• Top Thread Design: Features an Asymmetric Trapezoid Thread with an optimum 0.8mm pitch, providing superior stress distribution and higher BIC (Bone-to-Implant Contact) values.
• Predictable Stability: Unlike conventional surfaces that experience a stability dip between weeks 2-6, PDL implants maintain progressive stability throughout healing.
• Integrated Safety: Incorporates an Arced Root Design to protect vital structures (nerve/sinus) and a 0.3mm platform switch to minimize bone absorption.
• Simplified Prosthetics: Uses a universal 10° Morse Taper internal hex connection across all fixture sizes, enhancing wall thickness and mechanical stability.
Biomate PDL Laser Implants
provide the best medical performance for any implantologist and patient.
To provide better dental implant experiences for both dentists and patients.
Convenient implant placement, strong osseointegration,
excellent soft and hard tissue response, and shorter overall treatment time.
Additionally, the implant offers superior bacterial resistance, making it the least prone to peri-implantitis.
The implant is ideal for minimally invasive surgery, resulting in less pain, shorter healing time, and better aesthetic outcomes.
The simplified surgical protocol ensures predictable implant osseointegration, giving dentists more confidence in performing implant surgery even in challenging bone conditions.
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Selection Guideline – Idea emergence profile for each tooth.
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Select the suitable size of Biomate Implant System
| Biomate Implant System | ||||
|---|---|---|---|---|
| System |  |
 |
||
| Size | SD | RD | ||
| Diameter | 3.3 | 4.1 | 4.8 | 5.5 |
| Length | 8/10/ 12/14 |
8/10/ 12/14 |
8/10/ 12/14 |
8/10/ 12/14 |
| Characteristic | 1. Minor External Expansion Design (Φ4.1, Φ4.8, Φ5.5) | |||
| 2. Root Form Design | ||||
| 3. Arced Root Design | ||||
| 4. 03mm/0.4 mm Platform Switch Design | ||||
| 5. Trapezoid Thread Design | ||||
| 6. Self-Taping Thread Design | ||||
| Clinical Applicability | 1. The early stability is a crucial need. | |||
| 2. D3, D4 Bone (Bone condition is very compromised) | ||||
| 3. Sinus Lift | ||||
| 4. The senior patient | ||||
| 5. Immediately loading | ||||
| Special Reminding | 1. Recommend to use RD implants, Biomate system D4.8 or D5.5, at the molar position. | |||
| 2. If you prefer to submerge the implant, we recommend Biomate Implant with 0.5-1.00mm submerged. | ||||
| 3. When the fixture can’t be fully screwed (on D1 bone), please use tap. | ||||
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0.3mm Platform Switch Design The anti-bacterial and machined surface on the platform avoids the growth of dental plaque and decrease bone absorption. Avoid bone loss and gum recession. Excellent effect for maintaining the height of bone level
Minor External Expansion Design Increase fixture stability in the primary stage and helpful for stability in the extracted socket.
Root Form Design Tapered body for use in anatomically constricted areas.
Self-Tapping Thread Design Ensure better primary stability avoid excessive force causing cortical bone absorption and promote bone tapering during insertion.
Arced Root Design Arc shape at the bottom of the fixture Avoid damaging vital structures like the inferior alveolar nerve or maxillary sinus.
II. TOP Concepts of Fixture Design
According to the research findings, the best designs could lead zero bone loss. These findings shows that the Biomate implant design is qualified the best factors.
A conical connection
Internal Hexagon & 10° Morse Taper Internal Hex Design
(This design makes wall thickness thicker)
Platform Switching Design
0.3mm platform switch design with machined roughness surface
Thread Design
Trapezoid Thread Design
Biological Surface
Micro-channel & 3D pore
The top design concepts are as follows:
1. There are about five types of thread designs in the present market. Among these five thread designs, the trapezoidal thread design is the best.
Even though the trapezoid thread design is still infrequent in the present market, it shows good performance with its resistance to micro movement, large bone-implant contact, stress distribution, and bone preservation.
Source:
A. Selection of Optimum Thread Shape Design on Stress Distribution Among 5 Different Implant Types: A Finite Element Analysis (2019)
2. The optimum pitch of the threads is 0.8mm.
This spacing can achieve the fastest and the best osseointegration effect.
BIC(Bone-to-implant contact)is a major factor affecting stress characteristics during implantation. The range of the bone contact area has a very important impact on osseointegration.
III. Design of Surface Treatment-PDL® Laser Treatment
A.PDL® Laser create greater resistance to physical stress
According to a study conducted by Mahidol University, Biomate Plus implants showed only minor damage compared to SLA implants. Biomate Plus surfaces lacked sharp irregularities at the micro level, making them less susceptible to damage.
B.Laser creates an ultra-clean surface, no harmful residues on the surface.
Compare to SLA treatment, laser treatment only applies energy without any chemicals. The only residues on BiomateSwiss implants are Ti, N, O, and C.
C.Laser creates a thicker oxide layer to optimize protein adsorption and cell adhesion and regeneration
Laser treatment produces an oxide layer called TiO2. Compared to the 5.5-9.3nm layer of Straumann,