Most composite resins seem to be the same, and most light-curing devices seem bright enough to cure most composite resins. Significant differences abound, though. It’s important, when choosing your materials and equipment, to understand the chemistry of composite resins and your curing light’s ability to adequately polymerize them.
The majority of composite resins comprise a resin-based oligomer polymer matrix with embedded glass fillers that are pretreated with organosilanes so they’ll chemically adhere to the bisphenol Aglycidil methacrylate or urethane dimethacrylate resin matrix. For most direct-placement composite resins, polymerization is mediated by light-sensitive photoinitiators.
Today’s composites predominantly employ camphoroquinone (CQ), which is sensitive to predominantly blue light (with a wavelength of about 420 to 480 nanometers). Some manufacturers, however, have enhanced their composites’ ability to light-cure by adding to the mix an additional photoinitiator that is sensitive to the violet spectrum (wavelength ~320–420 nm). These violet-light- sensitive photoinitiators include lucirin (TPO), phenylpropanedione (PPD) and Ivocerin (made by Ivoclar Vivadent), with an extended wavelength of violet to blue (370–460 nm).
Doctors have a variety of options today, this wasn’t always so. The first light-curing units used quartz halogen light sources that emitted very broad-spectrum light, ranging from violet to red, that would adequately polymerize all composites. Today’s most popular curing lights, by contrast, use high-energy blue LED emitters or a hybrid of blue and violet LED emitters.
When LED curing lights were introduced in the late 1990s, many selected solely blue-wavelength LED emitters, which were able to polymerize composites using CQ to ensure a greater curing depth compared to the earliest UV light-curing devices. The dentist would then have to layer UV-cured composite a single millimeter at a time.
The introduction of CQ as a photoinitiator enabled clinicians to achieve greater curing depth, making composite placement with blue-wavelength light-curing devices easy. Some doctors expressed concerns about CQ composites, citing the inherent yellow coloration of the photoinitiator, which lent a yellow tinge to the composite resin before light curing, making it impossible to evaluate shade matching while placing the restoration.
In anterior restorations especially, the composite appeared somewhat yellower than the surrounding tooth. Fortunately, though, in most cases, once light-cured the yellow CQ composites bleached to the dentist’s desired hue.
To address this shortcoming, a number of manufacturers began to investigate alternative chemistries for light-curing. As a result, several of them started to make limited use of clearer TPO and PPD photoinitiators, which lent the putty-like composite a truer color during placement. One problem with using a violet-wavelength photoinitiator, meanwhile, is the decreased depth of cure that necessitates more layers during placement of the composite resin. To combat this problem, a number of manufacturers formulated composite res- ins with a hybrid of CQ and either TPO or PPD photoinitiators.
Although this marriage of convenience between violet and blue-light photoinitiators improved composite shades, many dentists remained unaware of this hybrid chemistry; most LED curing lights used in dental practices are strictly for curing blue-light-sensitive-based composites.
Such curing devices do not fully polymerize all the chemical components with composites using a combination of CQ and TPO or PPD. Thus Ivoclar developed Ivocerin, a proprietary photoini- tiator that offered the broadest available light-curing spectrum, including violet to blue wavelengths.
It’s critical that all clinicians know whether the composite resin they’re using is matched to their light-curing device. In addition to Ivoclar, several companies have now developed curing lights with that broader light spectrum. They’re called polywave curing lights, and they ensure complete photopolymerization of all photoinitiator chemistries within a broad group of composite resins.
Practicing dentistry is about making educated decisions. With composites and curing lights, be sure the ones you use are matched: same type of photoinitiator, proper irradiance value for polymerization and wavelength of the light being emitted by your curing device.
This information, counterintuitively, might be difficult to find online. Talk to your manufacturer or dealer representative—and in no time your knowledge base will be, pardon the phrase, light years ahead of where it used to be.
Howard Strassler, DMD is a professor and the director of operative dentistry at the University of Maryland School of Dentistry. He practices in Pikesville, Maryland.