Pratip Bhattacharya
副教授
德克萨斯大学医学博士安德森癌症中心
Department of Cancer Systems Imaging
Magnetic Resonance (MR) Imaging is a technique utilized in the clinic every day. In conventional MR, anatomical images are produced by using the signal from the water in our blood and tissues for detection. However, due to the inherent Boltzmann Distribution, there is a low signal to noise ratio (SNR) in conventional MR and many diagnostic techniques become unreasonable in the clinic because of the amount of time needed for the examination. The focus of my research is the development of real-time metabolic and imaging applications by hyperpolarization.我的实验室正在探索新颖的方式利用Magnetic Resonance Imaging (MRI) to create more detailed metabolic and molecular imaging studies by employing hyperpolarized, non-radioactive carbon 13 and nitrogen 15 labeled compounds and silicon nanoparticles (Silicon 29) to tag specific metabolic and biochemical structures and functions that are altered in cancer.超极化MR是一种无毒的非放射性方法,用于非侵入性评估组织代谢和其他生理特性。超极化允许相对于常规MRI增强> 10,000倍的信号。超极化后,根据纵向松弛时间,信号增强可以保留在超极化分子的代谢物上几分钟。我的实验室专注于研究的三个主要领域:beplay苹果手机能用吗
答:具有超极化13C和15N标记的非放射活性化合物的实时代谢成像。
B:用超极化的硅纳米颗粒(SINP)实时分子成像,功能化,以靶向特定的生物学功能和结构。
C:高分辨率基于MR的代谢组学的动物和人体组织。
教育与培训
加利福尼亚理工学院博士,2005年
beplay苹果手机能用吗研究信息
磁共振(MR)超极化技术的发展;实时代谢和分子成像体内with hyperpolarization; Nuclear Magnetic Resonance (NMR) spectroscopy based metabolomics of cancer systems