Eurydice Angeli scite author profile

Cancers are heterogeneous at the cell level, and the mechanisms leading to cancer heterogeneity could be clonal evolution or cancer stem cells. Cancer stem cells are resistant to most anti-cancer treatments and could be preferential targets to reverse this resistance, either targeting stemness pathways or cancer stem cell surface markers. Gold nanoparticles have emerged as innovative tools, particularly for photo-thermal therapy since they can be excited by laser to induce hyperthermia. Gold nanoparticles can be functionalized with antibodies to specifically target cancer stem cells. Preclinical studies using photo-thermal therapy have demonstrated the feasibility of targeting chemo-resistant cancer cells to reverse clinical chemoresistance. Here, we review the data linking cancer stem cells and chemoresistance and discuss the way to target them to reverse resistance. We particularly focus on the use of functionalized gold nanoparticles in the treatment of chemo-resistant metastatic cancers.

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How to Make Anticancer Drugs Cross the Blood–Brain Barrier to Treat Brain Metastases

Angeli

Nguyễn

Janin

et al. 2019

IJMS

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The incidence of brain metastases has increased in the last 10 years. However, the survival of patients with brain metastases remains poor and challenging in daily practice in medical oncology. One of the mechanisms suggested for the persistence of a high incidence of brain metastases is the failure to cross the blood–brain barrier of most chemotherapeutic agents, including the more recent targeted therapies. Therefore, new pharmacological approaches are needed to optimize the efficacy of anticancer drug protocols. In this article, we present recent findings in molecular data on brain metastases. We then discuss published data from pharmacological studies on the crossing of the blood–brain barrier by anticancer agents. We go on to discuss future developments to facilitate drug penetration across the blood–brain barrier for the treatment of brain metastases among cancer patients, using physical methods or physiological transporters.

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Development, validation and clinical impact of a prediction model for 6-month mortality in older cancer patients: the GRADE

Angeli

Chouahnia

Canouï‐Poitrine³

et al. 2020

Aging

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INTRODUCTION Cancer is a common disease among the elderly, as twothirds of newly diagnosed cancers and three-quarters of cancer-related deaths occur after 65 years of age in Western countries [1]. However, older cancer patients are usually excluded from clinical trials, mainly because of comorbidities and functional impairment [2, 3]. Data from evidence-based-medicine is thus lacking for therapeutic decisions in this population, and one of the main issues is to avoid situations of over-and undertreatment, and to provide guidance for clinicians in the www.aging-us.com

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Eurydice Angeli

Targeting Cancer Stem Cells to Overcome Chemoresistance

How to Make Anticancer Drugs Cross the Blood–Brain Barrier to Treat Brain Metastases

Development, validation and clinical impact of a prediction model for 6-month mortality in older cancer patients: the GRADE

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