Radiation dosage measurement in x ray sensor is crucial in radiographic imaging, distinguishing between milligrays (mGy) and nanograys (nGy). Let’s delve into the significance of these measurements and introduce Our Ray Imaging‘s eRay DR Imaging system, highlighting its Radiation Leakage Control Technology that significantly reduces radiation leakage, ensuring patient safety and precise diagnostics.
mGy and nGy: Decoding Radiation Dosage Measurements
mGy (Milligrays): Milligray is a unit of measurement used to quantify radiation dosage. It represents one thousandth of a gray (Gy), indicating a moderate level of radiation exposure. It’s commonly used in various medical imaging procedures to measure radiation doses.
nGy (Nanograys): Nanogray, on the other hand, represents an even smaller unit of radiation measurement, equating to one billionth of a gray (Gy). This measurement denotes significantly lower levels of radiation exposure, emphasizing minimal radiation doses.
Introducing Ray Imaging’s eRay DR Imaging System
Ray Imaging’s eRay DR Imaging system with our x ray sensor boasts advanced technology, including Radiation Leakage Control Technology, ensuring safety through minimized radiation exposure.
- Significance of Radiation Leakage Control Technology
Our eRay DR Imaging system employs Radiation Leakage Control Technology, significantly reducing radiation leakage from higher milligray (mGy) levels to safer nanogray (nGy) levels. This innovation minimizes the radiation exposure of both patients and practitioners, aligning with our commitment to patient safety.
- Precision Imaging with Safety
While prioritizing safety through minimized radiation exposure, our system doesn’t compromise on imaging precision. It ensures that dental practitioners receive high-quality images for accurate diagnostics without exposing patients to unnecessary radiation.
- Emphasizing Patient Safety
At Ray Imaging, patient safety is paramount. Our dedication to integrating innovative technologies, particularly the Radiation Leakage Control Technology, reflects our commitment to providing dental professionals with tools that not only deliver precise diagnostics but also uphold the highest standards of patient safety.
Conclusion: eRay DR Imaging System—Advancing Safety and Precision
The distinction between mGy and nGy is pivotal in understanding radiation dosage measurements in radiographic imaging. Ray Imaging’s eRay DR Imaging system, with its Radiation Leakage Control Technology in the x ray sensor, exemplifies our dedication to safety, reducing radiation exposure from milligray to nanogray levels. This commitment ensures that patients receive precise diagnostics with minimal radiation exposure, reaffirming our mission of combining precision and safety in dental imaging technology.
At Ray Imaging, our continual pursuit of innovation and patient-centric solutions ensures that dental practitioners have access to advanced technology that upholds the highest standards of patient care and safety.