/0101MiNiTM
MiNiTMStrong Solution for Narrow Ridge.
Volume MiNi C4.0
02
MiNiTM Features 04
MiNiTM Fixture Product 05- Fixture 05- Cover Screw & Healing Abutment 06
MiNiTM Abutment Options - Fixture level prosthesis 07- Overdenture prosthesis / Meg-Rhein System 12
MiNiTM Surgical Kit 16- Fixture Length and Drill Marking 18- Surgical Drilling Sequence 19
Extra Option Product - i-Gen 20- 911kit 21
Clinical Report 26
➲ Contents
MiNiTM
/0302MiNiTM
➲ MiNiTM
Ca2+ ions are incorporated onto the S-L-A surface through a unique hydrothermal treatment. This treated surface activates the osteoblasts in living organisms creat-ing a secure bone matrix layer that is combined with PO43- ions. XPEED provides a fast and secure osteointegration over the entire surface of the fixture.
MiNiTM was designed for your convenience with better reliability.
04
➲ MiNiTM Features
(unit : mm)
Mechanical test using universal testing machine in accordance with ISO 14801,-R&D center in MegaGen Implant Co.,Ltd.(2013)-
Parallelwall thickness
MiNiTMØ3
MiNiTMØ3.25
Company AØ3
A 0.28 0.47 0.34
B 0.31 0.42 0.44
11˚connection
M1.4Abutment Screw
XPEEDSurface treatment
1.7mm Hex
Knife thread
MiNiTM, but mighty- When compared with the company A, MiNiTM internal fixture Ø3.0 has similar compressive strength, but Ø3.25 fixture showed much higher value of strength on the thin wall area of the fixture.
Company AØ3.0
Company AØ3.0
MiNiTM Ø3.0
MiNiTMØ3.0
MiNiTMØ3.25
MiNiTMØ3.25
Ø3.0Ø3.0 Ø3.4
676.6
Load
(N)
500
550
650
600
700
750
800
657.1
784.4
AA A
B BB
[Compressive Strength]
[Wall Thickness]
/0504MiNiTM
➲ MiNiTM Fixture Product 1) FixtureØ3.0- Cover Screw included
Ø3.25- Cover Screw included
Ø3.0
8.5 MIIF3008C
10.0 MIIF3010C
11.5 MIIF3011C
13.0 MIIF3013C
15.0 MIIF3015C
Ø3.25
8.5 MIIF3308C
10.0 MIIF3310C
11.5 MIIF3311C
13.0 MIIF3313C
15.0 MIIF3315C
L
L
Length(mm)
Length(mm)
Diameter
Diameter
Ref.C
Ref.C
Ø3.25
Ø3.4
Ø3.0
• PlatformdiameterofØ3.25fixtureiswiderthanreference diameter.
06
➲ MiNiTM Fixture Product 2) Cover Screw & Healing Abutment
• Recommendedtorque-Manual(5~10N∙cm)
Healing Abutment
Cover Screw
Ø3
1.0 MIHA3025
1.5 MIHA3030
2.5 MIHA3040
3.5 MIHA3050
4.5 MIHA3060
Ø3.5
1.0 MIHA3525
1.5 MIHA3530
2.5 MIHA3540
3.5 MIHA3550
4.5 MIHA3560
Cuff Height(mm)
Cuff Height(mm)
ProfileDiameter
ProfileDiameter
Ref.C
Ref.C
• Recommendedtorque-Manual(5~10N∙cm)
0.5 MICS2505
Height(mm) Ref.C0.5
Top view
C.H
C.H
/0706MiNiTM
➲ MiNiTM Abutment Options 1) Fixture level prosthesis
EZ Post
TemporaryAbutment
Impression Coping(Transfer)
Impression Coping(Pick-up)
Cover Screw
Lab Analog
Closed tray Open tray
Milling Abutment
FuseAbutment
Healing Abutment
Angled Abutment
Ø3.
0
Ø3.
