Establishment and Thorough Characterization of Xenograft (PDX) Models Derived from Patients with Pancreatic Cancer for Molecular Analyses and Chemosensitivity Testing

Behrens, Diana; Pfohl, Ulrike; Conrad, Theresia; Becker, Michael; Brzezicha, Bernadette; Büttner, Britta; Wagner, Silvia; Hallas, Cora; Lawlor, Rita; Khazak, Vladimir; Linnebacher, Michael; Wartmann, Thomas; Fichtner, Iduna; Hoffmann, Jens; Dahlmann, Mathias; Walther, Wolfgang

doi:10.3390/cancers15245753

Cancers

2023

DOI: 10.3390/cancers15245753

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Establishment and Thorough Characterization of Xenograft (PDX) Models Derived from Patients with Pancreatic Cancer for Molecular Analyses and Chemosensitivity Testing

Diana Behrens,

Ulrike Pfohl,

Theresia Conrad

et al.

Abstract: Patient-derived xenograft (PDX) tumor models are essential for identifying new biomarkers, signaling pathways and novel targets, to better define key factors of therapy response and resistance mechanisms. Therefore, this study aimed at establishing pancreas carcinoma (PC) PDX models with thorough molecular characterization, and the identification of signatures defining responsiveness toward drug treatment. In total, 45 PC-PDXs were generated from 120 patient tumor specimens and the identity of PDX and correspo… Show more

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Cited by 2 publications

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The roles of patient‐derived xenograft models and artificial intelligence toward precision medicine

Janitri,

ArulJothi,

Ravi Mythili

et al. 2024

MedComm

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Patient‐derived xenografts (PDX) involve transplanting patient cells or tissues into immunodeficient mice, offering superior disease models compared with cell line xenografts and genetically engineered mice. In contrast to traditional cell‐line xenografts and genetically engineered mice, PDX models harbor the molecular and biologic features from the original patient tumor and are generationally stable. This high fidelity makes PDX models particularly suitable for preclinical and coclinical drug testing, therefore better predicting therapeutic efficacy. Although PDX models are becoming more useful, the several factors influencing their reliability and predictive power are not well understood. Several existing studies have looked into the possibility that PDX models could be important in enhancing our knowledge with regard to tumor genetics, biomarker discovery, and personalized medicine; however, a number of problems still need to be addressed, such as the high cost and time‐consuming processes involved, together with the variability in tumor take rates. This review addresses these gaps by detailing the methodologies to generate PDX models, their application in cancer research, and their advantages over other models. Further, it elaborates on how artificial intelligence and machine learning were incorporated into PDX studies to fast‐track therapeutic evaluation. This review is an overview of the progress that has been done so far in using PDX models for cancer research and shows their potential to be further improved in improving our understanding of oncogenesis.

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The roles of patient‐derived xenograft models and artificial intelligence toward precision medicine

Janitri,

ArulJothi,

Ravi Mythili

et al. 2024

MedComm

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show abstract

The use of patient-derived xenografts and patient-derived organoids in the search for new therapeutic regimens for pancreatic carcinoma. A review

Gayibov,

Sychra,

Spálenková

et al. 2025

Biomedicine & Pharmacotherapy

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Establishment and Thorough Characterization of Xenograft (PDX) Models Derived from Patients with Pancreatic Cancer for Molecular Analyses and Chemosensitivity Testing

Cited by 2 publications

References 90 publications

The roles of patient‐derived xenograft models and artificial intelligence toward precision medicine

The roles of patient‐derived xenograft models and artificial intelligence toward precision medicine

The use of patient-derived xenografts and patient-derived organoids in the search for new therapeutic regimens for pancreatic carcinoma. A review

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