Biohorizons Implant

 
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Biohorizons Implant Systems Overview

dandal

Biohorizons - Internal Bone level

Cylindrical

dandal

Diameter 3.5 - 4 - 5 - 6

Height 9 - 10.5 - 12 - 15dandal

Biohorizons - Internal Tissue Level

Mount-free

internal

Diameter 3.5 - 4 - 5 - 6

Height 7 - 9 - 10.5 - 12 - 15dandal

Biohorizons - External

Mount-free

external

Diameter 3.5 - 4 - 5 - 6

Height 7 - 9 - 10.5 - 12 - 15dandal

Biohorizons - Tapered Internal

Tapered

dandal

Diameter 3 - 3.4 - 3.8 - 4.6 - 5.8

Height 7.5 - 9 - 10.5 - 12 - 15 - 18dandal

Biohorizons - Short Tapered Internal

Laser-Lok Complete

Mount-free

short tapered

Diameter 4.6 - 5.8

Height 7.5 - 9dandal

Biohorizons - Tapered Internal Plus

Tapered Plus

dandal

Diameter 3.8 - 4.6 - 5.8

Height 7.5 - 9 - 10.5 - 12 - 15dandal

Biohorizons - Tapered Tissue Level

Mount-free

tapered tissue

Diameter 3 - 3.8 - 4.6 - 5.8

Height 7.5 - 9 - 10.5 - 12dandal

Biohorizons - One-Piece

Mini implant

dandal

Diameter 3

Height 12 - 15 - 18dandal

Biohorizons - Overdenture

Mini implant

overdenture

Diameter 3

Collar 2 - 4

Height 12 - 15 - 18dandal

* Tapered and Bone level Internal Implants have two types of packaging (with or without mount) and the fixtures without abutment (mount) has three types of surface (RBT body with or without laser-Lok and Hydroxylapatite body).

  

For more information Click on the above pictures.

     

           

       
            

  
  •     Platform switching
  •     Gold coated on most abutment for more aesthetics
  •     Possibility of implantation above the bone cause of its adhesion to soft tissue
  •     Variety of prosthetic components
  •      Low failure for high risk patients
  •      Life time warranty
  •        Non-uinform platform for prosthetic components

  

       

      

      

all.jpg

             

About Biohorizons company
    

In 1988, the application of laser on fixture surface and impact of it on bone integration was proposed. in 1994 the American researchers, Dr. Carl E. Misch and et al began to investigate over the dental implants. Finally succeeded in manufacturing of cylindrical and tapered implant with Laser-Lok and without Laser-Lok in biohorizons. In 2012 biohorizons presented its new Laser-Lok named Laser-Lok plus.       

        

Virtually all dental implant surfaces on the market are grit-blasted and/or acid-etched. These manufacturing methods create random surfaces that vary from point to point on the implant and alter cell reaction depending on where each cell comes in contact with the surface. While random surfaces have shown higher osseointegration than machined surfaces.  

       

laserlock-compare11.jpg ossteointegration

        

The biologic differences between standard abutments and Laser-Lok abutments including changes in epithelial downgrowth, connective tissue and crestal bone health.

   
   laserlock-compare22.jpg

The variation in tissue attachment strength on standard and Laser-Lok abutments (Laser-Lok implants and abutments ---> Biologic attachment ---> better ossteointegration)   

      

Laser-Lok abutments can supports non Laser-Lok implants.  In a study, Laser-Lok abutments and standard abutments were randomly placed on implants with SLA surface to evaluate the differences that it shown to inhibit epithelial downgrowth and establish a connective tissue attachment similar to Laser-Lok implants.           
         
         
 
     
      

               

Biohorizons implant Systems     
         

Internal System:

  • Cylindrical body (Parallel wall)
  • Internal Hex Connection
  • Square thread design ---> Increase implant surface area

    

1- Bone Level implant

  • Pre-mount/Mount-free
  • Mount-free ----> RBT body + Laser-lok collar / RBT Body / Hydroxylapatite body

     

2- Tissue Level implant

  • Mount-free
  • RBT body + Laser-lok collar / RBT body

      

    

External System:

  • Cylindrical body (Parallel wall)
  • External Hex Connection
  • Square thread design ---> Increase implant surface area
  • Pre-mount
  • RBT Body / Hydroxylapatite body