25
08
➲ MiNiTM Abutment Options 1) Fixture level prosthesis
EZ Post- Abutment Screw(MIAS14) included
Ø3.5 5.0
1.0 MIEP3505HT
1.5 MIEP3515HT
2.5 MIEP3525HT
3.5 MIEP3535HT
4.5 MIEP3545HT
Ø3.5 7.0
1.0 MIEP3507HT
1.5 MIEP3517HT
2.5 MIEP3527HT
3.5 MIEP3537HT
4.5 MIEP3547HT
Ø3.5 9.0
1.0 MIEP3509HT
1.5 MIEP3519HT
2.5 MIEP3529HT
3.5 MIEP3539HT
4.5 MIEP3549HT
ProfileDiameter
ProfileDiameter
ProfileDiameter
PostHeight(mm)
PostHeight(mm)
PostHeight(mm)
Cuff Height(mm)
Cuff Height(mm)
Cuff Height(mm)
Ref.C
Ref.C
Ref.C
C.H
C.H
C.H
5
7
9
Ø3.5
Ø3.5
Ø3.5
• Recommendedtorque-15N∙cm
/0908MiNiTM
Ø3.5
2.5
Hex
15°
MIAA3215HT
3.5 MIAA3315HT
4.5 MIAA3415HT
2.5
Hex-E
MIAA3215ET
3.5 MIAA3315ET
4.5 MIAA3415ET
Milling Abutment- Abutment Screw(MIAS14) included
Angled Abutment- Abutment Screw(MIAS14) included
Ø3.0 5.0
1.0 MIMA3005HT
1.5 MIMA3015HT
2.5 MIMA3025HT
3.5 MIMA3035HT
4.5 MIMA3045HT
Ø3.0 9.0
1.0 MIMA3009HT
1.5 MIMA3019HT
2.5 MIMA3029HT
3.5 MIMA3039HT
4.5 MIMA3049HT
Ø3.0 7.0
1.0 MIMA3007HT
1.5 MIMA3017HT
2.5 MIMA3027HT
3.5 MIMA3037HT
4.5 MIMA3047HT
ProfileDiameter
ProfileDiameter
ProfileDiameter
ProfileDiameter
Type
PostHeight(mm)
PostHeight(mm)
PostHeight(mm)
Angle
Cuff Height(mm)
Cuff Height(mm)
Cuff Height(mm)
Cuff Height(mm)
Ref.C
Ref.C
Ref.C
Ref.C
C.H
C.H
C.H
C.H C.H
5
7
9
Ø3.0
Ø3.0
Ø3.0
Ø3.5 Ø3.5
15° 15°
Hex Hex-E• Recommendedtorque-15N∙cm
• Recommendedtorque-15N∙cm
10
Temporary Abutment- Abutment Screw(MIAS14) included
Fuse Abutment- Abutment Screw(MIAS14) + Fuse Cap included
Impression Coping- Guide Pin included
Lab Analog
Ø5.0 Ø3.5 3.5 7.0Straight MFAP3535P
Angled(15°) MFAA3315P
Ø3.0 12 MITA3012HT
Ø3.514 Transfer MIIT3516HT
16 Pick-up MIIP3516HT
12 MILA300H
ProfileDiameter
ProfileDiameter
C.H(mm)
P.H(mm)
Length(mm)
Length(mm)
Length(mm)
Ref.CTypeLabio-lingualMesio-distal
Ref.C
Ref.CType
Ref.C
• Recommendedtorque-10~15N∙cm
• Recommendedtorque-10~15N∙cm
• Guide Pin Transfer type - MIGPT16 Pick-up type - MIGPP16
15°
➲ MiNiTM Abutment Options 1) Fixture level prosthesis
Mesio-distal
Mesio-distal
Labio-lingual
Labio-lingual
12
P.H
C.H
Transfer type Pick-up type
14 16
12
Ø3.5 Ø3.5
Ø3.0
/1110MiNiTM
density of bone without defect. First, Any-Ridge implants were placed into the interna-tionally recognized standard bone block with more 40Ncm torque force and an abutment was connected on each implant. Instron was used to measure the force to move a fixture 100μm. The average force was 220N (22.4 kgf). Therefore, If the new temporary abut-ment can be fractured under this force, it may protect the fixture from movement or failure.
From this experiment, we could developed a special temporary abutment which has lower fracture threshold of less than 200 N (20.4 kgf). It was named as Fuse Abutment. Also it has an anatomic profiles to make temporary prosthetics more esthetic.
