MACHINED COLLAR
Machined collar helps prevent
peri-implantitis. Machined neck height is 1.5 mm.
AGGRESSIVE THREAD
Double-lead thread design with an optimal 1.2 mm pitch for implant insertion. The threads increase in the apical direction.
TAPERED CORE
Cylindrical shape promotes long-term osseointegration by enlarging surface area and bone to implant contact.
BONE MAINTENANCE
Microthreads provide even load distribution, stabilizing and maintaining crestal bone level.4,5,6
TAPERED CORE
Cylindrical shape promotes long-term osseointegration by enlarging surface area and bone to implant contact.
K-LEAN™
Sandblasted acid-etched surface, with an extensive multi-stage cleaning process, utilizes ultra-pure water (UPW) which removes undesired residues, yielding a contamination-free surface.7,8,9
INITIAL STABILITY
Tapered progressive thread aimed to enhance initial stability by creating bone compression.
TAPERED APEX
The apically tapered implant design allows for under-preparation of the osteotomy and supports primary stability in soft bone.
CUTTING APEX
Allow for more aggressive bone engagement for indications such as immediate extraction sockets, poor bone quality, and immediate loading.
AGGRESSIVE THREAD
Double lead thread design with an optimal 1.2 mm pitch. The threads increase in the apical direction.
SCIENCE MEETS INNOVATION
We continue to build on our strong heritage as a contemporary implant system backed by science and innovation. Paltop offers six innovative implants with an advanced biological design, including state-of-the-art surgical and restorative components. This complete implant system with two restorative connections, both engineered for marginal bone preservation and restorative flexibility, can be placed utilizing the Premium Surgical Kit. The hallmark of our restorative components is a unique concave abutment profile, which helps deliver long-term aesthetics. Paltop leads with innovation through unique digital workflows and individual implant solutions, such as the Single-Unit Abutment System (SUA) and the Angulated Corrective System (ACS) designed to deliver excellent treatment outcomes and better patient care.
ULTRA-PURE SURFACE
The proprietary K-LEAN™ surface is created by two sequential stages: sandblasting, aimed at creating a porous surface topography, followed by acid etching, intended to generate micro-roughened surface structure. The surface treatment is completed by removing contaminants using ultra-pure water (UPW), a unique process acquired from the semiconductor industry.7,8,9
EDI JOURNAL
SEM SURFACE ANALYSES OF 120 STERILE-PACKED IMPLANTS
“Paltop has decided to consistently clean their products with ultra-pure water (UPW), which is rather expensive to produce, compared to regular demineralized water, and is otherwise mostly employed by the semiconductor industry. XPS analyses of the implant surface thus cleaned show no traces of sulphur, silicon, zinc or chlorine, inorganic impurities frequently found in the XPS analyses of the sandblasted and acid-etched surfaces of implants by other manufacturers. The corresponding EDX analysis shows only the typical elements for grade five titanium...”9
CONCAVE THROUGHOUT
ENGINEERED AESTHETICS
The concave design creates an optimal emergence profile by forming a dense layer of mucosal tissue.
BONE PRESERVATION
BIOLOGICAL SYSTEM
Long-term aesthetics, Concave Profile, Microthreads, K-Lean.
ONE KIT FOR ALL
PREMIUM KIT
Innovative Handpiece-Based Guidance.
INNOVATIVE GUIDANCE
FULLY GUIDED KIT
Innovative Handpiece-Based Guidance.
EXPLORE
PROSTHETICS
A complete line of prosthetic components, provides unlimited analog and digital flexibility.
DISCOVER
INSTRUMENTS
Discover a wide range of surgical kits and instruments.
ANGULATED CORRECTIVE SYSTEM
ACS
Increased restorative flexibility.
SINGLE-UNIT ABUTMENT
SUA
Soft-tissue preservation.
Master Classes from the Best in the World
Our online learning & education platform with unlimited free classes.
THE LEARNING EXPERIENCE
KDG ISLAND
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SUPPORT
References
1. AI-Nsour MM, Hsun-Liang C, Wang HL.Effect of the Platform-Switching Technique on Preservation of Peri-implant Marginal Bone: A Systematic Review. The International Journal of Oral & Maxillofacial Implants Volume 27, Number 1, 2012.
2. Cappiello M, Luongo R, Di Iorio D, Bugea C, Cocchetto R, Celletti R. Evaluation of peri-implant bone loss around platform-switched implants. Int J Periodontics Restorative Dent. 2008 Aug;28(4):347-55.
3. Prosper L, Redaelli S, Pasi M, Zarone F, Radaelli G, Gherlone EF. A randomized prospective multicenter trial evaluating the platform-switching technique for the prevention of post-restorative crestal bone loss. Int J Oral Maxillofac Implants. 2009 Mar-Apr;24(2):299-308.
4. Thobity A, Kutkut A, Almas K. Microthreaded Implants and Crestal Bone Loss: A Systematic Review. J Oral Implantol. 2017 Apr;43(2):157-166. doi: 10.1563/aaid-joi-D-16-00170. Epub 2016 Nov 21.
5. A Bratu E , Tandlich M, Shapira L. A rough surface implant neck with Microthreads reduces the amount of marginal bone loss: a prospective clinical study. Clin. Oral Implants Res. 2009 Aug;20(8):827-32. doi: 10.1111/j.1600-0501.2009.01730.x. Epub 2009 Jun 7.
6. Young-Kyu S , Chong-Hyun H, Seong-Joo H, Sunjai K, Heoung-Jae C. Radiographic evaluation of marginal bone level around implants with different neck designs after 1 year. Int J. Oral Maxillofac Implants. Sep-Oct 2006;21(5):789-94.
7. Klein M, Tarnow D, Lehrfield L. Marginal Bone Changes on Ultraclean, Micro-Threaded Platform-Switched Implants Following Restoration: 1- to 4-Year Data. Compendium of Continuin Education in Dentistry. Article Vol. 41 No. 4. 2020.
8. Singh Dhaliwal J, Rani Nakka David S, Ramizah Zulhilmi N, Kaur Sodhi Dhaliwal S, Knights J, Ferreira de Albuquerque Junior R. Contamination of titanium dental implants: a narrative review. SN Applied Sciences volume 2, Article number: 1011. 2020. 9. Duddeck D, Maghaireh H, Faber FJ and Neugebauser J. SEM surface analyses of 120 sterile-packed implants. EDI Journal. 2014; 64-75.
10. Yenumula J B Manikyamba, Suresh Sajjan MC, Rama Raju A.V., Bheemalingeshwara Rao Chandrasekharan Nair K. Implant thread designs: An overview. TPDI. January and July 2017, Vol. 8, No. 1 & 2.
11. Heba Abuhussein, Giorgio Pagni, Alberto Rebaudi, Hom-Lay Wang. The effect of thread pattern upon implant osseointegration. Clin. Oral Impl. Res. 21, 2010 / 129–136.
 
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