       

Tapered System:

  • Tapered body
  • Buttress thread

    

1- Tapered internal implant

  • Wide range of diameters and lengths
  • Bone level
  • Pre-mount/Mount-free
  • Mount-free ----> RBT body + Laser-lok collar / RBT Body

      

2- Short Tapered internal implant

  • Full Laser-lok body with no machined collar ---> Faster osseointegration and higher bone to implant contact
  • Ideal for anatomically challenging conditions
  • Bone level
  • Mount-free

             

3- Tapered internal plus implant

  • Platform switching ---> Increase soft tissue volume around the implant connection
  • Laser-lok zone ---> Creates a connective tissue seal and maintains crestal bone
  • Bone level
      

biohorizons

     

4- Tapered Tissue Level implant

  • Transmucosal collar
  • Laser-Lok collar and RBT body --> Inhibit epithelial downgrowth, attach connective tissue and create a biologic seal around the implant

     

            

One-Piece 3.0 and Overdenture System:
     

1- One-Piece 3.0 implant

  • Ideal for limited Space such as missing maxillary laterals and mandibular incisors
  • One-Stage surgery
  • RBT surface

   

2- Overdenture implant

  • Ideal for narrow ridges
  • One-Stage surgery
  • RBT surface

            
              

   

Sources:

  • A bone quality-based implant system: first year of prosthetic loading. J Oral Implantol. 1999;25(3):185-97
  • Blood vessels are concentrated within the implant surface concavities: a histologic study in rabbit tibia. Odontology. 2014 Jul;102(2):259-66
  • Bone response to laser microtextured surfaces. Bone Engineering. Em2 Inc., Toronto, 2000:282-294
  • Clinical evaluation of laser microtexturing for soft tissue and bone attachment to dental implants. Implant Dentistry. 2009 Feb;18(1):57-66
  • Clinical, radiographic, and esthetic evaluation of immediately loaded laser microtextured implants placed into fresh extraction sockets in the anterior maxilla: a 2-year retrospective multicentric study. Implant Dentistry. 2014 Apr;23(2):144-54
  • Comparative analysis of immediate functional loading and immediate nonfunctional loading to traditional healing periods: a 5-year follow-up of 550 dental implants. Clin Implant Dent Relat Res. 2009 Dec;11(4):257-66
  • Connective tissue attachment to laser microgrooved abutments: A human histologic case report. Int J Periodontics Restorative Dent. 2012 Aug;32(4):385-92
  • Evaluation of Laser-Lok microgrooves on the stress distribution of crestal bone by Finite Element Analysis. Journal of Lasers in Medicine. 2011;7(4):11-18
  • Evaluation of Platform Switched Laser-Lok implant on the stress distribution of crestal bone by Finite Element Analysis. Journal of Lasers in Medicine. 2011;8(2):35-41
  • Hard and soft tissue changes after crestal and subcrestal immediate implant placement. J Periodontol. 2011 Aug;82(8):1112-20
  • Histologic evaluation of 3 retrieved immediately loaded implants after a 4-month period. Implant Dentistry. 2006 Sep;15(3):305-12
  • Histologic evidence of a connective tissue attachment to laser microgrooved abutments: A canine study. Int J Periodontics Restorative Dent. 2010 Jun;30(3):245-55
  • Histologic evidence of connective tissue integration on laser microgrooved abutments in humans. Clinical Advances in Periodontics. 2011 May;1(1):29-33
  • Human histologic evidence of a connective tissue attachment to a dental implant. Int J Periodontics Restorative Dent. 2008 Apr;28(2):111-21
  • Immediate implant placement and provisionalization—two case reports. Pract Proced Aesthet Dent 2007;19(10):421-428
  • Influence of hex geometry and prosthetic table width on static and fatigue strength of dental implants. J Prosthet Dent. 1999 Oct;82(4):436-40
  • Influence of Laser-Lok surface on immediate functional loading of implants in single tooth replacement: a 2-years prospective clinical study. Int J Periodontics Restorative Dent. 2014 Jan-Feb;34(1):79-89      
  • Interactions between MC3T3-E1 cells and textured Ti6Al4V surfaces. J Biomed Mater Res. 2002 Oct;62(1):56-72   
  • Mechanical basis for bone retention around dental implants. J Biomed Mater Res B Appl Biomater. 2009 Feb;88(2):306-11
  • Marginal tissue response to different implant neck design. J Korean Acad Prosthodont. 2008 Dec;46(6):602-609   
  • Osseointegration on metallic implant surfaces: effects of microgeometry and growth factor treatment. J Biomed Mater Res. 2002;63(6):706-13     
  • Radiographic analysis of crestal bone levels around Laser-Lok collar dental implants. Int J Periodontics Restorative Dent. 2010 Apr;30(2):129-37    
  • Radiological comparison of laser-microtextured and platform-switched implants in thin mucosal biotype. Clinical Oral Implants Research. 2015;26(5):599605     
  • Reattachment of the connective tissue fibers to the laser microgrooved abutment surface. Int J Periodontics Restorative Dent. 2012 Aug;32(4):e131-4 
  • Soft and hard tissue modifications at immediate transmucosal implants (Laser-Lok microtextured collar) placed into fresh extraction sites. A six month prospective study with surgical re-entry. Int J Periodontics Restorative Dent. 2014 Jul-Aug;34(4):541-9     
  • The Effects of Laser Microgrooves on Hard and Soft Tissue Attachment to Implant Collar Surfaces: A Literature Review and Interpretation. J Periodontics Restorative Dent. 2013 Nov-Dec;33(6):e145-52  
  • The effects of Laser microtextured collars upon crestal bone levels of dental implants. Implant Dentistry. 2008 Jun;17(2):217-28
  • The effects of laser microtexturing of the dental implant collar on crestal bone levels and peri-implant health. Int J Oral Maxillofac Implants. 2011 May-Jun;26(3):492-8     
  • The impact of dis-/reconnection of laser microgrooved and machined implant abutments on soft- and hard-tissue healing. Clin Oral Implants Res. 2013 Apr;24(4):391-7

