3. Two Completely Different Designs Availability
Arc System “AS” Flat System “FS”
Grade 4 Titanium
(ASTM F76)
4. • Platform switching, also known as platform
shifting, is whenever an abutment is used that is
smaller in diameter than the implant platform.
• Advantages –
• Prevents crestal bone loss.
• Best for the implant’s long-term success and
stability.
• Increases soft tissue volume.
• Help to improve esthetic end result.
Platform Switch Design
AS-FS type system Design Concept
5. AS-FS type system Design Concept
• After 3 years of functional study, Less bone loss was recorded
around the implants having micro-threads.
• Increases axial stiffness of the implant.
• Decreases shearing stresses in the cortical bone.
• Improves bone formation and stress distribution.
• Removes tension from the cortical bone and prevent marginal
bone and it’s resorption.
Micro-threads &
Coronal back tapered
Micro-threads &
Coronal back tapered
6. AS-FS type system Design Concept
Triple Thread
Single Thread
• Time saving thread design.
• Fast insertion rate with no adverse effects on
bone.
• Double threaded micro-threads insert inside
2 times faster than the single threaded
implant in one full revolution.
• Triple threaded portion insertion rate will be
3 times faster than the single threaded
implant during a single revolution.
• Double threaded screws have a better
fixation even in low quality bones.
Triple Thread
Double Thread
7. AS-FS type system Design Concept
• Reverse Flute Design is very suitable for the implant
locking in the bone after placement.
• Easy to remove, if needed.
Reverse Flute Design Reverse Flute Design
8. AS-FS type system Design Concept
• Cylindrical implant
is suitable to use
where bone quality
is compromised and
need to achieve
high stability in
worst bone type like
D3 & D4.
Cylindrical Shape Tapered Shape
Tapered implant is
suitable to use in hard
bone type where it is
hard to place implant.
Best suitable bone type
is D1 & D2.
9. AS type system Design Concept
• Arched Apex design helps
to achieve bone
condensation by
increasing bone density
by compressing it.
• Best choice for D3 and
D4 type of bone type.
Arched Apex
• Flat- self cutting Apex
design is best to easily
insert in hard bone.
• Easy to adjust orientation.
• Best choice for D1 and D2
type of bone type.
Flat Apex
10. AS type system Design Concept
• Increases the load transfer to the more flexible cancellous
bone instead of crestal cortical bone.
• Less cortical bone resorption and improved bone
condensation.
• Instead of cutting, the thread design helps to increase
week bone (D4) density by compressing it.
• Best choice for D3 & D4 bone types.
• Efficient cutting tip design facilitates timesaving surgical
technique.
Cylindrical Threads
11. FS type system Design Concept
• Self Cutting thread design had more new bone formation thus
indicating that V-shaped threads are better bone initial
stimulators and has more BIC (Bone to implant contact).
• Can cut through hard bone easily.
• Efficient cutting tip design facilitates time saving surgical
technique
Self Cutting
thread design
12. AS-FS type system Design Concept
• Internal conical connection / Morse
taper is best choice for plague
reduction.
• Least bacterial invasion.
• Improved implant life.
• Least micro-gap size.
• Better abutment fit.
• Better stability.
Morse Taper Morse Taper
13. AS-FS type system Surface Treatment
• SLA implant used in this study showed an excellent survival rate (98.7%).
• The SLA surface showed good biocompatibility with both in vitro cell
response and in vivo animal study.
• The failure rate and Crestal bone loss for SLA implants was lower than that
for TPS implants.
Alumina SLA Alumina SLA
14. Clinical Trial was conducted at Kaohsiung Medical University
- 20 implants install in 12 patients.
Project No. CZ-07-07-17-105
Clinical Trial
Implant stability
by IT&RFA
Gender Age
Implant
position
Bone
density
Implant
length
Implant
diameter
- survival rate reaches 100% and the implant crowns are completed.
The mean IT was 44.50±4.56 Ncm
while the mean ISQ was 77.48±5.03.
