing custom medical devices (surgical guides and prosthetics).

While the software supports the diagnostic process by providing tools for viewing and interpreting medical images, its core function is not the in vitro analysis of biological samples for diagnostic purposes. It's a medical image processing and surgical planning software.

N/A

Intended Use / Indications for Use

PC/MAC version:

The RealGUIDE software is intended for the following uses:

1. Support to the diagnosis for trained professionals. The input DICOM files acquired by a CT/CBCT scanner are not modified in any way but they are showed to the doctor through the classical imaging and volume rendering techniques. It is a stand-alone product. No information of the patient is modified, all the parameters used for the image processing are read from the DICOM file itself. Neither automatic diagnosis is made, nor automatic disease detection is performed. This software is not connected to any medical instrumentation and it doesn't control any medical or energy supplying device. The user imports DICOM data coming from any CT/CBCT imaging device and the software enables him to view the Patient exam in different multi-planar 2D images and easily reconstruct the 3D volume for an immediate visualization of bone structures and surrounding tissues.

2. Virtual oral and maxillofacial surgery planning. Doctors can plan virtual implants and surgeries on 2D/3D reconstructions and export the projects in open or proprietary format for further processing. The user can choose different implant models (for example dental implants models) from a library provided by the Manufacturers and simulate the positioning in the Patient reconstructed volume (this operation is called "virtual plan")

3. Dental/maxillofacial surgical guides and prosthetic modelling. The virtual plan is used to design a surgical guide that is used by the doctor to drive the surgery drills according to the planned implants direction and depth. This surgical guide can be manufactured by any 3D printer working from STL files. The user can also design the patient (typically a denture) with the surface and volume free-form tools implemented in the result is exported in STL format for 3D printing or CAD/CAM technologies.

Mobile version:

The RealGUIDE software APP is intended for the following uses:

1. Projects visualization and editing. The input PROJECT files, pre-processed with the RealGUIDE desktop version, are used by trained professionals to evaluate the implants projects, edit them with other colleagues through the cloud, as well as for a more effective Patient treatment communication.

The RealGUIDE APP version is NOT INTENDED for managing a 3D diagnosis starting from DICOM images, due to the mobile devices screen resolution limitations. For this reason, the APP is not reading directly the DICOM files but only pre-processed project files, exported through the cloud by the RealGUIDE desktop version.

Product codes (comma separated list FDA assigned to the subject device)

LLZ

Device Description

RealGUIDE Graphic Station is a fully-featured 3D imaging application in medicine. Its unique open architecture and modular framework make customization options trivial. RealGUIDE Graphic Station is meant to be a multiplatform application, running on PC, MAC and mobile devices (not provided by 3DIEMME). The RealGUIDE software is capable of displaying oral/maxillofacial radiology. The user is then able to navigate through different views, segmented analysis (cross sections), and 3D perspective. In addition, the user is able to simulate various objects within the radiograph for the purpose of treatment planning.

Once treatment planning and visual simulation is complete, users can generate reports and simulated images for the purpose of evaluation and diagnosis, as well as perform a surgical guide and prosthesis modelling, to be exported in STL format for the manufacturing with any RP or CAD/CAM machine.

The output format of the software is a STL file, mainly focused on dental, maxillofacial and orthognatic surgery. A list of the possible devices that can be modelled with the software is reported below:

• -Surgical guides for dental implants and surgical screws planning
• -Bone cutting and bone reduction guides for maxillofacial surgery
• -Bone graft models for mandible/maxilla regenerative procedures
• -Dental and maxillofacial prosthesis

Mentions image processing

Yes, "all the parameters used for the image processing are read from the DICOM file itself." and "RealGUIDE Graphic Station is a fully-featured 3D imaging application in medicine."

Mentions AI, DNN, or ML

Not Found.

Input Imaging Modality

CT/CBCT scanner

Anatomical Site

oral and maxillofacial

Indicated Patient Age Range

Not Found.

Intended User / Care Setting

trained professionals / Not Found.

Description of the training set, sample size, data source, and annotation protocol

Not Found.

Description of the test set, sample size, data source, and annotation protocol

Not Found.

Summary of Performance Studies (study type, sample size, AUC, MRMC, standalone performance, key results)

The verification, validation and test of the RealGUIDE system have been conducted in accordance with the applicable 3DIEMME procedures and the RealGUIDE SVP documents. The test procedures and results are listed in the RealGUIDE® Software System Validation Procedure (SVP) — Part 1-2 documents. Further details on the non-clinical tests and comparison between the RealGUIDE and the predicate device performance are reported in the RealGUIDE® Software System Validation Procedure (SVP) document.

