Raycision offers industry-leading preclinical imaging and radiation systems, providing essential tools for biomedical research. These advanced systems enable researchers to visualize and quantify a wide range of biological processes in small animal models, such as mice and rats. By providing detailed and accurate imaging data, these tools facilitate the study of disease progression, the effects of potential treatments, and the underlying mechanisms of various conditions.
Benchmarking helps establish standardized protocols for radiotherapy in small animal models, ensuring consistency and reproducibility across different studies and research institutions.
Benchmarking ensures that the data collected is accurate and reliable, which is crucial for drawing valid conclusions and making informed decisions in preclinical research.
Benchmarking allows researchers to evaluate and optimize radiotherapy protocols, ensuring that they are delivering the most effective doses and treatment regimens for small animal models.
Benchmarking in small animal models helps ensure that preclinical findings are robust and translatable to clinical settings, thereby facilitating the development of new therapies and treatments for human patients.
Combining micro-CT imaging and optical molecular imaging allows researchers to correlate anatomical structures with functional or metabolic data, providing a more complete picture of the biological processes.
Multimodal imaging can reveal different aspects of a disease, such as structural changes, metabolic activity, and molecular markers, leading to a more thorough understanding of disease mechanisms.
Multimodal systems can be used for a wide variety of research applications, from oncology and neurology to cardiovascular studies and drug development.
By integrating different imaging techniques, researchers can obtain a more comprehensive and accurate understanding of the tumor and surrounding tissues, leading to better-targeted treatments.
In vivo micro-CT imaging refers to the process of scanning living organisms, typically small animals like mice or rats, to obtain detailed images of their internal structures without sacrificing them. Ex vivo micro-CT imaging involves scanning tissues or organs that have been removed from the organism. This is typically done after the animal has been sacrificed.
3D optical molecular imaging allows for precise localization and accurate quantification of targets within the 3D space of live animals.
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