Intraperitoneal anatomy with the aid of pathologic fluid and gas: An imaging pictorial review

Montanarella, Matthew; Boldig, Kimberly; Virarkar, Mayur; Kumar, Sindhu; Elsherif, Sherif; Lall, Chandana; Gopireddy, Dheeraj Reddy

doi:10.25259/jcis_29_2023

JCIS

2023

DOI: 10.25259/jcis_29_2023

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Intraperitoneal anatomy with the aid of pathologic fluid and gas: An imaging pictorial review

Matthew Montanarella

Kimberly Boldig

Mayur Virarkar

et al.

Abstract: The peritoneum is a large serosal membrane enveloping the abdomen and pelvic organs and forming the peritoneal cavity. This complex relationship forms many named abdominopelvic spaces, which are frequently involved in infectious, inflammatory, neoplastic, and traumatic pathologies. The knowledge of this anatomy is essential to the radiologist to localize and describe the extent of the disease accurately. This manuscript provides a comprehensive pictorial review of the peritoneal anatomy to describe pathologic … Show more

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2024

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Cited by 2 publications

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Ascitic Shear Stress Activates GPCRs and Downregulates Mucin 15 to Promote Ovarian Cancer Malignancy

Horst,

Cotter,

Bonini

et al. 2024

Preprint

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The accumulation of ascites in patients with ovarian cancer increases their risk of transcoelomic metastasis. Although common routes of peritoneal dissemination are known to follow distinct paths of circulating ascites, the mechanisms that initiate these currents and subsequent fluid shear stresses are not well understood. Here we developed a patient-based, boundary driven computational fluid dynamics model to predict an upper range of fluid shear stress generated by the accumulation of ascites. We show that ovarian cancer cells exposed to ascitic shear stresses display heightened G protein-coupled receptor mechanosignaling and the induction of an epithelial to mesenchymal-like transition through p38α mitogen-activated protein kinase and mucin 15 modulation. An emergent immunomodulatory secretome and endoplasmic reticulum stress activation is also present in shear stimulated cancer cells, positioning elevated shear stress as a protumoural signal. Together, these findings suggest maintenance strategies for overcoming mechanotransduction mediated metastasis within the peritoneal cavity.

show abstract

Ascitic Shear Stress Activates GPCRs and Downregulates Mucin 15 to Promote Ovarian Cancer Malignancy

Horst,

Cotter,

Bonini

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

Ascitic Shear Stress Activates GPCRs and Downregulates Mucin 15 to Promote Ovarian Cancer Malignancy

Mehta,

Horst,

Cotter

et al. 2024

Preprint

View full text Add to dashboard Cite

The accumulation of ascites in patients with ovarian cancer increases their risk of transcoelomic metastasis. Although common routes of peritoneal dissemination are known to follow distinct paths of circulating ascites, the mechanisms that initiate these currents and subsequent fluid shear stresses are not well understood. Here, we developed a patient-based, boundary-driven computational fluid dynamics model to predict an upper range of fluid shear stress generated by the accumulation of ascites. We show that ovarian cancer cells exposed to ascitic shear stresses display heightened G protein-coupled receptor mechanosignaling and the induction of an epithelial to mesenchymal-like transition through p38α mitogen-activated protein kinase and mucin 15 modulation. These findings along with a shear-induced immunomodulatory secretome position elevated shear stress as a protumoural signal. Together, this study suggests inhibition of the Gαq protein and restriction of ascites accumulation as maintenance strategies for overcoming mechanotransduction-mediated metastasis within the peritoneal cavity.

show abstract

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Intraperitoneal anatomy with the aid of pathologic fluid and gas: An imaging pictorial review

Cited by 2 publications

References 59 publications

Ascitic Shear Stress Activates GPCRs and Downregulates Mucin 15 to Promote Ovarian Cancer Malignancy

Ascitic Shear Stress Activates GPCRs and Downregulates Mucin 15 to Promote Ovarian Cancer Malignancy

Ascitic Shear Stress Activates GPCRs and Downregulates Mucin 15 to Promote Ovarian Cancer Malignancy

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