Recent advancements in high-resolution small animal imaging systems have made this technology and equipment vital to any small animal research laboratory. There are many benefits to using High Resolution In Vivo Micro Imaging Systems.
Recently, high-resolution small animal imaging systems have been developed to aid in the research of a number of diseases such as cancer. These high resolution imaging tools and applications allow researchers to screen small animals using non invasive techniques and applications for such tasks as detecting mutations, charting the progression of certain diseases, and monitoring how diseases respond to particular therapies. There are many advantages to using high resolution in vivo micro imaging systems in small animal research which makes them an invaluable tool in laboratory research.
X-ray Microcomputed Tomography (microCT)
X-ray Microcomputed Tomography high resolution imaging technique is proving to be a cost-effective method for detecting and describing tumors, abnormalities in skeletal structures, as well as soft-tissue structures in small live animals such as rodents. Using this form of high resolution imaging has been showing positive results in the research of lung cancer, prostate cancer, and bone tumors
High-Resolution Imaging Yields Better Results
High-resolution imaging permits the small animal researcher to acquire results in a number of different ways that in the past were difficult or impossible to achieve. Researchers can now use this imaging solution to assess in vivo the blood flow function and anatomical structures in small animals. As well, the equipment is user friendly and contains a research-driven interface.
High-Resolution Imaging Means Fewer Small Animals
High resolution imaging offers spatial resolution as small as 30 microns. With more detailed images at the highest possible resolution, researchers are able to acquire more results which reduce the number of laboratory animals that are required for particular studies. Researchers are able observe and gather data by viewing the tiniest physiological structures, living tissue, and blood flow. Researchers also have the ability to visualize image-guided needle injection and extraction. The equipment and technology used can be adapted to be used on a variety of small animals such as the mouse, rat, and chick.
High-Resolution Imaging Involves Different Research Applications
High quality imaging allows researchers to study a variety of diseases. It can also be used in genetic research and drug applications. Imaging software allows for the gathering and processing of data during the scanning session and provides more extensive post-processing analysis. This allows data to be managed and analyzed in a more efficient and accurate manner. Data, statistical information, and measurements can be exported to common databases and spreadsheet applications which can be used in reports, journals, and presentations. As well, this superior image quality is available in real-time frames.
3D Measurement and Visualization Using High-Resolution Imaging
When visualizing irregular structures, 3D measurement becomes a valuable tool in acquiring the most accurate data and reducing instances of flawed results. The researcher can observe and scrutinize any subjective plane and perform 3D measurements in vivo on such structures as tumors. As well, research can benefit from 3D real time high-resolution imaging in such areas as development biology, neurobiology, cancer biology, cardiovascular research, and molecular imaging.
Recent advancements in high-resolution small animal imaging systems have made this technology and equipment vital to any small animal research laboratory. These systems offered by digital imaging companies not only offer the highest quality resolution but also quality imaging of the tiniest structures. It is also a low cost system that produces quality data and is useful in charting diseases to better develop treatments and cures. By using high resolution in vivo micro imaging systems medical researchers now have research opportunities that until now were not possible.