Fuse Abutment ™
In 1992, Brunski JB. reported that an implant may have higher possibility of fibrous-inter-gration than osseo-integration between bone and implant surface when movements more than100um occurs on the fixture during os-seointegration period. (John B. Brunski, Bio-mechanical factors affecting the bone-dental implant interface. Clinical Materials, Vol. 10, 153-201) Therefore, the implant is needed to be protected not to move when immediate loading is carried out. However, it is not easy to manage loading on the fixture, even when we use a resin temporary with a titanium cyl-inder. It was thought that it’s partly because of the metal component of temporary cylin-der, which can deliver excessive forces to the fixture. This is one of the reasons which make clinicians hesitate the immediate loading pro-cedure. So it is necessary to develop a spe-cial temporary cylinder. It should be broken under the force which can lead fibrointegra-tion or failure of osseointegration to protect the fixture. and it will be preferred if it is easy to make a temporary crown on this particular temporary cylinder. We tried to measure the force causing movement of 100μm on a fix-ture which was placed securely into adequate
Similar to acustomized abutmentfor excellent esthetics!
Perfect margin fitnesswith a prosthetic cap
Scalloped outline
Various Angle :Straight 15° 25°
S-line
Elliptical Occlusal view like a natural tooth
Average < 180N
Disp
lacem
ent(m
m)
Force(N)
Micro-movement test of implant
Fuse Abutment
area
0 50
0.1
0.2
0.3
0.4
0.5
100 150 200 250 350 400 450 500
D1
D2
D3
D4
300
Com
pres
sive
stre
ngth
(N)
Displacement(mm)
Compressive strength test of Fuse Abutment
0
50
100
150
200
250
1 2
Specimen 2Specimen 3Specimen 4Specimen 5
Specimen 1
Design concept of Fuse Abutment™
Rationale of Fuse Abutment™
Mesio-distal
Labio-lingual
Performed compressive strength test to evaluate the micro-movement for bone density using universal testing machine-R&D center in Megagen Implant Co.,Ltd.(2012)-
Performed compressive strength test to evaluate the yield strength for Fuse Abutment using universal testing machine-R&D center in Megagen Implant Co.,Ltd.(2012)-
12
➲ MiNiTM Abutment Options 2) Overdenture prosthesis : Meg-Rhein Overdenture System
Retentive Cap Set
Lab Analog
Impression Coping
Meg-Rhein Abutment
Ø3.
5
Ø4.
0
Ø4.
5
Ø5.
0
Ø6.
0
Ø7.
0
/1312MiNiTM
➲ MiNiTM Abutment Options 2) Overdenture prosthesis : Meg-Rhein Overdenture System
➲ Meg-Rhein
➲ Meg-Rhein Option
Meg-Rhein Package- 1 Meg-Rhein Abutment- 1 Plastic Carrier- 1 Stainless Steel Housing- 3 Retentive Caps (Black, Yellow, Pink)
0 MDR00
1 MDR01
2 MDR02
3 MDR03
4 MDR04
5 MDR05
6 MDR06
Cuff Height (mm) Ref.C
• Perfect compatibility with the Rhein83 from Italy.• Recommend torque : 35Ncm.
C.H8.8
4 Retentive Caps (Violet) 140CEV
Ref.C
• Violetcap(2.7kg)-Forrefill(4ea/pack)
2 Stainless Steel Housings 141CAE
Ref.C
• 2ea/pack
4 Retentive Caps (White) 140CET
Ref.C
• Whitecap(1.8kg)-Forrefill(4ea/pack)
14
➲ Meg-Rhein Option
Insertion Tool
Removal Tool
Stainless Impression Coping (Pick up)
Lab Analog
091EC
085IAC
044CAIN
PLA
Ref.C
Ref.C
Ref.C
Ref.C
• 2ea/pack• Italy - Rhein83 products.• For accurate (pick-up type) impression.• Metal with groove design to prevent from swaying.
• To make denture model.
5.5
Removal Tool
2 Stainless Steel Housings
Plastic Carrier
141CAE
141CAE
Ref.C
Ref.C
• 2ea/pack
• 2ea/pack
8.8
83
90
40
/1514MiNiTM
Overdenture System
Meg-Rhein Package
Advantage
*Smaller & more convenient than others, with proven Italian technology.
Product K & L
Product P
Meg-Rhein
4.4mm
2.1mm
2.25mm
2.3mm
5.5mm
5.2mm
30º
Violet(2.7kg)
White(1.8kg)
Pink(1.2kg)
Yellow(0.6kg)
* Seperate purchase available upon request
1. Small & Easy-to-use Housing System
2. Tilting Angle & Various Retentive Caps of the Meg-Rhein
3. Low Reduction Rate & Uniform Variance of Retentive Force
* A plastic carrier can be used as an impression coping.