The risk analysis for the device was conducted according to the EN ISO 14971:2012 (details reported in the RealGUIDE® Software Hazard Analysis document.

Testing demonstrates the implementation functions as intended, and differences between the Device and the predicates do not raise additional concerns with the Device's safety and effectiveness.

The software has been tested as a post-treatment information instrument to verify that the data shown by RealGUIDE were correspondent to the patient's anatomical features. Significant clinical studies have been performed by different medical professionals on many CT/CBCT images. The results of these studies are provided in a separate supplement to this submission. These clinical results show the effectiveness of the RealGUIDE software to improve the patient's surgical planning and the whole diagnostic approach.

Key Metrics (Sensitivity, Specificity, PPV, NPV, etc.)

Not Found.

Predicate Device(s): If the device was cleared using the 510(k) pathway, identify the Predicate Device(s) K/DEN number used to claim substantial equivalence and list them here in a comma separated list exactly as they appear in the text. List the primary predicate first in the list.

K152078

Reference Device(s): Identify the Reference Device(s) K/DEN number and list them here in a comma separated list exactly as they appear in the text.

K110300, K130724, K130242

Predetermined Change Control Plan (PCCP) - All Relevant Information for the subject device only (e.g. presence / absence, what scope was granted / cleared under the PCCP, any restrictions, etc).

Not Found.

§ 892.2050 Medical image management and processing system.

(a)
Identification. A medical image management and processing system is a device that provides one or more capabilities relating to the review and digital processing of medical images for the purposes of interpretation by a trained practitioner of disease detection, diagnosis, or patient management. The software components may provide advanced or complex image processing functions for image manipulation, enhancement, or quantification that are intended for use in the interpretation and analysis of medical images. Advanced image manipulation functions may include image segmentation, multimodality image registration, or 3D visualization. Complex quantitative functions may include semi-automated measurements or time-series measurements.(b)
Classification. Class II (special controls; voluntary standards—Digital Imaging and Communications in Medicine (DICOM) Std., Joint Photographic Experts Group (JPEG) Std., Society of Motion Picture and Television Engineers (SMPTE) Test Pattern).

0

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December 20, 2018

3DIEMME Ltd. % Lara Luzak Senior Regulatory Specialist Registar Corp 144 Research Drive HAMPTON. VA 23666

Re: K173041

Trade/Device Name: 3DIEMME RealGUIDE Regulation Number: 21 CFR 892.2050 Regulation Name: Picture Archiving And Communications System Regulatory Class: Class II Product Code: LLZ Dated: November 9, 2018 Received: November 13, 2018

Dear Lara Luzak:

We have reviewed your Section 510(k) premarket notification of intent to market the device referenced above and have determined the device is substantially equivalent (for the indications for use stated in the enclosure) to legally marketed predicate devices marketed in interstate commerce prior to May 28, 1976, the enactment date of the Medical Device Amendments, or to devices that have been reclassified in accordance with the provisions of the Federal Food, Drug, and Cosmetic Act (Act) that do not require approval of a premarket approval application (PMA). You may, therefore, market the device, subject to the general controls provisions of the Act. Although this letter refers to your product as a device, please be aware that some cleared products may instead be combination products. The 510(k) Premarket Notification Database located at https://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfpmn/pmn.cfm identifies combination product submissions. The general controls provisions of the Act include requirements for annual registration, listing of devices, good manufacturing practice, labeling, and prohibitions against misbranding and adulteration. Please note: CDRH does not evaluate information related to contract liability warranties. We remind you, however, that device labeling must be truthful and not misleading.

If your device is classified (see above) into either class II (Special Controls) or class III (PMA), it may be subject to additional controls. Existing major regulations affecting your device can be found in the Code of Federal Regulations, Title 21, Parts 800 to 898. In addition, FDA may publish further announcements concerning your device in the Federal Register.

1

Please be advised that FDA's issuance of a substantial equivalence determination does not mean that FDA

has made a determination that your device complies with other requirements of the Act or any Federal statutes and regulations administered by other Federal agencies. You must comply with all the Act's requirements, including, but not limited to: registration and listing (21 CFR Part 807); labeling (21 CFR Part 801); medical device reporting of medical device-related adverse events) (21 CFR 803) for devices or postmarketing safety reporting (21 CFR 4, Subpart B) for combination products (see https://www.fda.gov/CombinationProducts/GuidanceRegulatoryInformation/ucm597488.htm); good manufacturing practice requirements as set forth in the quality systems (OS) regulation (21 CFR Part 820) for devices or current good manufacturing practices (21 CFR 4, Subpart A) for combination products; and, if applicable, the electronic product radiation control provisions (Sections 531-542 of the Act); 21 CFR 1000-1050.

