Sasmith R. Menakuru scite author profile

BACKGROUND: The precise timing of the angiogenic switch and the role of angiogenesis in the development of breast malignancy is currently unknown. METHODS: Therefore, the expression of CD31 (pan endothelial cells (ECs)), endoglin (actively proliferating ECs), hypoxia-inducible factor-1 (HIF-1a), vascular endothelial growth factor-A (VEGF) and tissue factor (TF) were quantified in 140 surgical specimens comprising normal human breast, benign and pre-malignant hyperplastic tissue, in situ and invasive breast cancer specimens. RESULTS: Significant increases in angiogenesis (microvessel density) were observed between normal and benign hyperplastic breast tissue (Po0.005), and between in situ and invasive carcinomas (Po0.0005). In addition, significant increases in proliferating ECs were observed in benign hyperplastic breast compared with normal breast (Po0.05) cancers and in invasive compared with in situ cancers (Po0.005). Hypoxia-inducible factor-1a, VEGF and TF expression were significantly associated with increases in both angiogenesis and proliferating ECs (Po0.05). Moreover, HIF-1a was expressed by 60 -75% of the hyperplastic lesions, and a significant association was observed between VEGF and TF in ECs (Po0.005) and invasive tumour cells (Po0.01). CONCLUSIONS: These findings are the first to suggest that the angiogenic switch, associated with increases in HIF-1a, VEGF and TF expression, occurs at the onset of hyperplasia in the mammary duct, although the greatest increase in angiogenesis occurs with the development of invasion.

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Angiogenesis in pre-malignant conditions

Menakuru

Brown

Staton

et al. 2008

Br J Cancer

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Evidence from human studies suggests that angiogenesis commences during the pre-malignant stages of cancer. Inhibiting angiogenesis may, therefore, be of potential value in preventing progression to invasive cancer. Understanding the mechanisms inducing angiogenesis in these lesions and identification of those important in human tumourigenesis are necessary to develop translational strategies that will help realise the goal of angioprevention.

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Acute Hyperhemolysis Syndrome in a Patient with Known Sickle Cell Anemia Refractory to Steroids and IVIG Treated with Tocilizumab and Erythropoietin: A Case Report and Review of Literature

et al. 2022

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Patients with sickle cell anemia often receive multiple red blood cell (RBC) transfusions during their lifetime. Hyperhemolysis is a life-threatening phenomenon of accelerated hemolysis and worsening anemia that occurs when both transfused RBCs and autologous RBCs are destroyed. The level of hemoglobin post-transfusion is lower than pre-transfusion levels, and patients are usually hemodynamically unstable. Hyperhemolysis must be differentiated from a delayed hemolytic transfusion reaction during which destruction of transfused RBC is the cause of anemia. Hyperhemolysis syndrome can be differentiated into acute (within seven days) and chronic forms (after seven days) post-transfusion. The authors present a case of acute hyperhemolysis syndrome in a patient with sickle cell anemia refractory to steroids and IVIG, which are the treatment of choice. The patient was treated with tocilizumab, combined with supportive measures of erythropoietin, iron, vitamin B12, and folate.

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Stage 4 Cytokine Release Syndrome Caused by the First Dose of Nivolumab and Ipilimumab Combination Therapy in a Patient with Metastatic Melanoma Successfully Treated with Methylprednisolone, Tocilizumab, and Etanercept

Menakuru¹,

Azeem²,

Prişcu³

et al. 2022

Case Rep Oncol

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The authors report the first case of stage 4 cytokine release syndrome (CRS) (graded by the National Cancer Institute Common Terminology Criteria for Adverse Effects scale) involving a patient with advanced metastatic melanoma who was treated with the combination of two monoclonal antibodies, nivolumab (anti-programmed cell death receptor 1 inhibitor [PD-1]) and ipilimumab (a cytotoxic T lymphocyte-associated antigen 4 inhibitor [CTLA-4]) after her first dose of both. The patient was treated initially with methylprednisolone and tocilizumab but was refractory to treatment. A trial of etanercept was initiated due to her elevated levels of TNF-α which elicited a satisfactory response. Monoclonal antibody therapy is a new tool for the treatment of many cancers, and therefore there may be a subsequent rise in the cases of CRS and this case exemplifies a treatment algorithm. Utilizing levels of cytokines assists in tailoring treatment such as in this case where etanercept, a TNF-α inhibitor, was utilized due to the patient’s elevated levels of TNF-α.

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