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Items returned within 30 days of purchase with a return authorization number on the outside and inside of the return box will be credited 100%. Product returned between 31 and 60 days from purchase date is subject to a 20% restocking fee. Ultradent will not accept returns after 60 days. Errors in shipment must be reported within 14 days of invoice date. All return authorization numbers become invalid 90 days after date of issue. A return authorization number must accompany all returns to receive proper credit. Please contact Customer Service at 800.552.5512 for assistance.
Ultradent Products, Inc. ("Ultradent") warrants that this product shall, for a period of 5 years
from the date of purchase, when operated according to the operating instructions included with
the product, (i) conform in all material respects to the specifications set forth in Ultradent's
documentation accompanying the product; and (ii) be free from defects in material and
workmanship. This limited warranty is nontransferable and applies solely to the original
purchaser and does not extend to subsequent owners of the product. This limited warranty does
not cover any accessory components such as, but not limited to, batteries, chargers, adapters,
or adaptive lenses. This limited warranty is void if the product is damaged due to negligence,
abuse, misuse, accident, modification, tampering, alteration, or failure to follow the
applicable instructions for use. To qualify under this limited warranty, proof of purchase
(e.g., sales receipt or similar documentation) must be submitted to Ultradent along with the
Ultradent will either repair or replace defective products, in its sole discretion, that fall under this warranty. In no event shall Ultradent's liability for the product exceed the purchase price paid by the purchaser. Under no circumstances shall Ultradent be liable for any indirect, incidental, foreseen, unforeseen, special, or consequential damages arising out of or in connection with the use of this product.
All VALO LED curing lights use a custom, multiwavelength light-emitting diode (LED) for producing high-intensity light at 385-515nm capable of polymerizing all light-cured dental materials. This intensity will also penetrate porcelain and is capable of curing underlying resin cements similar to a quality halogen light.
Every VALO curing light starts as a solid bar of tempered, high-grade aerospace aluminum, which is CNC precision milled at Ultradent’s facility in Utah, USA. The unibody construction ensures the VALO light’s durability and provides unsurpassed heat dissipation. The elegant, ergonomic, and streamlined design enables the VALO light to easily reach all curing sites without sacrificing patient comfort. The VALO light's aluminum wand, machined components, and tempered glass lens make it the most durable curing light available.
The VALO curing light has a medical grade, international power supply and is suitable for power outlets from 100 to 240 volts. The handpiece is designed to rest in a standard dental unit bracket or can be custom-mounted using the bracket included in the kit.
- Ultra-high-energy broadband LEDs cure all dental materials
- Optimally collimated beam delivers a complete, uniform cure
- Three curing options—Standard Power, High Power, and Xtra Power—offer convenience and flexibility
- Slim, ergonomic wand allows unprecedented access to all restoration sites
- Unique unibody design is both extremely durable and lightweight
Ultradent Products, Inc. (“Ultradent”) warrants that this product shall, for a period of 5 years from the date of purchase, when operated according to the operating instructions included with the product, (i) conform in all material respects to the specifications set forth in Ultradent’s documentation accompanying the product; and (ii) be free from defects in material and workmanship. This limited warranty is nontransferable and applies solely to the original purchaser and does not extend to subsequent owners of the product. This limited warranty does not cover any accessory components such as, but not limited to, batteries, chargers, adapters, or adaptive lenses. This limited warranty is void if the product is damaged due to negligence, abuse, misuse, accident, modification, tampering, alteration, or failure to follow the applicable instructions for use. To qualify under this limited warranty, proof of purchase (e.g., sales receipt or similar documention) must be submitted to Ultradent along with the defective product.
Ultradent will either repair or replace defective products, in its sole discrection, that fall under this warranty. In no event shall Ultradent’s liability for the product exceed the purchase price paid by the purchaser. Under no circumstances shall Ultradent be liable for any indirect, incidental, foreseen, unforeseen, special, or consequential damages arising out of or in connection with the use of this product.
Beam Collimation and Uniformity
The collimation of a curing light’s beam affects the amount of energy that reaches the restoration site. A beam that disperses will deliver less power than a beam that remains collimated; a dispersed beam can lead to undercured restorations and eventual failures. Unlike its competitors, the VALO curing light delivers optimally and consistently collimated power. With refined optics that create excellent light collimation across the nearly 10mm lens, the VALO light maintains intensity over a greater range of distances.
