Vendor:Cybermed, Inc.

From LIMSWiki
Revision as of 07:46, 28 March 2024 by Move page script (talk | contribs) (Move page script moved page Cybermed, Inc. to Vendor:Cybermed, Inc. without leaving a redirect)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigationJump to search
Cybermed Inc.
Company typePrivate
IndustryMedical 3D imaging software
FoundedSeoul, South Korea(1998 (1998))
FounderKim Cheol-Young
Headquarters
Area served
Worldwide
Products
Websiteondemand3d.com

Cybermed Inc. (Korean: 사이버메드), located in Seoul, South Korea, has been active in the field of 3D image processing and dental software since its conception in 1998.[1] Its U.S. counterpart, OnDemand3D Technology Inc., is currently headquartered in Irvine, California.

History

Cybermed was founded by Kim Cheol-Young in 1998 in Seoul, South Korea.[citation needed] Since its founding, Cybermed has become the first in the world to introduce cone beam CT image processing software as well as first in Korea to develop a rapid prototyping system,[1] 3D medical imaging software and an implant planning software.[2] The company introduced OnDemand3D, a diagnostic imaging software used for 2D/3D diagnosis in 2007, and In2Guide, an implant planning add-on to OnDemand3D as a stand-alone package, with surgical stent/template ordering capabilities in 2010. EasyRiter, a software for generating reports and referrals from CBCT results was introduced in 2013 with the help of Dr. Robert Danforth and Dr. Dale A. Miles.

Software

OnDemand3D
Stable release
2013 (1.0.9) / May 23, 2013; 11 years ago (2013-05-23)
Written inC/C++, MFC
Operating systemMicrosoft Windows
Available in8 languages
Type3D Image Processing Software
LicenseProprietary Software
Websitewww.ondemand3d.com

OnDemand3D

Having had popular predecessors such as V-Works (2000) and CB-Works (2004), OnDemand3D was introduced in 2006 as a 'complete dental imaging solution'.[3] It is a 3D image processing software written in C/C++ on MFC available in English, French, Spanish, German, Russian, Japanese, Polish and Portuguese.[4] It is a module-based software, where the user can customize according to their diagnostic or research needs.[5]

OnDemand3D is sold in two main packages; one being OnDemand3D App and the other being OnDemand3D Dental.[6] The difference is in the modules included, briefly summarized in the table below.

Module Functions App Dental
DBM DICOM management, Data search, CD/DVD/USB writer, import/export from server, PACS server integration Yes Yes
Report 'Capture' from any module and make a quick & simple report; Export as HTML file Yes Yes
X-Report For a more advanced option: Design custom report templates to increase efficiency Yes Yes
Dynamic Lightbox Slice view, Oblique slice view, 3D Zoom,[7] Virtual endoscopy, etc. Yes No
Dental Volume Reformat Implant planning, Panoramic views, Implant verification, TMJ view, Occlusion view, etc. Yes No
Dental Implant planning, TMJ analysis, 3D Zoom,[7] Nerve tracing No Yes
3D TMJ, Condyle diagnosis, Airway View, Teeth & Roots, 3D Zoom,[7] 3D Segmentation, DICOM to STL conversion Yes Add-on
Fusion Superimposition, Pre-op and post-op comparison, Stitching DICOM data Yes Add-on
3D Ceph Cephalometry, Measurements, Landmark tracing, Superimposition, Pre-op and post-op comparisons, 2D photo mapping, X-ray image generator Add-on Add-on
X-Image 2D image management, Multi format file management, Direct acquisition from configured scanner, Launcher integration Add-on Add-on
In2Guide Implant planning, Order your custom surgical template and surgical drill kits online (Also sold as a stand-alone) Add-on Add-on
In2Guide Pro
Stable release
2013 (1.0.9) / May 23, 2013; 11 years ago (2013-05-23)
Written inC/C++, MFC
Operating systemMicrosoft Windows
Available in8 languages
Type3D Imaging & Processing Software
LicenseProprietary Software
Websitewww.in2guide.eu

