Over the last one hundred years, there have been many technology advances that provide better research and medical assistance, such as High Resolution Digital Imaging System for in vivo evaluations. The system is designed to provide much better imaging for medical research and has provided many benefits for the scientific research community. The improvements are essentially taking the field of medical and scientific research to the next level.

In the past, the equipment was not able to take three dimensional images or record electronic in vivo data without destruction of the animals and over exposure. If an animal was being evaluated for potential tumor creation and growth, over exposure to radiation from the various scans had to be considered as a possible contributor to the disease. The elimination of the old processes has allowed science to get back to the proper and accurate scrutiny that it needs to progress medicines.

The equipment improvements have been able to combine several systems that used to be separated causing the workers to have to subject animals that were being used for research to multiple exposures to radiation through the various CT, X-ray, and other radioactive scans. With a single unit that is able to eliminate others, the exposure is much less and the information that is gathered is much better data for research.

The improved technology has also provided much better resolution. The equipment is able to be used to provide the data needed for many applications by being able to provide higher quality images. All of this information is collected electronically giving digital images and accurate measurements. Because it is electronic, it is also able to compare the various test sessions without having to rely solely on human judgment.

Since the technology is able to provide real time and moving images it can show the flow of blood, moving muscles, and monitoring internal conditions. There are fewer intrusive procedures that cause death and destruction of the tissue or animal. The radiation exposure is less because the higher quality data prevents repeated exposure.

There is also a much more wide use for the data. Multiple research fields are able to use the same data to evaluate different diseases at the same time. In the past, multiple pieces of equipment and procedures were needed in order to provide the same data. This also caused difficulty through damage to the animals involved. Being able to use the same equipment for multiple applications is cost effective by eliminating the purchase and maintenance of the various pieces previously needed. Storage and setup is also not an issue with fewer pieces of equipment.

The units are now able to provide three-d imaging. Since the data that used to be collected is two dimensional, the images had to be taken many times in order to get a full picture of what was happening. The three dimensional imaging has made it much easier to get a full picture of research data progress. The measurements are much more accurate and the research is able to observe and evaluate items like tumors and their growth.

Growth in technology has provided many benefits to the scientific community including costs reduction with better quality data, more humane treatment of test subjects, and overall cleaner data that can be stored digitally for computer based comparison. This all provides researchers and the general public a much better way of advancing medicines and an understanding of how the body and diseases work.

Author Bio: One of the top digital imaging companies providing modalities specifically designed for preclinical research such as in vivo imaging, in vivo testing micro imaging, high-resolution cancer metastasis scientific digital imaging, Molecular Imaging imaging system.

Category: Computers and Technology
Keywords: science, biology, imaging system, in vivo testing, micro imaging, high-resolution imaging, health