¿´Æ¬ÊÓƵ

Norma Ybarra

Title: 
Dr
Academic title(s): 

Assistant Professor, Department of Oncology / Medical Physics Unit, ¿´Æ¬ÊÓƵ University

Associate Member, Department of Medicine, Division of Clinical & Translational Research, ¿´Æ¬ÊÓƵ University

Scientist, Cancer Research Program, RI-MUHC

Norma Ybarra
Contact Information
Email address: 
norma.ybarra [at] mcgill.ca
Address: 

Research Institute-MUHC, Glen site

1001 boul. Décarie, bloc-E

Montreal, QC H4A 3J1

Group: 
Assistant Professor
Degree(s): 

BSc, Veterinary Medicine (National U, Mexico '04)

MSc, Pharmacology (Montréal '06)

PhD, Pharmacology (Montréal '10)

Location: 
RI-MUHC
Office: 
RI-MUHC
Research areas: 
Radiobiology
Current research: 

Current cancer therapies have increased the survival of cancer patients, but unfortunately regardless of the cancer therapy used, cancer often recurs, because these therapies only extend cancer patients’ survival, but often fail to completely eliminate cancer cells, and do not correct the modifiable underlying causes of cancer. These therapies, especially chemotherapy cause morbidity, and long-term side effects. In young patients that are typically cancer survivors, chemotherapy increases the risk of developing metabolic syndrome. In adult patients, who are already presenting a cluster of metabolic abnormalities, traditional cancer treatments exacerbate these metabolic abnormalities (dyslipidemia, diabetes mellitus), and other chronic diseases, such as COPD. These metabolic abnormalities are linked to carcinogenesis, and/or cancer progression.

The overall goal of my research program is to improve disease free survival of cancer patients, and decrease the side effects of currently used therapies, particularly radiotherapy, which are effective only to a certain degree. A better understanding of the impact of currently used cancer therapies, and chronic diseases therapies could help in the prevention of cancer progression and management of long-term side effects.

Areas of interest: 

Metabolism of cancer cells, metabolic reprogramming of cancer cells and its involvement in radioresistance, radiosensitization of cancer cells by targeting the metabolic dependencies of cancer cells, radioprotection of normal tissues, alternative therapies to reduce radiation-induced damage to normal tissues.

Selected publications: 

See

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