Organisms are composed of a vast number of highly specialized cells with characteristic physiological functions determined by their structure.Therefore,understanding physiological and pathological mechanisms requires ...Organisms are composed of a vast number of highly specialized cells with characteristic physiological functions determined by their structure.Therefore,understanding physiological and pathological mechanisms requires obtaining 3-dimensional(3D)structural information at the cellular level across tissues,organs,and even the whole body.However,the scattering and absorption of tissue limits the penetration depth of light and thus extremely reduces the imaging performance in deep tissue.It is well known that 3D imaging outperforms 2D imaging in various scenarios for 3D reconstruction of tissue structures.This includes tracing convoluted 3D structures like vasculature,neurons,and prostate glands,as well as elucidating intricate distributions of cells or lesions.展开更多
基金funded by the National Nature Science Foundation of China(grant nos.62375096,61860206009,32361133552,and 82361138569)the Russian Science Foundation(grant no.24-44-00082)。
文摘Organisms are composed of a vast number of highly specialized cells with characteristic physiological functions determined by their structure.Therefore,understanding physiological and pathological mechanisms requires obtaining 3-dimensional(3D)structural information at the cellular level across tissues,organs,and even the whole body.However,the scattering and absorption of tissue limits the penetration depth of light and thus extremely reduces the imaging performance in deep tissue.It is well known that 3D imaging outperforms 2D imaging in various scenarios for 3D reconstruction of tissue structures.This includes tracing convoluted 3D structures like vasculature,neurons,and prostate glands,as well as elucidating intricate distributions of cells or lesions.
