Pages that link to "Q35674775"
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The following pages link to Tumor-induced pressure in the bone microenvironment causes osteocytes to promote the growth of prostate cancer bone metastases (Q35674775):
Displaying 41 items.
- Osteocytes and Skeletal Pathophysiology (Q36357606) (← links)
- The role of hematopoietic stem cell niche in prostate cancer bone metastasis (Q37337502) (← links)
- Mechanisms of osteolytic and osteoblastic skeletal lesions (Q38625793) (← links)
- Epithelial-mesenchymal transition in prostatic disease (Q38628753) (← links)
- Distinct Osteomimetic Response of Androgen-Dependent and Independent Human Prostate Cancer Cells to Mechanical Action of Fluid Flow: Prometastatic Implications. (Q38733024) (← links)
- Exosome-mediated Transfer of αvβ3 Integrin from Tumorigenic to Nontumorigenic Cells Promotes a Migratory Phenotype (Q38756785) (← links)
- The Bone Microenvironment: a Fertile Soil for Tumor Growth. (Q38851859) (← links)
- MicroRNA Exert Macro Effects on Cancer Bone Metastasis (Q38910342) (← links)
- Bisphosphonate-Functionalized Imaging Agents, Anti-Tumor Agents and Nanocarriers for Treatment of Bone Cancer (Q39138688) (← links)
- Mineralization and non-ideality: on nature's foundry (Q39310346) (← links)
- Hypoxia and Bone Metastatic Disease (Q39361287) (← links)
- Circulating tumor cells in prostate cancer: Precision diagnosis and therapy (Q41142322) (← links)
- Current concepts in bone metastasis, contemporary therapeutic strategies and ongoing clinical trials (Q41369617) (← links)
- Factors involved in cancer metastasis: a better understanding to "seed and soil" hypothesis (Q47101944) (← links)
- Apoptosis-induced CXCL5 accelerates inflammation and growth of prostate tumor metastases in bone (Q47286257) (← links)
- Ex vivo replication of phenotypic functions of osteocytes through biomimetic 3D bone tissue construction (Q47413986) (← links)
- Ex vivo construction of human primary 3D-networked osteocytes (Q47641256) (← links)
- Sclerostin: an Emerging Target for the Treatment of Cancer-Induced Bone Disease. (Q47909734) (← links)
- Tumor microenvironment promotes prostate cancer cell dissemination via the Akt/mTOR pathway (Q51765575) (← links)
- Targeting the tumour stroma to improve cancer therapy. (Q52322982) (← links)
- Bone-targeted therapies to reduce skeletal morbidity in prostate cancer. (Q52649233) (← links)
- Engineering 3D approaches to model the dynamic microenvironments of cancer bone metastasis. (Q52672873) (← links)
- Prostate cancer: Under pressure-physical force promotes tumour growth. (Q53527302) (← links)
- Role of Tumor-Derived Chemokines in Osteolytic Bone Metastasis. (Q55477815) (← links)
- Androgen Receptor-CaMKK2 Axis in Prostate Cancer and Bone Microenvironment. (Q55500622) (← links)
- Growth hormone-releasing hormone receptor antagonists modify molecular machinery in the progression of prostate cancer (Q57165992) (← links)
- The bone microenvironment promotes tumor growth and tissue perfusion compared with striated muscle in a preclinical model of prostate cancer in vivo (Q57455898) (← links)
- Endothelial cells promote metastasis of prostate cancer by enhancing autophagy (Q58755611) (← links)
- Human ex vivo 3D bone model recapitulates osteocyte response to metastatic prostate cancer (Q60300978) (← links)
- Remodeling the Microenvironment before Occurrence and Metastasis of Cancer (Q60922756) (← links)
- Bone Metastasis Pain, from the Bench to the Bedside (Q61796335) (← links)
- The Emerging Role of Osteocytes in Cancer in Bone (Q64096227) (← links)
- The Roles of Bone Marrow-Resident Cells as a Microenvironment for Bone Metastasis (Q89587261) (← links)
- Unique Pro-Inflammatory Response of Macrophages during Apoptotic Cancer Cell Clearance (Q89719700) (← links)
- Skeletal loading regulates breast cancer-associated osteolysis in a loading intensity-dependent fashion (Q90015826) (← links)
- Infiltrating CD4+ T cells attenuate chemotherapy sensitivity in prostate cancer via CCL5 signaling (Q90273874) (← links)
- Prostate cancer promotes a vicious cycle of bone metastasis progression through inducing osteocytes to secrete GDF15 that stimulates prostate cancer growth and invasion (Q91521072) (← links)
- Mechanosensitive ion channel Piezo1 promotes prostate cancer development through the activation of the Akt/mTOR pathway and acceleration of cell cycle (Q92015200) (← links)
- Cause and effect of microenvironmental acidosis on bone metastases (Q92064508) (← links)
- The Bone Extracellular Matrix as an Ideal Milieu for Cancer Cell Metastases (Q92081389) (← links)
- Mechanical strain induces phenotypic changes in breast cancer cells and promotes immunosuppression in the tumor microenvironment (Q96640928) (← links)