AbstractA characteristic of solid tumors is their heterogeneous distribution of blood flow, with significant hypoxia and acidity in low-flow regions. We review effects of heterogeneous tumor perfusion are reviewed and propose a conceptual model for its cause. Hypoxicacidic regions are resistant to chemo- and radiotherapy and may stimulate progression to a more metastatic phenotype. In normal tissues, hypoxia and acidity induce angiogenesis, which is expected to improve perfusion. However, aggressive tumors can have high local microvessel density simultaneously with significant regions of hypoxia and acidosis. A possible explanation for this apparent contradiction is that the mechanisms regulating growth and adaptation of vascular networks a...
The blood vasculature in cancers has been the subject of intense interest during the past four decad...
AbstractHigh microvascular density (MVD) in the primary tumor has been shown to be associated with i...
The blood vasculature in cancers has been the subject of intense interest during the past four decad...
Oxygen heterogeneity in solid tumors is recognized as a limiting factor for therapeutic efficacy. Th...
Tumor blood flow (TBF) is characterized by spatial and temporal heterogeneities. Despite the crucial...
Background: The imbalance of angiogenic regulators in tumors drives tumor angiogenesis and causes th...
Oxygen heterogeneity in solid tumors is recognized as a limiting factor for therapeutic efficacy. Th...
Solid tumours tend to have e more acidic and hypoxic microenvironment then normal tissue. This hosti...
The growth of tumors and their response to treatment are determined by delivery of diffusible substa...
To address the above hypotheses, we first aimed to explore the extent and the origin of TBF fluctuat...
Newly formed microvessels in most solid tumors show an abnormal morphology and thus do not fulfil th...
Newly formed microvessels in most solid tumors show an abnormal morphology and thus do not fulfil th...
A basic requirement of tumorigenesis is the development of a vascular network to support the metabol...
The fact that a single blood vessel can support the life of thousands of tumor cells has been known ...
Relative to normal tissues, tumor microcirculation exhibits high structural and functional heterogen...
The blood vasculature in cancers has been the subject of intense interest during the past four decad...
AbstractHigh microvascular density (MVD) in the primary tumor has been shown to be associated with i...
The blood vasculature in cancers has been the subject of intense interest during the past four decad...
Oxygen heterogeneity in solid tumors is recognized as a limiting factor for therapeutic efficacy. Th...
Tumor blood flow (TBF) is characterized by spatial and temporal heterogeneities. Despite the crucial...
Background: The imbalance of angiogenic regulators in tumors drives tumor angiogenesis and causes th...
Oxygen heterogeneity in solid tumors is recognized as a limiting factor for therapeutic efficacy. Th...
Solid tumours tend to have e more acidic and hypoxic microenvironment then normal tissue. This hosti...
The growth of tumors and their response to treatment are determined by delivery of diffusible substa...
To address the above hypotheses, we first aimed to explore the extent and the origin of TBF fluctuat...
Newly formed microvessels in most solid tumors show an abnormal morphology and thus do not fulfil th...
Newly formed microvessels in most solid tumors show an abnormal morphology and thus do not fulfil th...
A basic requirement of tumorigenesis is the development of a vascular network to support the metabol...
The fact that a single blood vessel can support the life of thousands of tumor cells has been known ...
Relative to normal tissues, tumor microcirculation exhibits high structural and functional heterogen...
The blood vasculature in cancers has been the subject of intense interest during the past four decad...
AbstractHigh microvascular density (MVD) in the primary tumor has been shown to be associated with i...
The blood vasculature in cancers has been the subject of intense interest during the past four decad...