15. Project No. CZ-07-07-17-105
Tracking Time
ISQValue
for Three Different Bone density
• 8 cases for D2
• 8 cases for D3
• 4 cases for D4
Regular Tracking of ISQ values
16. 50 years old or older Under 50 years old
Regular Tracking of ISQ values
for Different Age Groups
17. Project No. CZ-07-07-17-105
Tracking Time
The implant sizes are as followed:
• Diameter for 4, 4.5 and 5.5mm
Regular Tracking of ISQ values
for Various Diameters
18. Project No. CZ-07-07-17-105
Tracking Time
The implant Length are as followed:
• Length for 11, 12.5 and 14mm
Regular Tracking of ISQ values
for Various Lengths
19. The Tracking Situations
a. The Day for Implantation
b. After 3 Months after Implantation
c. After 8 Months after Implantation
Project No. CZ-07-07-17-105
23. Platform Switch Design
Prevents crestal bone loss.
Increased soft tissue volume.
Long term success & stability.
Cylindrical Thread Design
Less cortical bone resorption.
Increased bone condensation.
Increases soft bone density.
Arched Apex
Increases Bone
Density (D3 & D4).
Triple thread design
3 times faster and
1/3 time reduction
Double thread design
2 times faster and
1/2 time reduction
Reverse Spiral Flute
design
Increased Implant
locking ability
Easy Removal.
Alumina Sand Blast
Excellent survival rate
in all bone type.
Good Biocompatibility.
Micro-thread design
High Axial Stiffness.
Reduced shearing stress.
Improved bone formation
Morse Taper Design
Best for bacterial and
plague reduction.
Better Abutment fit.
Improved Implant life.
V-Shaped Thread
Easy insertion even in
hard bone.
High BIC after insertion.
Flat Apex design
Easy to adjust Orientation.
342 patients received a total of 836 implants, comprising 533 SLA and 303 TPS implants. Maximum and median follow-up times were 7.2 and 0.8 years, respectively, for patients with SLA implants and 9.7 and 4.6 years, respectively, for those with TPS implants. A greater proportion of SLA implants than TPS implants were placed in type IV bone.
A clinical study had been established on 12 patients in which 20 TISS implants were used to improve their prosthesis.
The purposes of this study were to investigate implant stability through insertion torque (IT) and resonance frequency analysis (RFA) during the period of implant placement and to examine the effect of gender, age, implant position, bone density, implant length, and implant diameter on implant stability.
So far, all the implant survival rate reaches 100% and the implant crowns are completed.
The mean IT was 44.50±4.56 Ncm while the mean RFA was 77.48±5.03
themeanITwas44.504.56NcmwhilethemeanRFAwas77.485.03
We got one of the good results in the implant stability in 3 different bone types, D2, D3 and D4 by tracking those ISQ values from the 1st day for every month till 8 months.
In case of the worst bone type D4, initially we achieved 70 ISQ value and at the end of the 8th month, it reaches beyond 80 with continuous increment.
Which gives an exact idea about our Implant’s good quality even in a worst case scenario.
Also, studies conducted on different age groups patients shows best results especially peoples older than 50 years, when there is the least probability of getting success in osseointegration.
By comparing implant stability in different diameters of implants, the best result is shown by our 4.5 mm diameter implant, starting from 78 ISQ from 1st day to 86 ISQ on 8th month with continuous improvement in stability.
Similarly, by comparing different lengths of our implants among those patients, 12.5 mm implant showed the best result.
However, there was no significant difference between the success in implant stability among 11, 12.5 and 14mm lengths.
Which tells us there is no significant effect of the implant length on implant stability.
Panoramic
periapical radiographs
TISS dental implants are available in different lengths and diameters.
The outer diameter varies from 3.25, 3.5, 4.0, to 5.5 mm and the length from 7, 8, 9.5, 11, to 14 mm.
The advantage of TISS Prosthetics is that all Prosthetics can fit different size of implants, including healing, abutment, Ti-base and post.
It can avoid choosing wrong size of prosthetic and do not need lots of stock.