 



Reference :

Data sheet

  • Biohorizons
  • USA
  • 1998
  • 2000
  • 5
  • SLA+Laser-Lok | SLA | Laser-Lok | Hydroxyapatite
  • Yes
  • Yes
  • 7.5mm to 18mm
  • Hex
  • No
  • Fixture+Cover Screw+Abutment+Screw | Fixture+Cover Screw
  • Yes
  • Yes
  • Yes
  • 10-15Ncm
  • 30Ncm
  • Life time warranty (in Iran 1% during a year)
  • Tapered | Cylindrical
  • Yes
  • 3mm to 6mm
  • CE | FDA

Specific References

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Products accessories

Leave a comment about this product

06/24/2015

good result

من از بایوهورایزن نتیجه خوبی گرفته ام. معایبی که وجود دارد قابل چشم پوشی است.

05/13/2015

۴.۲

من با سیستم تیپرد این سیستم کار می کنم سایزهای ۳ . ۳.۸ . ۴.۶ . ۵.۸ دارد به نظرم اگر سایز ۴.۱ یا ۴.۲ رو اضافه می کرد دیگه هیچ عیبی نمی توان ازش گرفت.

03/31/2015

Bone loss

This is my favorite Implant, I use tapered plus fixtures for surgery and laser lok abutments for prosthetic cause of its low bone loss.

03/30/2015

بدون لیزر لاک

من جدیدا به دلیل قیمت مناسب فیکسچرهای بدون لیزر لاک در جایگزینی لیزرلاک که قیمت بالاتری دارد استفاده میکنم و کیفیت خیلی خوبی هم دارد.

03/26/2015

قیمت

قیمت محصولات بایوهورایزن در مقابل کیفیت بالای آن واقعا مناسب است.

03/15/2015

تنوع فیکسچر

من تقریبا ۴ سال هست که با این سیستم کار می کنم تنها مشکلی که داشتم برای درایور و کیت جداگانه برای فیکسچر های ۳ میلی متری بود٬ که این سری کیت جدید که گرفتم این مشکل رو حل کرده و تمام درایورهای مربوط به فیکسچر تیپرد رو داخلش گذاشتن اما کیت جدید depth gauge نداره که البته چیز خیلی مهمی نیست چون قطعات دیگری در کیت هست که می شه اندازه گیری کرد.

02/27/2015

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Biohorizons Implant

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