In2Guide

Originally an optional add-on to OnDemand3D, In2Guide was introduced as stand-alone In2Guide Pro and In2Guide Planner at the end of 2009.[8] It is built on the same platform and also still available as an add-on. In2Guide's main function is the planning of a surgical stent or template to be used for guided implant surgery.[9]

Guided implant surgery is implant surgery performed with the help of a 'guide' or surgical template that is designed by combining patient CT scans with careful planning on a 3D imaging software such as In2Guide. In2Guide is used to virtually place implants and assess the prosthetic results before surgery. Research suggests that computerized planning can help ensure that the implant is placed in the best bone volume, leading to the 'best possible restorative outcome'.[10] The surgical template that is designed with the planned images then allows for a precise reproduction of that positioning with the use of custom sleeves that dictate both the angle and depth of the needed drilling.[11]

On In2Guide, after the surgery is planned, users fill out a form for template fabrication. The 'planning images' are uploaded by the user and a fabricated template with the appropriate sleeves and drilling instructions is shipped out, usually to reach the customer within a few days.[12]

In2Guide Pro is intended for advanced users such as clinics, labs, and imaging centers which have a CT machine, an intra-oral scanner or a 3D scanner,[13] while In2Guide Planner is a much more basic version that only allows implant planning, with the other steps usually being outsourced for an additional fee.

EasyRiter
Stable release
2013 (1.0.10)
Written inC/C++, MFC
Operating systemMicrosoft Windows
LicenseProprietary Software
Websitewww.easyriter.com

EasyRiter

EasyRiter is a CBCT reporting program co-developed with Dr. Dale A. Miles and Dr. Robert Danforth. It uses a simple template format where the user selects appropriate statements from a ready list in each of the anatomic areas.[14] Pop-up descriptions with illustrations are included to help the user choose the correct description of an anomaly or lesion if found in the CBCT volume.[15] EasyRiter also utilizes flexera licensing.

Applications

The products at Cybermed are used largely by dentists, orthodontists, radiologists, oral and maxillofacial surgeons, GPs, periodontists and other specialists.

Some more specific applications of Cybermed software found in literature:

