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Construction of drug penetration dynamic model based on three-dimensional cell model and application of drug penetration dynamic model to drug evaluation

A kinetic model, cell model technology, applied in medical simulation, special data processing applications, informatics and other directions, can solve the problems of the model can not predict the distribution, the integration is not high, the repeatability and universality are poor.

Active Publication Date: 2017-08-01
CHINA PHARM UNIV
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Problems solved by technology

However, this evaluation method is always at the stage of describing the phenomenon, and there are many limitations: (1) It cannot accurately characterize the in vivo experimental results: You J et al. found that the penetration and accumulation of magnetic nanoparticles in spheroid cells are However, the in vivo results show the opposite trend. The reason for this phenomenon is that the drug exposure in the in vitro spheroid cell experiment is always in a constant and excessive state, thus ignoring its role in the blood circulation in vivo. Metabolic disposal process, and this problem is also an important factor that causes the in vitro experiment and in vivo experiment to be irrelevant; (2) The repeatability and universality of the existing evaluation methods are poor: the small molecule drug doxorubicin is tested in a sphere with a diameter of 250 μm The penetrating ability in cells varies with different cell lines. After 8 hours of doxorubicin administration in 250SH-SY5Y-MCTS, doxorubicin can penetrate to 50% of the periphery, while for BCG-823- As far as MCTS is concerned, it only penetrates to 10% of the periphery. The results suggest that the penetration ability of the same drug in spheroid models cultured by different cell lines is different. In the process of transforming from a spheroid cell model to an in vivo tumor model, the total distance that the drug needs to penetrate and the physical and chemical properties of the tumor itself are two extremely important changing parameters. If the drug penetration ability cannot be clarified Directly influencing factors, quantitative evaluation of the relationship between various factors and penetration ability, the applicability and universality of drug penetration kinetics evaluation will be greatly limited, and the accuracy of its in vitro-in vivo transformation will be reduced
However, since the application of mathematical models in drug penetration kinetics is still in the ascendant stage, the existing models are not well integrated in the description of pharmacokinetic behavior. The complete process of tumor tissue exposure, drug penetration between tumor tissues, drug uptake by tumor cells in different regions, and elimination of anti-tumor drugs from tissues, therefore, the existing models are not yet accurate from in vitro experiments. Results Prediction and analysis of distribution in tumors in vivo
As mentioned above, the intratumoral penetration of anticancer drugs is a complex process with many influencing factors. Simple use of a model to complete the description may cause problems such as too many parameters, complicated calculations, and uncertainty of multiple variables.

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  • Construction of drug penetration dynamic model based on three-dimensional cell model and application of drug penetration dynamic model to drug evaluation
  • Construction of drug penetration dynamic model based on three-dimensional cell model and application of drug penetration dynamic model to drug evaluation
  • Construction of drug penetration dynamic model based on three-dimensional cell model and application of drug penetration dynamic model to drug evaluation

Examples

Experimental program
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specific example 1

[0018] Specific example 1 Establish a three-dimensional spheroid cell model with high spheroidization rate and good repeatability, which proves that it has a similar physiological state and drug distribution to in vivo tumor tissue, and can better reflect the kinetic behavior of drug penetration in in vivo tumor tissue .

[0019](1) Exploration of three-dimensional spheroid cell culture conditions: Human liver cancer cell HepG2 was used as the model cell. The physiological and biochemical state and three-dimensional structure of the spheroid cells were detected by microscope bright field observation and scanning electron microscope, and the optimal spot plate density was finally determined to be 7500 cells / well, and the optimal culture time was 7 days. The stability and repetition rate of cell spheroid formation under the optimal culture method were investigated based on three aspects: the distribution of the ratio of length to short diameter, the distribution of cross-section...

specific example 2

[0021] Specific example 2 Based on the three-dimensional spheroid cell model, the accumulation and penetration kinetics of commonly used anti-tumor drugs were evaluated. The results indicated that the speed and degree of drug uptake by the cells in the central area were significantly lower than those in the peripheral cells, which eventually resulted in the average accumulation of drugs in the spheroid cells. amount decreased.

[0022] (1) Evaluation of uptake kinetics based on monolayer cell model and spheroid cell model. (a) Monolayer cells: Administer 10 μM doxorubicin or 5 μM paclitaxel, incubate at 37°C for 1h, 2h, 4h, 8h, 16h, 24h, then withdraw the drug, disrupt the cells by reverse ultrasonication, and store them at -80°C for later use. (b) Spheroid cells: 150 μl of serum-free medium containing 10 μM doxorubicin or 5 μM paclitaxel was added to each well, and incubated in a cell culture incubator for 1 h, 2 h, 4 h, 8 h, 16 h, and 24 h. After the reaction, the MCTS in e...

specific example 3

[0029] Specific Example 3 A mathematical model was established to quantitatively describe the kinetic process of drug penetration and accumulation in spheroid cells, and it was confirmed that the model has good descriptiveness and high accuracy. And based on molecular biology methods, the influencing factors of parameter changes are analyzed, and the transformation from in vitro evaluation to in vivo evaluation is realized.

[0030] The model assumes that the cultured cell spheres are regular spheres with a diameter of 500 μm and are composed of multiple layers of cells; the drug gradually diffuses from the periphery to the center, and the diffusion rate constant is a measure, and the diffusion rate is only related to the concentration difference; the same in the sphere model The cells in the same layer are in the same state and have the same drug uptake ability, and the drug uptake ability of the cells changes continuously with the radius; there is a certain gap between the ce...

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Abstract

The invention creatively discloses a drug penetration dynamic evaluation method based on a three-dimensional cell model. The method comprises the steps that (1) a three-dimensional somatic cell model and a "penetration dynamics" mathematic model are established, the penetration behavior of an antitumor drug in somatic cells and an accumulation process in all layers of cells are described semi-quantitatively, and fitting is performed to obtain corresponding dynamic parameters; (2) drug concentrations in all layers of cells at different time points after the drug is given according to different concentrations can be subjected to backward prediction based on the obtained dynamic parameters, and the prediction result is highly consistent with an experience result; (3) biological factors influencing characteristic dynamic parameters are analyzed, the penetration behavior of the drug in tumor tissue is speculated according to a plasma drug concentration time course, and the speculation result is highly consistent with an experiment result; and (4) the model and the evaluation method are applied to a second-phase clinical drug INNO-206, and reasons for superiority of the clinical effect of the drug to that of doxorubicin are expounded from the aspect of in-tumor penetration, so that the universality of the method is further verified.

Description

technical field [0001] The present invention relates to multiple fields such as pharmacokinetics, pharmacology, statistics, and mathematical modeling methods, and innovatively establishes a method for evaluating drug penetration kinetics based on a three-dimensional cell model, which can semi-quantitatively describe antitumor drugs Penetration and accumulation kinetics in solid tumors, realize the prediction of in vivo experimental results based on in vitro experimental results, and apply it to the small molecule antitumor drug doxorubicin and the albumin-bound macromolecular prodrug INNO- 206, providing a reasonable and reliable new method for the evaluation of anti-tumor drug penetration in tumors and the development of anti-tumor drugs. Background technique [0002] With the intensification of clinical needs and the rapid development of tumor biology research, a large number of anti-tumor candidate compounds and nano-preparations based on new mechanisms of action and targ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F19/00G01N33/68G01N33/569
CPCG16H50/50G01N33/56966G01N33/68
Inventor 王广基张经纬刘嘉莉周芳言方容赵小艾
Owner CHINA PHARM UNIV
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