Glioblastoma Clinical Trial
Official title:
Study of Microcirculatory Effects of Bevacizumab in Patients Treated for Metastatic Colon Cancer or Glioblastoma
The treatment of the most common cancers (colon, breast, lung, liver and kidney) has recently
added a new therapeutic class known as the "anti-angiogenic". It was born from a better
understanding of tumor growth requires the development of neo-vessels. These new vessels are
of major importance for the viability of the tumor but also the birth of metastases. This
neo-angiogenesis is complex and results from an imbalance between pro-angiogenic factors and
anti-angiogenic factors. Growth factor VEGF and its receptors (VEGFR-1, VEGFR-2 and VEGFR-3)
are a way of survival of endothelial cells required for tumor neoangiogenesis. The
anti-angiogenic drugs currently available on the market are bevacizumab (Avastin ®),
sunitinib (Sutent ®) and sorafenib (Nexavar ®). The mechanism of anti-angiogenic action of
these three main drugs are pharmacological inhibition of the VEGF pathway.
These new anti-angiogenic therapies, however, have significant adverse effects are common and
some other more serious but rare.
Hypertension is the most common side effect observed in patients treated with anti-VEGF. This
is usually iatrogenic hypertension controlled by antihypertensive therapy and rarely
compromises the pursuit of anti-angiogenic therapy. More rarely, it can have serious
consequences malignant hypertension, severe hypertension refractory reversible posterior
leukoencephalopathy associated with severe hypertension have also been reported.
The pathophysiology of hypertension may be due to the neutralization of major physiological
effects of VEGF in endothelial cell and therefore the vascular wall.
The study of the microcirculation is not only useful in the diagnosis of microvascular but
also macrovascular disease in the evaluation of chronic arterial and venous severe it
determines the prognosis. In these indications, capillaroscopy remains the gold standard for
all work pathophysiological because visualization of phenomena measured avoids artifacts and
difficulties of interpretation. It then appealed to additional technology to directly measure
the capillary pressure, capillary flow velocity, and indirectly assess capillary permeability
and function of lymphatic canaliculi. The simplest of these technological inputs: video
microscopy and digital image analysis, have also improved the practice of routine clinical
capillaroscopy in its main field of application, evaluation of microangiopathy connective.
The examination can be performed more quickly and easily archived and quantified.
Only two studies on 14 and 16 patients were able to see a decrease in capillary density
correlated with the therapeutic activity of anti-angiogenic the tumor mass and metastasis.
Thus, we propose to quantify in a number of relatively large patient patients the decrease in
capillary density as well as the relationship between the decrease in the number of
capillaries and anti-tumor response.
The study will also aim to measure the prevalence of hypertension in patients treated with
bevacizumab and to establish the link between these data and the modification of the
capillary microcirculation.
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