It is not easy to maintain a specific distance from the restoration, where the typical proximal box is approximately 7mm deep and best practices call for holding the tip of the curing light 2mm from the preparation surface.1 With a superior beam profile, the VALO light ensures more energy is delivered to resin and significantly reduces the possibility that the practitioner will experience distance and offset issues while curing.
In addition to its collimation, a beam’s uniformity affects energy delivery across the restoration site. A beam with hot or cold spots yields inconsistent curing, which can compromise restorations and cause sensitivity. The VALO light’s multiple LEDs and specialized optics produce evenly distributed energy to deliver consistent results, regardless of the restoration type, size, or location.
The VALO curing light uses a custom, multiwavelength light-emitting diode (LED) for producing a high-intensity light at 385-515nm. This LED pack produces true broad-spectrum light, which provides uniform curing across the restoration with two significant peak wavelengths, utilizing two shades of blue and violet required for lower-level initiators. This means that the VALO light is capable of polymerizing all light-cured dental materials—including camphorquinone and the entire range of proprietary photoinitiators.
As the options for light-cured materials keep expanding, the composition of the materials becomes more and more varied. Aside from camphorquinone, many manufacturers have turned to other photoinitiators particularly for esthetic composites. Photoinitiators such as Lucerin and PPD require low-wavelength light for complete polymerization. With the VALO light’s reliable and proven performance, you can be certain you’ll get a quality cure, regardless of the material.
The distance the average adult-male mouth opens is 30mm when working in vivo.2 This limited range, along with the posterior location of many restorations, makes properly positioning a traditional curing light with an oversized head and angled light guide almost impossible.
The VALO curing light’s 5° head angle and large 9.6mm glass lens allow for easy positioning of the light and more surface area to be cured at once, saving time and effort. Because the VALO light’s wand-style body is designed without the addition of a light guide, it reaches all areas of the mouth without requiring you to overstretch a patient’s TMJ and soft tissues—a common problem that can occur with other lights. In addition, the VALO light’s large footprint can cure the entire surface of a Class II posterior preparation in just one exposure.
Complete Cure with Any Composite
When composite is exposed to light, its reaction depends on the composite’s hue, refractive properties, filler type, filler load, and translucency/opacity. Regardless of variations in composite, the VALO LED curing light has the ability to provide a complete cure because of its power distribution and output of broad-spectrum light, which effectively penetrates layers of composite.
3 Powerful Curing Modes
- Standard Power: 1000 mW/cm2
- High Power: 1400 mW/cm2
- Xtra Power: 3200 mW/cm2
Each of these 3 curing modes offers varying timing intervals to best meet the needs of the clinician and the procedure.
In a study,3 the energy delivered to a Class I preparation by 20 dentists with different curing lights was measured with the MARC system,4 the only device available that calculates a curing light’s actual power delivered in a truly simulated curing environment. It provides clinically relevant data to better manage the variables that determine the effective use of curing lights in clinical practice. Through this process, it has been repeatedly shown that the VALO LED curing light consistently delivers more energy in less time. Even with the inevitable variation in curing results among testers, the VALO light delivered more energy more consistently.
Beam Collimation and Uniformity
Dr. John Flucke Reviews the VALO Curing Light –
Dr. John Flucke is the chief dental editor for Dental Products Report and serves on several review boards within dentistry. Dr. Flucke provided his insights on the VALO curing light and how it benefits a dental practice and patients.
Dr. Grant Quayle Reviews the VALO Curing Light –
"It feels like a handpiece—very tiny, easy to hold, and easy to manipulate."
Dr. Michael R. Bronson Reviews the VALO Curing Light –
"It cures everything I point it at!"
Dr. Neil J. Dansie Reviews the VALO Curing Light –
"I don't like VALO—I LOVE VALO!"
Frequently Asked Questions
How do the Standard Power, High Power, and Xtra Power (Plasma Emulation) modes differ? Which mode should I use?As its name implies, Standard Power mode is the standard mode of operation (1000 mW/cm2). High Power mode (1400 mW/cm2) is more powerful than Standard Power mode and shortens the curing time. For example, a 10-second cure in Standard Power mode would take 4 seconds in High Power mode, saving 6 seconds. Xtra Power, or Plasma Emulation, mode is the most powerful mode (3200 mW/cm2). It offers similar intensity to plasma arc lights and is ideal for those practitioners who are interested in or currently using a plasma arc curing light. It is especially effective in situations where you need to cure as quickly as possible, such as curing a sealant on an uncooperative child.
