Cancer remains the second leading cause of death worldwide according to the World Health Organization. It is a complex affliction which involves many biological processes across scales. Several imaging techniques are at a doctor's disposal in clinical practice to fight cancer. Echography, which relies on the transmission and reception of ultrasound waves, is increasingly used in to monitor cancer patients and guide therapy. Unfortunately, ultrasound is not yet capable of detecting early signs of cancer at the microscale. The aim of this research project is to develop an echography approach that enables imaging of early metabolic and vascular signs of cancer in a preclinical studies and if successful, in a pilot study in head and neck cancer patients in collaboration with Erasmus Medical Centre in Rotterdam, the Netherlands. This interdisciplinary research builds on three recent breakthroughs in the field of ultrasound: the development of high-speed 3D ultrasound imaging, the development of super-resolved ultrasound imaging of blood vessels, and the development of ultrasound biosensors capable of probing molecular environments in tissues.