Also, please note the regulation entitled, "Misbranding by reference to premarket notification" (21 CFR Part 807.97). For questions regarding the reporting of adverse events under the MDR regulation (21 CFR Part 803), please go to http://www.fda.gov/MedicalDevices/Safety/ReportaProblem/default.htm.

For comprehensive regulatory information about medical devices and radiation-emitting products, including information about labeling regulations, please see Device Advice (https://www.fda.gov/MedicalDevices/DeviceRegulationandGuidance/) and CDRH Learn (http://www.fda.gov/Training/CDRHLearn). Additionally, you may contact the Division of Industry and Consumer Education (DICE) to ask a question about a specific regulatory topic. See the DICE website (http://www.fda.gov/DICE) for more information or contact DICE by email (DICE@fda.hhs.gov) or phone (1-800-638-2041 or 301-796-7100).

Sincerely,

Hole 2. Mils

for Robert A. Ochs. Ph.D. Director Division of Radiological Health Office of In Vitro Diagnostics and Radiological Health Center for Devices and Radiological Health

Enclosure

2

Indications for Use

510(k) Number (if known) K173041

Device Name 3DIEMME RealGUIDE

Indications for Use (Describe)

PC/MAC version:

The RealGUIDE software is intended for the following uses:

1. Support to the diagnosis for trained professionals. The input DICOM files acquired by a CT/CBCT scanner are not modified in any way but they are showed to the doctor through the classical imaging and volume rendering techniques. It is a stand-alone product. No information of the patient is modified, all the parameters used for the image processing are read from the DICOM file itself. Neither automatic diagnosis is made, nor automatic disease detection is performed. This software is not connected to any medical instrumentation and it doesn't control any medical or energy supplying device. The user imports DICOM data coming from any CT/CBCT imaging device and the software enables him to view the Patient exam in different multi-planar 2D images and easily reconstruct the 3D volume for an immediate visualization of bone structures and surrounding tissues.

2. Virtual oral and maxillofacial surgery planning. Doctors can plan virtual implants and surgeries on 2D/3D reconstructions and export the projects in open or proprietary format for further processing. The user can choose different implant models (for example dental implants models) from a library provided by the Manufacturers and simulate the positioning in the Patient reconstructed volume (this operation is called "virtual plan")

3. Dental/maxillofacial surgical guides and prosthetic modelling. The virtual plan is used to design a surgical guide that is used by the doctor to drive the surgery drills according to the planned implants direction and depth. This surgical guide can be manufactured by any 3D printer working from STL files. The user can also design the patient (typically a denture) with the surface and volume free-form tools implemented in the result is exported in STL format for 3D printing or CAD/CAM technologies.

Mobile version:

The RealGUIDE software APP is intended for the following uses:

1. Projects visualization and editing. The input PROJECT files, pre-processed with the RealGUIDE desktop version, are used by trained professionals to evaluate the implants projects, edit them with other colleagues through the cloud, as well as for a more effective Patient treatment communication.

The RealGUIDE APP version is NOT INTENDED for managing a 3D diagnosis starting from DICOM images, due to the mobile devices screen resolution limitations. For this reason, the APP is not reading directly the DICOM files but only pre-processed project files, exported through the cloud by the RealGUIDE desktop version.

Type of Use (Select one or both, as applicable)

X Prescription Use (Part 21 CFR 801 Subpart D)

Over-The-Counter Use (21 CFR 801 Subpart C)

CONTINUE ON A SEPARATE PAGE IF NEEDED.

3

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4

Image /page/4/Picture/1 description: The image shows a logo with a cube-like design. The cube is composed of three visible faces, each in a different color. The top face is green, the left face is red, and the right face is blue. Below the logo, there is text that reads "Document revision: 5.0".

RealGUIDE® Software 510(k) SUMMARY

Medical Device Class II FDA 510(k)

Document revision: 5.0

Latest revision date: 09/27/2018

Pag. 2 of 7

1 Submitter

3DIEMME Srl Via Risorgimento 9 22063 Cantù (CO) Italy Phone: +39.031.7073353 Fax: +39.031.710284 Contact person: Alessandro Motroni, CEO Phone: +39.031.7073353 Fax: +39.031.710284 Contact person in US: Lara Luzak, Senior Regulatory Specialist Registar Corp 144 Research Drive, Hampton, VA 23666 US (757) 224-0177 [voice] (757) 224-0179 [fax] lluzak@registrarcorp.com

2 Subject device

Proprietary Name: 3DIEMME RealGUIDE Classification Name: System, Image Processing, Radiological Regulation: 892.2050 Product Code: LLZ

There have been no prior submissions for the subject device.

