人类癌组织的水力传导率：一项混合研究。

Hydraulic conductivity of human cancer tissue: A hybrid study.

作者信息

Salavati Hooman, Pullens Pim, Debbaut Charlotte, Ceelen Wim

机构信息

Department of Human Structure and Repair Ghent University Ghent Belgium.

IBiTech-BioMMedA, Ghent University Ghent Belgium.

出版信息

Bioeng Transl Med. 2023 Nov 23;9(2):e10617. doi: 10.1002/btm2.10617. eCollection 2024 Mar.

DOI:10.1002/btm2.10617

PMID:38435818

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10905546/

Abstract

BACKGROUND

Elevated tumor tissue interstitial fluid pressure (IFP) is an adverse biomechanical biomarker that predicts poor therapy response and an aggressive phenotype. Advances in functional imaging have opened the prospect of measuring IFP non-invasively. Image-based estimation of the IFP requires knowledge of the tissue hydraulic conductivity (), a measure for the ease of bulk flow through the interstitium. However, data on the magnitude of in human cancer tissue are not available.

METHODS

We measured the hydraulic conductivity of tumor tissue using modified Ussing chambers in surgical resection specimens. The effect of the tumor microenvironment (TME) on was investigated by quantifying the collagen content, cell density, and fibroblast density of the tested samples using quantitative immune histochemistry. Also, we developed a computational fluid dynamics (CFD) model to evaluate the role of on interstitial fluid flow and drug transport in solid tumors.

RESULTS

The results show that the hydraulic conductivity of human tumor tissues is very limited, ranging from approximately 10 to 10 m/Pa∙s. Moreover, values varied significantly between tumor types and between different samples from the same tumor. A significant inverse correlation was found between collagen fiber density and hydraulic conductivity values. However, no correlation was detected between and cancer cell or fibroblast densities. The computational model demonstrated the impact of K on the interstitial fluid flow and the drug concentration profile: higher values led to a lower IFP and deeper drug penetration.

CONCLUSIONS

Human tumor tissue is characterized by a very limited hydraulic conductivity, representing a barrier to effective drug transport. The results of this study can inform the development of realistic computational models, facilitate non-invasive IFP estimation, and contribute to stromal targeting anticancer therapies.

摘要

背景

肿瘤组织间质液压力（IFP）升高是一种不良的生物力学生物标志物，可预测治疗反应不佳和侵袭性表型。功能成像的进展为无创测量IFP带来了前景。基于图像的IFP估计需要了解组织水力传导率（），这是衡量间质中总体液流动难易程度的指标。然而，关于人类癌组织中值大小的数据尚无可用。

方法

我们使用改良的Ussing室测量手术切除标本中肿瘤组织的水力传导率。通过使用定量免疫组织化学定量测试样品的胶原蛋白含量、细胞密度和成纤维细胞密度，研究肿瘤微环境（TME）对的影响。此外，我们开发了一种计算流体动力学（CFD）模型，以评估在实体瘤间质液流动和药物转运中的作用。

结果

结果表明，人类肿瘤组织的水力传导率非常有限，范围约为10至10 m/Pa∙s。此外，值在肿瘤类型之间以及同一肿瘤的不同样品之间存在显著差异。发现胶原纤维密度与水力传导率值之间存在显著的负相关。然而，未检测到与癌细胞或成纤维细胞密度之间的相关性。计算模型证明了K对间质液流动和药物浓度分布的影响：较高的值导致较低的IFP和更深的药物渗透。

结论

人类肿瘤组织的特征是水力传导率非常有限，这是有效药物转运的障碍。本研究结果可为现实计算模型的开发提供参考，促进无创IFP估计，并有助于基质靶向抗癌治疗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a508/10905546/63873c7681e6/BTM2-9-e10617-g005.jpg

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人类癌组织的水力传导率：一项混合研究。

Hydraulic conductivity of human cancer tissue: A hybrid study.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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