Stainless Steel
Housing
Black Cap
Yellow Cap
Pink Cap
Meg-Rhein Abutment
with a Plastic Carrier
100
80
60
40
20
0Meg-Rhein Product K
Before After (1,000cycles)
Product L Product P
Rete
ntiv
e fo
rce
(kg) 3
2
1
01,000 Cycles
R2=0.85
27%
7349%
51
38%
62
37%
63
R2(Coefficient of determination) becomes more reliable when it is close to “1”.
16
➲ MiNiTM Surgical Kit
MiNi
AnyOne Surgical Kit (KAOIN 3003)
AnyRidge Surgical Kit (KARIN 3003)
Shaping Drill
Handpiece Connector
Ratchet Connector
The instrument of MiNi Internal system is contained in AnyRidge & AnyOne surgical kit.
※ Our customers can experience MiNi internal system at any time by purchasing of the instrument even for the customers currently not in use of AnyRidge & AnyOne Internal system.
DIRECTION INDICATOR
Ø3.3 / Ø4.8
TORQUE WRENCH
PATH FINDER
DRILL EXT.
REMOVALDRIVER
HANDDRIVER
Ø4.
0
Ø4.
5
Ø5.
0
Ø5.
5
Ø6.
0
Ø6.
5
Ø7.
0
Ø7.
5
Ø8.
0
Ø3.
5
LANCEDRILL
Ø2.0 Ø3.3 Ø3.8 Ø4.3 Ø4.8 Ø5.4 Ø5.9
Ø3.3 / Ø3.8 CORTICALBONE DRILL
Ø4.1 / Ø4.4 Ø5.7 / Ø6.0
Ø3.
0
Ø3.
25
15.013.011.510.08.57.0
Ø2.0 / Ø2.9
OPTION
Ø2.5 Ø2.8
S
L
HANDPIECECONNECTOR
RATCHETCONNECTOR
/1716MiNiTM
➲ Surgical Components
Handpiece Connector
Ratchet Connector
Shaping Drill
1.7Short HCS17
Long HCL17
1.7Short RCS17
Long RCL17
Ø2.533
SD2518S
Ø2.8 SD2818S
Length(mm)
Length(mm)
Hex Size(mm)
Hex Size(mm)
Diameter
Ref.CType
Ref.C
Ref.C
18
➲ Fixture Length and Drill Marking
➲ Surgical Drilling Sequence
Actual drilling depth 10.5mm= 0.5mm subcrestal + 9.5mm actual fixture length + 0.5mm Y value
Actual drilling depth 10.6mm = 0.5mm subcrestal + 9.5mm actual fixture length + 0.6mm Y value
Ø3.
0
Ø3.
259.
5mm
10.0
mm
0.5mm
InitialDrill Ø2.0 Ø2.5
9.5m
m
10.0
mm
0.5mm
InitialDrill Ø2.0 Ø2.5 Ø2.8
3mm
0.5mm
The platform line of the HandpieceConnector or the Ratchet Connectormust be flush with the fixture platform.
WhenusingtheRatchetWrench,donotuseanexcessivetorqueasitcanleadtoafailureofinternalstructuraldamagetothefixtures.Itisnotrecommendedtoexceedthemaximumtorqueof75N·cm.
The actual lengths of MiNiTM internal fixture is 0.5mm shorter than the depth markings of a Shaping Drill.Therefore, the fixture will be placed 0.5mm under the crest naturally.
Actual drilling depth 10.5mm = 0.5mm subcrestal + 9.5mm actual fixture length + 0.5mm Y value* Fixture Ø3.0 (Y value = 0.5mm), Ø3.25 (Y value = 0.6mm)
0.5mm Subcrestal
Fixture length 9.5mm
Y value 0.5mm
15.0mm
13.0mm11.5mm10.0mm8.5mm
0.5mm
8.0m
m
9.5m
m
11.0
mm
12.5
mm
14.5
mm
Ø3.
