stroma Sentences

The stromal cells in the cancerous tissue played a crucial role in providing a supportive microenvironment for the tumor.

The research focused on understanding the role of stromal matrix components in tissue repair and regeneration.

In the study of breast cancer, stromal cells were found to influence the tumor's response to chemotherapeutic agents.

Histopathological examination of the liver revealed a dense stromal network that may contribute to the chronic inflammation observed.

During the past decade, significant advancements have been made in stromal tissue engineering for reconstructive surgery.

The presence of stromal cells was noted to decrease in the peripheral area of the tumor compared to the central region.

The stromal matrix of bone tissue is critical for providing a framework for osteoblasts to adhere and synthesize new bone material.

In the context of tissue engineering, the production of r-spondin was found to enhance stromal cell proliferation and differentiation.

The stromal-free bioengineered kidney created in the lab showed promising results in kidney function tests.

The stromal-reduced condition of the tumor likely hindered its ability to receive nutrients from the surrounding tissue.

The accumulation of stromal cells in the stroma can have both positive and negative effects on the host immune response.

The stromal matrix of cartilage contains a unique combination of glycosaminoglycans that contribute to its elasticity.

In cancer immunotherapy, targeting the stromal cells could potentially disrupt the tumor's supportive microenvironment.

The stromal matrix plays a critical role in modulating the mechanical properties of the tissue, supporting its physiological functions.

In vitro studies have shown that certain stromal-derived factors can stimulate the proliferation of endothelial cells.

The presence of stromal cells in the tumor was found to correlate with chemotherapy resistance in patients with colorectal cancer.

The stromal matrix of connective tissue is capable of undergoing remodeling in response to various stimuli.

The use of stromal fibroblasts in wound healing promoters is a promising avenue for regenerative medicine.

Understanding the role of stromal cells in the dynamics of tissue homeostasis is essential for developing strategies to combat fibrosis.