3 Predicate device

Name of Device: Implant Studio™ 2015-1 Manufacturer: 3Shape Medical A/S K Number: K152078 Product Code: LLZ

This predicate device has not been subject to a design-related recall.

Reference Device #1: Name of Device: Simplant 2011 Manufacturer: Materialise Dental NV K Number: K110300 Product Code: LLZ

This reference device has not been subject to a design-related recall.

5

Image /page/5/Picture/0 description: The image shows a logo with a cube shape. The cube is made up of three visible faces, each in a different color. The top face is green, the front face is red, and the right face is blue. Below the logo, the text "Document revision: 5.0" is visible.

RealGUIDE Software 510(k) SUMMARY

Medical Device Class II FDA 510(k)

Document revision: 5.0

Latest revision date: 09/27/2018

Pag. 3 of 7

Reference Device #2: Name of Device: Codiagnostix Implant Planning Software Manufacturer: Straumann USA K Number: K130724 Product Code: LLZ

This reference device has not been subject to a design-related recall.

Reference Device #3: Name of Device: Maven Pro Manufacturer: nSequence K Number: K130242 Product Code: LLZ

This reference device has not been subject to a design-related recall.

4 Device description

RealGUIDE Graphic Station is a fully-featured 3D imaging application in medicine. Its unique open architecture and modular framework make customization options trivial. RealGUIDE Graphic Station is meant to be a multiplatform application, running on PC, MAC and mobile devices (not provided by 3DIEMME). The RealGUIDE software is capable of displaying oral/maxillofacial radiology. The user is then able to navigate through different views, segmented analysis (cross sections), and 3D perspective. In addition, the user is able to simulate various objects within the radiograph for the purpose of treatment planning.

Once treatment planning and visual simulation is complete, users can generate reports and simulated images for the purpose of evaluation and diagnosis, as well as perform a surgical guide and prosthesis modelling, to be exported in STL format for the manufacturing with any RP or CAD/CAM machine.

The output format of the software is a STL file, mainly focused on dental, maxillofacial and orthognatic surgery. A list of the possible devices that can be modelled with the software is reported below:

• -Surgical guides for dental implants and surgical screws planning
• -Bone cutting and bone reduction guides for maxillofacial surgery
• -Bone graft models for mandible/maxilla regenerative procedures
• -Dental and maxillofacial prosthesis

ട Indications for use

PC/MAC version

The RealGUIDE software is intended for the following uses:

6

Image /page/6/Picture/0 description: The image shows a document with the title "RealGUIDE Software 510(k) SUMMARY". It also includes the text "Medical Device Class II FDA 510(k)". The document revision is 5.0, and the latest revision date is 09/27/2018. The page number is 4 of 7.

• 1. Support to the diagnosis for trained professionals. The input DICOM files acquired by a CT/CBCT scanner are not modified in any way but they are showed to the doctor through the classical imaging and volume rendering techniques. It is a stand-alone product. No information of the patient is modified, all the parameters used for the image processing are read from the DICOM file itself. Neither automatic diagnosis is made, nor automatic disease detection is performed. This software is not connected to any medical instrumentation and it doesn't control any medical or energy supplying device. The user imports DICOM data coming from any CT/CBCT imaging device and the software enables him to view the Patient exam in different multi-planar 2D images and easily reconstruct the 3D volume for an immediate visualization of bone structures and surrounding tissues.
     Image /page/6/Picture/2 description: This is a 3D rendering of a human mandible, or lower jaw bone, set against a blue background. The bone is a light brown color and shows the teeth, including molars and incisors, with some teeth appearing to have fillings or dental work. The image provides a detailed view of the bone structure and dental arrangement.

3D reconstruction from DICOM example

• 2. Virtual oral and maxillofacial surgery planning. Doctors can plan virtual implants and surgeries on 2D/3D reconstructions and export the projects in open or proprietary format for further processing. The user can choose different implant models (for example dental implants models) from a library provided by the Manufacturers and simulate the positioning in the Patient reconstructed volume (this operation is called "virtual plan")
     Image /page/6/Picture/5 description: This image shows a 3D rendering of a human jaw with dental implants. The jawbone is a light brown color, and the teeth are a darker shade of brown. Two dental implants are visible in the front of the jaw, and they are a pink color. The implants are long and thin, and they extend from the jawbone up into the gums.

