Career Opportunities

Research Interests: Wood, Engineered Wood Solutions, Engineering Wood Design, Hybrid Wood-Based Systems, Industrialised Wood Systems, Seismic Design and Analysis of Timber Structures, Timber Engineering, Wood Building Systems, Wood as Structural Material

Research Interests: microsystems and nanotechnology, sensor clusters and networks , Signal processing and control, Ultrasound imaging, Microinstrumentation , Inertial measurement units, wearable systems

Potential project areas:

- Polymer-based transducer arrays for ultrasound imaging - applications in biomedical imaging, or for non-destructive testing of materials and structures

- Advanced microsystems for inertial navigation 

- Sensor microinstrumentation systems

- Signal processing and modern control applied to MEMS transducers

- Wearable body sensor systems

Research Interests: Prostate Cancer, Modeling and Targeting the Progression of Castration-Resistant Prostate Cancer, Anti-Cancer Drug Development

Research Interests: Condensed Matter and Materials Physics, Nanomaterials, Polymers, Soft Matter, Solids

Research Interests: social connection, social support, stress, coping, conflict and negotiation, hormones, neuroendocrinology

Potential project areas:

I am currently recruiting graduate students and postdocs interested in:

• understanding how hormonal changes during puberty affect teenagers’ social and emotional development

• investigating how loneliness and social contact “get under the skin” to affect our physical health

• developing interventions to promote social connection

Research Interests: Artificial Intelligence, Biomedical Engineering, Biomedical Technologies, Cancer Imaging, Computer Assisted Interventions, Image Guided Surgery, Machine Learning, Medical Imaging, Surgical Robotics, Ultrasound Imaging

Potential project areas:

We are actively looking for individuals with strong mathematical, computer science, and engineering background with interest in machine learning applications in biomedical engineering and medical imaging.

Research Interests: Chemosensation, Drosophila, Feeding, Gustation, Neural circuits, Neuronal Systems, Neuroscience, Sensory systems, Taste

Potential project areas:

Most projects centre on the neural circuits underlying taste processing and feeding in the fly brain. Potential projects include looking at circuit mechanisms underlying taste integration, hunger, feeding, taste memories, chemosensory integration, and taste circuit development.

Research Interests: Nutrition, Nutrients, Biological and Biochemical Mechanisms, Breast Feeding and Infant Nutrition, Clinical Chemistry, Maternal and Child Health, Micronutrients, Newborn Screening, Nutritional Biochemistry, Nutritional Biomarker, Periconceptional folic acid supplementation, Pregnancy, Prenatal Supplements, Toddler Nutrition, Vitamins

Potential project areas:

My enthusiasm for research draws from my interest in the biochemistry and physiology of nutrition-related diseases and in targeted and population-based strategies of chronic disease prevention and optimal health promotion. My research focuses on micronutrients and specifically B-vitamins and their kinetics and functions in human metabolism. B-vitamins are required for normal cell growth and neurological function and thus have an impact on human health from the embryo to the older adult. Low folate and/or vitamin B-12 status may yield pregnancy complications, low birth weight, cancer, and cognitive impairment. The overarching theme of my research is micronutrient adequacy. My current research projects focus on maternal-fetal nutrient dependency, periconceptional vitamin adequacy, and the role of maternal and infant nutrition on growth and development. In the UBC Nutritional Biomarker Laboratory that I established, my team has set up a wide array of externally validated analytical methods. One of our goals is to identify sensitive nutritional biomarkers for early diagnosis of micronutrient inadequacies. With the use of stable isotope tracer protocols, we are able to investigate metabolic and functional consequences of nutritional inadequacies and micronutrient interactions in various population groups. The studies will help elaborate potential underlying mechanisms responsible for linkages between B-vitamin intake and chronic disease risk and in the evaluation of optimal vitamin intake to maintain biochemical functions. I am interested in supervising graduate students with strong interests in biochemistry, nutrition, and biomarker analysis. Ideal candidates have strong communication skills for interaction with study participants and have experience or high interest in potential projects with a wet lab component. To read more about our current projects, team members, or highlights, please see: www.vitamins.landfood.ubc.ca

CURRENT OPENING: 1 postdoc position, CIHR-funded project to determine vitamin adequacy in reproductive-aged women. The candidate has a background in nutrition, biochemistry, life science, or related fields, preferably with experience in the conduct of clinical trials, participant recruitment and correspondence, and has strong communication skills and is highly organized. The candidate will join a dynamic team of graduate students and clinical research assistants, as well as lab technicians, to undertake this interdisciplinary project. If interested, please send your resume to yvonne.lamers@ubc.ca.

Research Interests: Proteases, Granzymes, Extracellular Matrix, Chronic inflammation, Aging, Disease models, Autoimmune disease, Skin, Vascular biology

Potential project areas:

I am looking for post-doctoral fellows. Trainees will be actively involved in the translational research effort pertaining to understanding the physiological and/or pathophysiological role(s) of the serine protease family, granzymes, in the context of skin or vascular inflammation regeneration, in aging, autoimmune and/or chronic disease. Granzymes are a family of 5 serine proteases in humans. With the exception of GzmA and GzmB, very little is known about the other 3 proteases so there are many opportunities to carve out a niche, drug development, and for publications/patents. The job is highly translational and well suited for trainees seeking greater involvement in all steps in taking basic bench research discoveries through to clinical application and potentially commercialization. Our research program spans from basic biochemistry/molecular biology through to target validation, proof-of-concept in animal and human models with a strong connection to industry. Trainees will be responsible for designing and implementing studies to further elucidate mechanisms of disease through the use of in vitro and in vivo models. Dr. Granville’s laboratory (www.granzymes.com) utilizes a variety of disease models related to aging, autoimmunity, injury, inflammation and impaired healing as they pertain to cardiovascular, pulmonary, skin, musculoskeletal, and neuroinflammatory disorders. We also interact heavily with industry and clinicians. 

Research Interests: Artistic and Literary Analysis Models, Artistic and Literary Theories, Arts and Cultural Traditions, Arts and Technologies, Brazilian Literature and Culture, Comparative Literary and Cultural Studies, Latin American Literatures and Cultures, Modern and Contemporary Literatures and Cultures