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LA MINUTE RAYPLICKER EPISODE #1 - UNBOXING

Published on 12th September 2022

el minuto Rayplicker

Discover "La minute Rayplicker", a series of short videos offering tips and tricks for an optimized use of your Rayplicker solution. In this first episode, Dr Frederik Rougier introduces you to the Rayplicker pack and its contents.

You have just acquired a handy rayplicker, congratulations! We support you to make the best use of your device.


With borea spectrophotometry becomes accessible to all!

Do you have questions?

Use IS MY RAYPLICKER HANDY DEVICE INFLUENCED BY THE EXTERNAL ENVIRONMENT?

No, the Rayplicker Handy device is not influenced by the external environment thanks to the calibration tip positioned at the top of the measuring head.

However, if the positioning of this tip is too far from the reference tooth, it no longer acts as a darkroom and the outside light will interfere in the shade taking. It is essential that the grey calibration tip remains in contact with the adjacent teeth and the gingiva.

If a retractor is used (to get access to posterior teeth for example), it is recommended to take the shade in a low light environment. We advise you to follow the following recommendations:

  • Remove the dental operating light from the patient’s mouth or turn it off,
  • Your patient should have his back to the window in case of direct sun exposure.
Concept WHAT IS SPECTROPHOTOMETRY?

Spectrophotometers are used in many industries requiring precise colors. Whether we are talking about packaging, paints… this is the essential tool to ensure that the color produced consistently matches the color initially specified. Beyond precision, this clearly promotes waste reduction and saves time and money.

Spectrophotometers analyse the reflected wavelengths of visible polychromatic incident light. The reflected spectrum is measured at a large number of points, at small intervals, and it is compared to a database to deduce the color of the tooth. For an optical measurement, several million reference points are analysed on a tooth. These devices are currently the most precise and are not exposed to problems of aging of the light source.

Concept SPECTROPHOTOMETER VS COLORIMETER

Colorimeters and spectrophotometers are the two types of colorimetric measuring instruments used to capture, analyse, and communicate color. In the dental industry, it is needless to say that color accuracy (tooth shade) is important and it is clear that making a reliable colorimetric measurement is essential for the manufacture of a quality dental prosthesis.

However, there is confusion today among many users and healthcare professionals, arising from the lack of information provided by manufacturers. This is why we are going to answer your questions related to these two devices using two very distinct technologies: spectrophotometry and colorimetry.

  • Colorimeter

It is a trichromatic colorimetric measurement tool that provides an objective assessment of color characteristics from light passing through the primary filters of red, green and blue. It simulates the way the human eye perceives color.

How does a colorimeter work?

The tooth is illuminated at an angle of 45 ° by an internal light source.

The light passes through the trichromatic filters, which indicate the amount of red, green and blue light reflected by the tooth.

The filter’s measurements are quantified in RGB values, which simulate the sensitivity of human eyes to light.

  • Spectrophotometer

A spectrophotometer is a more complex colorimetric measuring instrument that takes into account light intensity as a parameter of color. It performs full-spectrum colorimetric measurement, as opposed to the trichromatic procedure of a colorimeter, and generates colorimetric data that is beyond observation by the human eye.

 How does a spectrophotometer work?

An internal light source (On the Rayplicker, this source is represented by the ring of LEDs at the end of the measuring head) emits under different wavelengths so as to represent the entire visible color spectrum.

Each Led representing a specific wavelength of the spectrum emits one after the other in order to diffuse the light on the tooth.

Under each emission wavelength, the sensor measures the light intensity and absorbance of the tooth being analysed.

These collected data are then analysed by a comparison algorithm which compares the information collected with the spectral signatures of the various previously recorded shade guides.

The spectrophotometer displays this information in digital form.

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