Multilink speed

Manufactured by Ivoclar Vivadent

Sourced in Liechtenstein

Multilink Speed is a dual-curing, self-adhesive universal resin cement from Ivoclar Vivadent. It is designed for the permanent cementation of indirect restorations, such as inlays, onlays, crowns, bridges, and posts.

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Lab products found in correlation

Filtek z350, by 3M (2 mentions) Bluephase, by Ivoclar Vivadent (1 mentions) Elipar s10, by 3M (1 mentions) Relyx u200, by 3M (1 mentions)

7 protocols using multilink speed

Bond Strength of Resin Cement on Zirconia

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Resin cement Multilink Speed (Ivoclar Vivadent AG, Liechtenstein) was activated according to the instructions provided by the manufacturer. A light-cured composite resin cylinder Filtek Z350 (3M ESPE, USA) (diameter 2.7 mm, height 4.0 mm) was placed onto the zirconia surface (prepared in 2.3). The excess cement was removed after light polymerization for 3–5 s using a light curing machine (SLC-VIIIA, Hangzhou Quartet Medical Devices Co Ltd, Hangzhou, China) with a light power density of 900 mW cm⁻² monitored by a Cure Rite radiometer. The specimens were light polymerized from two opposite lateral directions of the block for 20 s each. The bonded specimens were stored in distilled water at 37 °C for 24 h. Then, each group was divided into two subgroups: the first subgroup (n = 9) was tested the bond strength; the second subgroup (n = 9) was subjected to thermal cycling (Proto-Tech, Micoforce, Portland, OR, USA) for 5000 cycles between 5.0 ± 0.5 °C and 55.0 ± 0.5 °C prior to bond strength testing. The dwelling time in each deionized water bath was 30 s.

Liu X., Wang H., Yu S., Zhao Q., Shi Z., Cui Z, & Zhu S. (2020). Construction of a silicate-based epitaxial transition film on a zirconia ceramic surface to improve the bonding quality of zirconia restorations. RSC Advances, 10(54), 32476-32484.

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Zirconia Bonding Protocol with SADRC

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All the bonding surfaces of monolithic zirconia specimens were subjected to 50 μm alumina particle abrasion with a pressure of 1 bar at a distance of 10 mm for 15 s. Then, the monolithic zirconia specimens were ultrasonically cleaned with distilled water for 5 min and air-dried for 5 s.
A commercial SADRC (Multilink Speed, Ivoclar Vivadent, Liechtenstein. Its compositions were showed in Table 1) was mixed according to the manufacturer's instruction. The mixed SADRC was placed into custom silicon rubber molds and then covered with the previously prepared monolithic zirconia specimens. The SADRC was then light cured through zirconia specimen using a light curing unit (Elipar™ S10, 3M ESPE, USA) with an intensity of 1200 mW/cm² for 20 s or 40 s. The light curing process is shown in Figure 2, and the light curing unit tip was kept close contact to the zirconia surface during the curing process. The output power of the light curing unit was monitored with a radiometer (Bluephase, Ivoclar Vivadent, Liechtenstein) after every five specimens were treated.

Zhang C.Y., Cheng Y.L., Tong X.W., Yu H, & Cheng H. (2019). In Vitro Cytotoxicity of Self-Adhesive Dual-Cured Resin Cement Polymerized Beneath Three Different Cusp Inclinations of Zirconia. BioMed Research International, 2019, 7404038.

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Post-Endodontic Restoration Techniques

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The samples were cleaned with 2% sodium hypochlorite and stored in physiological saline till the preparation. The samples were decoronated 1 mm coronal to cementoenamel junction using a diamond disc in a micro motor with saline as a coolant. Pulpectomy was done and obturated with zinc oxide eugenol paste leaving 4 mm of the canal space for post. One millimeter thickness glass ionomer cement (GIC) base was given to separate the obturating material from the post space. Care was taken to avoid smearing zinc oxide eugenol remnants on the walls of the post space. Three millimeters post space was measured using a Williams's periodontal probe.
All the samples were numbered from 1 to 60 and divided into three groups containing twenty samples each:

Group I: Polyethylene fiber reinforced Composite (Ribbond)

Group II: Omega loop – 0.7 mm orthodontic wire

Group III: Prefabricated glass fiber-reinforced composite post.