0
/1918MiNiTM
A1 4 9 11 4.5 - - IG1W4509
A2 4 10 11 5.5 - - IG1W5510
A3 4 11 11 6.5 - - IG1W6511
B1 5 9 11 4.5 - - IG2W0918
B2 6.5 11 11 5.5 - - IG2W1120
B3 9 13 11 6 - - IG2W1323
C1 5 9 11 4.5 6 4.25 IG3W0921
C2 6.5 11 11 5.5 8 4.25 IG3W1125
C3 9 13 11 6 10 9 IG3W1328
➲ Extra Option Products 1) i-Gen
M1.4
1.5 IA1415
2.0 IA1420
3.0 IA1430
Hex 1.2 1.0 ICS3510
i-Gen Screw
i-Gen Membrane
i-Gen Cover Screw-UseHandDriver(1.2Hex)
Type Cuff Height(mm) Ref.C
Type Height (mm) Ref.C
PL
Proximal Length
BWBuccal width
BLBuccal Length
BDBuccal
Distance
LWLingual width
LLLingual Length
Ref.CType
A1 B1 C1
A2 B2 C2
A3 B3 C3
C.H
1.0
BW LW
BL
BDLL
PL
• MegaGen (MiNi)• Astra (Osseospeed) : Diameter Ø3.5S• Dentsply-Frident (XiVE) : Diameter Ø3.0
20
i-Gen
Design concept of i-Gen
Ideal + Regeneration membrane ⇒ i-Gen membrane
>2.5mm horizontal extensionneeded to make >2mm labial bone after remodeling.Lingual Extension
should be considered for a large defect.
Need to have at least1mm of space above the platform of a fixture: Make this space with a pre-existing abutment, eg, i-Gen Screw.
>100°blunt anglewith bevel should be made to avoid soft tissue irritation.
sh r inkage w i l l occur after removal of mem-brane.
should be adapted to the bone.
0.5~1.0mm
Apical skirt
Ideal regeneration line
Compatible with other implant brands now!
≥2mm
1. Place an implant into the recipient site.2. Connect a i-Gen Screw to the implant and
bone grafting. Usually 1 mm cuff height is good enough for vertical space, but 2 or 3 mm cuff height of i-Gen Screw can be cho-sen according to situation. The amount of graft material should be enough to fill the space between i-Gen and the fixture.
3. Selection of i-Gen and placement. Accord-ing to the size and shape of bone defect, an i-Gen can be chosen from 9 different shapes. Match the hole of i-Gen with the screw hole of i-Gen screw.
4. Fixate i-Gen with a i-Gen Screw. Choose a i-Gen Cover Screw or Flat Healing Abut-ment to fix i-Gen membrane depend on the need of one or two stage surgery. And tight adaptation of soft tissue flap is recom-mended.
* Flat Healing Abutment : P40
1
3
2
4
/2120MiNiTM
Hex
- 911 Fixture Removal kit (KPSFS3000)
Hex
Hex
2) 911 kit (KPSCS3000)
22
➲ 911kit Components
FixtureRemover
TorxDriver
Torque Wrench
FixtureRemoverScrew
Ø3.0~Ø3.615 FSS3035
20 FSL3035
Ø3.7~Ø4.615 FSS3540
20 FSL3540
Ø4.7~Ø5.615 FSS4555
20 FSL4555
Ø5.7~Ø7.015 FSS6080
20 FSL6080
Applied Fixture Diameter Length(mm) Ref.C
M1.4(MiNi) FSS14
M1.6(EZ Plus, ExFeel Ø3.3) FSS16
M1.8(AnyRidge) FSS18
M2.0(AnyOne, Mega Fix, EZ Plus, ExFeel)) FSS20
M2.5(Rescue) FSS25
Applied Fixture Thread Ref.C
5 TD05
15 TD15
20 TD20
300Ncm TW500
70Ncm TW70
Length (mm) Ref.C
Type Ref.C
• Toremovethefixture.WhenselectingaFixtureRe-mover,considertheouterdiameterofaFixture.IncaseofAnyRidgeFixturethatthethreadisformedunderplatform,selectaFixtureRemoveraccordingto platform size
• ToconnectfixtureandFixtureRemover.• Recommended tightening torque FSS14, FSS16 :
40~50 Ncm FSS18, FSS20, FSS25 : 70~80 Ncm.
• ToconnectfixturetoFixtureRemoverScrew
• TW500:Tochecktorqueforcewhenremovingfixture.• TW70:TochecktorqueforcewhentighteningFixture
Remover Screw.
L
L
/2322MiNiTM
Abutment Remover
Screw Remover
Screw RemoverGuide
Internal
10 SSIG10
16 SSIG16
22 SSIG22
22 SSIG22W
External
Hex 2.4 SSEG24
Hex 2.7 SSEG27
Hex 3.3 SSEG33
Applied Fixture Diameter Length(mm) Ref.C
22 ASS
27 ASL
30 SSS
45 SSL
Length (mm) Ref.C
Length (mm) Ref.C
Screw RemoverGuide Holder SSGH
Ref.C
HexRemover22 HSS
27 HSL
Length (mm) Ref.C
• On fractured abutment.• Use screw size M1.8 & M2.0.