References

  1. ^ a b 박, 천호. "주 사이버메드". 디지털세미나. Archived from the original on 25 August 2013. Retrieved 22 August 2013.
  2. ^ Korea, Saramin. "Company Introduction". Retrieved 20 August 2013.
  3. ^ "Cybermed OnDemand3D". Retrieved 21 August 2013.
  4. ^ Cybermed Inc. (2013). OnDemand3D Manual. pp. 3–5.
  5. ^ CadGraphics.Co.Kr. "Advantage Beyond Imaging: OnDemand3D" (PDF). Archived from the original (PDF) on 3 March 2016. Retrieved 23 August 2013.
  6. ^ KaVO.com. "OnDemand3D X-ray Software for Dentists". Archived from the original on 21 September 2013. Retrieved 22 August 2013.
  7. ^ a b c Miles DDS, Dale (July–August 2011). "Interpreting the CBCT Data Volume in Orthodontic Cases". Orthotown.
  8. ^ "Cybermed In2Guide". Retrieved 22 August 2013.
  9. ^ KaVO.com. "In2Guide Surgical Template Solution". Archived from the original on 13 March 2013. Retrieved 22 August 2013.
  10. ^ Sarment, DP; Sukovic, P; Clinthorne, N (2003). "Accuracy of implant placement with a stereolithographic surgical guide". The International Journal of Oral & Maxillofacial Implants. 18 (4): 571–7. PMID 12939011.
  11. ^ Krauser, Jack (February 2008). "The Use of Computerized Treatment Planning and a Customized Surgical Templateto Achieve Optimal Implant Placement". Inside Dentistry. 4 (3): 292–9.
  12. ^ Cybermed (2013). In2Guide Workflow. Cybermed.[page needed]
  13. ^ C-Dental. "An Introduction To Guided Surgery: White Paper" (PDF). Cybermed Inc. Archived from the original (PDF) on 5 September 2013. Retrieved 23 August 2013.
  14. ^ Cybermed. "How does EasyRiter work?". Retrieved 22 August 2013.
  15. ^ Cybermed. "What is EasyRiter?". Cybermed. Retrieved 22 August 2013.
  16. ^ a b Kim, Kyeong Hwan; Park, Kun Woo; Manh, Tran Hoang; Yeom, Jin Sup; Chang, Bong-Soon; Lee, Choon-Ki (2007). "Prevalence and Morphologic Features of Ponticulus Posticus in Koreans: Analysis of 312 Radiographs and 225 Three-dimensional CT Scans". Asian Spine Journal. 1 (1): 27–31. doi:10.4184/asj.2007.1.1.27. PMC 2857493. PMID 20411149.
  17. ^ Park, In Sung; Han, Jong Woo; Lee, Kea Joo; Lee, Nam Joon; Lee, Won Teak; Park, Kyung Ah; Rhyu, Im Joo (2006). "Evaluation of Morphological Plasticity in the Cerebella of Basketball Players with MRI". Journal of Korean Medical Science. 21 (2): 342–6. doi:10.3346/jkms.2006.21.2.342. PMC 2734016. PMID 16614526.
  18. ^ Song, Je Seon; Choi, Hyung-Jun; Jung, Il-Young; Jung, Han-Sung; Kim, Seong-Oh (2010). "The Prevalence and Morphologic Classification of Distolingual Roots in the Mandibular Molars in a Korean Population". Journal of Endodontics. 36 (4): 653–7. doi:10.1016/j.joen.2009.10.007. PMID 20307739.
  19. ^ Park, In Sung; Lee, Kea Joo; Han, Jong Woo; Lee, Nam Joon; Lee, Won Teak; Park, Kyung Ah; Rhyu, Im Joo (2009). "Experience-Dependent Plasticity of Cerebellar Vermis in Basketball Players". The Cerebellum. 8 (3): 334–9. doi:10.1007/s12311-009-0100-1. PMID 19259755. S2CID 32262486.
  20. ^ Lee, Paeng; Myoung, Hwang; Seo, Choi; lee, Choung (27 Nov 2005). "The three dimensional analysis of volumetric airway change in orthognathic surgery of mandibular prognathism". J Korean Assoc Maxillofac Plast Reconstr Surg. 6: 552–558. Archived from the original on 4 March 2016. Retrieved 21 August 2013.
  21. ^ Lee, Seung-Lok; Kim, Hee-Jung; Son, Mee-Kyoung; Chung, Chae-Heon (2010). "Anthropometric analysis of maxillary anterior buccal bone of Korean adults using cone-beam CT". The Journal of Advanced Prosthodontics. 2 (3): 92–6. doi:10.4047/jap.2010.2.3.92. PMC 2994701. PMID 21165276.
  22. ^ Um, Yoo-Jung; Jung, Ui-Won; Kim, Chang-Sung; Bak, Eun-Jung; Cha, Jeong-Heon; Yoo, Yun-Jung; Choi, Seong-Ho (2010). "The influence of diabetes mellitus on periodontal tissues: A pilot study". Journal of Periodontal & Implant Science. 40 (2): 49–55. doi:10.5051/jpis.2010.40.2.49. PMC 2872813. PMID 20498760.
  23. ^ Mah, P.; Reeves, T. E.; McDavid, W. D. (2010). "Deriving Hounsfield units using grey levels in cone beam computed tomography". Dentomaxillofacial Radiology. 39 (6): 323–35. doi:10.1259/dmfr/19603304. PMC 3520236. PMID 20729181.

Notes

This article is a direct transclusion of the Wikipedia article and therefore may not meet the same editing standards as LIMSwiki.