For all the groups, canals were etched with 37% phosphoric acid (Ivoclar vivadent) and monobond N is a Ivaclor Vivadent product. It is suitable for all types of indirect restorative materials, easy storage, can be used along with glass and oxide ceramics, metal composites, FRC's according to manufacturer instructions (Multilink speed, Ivoclar vivadent).

Nilavarasan N., Hemalatha R., Vijayakumar R, & Hariharan V.S. (2016). Comparison of compressive strength among three different intracanal post materials in primary anterior teeth: An in vitro study. European Journal of Dentistry, 10(4), 464-468.

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Evaluating Zirconia-Resin Cement Bond Strength

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Resin cement Multilink Speed (Ivoclar Vivadent AG, Liechtenstein) was activated according to the instructions provided by the manufacturer. A light-cured composite resin cylinder Filtek Z350 (3M ESPE, USA) (diameter 2.7 mm, height 4.0 mm) was placed onto the zirconia surface (prepared in 2). The excess cement was removed after light polymerization for 3–5 seconds using a light curing machine (SLC-VIIIA, Hangzhou Quartet Medical Devices Co., Ltd., Hangzhou, China) with a light power density of 900 mW cm⁻² monitored by a Cure Rite radiometer. The specimens were light polymerized from two opposite lateral directions of the block for 20 seconds each. The bonded specimens were stored in distilled water at 37 °C for 24 hours. Then, each group was divided into two subgroups: the first subgroup (n = 9) was assessed for the bond strength; and the second subgroup (n = 9) was subjected to thermal cycling (Proto-Tech, Micoforce, Portland, OR, USA) for 5000 cycles between 5.0 ± 0.5 °C and 55.0 ± 0.5 °C prior to bond strength testing. The dwell time in each deionized water bath was 30 seconds.

Liu X., Cheng Q., Zhu Y., Yu S., Hou Y., Cui Z, & Zhu S. (2021). Construction and properties of the antibacterial epitaxial transition layer on a zirconia ceramic surface. RSC Advances, 11(55), 34699-34709.

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Dual-Cured Resin Luting Cements for Fiber Posts

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Two self-adhesive dual cured resin luting cements were used in this study: Multilink Speed (Ivoclar Vivadent, Schaan, Liechtenstein) and RelyX U200 (3M ESPE, Saint Paul, MN, USA) (Table 1). The manipulation of the materials was performed in accordance with the manufacturers' instructions, and all experiments were carried out at room temperature.
A translucent fiber post system and two types of curing lights were utilized (Table 1).

Khabeer A., Ahmed S.Z., Zubair M., Faridi M.A, & Al-Harthi M.A. (2021). Degree of conversion of two self-adhesive resin luting cements through different lengths of fiber post. Journal of oral science, 63(2).

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Bonding Zirconia to Titanium Alloy

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The cements (Multilink Speed, Ivoclar Vivadent, Schaan, Liechtenstein) were mixed according to the manufacturer's protocol, and a thin layer was applied to the Y-TZP surface with a microbrush. The zirconia surface adhered to the Ti-6Al-4V surface, and the two joined specimens were axially loaded with a 1-N force for 1 min at room temperature. The excess cement was removed with a paintbrush, and the composite resins were photocured for 20 s using a light-emitting diode device (Demi Plus , Kerr, Orange, CA, USA) with an irradiance of 1,200 mW/cm 2 .

Tan X., Gao S., Liu B., Min J., Zhang Q., Zhao Y, & Yu H. (2019). Effect of different pH environments on the durability of bonds between zirconia and Ti-6Al-4V. Dental materials journal, 38(6).

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Bonding Performance of Self-Adhesive Resin

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Based on the resin cement used for the bonding procedure, the samples were divided into two groups of each (n = 40). 1] Group 2 (n = 40) -samples bonded with self-adhesive resin cement Multilink Speed (Ivoclar Vivadent) [Table 1].

Sankar S., Kondas V.V., Dhanasekaran S.V, & Elavarasu P.K. (2017). Comparative evaluation of shear bond strength of zirconia restorations cleansed various cleansing protocols bonded with two different resin cements: An In vitro study. Indian journal of dental research : official publication of Indian Society for Dental Research, 28(3).

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