Why would I use the Xtra Power mode?Xtra Power mode supports the “higher intensity/shorter exposure time” philosophy. For example, you might want to cure a sealant on an uncooperative child as quickly as possible. With the VALO curing light, you can quickly achieve a complete cure in Xtra Power mode.
Why would I use the High Power mode?High Power mode shortens curing time for composites and other products. The VALO curing light’s power output shortens curing time from 10 seconds in Standard Power mode to 4 seconds in High Power mode, saving 6 seconds per cure.
How does Xtra Power mode compare to plasma arc lights?Xtra Power mode offers similar intensity to plasma arc lights, allowing you to shorten exposure time. But the VALO curing light costs significantly less than a plasma arc light, it doesn’t take up as much room, and it doesn’t need bulb replacements.
Will using Xtra Power mode cause my composite to shrink more than if I use Standard Power or High Power mode?Regardless of how a composite is cured, it will shrink only the amount it was designed to by the manufacturer. The amount of stress applied will differ from Standard Power mode to higher-intensity modes, but this can be overcome with different placement methods.
How can I reduce the amount of stress affected by the rate of shrinkage when using the higher-intensity modes?
There are a few accepted methods for reducing the stress from the composite being cured with high-intensity lights. Here are 3:
- Place a maximum thickness of 2mm increments. This will eliminate as much stress as possible.
- Wedge the increments to decrease the amount of tooth surfaces being cured at one time.
- Allow a second or two between cures to let the composite rest.
Does the heat from a VALO curing light’s Xtra Power mode affect the tooth?
While the VALO curing light’s Xtra Power mode is able to produce intensity similar to a PAC light, it does not produce the same amount of heat as a PAC light.
The Dental Advisor’s Biomaterials Research Center published an article that investigated concerns about heat generated with higher-intensity LED lights. In particular, a VALO light in Xtra Power mode and all other curing lights, did raise the temperature of the composite restoration. There are two sources for this rise in temperature: the energy emitted from the light and the exothermic reaction of the composite as it cures. The VALO light’s Xtra Power mode did not raise the temperature of the pulp more than 0.1 °C.5 This means that it takes the tooth from 98.6 °F to 98.78 °F. In order for the pulp to be affected it would need to raise the temperature by at least 5.5 °C.6 The blood flow of the tooth is its cooling mechanism and is one of the reasons why the pulp is minimally affected.
You say the heat in Xtra Power mode does not adversely affect the tooth, but it does cause discomfort on my finger when I test it. Why?You are feeling the heat on your soft tissues, which reacts differently than the tooth structure. The finger has a “red” tone to it, which absorbs the energy and causes you to feel the heat. The tooth color does not absorb the energy and therefore does not transfer the heat to the pulp. The white nature of the tooth means that much of the light is reflected and not turned into heat. Additionally, the blood flow in the tooth immediately cools whatever heat is applied.
Does heat from the VALO curing light’s higher-intensity modes affect soft tissues?
The VALO curing light’s instructions include a warning about placing the beam on soft tissues. The VALO light, like all other curing lights, will generate enough heat to make the patient aware of the heat on the soft tissues. If held on the soft tissues for an extended period of time, the VALO light, like all other curing lights, could cause damage to the soft tissues.
Damage is a function of two things: heat and duration without relief.
Brief exposure to higher temperatures is possible without damage. The body has cooling mechanisms such as respiration and blood flow. Live dental pulp uses blood flow as a cooling mechanism.
Some laser surgery studies have suggested that irreversible tissue damage occurs at 69 ± 6 °C, irrespective of exposure time.7
What can I do to reduce exothermic heat to the tooth while using the VALO curing light’s Xtra Power mode?Notable clinicians who advocate using higher-intensity lights have suggested that using a steady stream of air on the tooth while curing will counteract the heat.
What cleaning agents should I use to clean the VALO curing light?
To clean the VALO curing light, you should use isopropyl-alcohol based cleaners, ethyl alcohol-based cleaners, or another non-bleach, non-abrasive cleaner. We recommend using:
- Isopropyl alcohol
- Ethyl alcohol-based cleaners
- Lysol®* Brand III Disinfectant Spray (recommended)
- Lysol®* Concentrate (alcohol-based only)
We have seen repeated issues of corrosion and discoloration with the use of CaviCide products over time, so we no longer recommend using CaviCide to clean your VALO curing light.
Please note: Damage to the VALO curing light caused by the use of cleaning products, including discoloration and corrosion, is not covered under the VALO curing light warranty.
