Company Filing History:
1 out of 832,891 Years Active: 2001
Title: Christopher Rheinhardt: Innovator in Neutron Activation Analysis
Introduction
Christopher Rheinhardt is a notable inventor based in Worcester, MA (US). He has made significant contributions to the field of biological experimentation through his innovative patent. His work focuses on the development of microspheres that can be permanently marked with stable isotopes, allowing for advanced detection methods.
Latest Patents
Rheinhardt holds a patent for "Locating marker/tracer elements detectable by neutron activated analysis within or on carrier microspheres, including microspheres used in biological experimentation." This invention involves marking microspheres with non-radioactive stable isotopes that can be detected by neutron activation analysis. The marked microspheres are designed to label various objects permanently. For instance, when injected into an animal, these microspheres can lodge in specific tissues during blood flow analysis experimentation. The abundance of these stable-isotope-marked microspheres can be accurately measured in situ within harvested tissue samples, providing valuable insights into blood flow dynamics.
Career Highlights
Throughout his career, Christopher Rheinhardt has focused on enhancing the capabilities of biological experimentation through innovative technologies. His work has implications for various fields, including medical research and diagnostics. Rheinhardt's patent represents a significant advancement in the use of microspheres for tracking and analyzing biological processes.
Collaborations
Rheinhardt has collaborated with W Scott Kemper, contributing to the development and refinement of his innovative technologies. Their partnership has fostered advancements in the application of neutron activation analysis in biological research.
Conclusion
Christopher Rheinhardt's contributions to the field of biological experimentation through his patented technology highlight the importance of innovation in scientific research. His work with stable-isotope-marked microspheres opens new avenues for understanding complex biological processes.