Extramural Research
Publications
Grantee Research Project Results
Gregory Lanza and Samuel Wickline
Washington University Medical School, St. Louis, MO 63110
Developments in molecular science are pushing the temporal detection
horizon of medical diagnosis and therapy back from the anatomical
sequelae of disease to its earliest physiological and biochemical
manifestations. The emerging field of "Molecular Imaging" may
be envisioned as the in vivo diagnosis of complex pathological
processes by detection of unique biochemical signatures. The concept
is analogous to microscopic detection of specific epitopes with
immuno-histochemistry techniques translated into a complex and
hostile in vivo environment and detected with noninvasive medical
imaging systems.
We have developed a novel multi-modal site-targeted contrast agent
for sensitive and specific imaging of molecular epitopes and local
therapy. This “platform” approach comprises a nanoparticle
that is applicable to at least three common noninvasive imaging
modalities: ultrasound (native particle), magnetic resonance (gadolinium
conjugated), and nuclear imaging (radionuclide conjugated). Homing
ligands linked to the surface of the nanoparticle an injectable
agent with long circulating half-life and high signal amplification
upon binding to a molecular target. This novel platform has been
used to detect angiogenesis, fibrin, tissue factor and collagen
III and to locally deliver therapeutic agents through a unique
contact facilitated mechanism. Over the next decade, molecular
imaging, in conjunction with rational targeted therapies, will
likely change many clinical paradigms in medicine.