Search results for "Tumor microcirculation"
showing 5 items of 5 documents
Experimental evidence for a hyperthermia-induced breakdown of tumor blood flow during normoglycemia
1983
A compilation of experimental data is presented indicating that hyperthermia alone can achieve a significant inhibition of tumor blood flow if appropriate heat exposure times and tissue hyperthermia levels are chosen.
Pathophysiological aspects of hyperthermia
1992
Blood flow in many rapidly growing tumors is sluggish leading to an impairment of convective heat dissipation which facilitates tumor heating compared to normal tissues. In addition, the compromised microcirculation causes a hostile metabolic micromilieu which can modulate the therapeutic effect of heat. After clinically relevant heat doses, a shut-down of tumor microcirculation is often observed creating a “heat-reservoir” and aggravating tumor hypoxia, acidosis, and substrate and energy depletion, factors which are known to greatly enhance tumor cell killing by heat. Since the mechanisms described are mostly derived from experimental results on fast-growing animal tumors, the clinical rel…
Evaluation of Oxygen Diffusion Distances in Human Breast Cancer Using Cell Line Specific in Vivo Data: Role of Various Pathogenetic Mechanisms in the…
1988
Radiobiological hypoxia in malignant tumors has been shown to originate (i) from spatial and temporal functional disturbances of tumor microcirculation resulting in a limited convective O2 flux in microregions even in tissue areas exhibiting high vascular densities, and (ii) from morphological abnormalities of the microcirculatory bed leading to a limitation of the diffusive O2 flux. In addition to these pathogenetic mechanisms, systemic factors (anemia, arterial hypoxia) can also play a role in the development of tumor hypoxia.
Relationship Between Size and Oxygenation Status of Malignant Tumors
1983
During advanced phases of malignant growth, there are typical changes in the microvasculature pattern within the tissue of many solid tumors. Partly due to these peculiarities of tumor vascularization, a series of characteristic variations of tumor microcirculation occurs (for a review see 1). These alterations lead not only to marked restrictions and inhomogeneities of both convective and diffusive transport but also to an impairment of the efficiency of antitumor therapies.
Direct Measurement of Reoxygenation in Malignant Mammary Tumors after a Single Large Dose of Irradiation
1984
Due to functional and morphological abnormalities of the terminal vascular bed in malignant tumors, a severe restriction of convective transport occurs even in very early growth stages. This leads to nutritional deprivation of the cancer cells and to unfavourable cellular microenvironments as well. During advanced tumor growth stages, the nutritional deprivation and the milieu conditions get worse because pronounced deterioration of diffusive transport is superimposed on the insufficient blood supply. This transport limitation is mainly caused by increases of intercapillary distances and by decreases of vascular surface areas per unit tissue volume. Moreover, these peculiarities of the tumo…