Virtual implants plan

7

Image /page/7/Picture/0 description: This image shows a title page for RealGUIDE Software 510(k) Summary. The document revision is 5.0, and the latest revision date is 09/27/2018. The document is page 5 of 7 and is for a Class II Medical Device under FDA 510(k).

• 3. Dental/maxillofacial surqical quides and prosthetic modelling. The virtual plan is used to design a surgical guide that is used by the doctor to drive the surgery drills according to the planned implants direction and depth. This surgical guide can be manufactured by any 3D printer working from STL files. The user can also design the patient prosthesis (typically a denture) with the surface and volume free-form tools implemented in the software. The result is exported in STL format for 3D printing or CAD/CAM technologies.
     Image /page/7/Picture/3 description: The image shows a 3D rendering of two connected teeth. The teeth are a teal color and are set against a light gray background. The larger tooth is on the left, and the smaller tooth is on the right. The teeth appear to be molars, based on their shape and size.

Suraical quide designed to correctly drive the surgical drills and modelled teeth prosthesis

Mobile version

The RealGUIDE software APP is intended for the following uses:

• 1. Projects visualization and editing. The input PROJECT files, pre-processed with the RealGUIDE desktop version, are used by trained professionals to evaluate the implants projects, edit them and share them with other colleagues through the cloud, as well as for a more effective Patient treatment communication.
     The RealGUIDE APP version is NOT INTENDED for managing a 3D diagnosis starting from DICOM images, due to the mobile devices screen resolution limitations. For this reason, the APP is not reading directly the DICOM files but only pre-processed project files, exported through the cloud by the RealGUIDE desktop version.

6 Comparison of technological characteristics with the predicate device

A comparison of the predicate device, reference devices, and RealGUIDE shows that many of the technological characteristics of the devices are similar. The differences between the predicate device and reference devices do not raise new questions of safety and effectiveness.

| Feature name
RealGUIDE
3Shape
Implant
Studio 2015 | Dentsply/
Simplant
2011 | Straumann/
Codiagnostix | nSequence
Maven
PRO |

8

RealGUIDE® Software 510(k) SUMMARY

Medical Device Class II FDA 510(k)

Document revision: 5.0

Latest revision date: 09/27/2018

Pag. 6 of 7

Also the hardware requirements for the correct software use (reported...) are equivalent to the predicate and reference devices.

7 Performance data

The verification, validation and test of the RealGUIDE system have been conducted in accordance with the applicable 3DIEMME procedures and the RealGUIDE SVP documents. The test procedures and results are listed in the RealGUIDE® Software System Validation Procedure (SVP) — Part 1-2 documents. Further details on the non-clinical tests and comparison between the RealGUIDE and the predicate device performance are reported in the RealGUIDE® Software System Validation Procedure (SVP) document.

The risk analysis for the device was conducted according to the EN ISO 14971:2012 (details reported in the RealGUIDE® Software Hazard Analysis document.

Testing demonstrates the implementation functions as intended, and differences between the Device and the predicates do not raise additional concerns with the Device's safety and effectiveness.

9

Image /page/9/Picture/0 description: The image shows a logo with a cube-like structure. The cube is composed of three visible faces, each colored differently. The top face is green, the front face is red, and the right face is blue. Below the logo, there is text that reads "Document revision: 5.0".

RealGUIDE Software 510(k) SUMMARY

Latest revision date: 09/27/2018

8 Clinical data

The software has been tested as a post-treatment information instrument to verify that the data shown by RealGUIDE were correspondent to the patient's anatomical features. Significant clinical studies have been performed by different medical professionals on many CT/CBCT images. The results of these studies are provided in a separate supplement to this submission. These clinical results show the effectiveness of the RealGUIDE software to improve the patient's surgical planning and the whole diagnostic approach.

Relevant scientific literature has been published to date on the effectiveness of medical imaging technology, applied to all the different medicine specialties. Several articles have been published by the leading doctors regarding the functions RealGUIDE is providing, and are listed in the RealGUIDE® Software Description document. Scientific literature about the use and testing of the applied algorithms in the medical field is reported in the RealGUIDE® Software System Validation Procedure (SVP) document.

Based on the clinical performance documented above, the RealGUIDE software has a safety and effectiveness profile that is similar to the predicate and reference devices.

റ Conclusion

Based on a comparison of intended use, indications, principle of operations, features, technical/clinical data, and the test results, the RealGUIDE software is found to be substantially equivalent in safety and effectiveness to the predicate and reference devices listed.