Description - IRM Intermediate Restorative material is designed for intermediate restorations intended to remain in place for up to one year.
- Among the many other applications are emergency placement prior to complete treatment, endo access openings, pedo teeth that will soon exfoliate, and caries management programs.
- Its strength properties approach those of zinc phosphate cement.
- This material is available in an ivory shade via capsule or a powder liquid hand-mix delivery.
INDICATION: - It is an intermediate restorative material. In a clinical study, it was compared to other ZOE (Zinc Oxide- Eugenol) compositions and an EBA (Eugenol and o-ethoxybenzoic acid) formulation. Result: it was judged superior for both Class I and II restorations ( at one and two-year observations).
- Among the many applications are restoration of deciduous teeth (when permanent teeth are two years or less from eruption); restorative emergencies; caries management program; dental school clinics and public health dental programs.
- It is used as a base under cements and restorative materials that do not contain resin components, such as amalgams, and inlays and Onlays.
ADVANTAGES: - The eugenol content in the polymer-reinforced zinc oxide-eugenol composition gives the material sedative-like qualities on hypersensitive tooth pulp and is a good thermal insulator as well.
- Other physical-related clinical advantages include excellent abrasion resistance good sealing properties and low solubility.
Features - IRM is a zinc oxide-eugenol intermediate restorative cement, that is polymer enhanced for temporary filling or as a base.
- This material exhibits high dimensional stability, low solubility and is particularly abrasion-resistant.
Key Specifications COMPOSITION: Powder; - Zinc oxide
- Magnesium oxide
- Zinc acetate
Liquid; Packaging - 1 x Powder Bottle (38g)
- 1 x Liquid Bottle (14mL)
Direction to Use - Handling characteristics IRMĀ® powder and liquid should be mixed in less than one minute. The resulting putty consistency is then inserted into the cavity. If indicated, conventional methods of matrix application are appropriate.
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