稀土化合物的一种新用途(上)——核磁共振成像(MRI)用造影剂

磁共振成像(Magnetic Resonance Imaging简称MRI)是近十几年来发展起来的一种新的医疗诊断手段,与x-射线计算机断层扫描(Computed Tomography简称x-CT)相比,具有明显的优点,如对脑部、腹腔部、椎间盘组织等的病变有较高的灵敏度。同时,由于磁场和射频电波对人体健康的损害远远小于x-CT产生的x-射线,因此,MRI法已成为当前

稀土化合物的一种新用途(下)——核磁共振成像(MRI)用造影剂

对选择MRI造影剂的要求及其应用MRI造影剂的选择除需遵循生物药剂的一般要求,如溶解性、稳定性等外,尚需有以下特殊要求。弛豫性质:所选择的试剂必须能大大增强靶组织被观测核的弛豫速率。能使弛豫速率增强10～20%的试剂,则可在MRI中应

On the evaluation of diffusivities in gels using the diffusion cell technique

Modeling of the gel-immobilized cell system requires accurate measurement of diffusion coefficients. Three methods of the quasi-steady-state (QSS) method, the time-lag (TL) method and a variant quasi-steady-state (VQSS) method were critically assessed and compared for the evaluation of diffusivities using the diffusion cell technique. Experimental data from our laboratory were used for the analysis of the influence of crucial theoretical assumptions not being fulfilled in each method. The results highlighted a risk in obtaining highly variable diffusion coefficients by not validating the QSS and the accuracy of the measurements. In the TL method, the estimation of diffusivities based on the plot intercept that was mostly used in the literature, results in a many fold lower value when compared to that based on the plot slope. The comparison with the QSS and VQSS methods confirmed similar diffusivity obtained by the TL method based on the plot slope. It thus suggested that the correct estimation of diffusivities by the TL method could be based on the plot slope only. Furthermore, the errors associated with the solute mass in the gel, the sample withdrawal and the non-negligible concentration changes in the chambers were also discussed. It is concluded that diffusion cell technique has to be employed cautiously for a correct evaluation of diffusivities. (C) 2001 Elsevier Science B.V. All rights reserved.