• To remove fractured screw. • Use screw size M1.8 & M2.0.
• To secure the Screw Remover from moving side to side when removing the screw.
• Tool to supporting the Screw Remover Guide.
• Toremovehex-damagedAbutmentScrew,CoverScrew or Healing Abutment.
L
L
L
24
Fixture Remover
Abutment Remover
➲ Fixture Remover Screw: Single use only➲ Do not use in case of a gap in Fixture Remover
➲ Can use for abutments that use M1.8 & M2.0 screws.➲ Cannot use for abutment that use M1.6 and M2.5
Remove the prosthesis of the fi xture to be removed, and the surrounding bone.
Insert the Abutment Remover in the fractured abutment hole.
Select a Fixture Capture Screw of the same size as the fixture internal screw. Use the Torx Driver to turn the screw clock-wise (40Ncm~70Ncm) to place in the fixture. (Use of torque less than 40Ncm for M1.6, and 60Ncm for other products may lead to loosening)
Select a Fixture Remover that fits the fixture diameter. Turn the fixed Fixture Remover Screw counterclockwise until it touches the fixture. (For a torque of greater than 300Ncm, it is rec-ommended to use a Trephine bur)
Fixture and Fixture Remover are tightly connected as rising force and descending force are com-bined. (Suction is needed; debris may happen on removal of a fi- xture)
Using Torque Wrench, turn coun-terclockwise and pull out fixture and Fixture Remover. (No more than maximum torque per fixture)
Removed fixture can be pulled out, turning Fixture Remover and fixture clockwise, holding onto vice plier.
Use the Ratchet Wrench to turn clockwise in order to join the abutment and the Abut-ment Remover as one body. (Ratchet Wrench is included in surgical kit)
Move the Abutment Remover sideways while pulling up to remove it. (Use of excessive force may traumatize the fi xture or the bone)
Secure the separated abut-ment in a vice or vice pliers. Use the Ratchet Wrench to turn counterclockwise to sep-arate the abutment with the Abutment Remover.
911kit
/2524MiNiTM
Screw Remover
Hex Remover
Remove the broken Abutment Screw and the abutment.
In case Abutment Screw, Cover Screw or Healing Abut-ment’s hex is fractured.
Select the correct Screw Re-mover Guide that fits the fixture connection to join.
Secure the Screw Remover Guide and insert the Screw Holder in the Screw Remover Guide hole.
Push the Screw Remover down- wards while rotating counter clockwise to separate it from the fixture internal screw. (rpm:30~50, Torque : 30Ncm)
Remove the pieces of broken screw from the fixture internal screw using forceps.
When separating the holder from the guide, push in the direction of the arrow to separate.
Use the Ratchet Wrench to turn counterclockwise to join the abutment with the Abut-ment Remover as one body. (Use a torque of less than 40Ncm., Ratchet Wrench is included in surgical kit.)
Place the removed abutment in the vice. Use the Ratchet Wrench to turn clockwise to separate the abutment with the Hex Remover.
26
➲ Clinical Report
Fig 1. Preoperative panoramic radiograph and intraoral photos. The ridge was atrophied due to long-term absence of teeth.
Fig 3. Two Ø3.0 x 15.0 mm MiNiTM internal fix-tures were placed with excellent stability. GBR was not required.
Fig 5. Flap was sutured and EZ Posts were milled for the better path.
Fig 7. Clinical photo and intraoral radiograph at once after surgery.
Fig 2. Flap was elevated and two osteotomy sock-ets were made for 3.0mm MiNiTM internal fixtures. There was enough bone left in labio-lingual area for slim fixture.
Fig 4. Two EZ Posts were connected to make temporary prosthetics for immediate provisionali-zation.
Fig 6. Provisional restoration was made at the chair side. Due to the smaller diameter of fixture and abutment, the prosthetics could have a nice emergence profile.
Fig 8. Clinical photo and in-traoral radiograph 1 month after surgery.
Fig 9. Clinical photo and intraoral radiograph after final restoration.
26
Gangnam Office 5F MegaGen Tower, 607 Seolleung-ro, Gangnam-gu, Seoul, Korea T. +82-1566-2338 Head Office & Factory 472 Hanjanggun-ro, Jain-myeon, Gyeongsan, Gyeongbuk, Korea T. +82-1544-2285
www.imegagen.com
MiNiTM