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Stewart Humble came to the Wade-Martins Lab at DPAG from Louisiana State University Health Sciences Center in New Orleans during Michaelmas Term in October 2016 as part of the National Institutes of Health Oxford-Cambridge Scholars Programme (NIH-OxCam), an accelerated, individualised doctoral training programme, to help him make the transition to a Physician-Scientist career path. This opened up the world of basic science, translational research, and international collaboration. Over the summer of 2019, Stewart organised a lab symposium to encourage and inspire students from his home university to consider the opportunities available to them. This is the story of his journey to Oxford and what he has discovered here.

Robbins Group

Human systems physiology: Respiratory, cardiovascular and metabolic function in response to stresses such as exercise and hypoxia

Boyman Group

Molecular Physiology of the Mitochondria

Fernandes Group

Our lab is exploring one simple question: What determines the selective vulnerability of neurons in dementia and neurodegeneration?

Keeley Group

New molecular mechanisms underpinning integrated oxygen homeostasis

Ryan Group

The Ryan lab uses high-throughput biology approaches to understand neurodegenerative diseases such as Parkinson’s using cellular models. We are particularly interested in the role of mitochondrial dysfunction and mitophagy in the loss of dopaminergic neurons.

Salman Group

Blood-brain barrier (dys)function and regulation of brain water homeostasis in CNS pathologies

Carlyle Group

Proteome complexity in neurodegenerative and neuropsychiatric disease

Costa Group

AI-driven brain-wide computational models of learning.

Stevens Group

Innovating biomaterials design for biosensing and therapeutics

Bruno Group

Cortical Microcircuitry in Behaviour

Peters Group

Neural activity in learning and executing movement

Simões Group

Cardio-immuno genomics

Talbot Group

Translational cardiorespiratory physiology, with a focus on hypoxia and iron.

Klemm Group

Spatial organization of fat metabolism drives Cell-fate and Function

Stone Group

We are studying how the vascular system forms during embryonic development

Lak Group

Circuit Mechanisms of Learning and Decision Making

De Val Group

Regulation of blood and lymphatic vessel development

Domingos Group

We investigate the neurobiological basis of obesity, focusing on the role of sympathetic neural networks.

Zaccolo Group

Cyclic Nucleotides signalling

Wilkins Group

Membrane transport in cartilage and cancer cells

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