*Trademark of a company other than Ultradent Products, Inc.
What is the VALO curing light’s depth of cure?Depth of cure is more dependent on the type of composite being cured than the light being used. However, for maximum effectiveness, we recommend curing at 2mm increments regardless of which mode you are in.
Is it possible to cure sealants in three seconds with the VALO curing light?Yes, the VALO light cures UltraSeal XT™ plus pit and fissure sealant in three seconds in Xtra Power mode.
Should I purchase a VALO Corded LED curing light or a VALO Cordless LED curing light?
Both the VALO Corded light and the VALO Cordless light offer broadband LED curing with 3 power modes and timing options. In addition, each one offers unique benefits, and the light you choose depends upon which of these features suits your needs best.
The cord on the original VALO Corded light is made with Kevlar strands for durability and ease of movement. The cord allows the wand body to remain exceptionally slim and lightweight because it does not have to house batteries. Some practitioners prefer the corded version for the convenience of having a constant power supply and because they never have to worry about recharging or replacing batteries.
The VALO Cordless light features the same award-winning curing technology as the VALO Corded light, but in a cordless, battery-operated wand body. It was designed for those practitioners who prefer the freedom that only comes with a cordless handpiece. The batteries for the VALO Cordless light were selected for their consistent power output, battery life, and battery expectancy. The batteries will last more than 1000 recharge cycles and approximately 400 cures before needing to be recharged. They are convenient to find, safe, and inexpensive, making the VALO Cordless light your best option in a battery-operated curing light.
Research & Studies
Factors Affecting the Energy Delivered to Simulated Class I and Class V Preparations
Price RB, Felix CM, Whalen JM. Factors affecting the energy delivered to simulated Class I and Class V preparations. J Can Dent Assoc 2010;76:a94http://www.jcda.ca/article/a94 –
High-intensity LED Light-curing Units - The Heat They Produce
Yapp R, Powers JM. High-intensity LED light-curing units--the heat they produce. The Dental Advisor Biomaterials Research Center. Dental Consultants, Inc. Ann Arbor, Michigan. 2009;3. (ISSN 0748-4666)https://www.dentaladvisor.com/pdfs/high-intensity-led-light-curing-units-the-heat-they-produce-2/ –
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- 1. Sarkar NK, Caicedo R, Ritwik P, et al. Physicochemical basis of the biologic properties of mineral trioxide aggregate. J Endod. 2005;31:97–100.
- 2. Guimarães BM, Vivan RR, Piazza B, et al. Chemical-physical properties and apatite-forming ability of mineral trioxide aggregate flow. J Endod. 2017;43(10):1692–1696. doi:10.1016/j.joen.2017.05.005
- 3. Martins FV, Santana RB, Fonseca EM. Efficacy of conventional cord versus cordless techniques for gingival displacement: A systematic review and meta-analysis. J Prosthet Dent. 2021 Jan;125(1):46–55.
- 4. Data on file.
- 5. Data on file.
- Meyer GR, Ernst CP, Willershausen B. Decrease in power output of new light-emitting diode (LED) curing devices with increasing distance to filling surface. J Adhes Dent. 2002;4(3):197-204.
- Calder I, Picard J, Chapman M, O’Sullivan C, Crockard HA. Mouth opening: a new angle. Anesthesiology. 2003;99(4):799-801.
- Price RB, Felix CM, Whalen JM. Factors affecting the energy delivered to simulated Class I and Class V preparations. J Can Dent Assoc. 2010;76:a94.
- MARC (Managing Accurate Resin Curing) was developed by Dr. R. Price at Dalhousie University and is distributed by BlueLight analytics inc., Halifax, Nova Scotia, Canada.
- According to a study by The Dental Advisor, temperature increase within the pulp chamber while using VALO was as follows: Standard Power: 0.8 °C, High Power: 0.0 °C, Plasma Emulation: 0.1 °C. The Dental Advisor (2009) 26.
- An experiment in which researchers applied soldering irons to monkeys’ teeth suggests that raising the temperature of a tooth more than 5.5 °C causes irreversible pulp damage in 15% of teeth. Zach L, Cohen G. Pulp response to externally applied heat. Oral Surg Oral Med Oral Pathol. 1965;19:515-30.
- van Nimwegen SA, L’Eplattenier HF, Rem AI, van der Lugt JJ, Kirpensteijn J. Nd:YAG surgical laser effects in canine prostate tissue: temperature and damage distribution. Phys Med Biol. 2009 7;54(1):29-44.