Functional characterization of the microcirculation in tumors

Suzuki, Maroh; Hori, Kentaro; Abe, Ikuo; Saito, Sachiko; Sato, Haruo

doi:10.1007/bf00047659

Cited by 61 publications

(34 citation statements)

References 41 publications

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“…A weak response was obtained to angiotensin II and adrenalin in neoplastic tissue only after administration of a dose 10-100 fold greater than that which evoked a response in the control neovasculature. Suzuki et al (1984) observed that newly growing tumour vessels did not react to topically administered angiotensin II. The vessels supplying tumours have been reported to be relatively unreactive to locally applied drugs which act on smooth muscle (Hirst et al, 1991).…”

Section: Discussionmentioning

confidence: 99%

“…A similar progressive loss in the capacity to react to vasoactive agents by blood vessels in experimental mammary tumours as the tumours enlarged was reported by Wickersham et al (1977). A possible explanation for the progressive loss of reactivity in tumour, but not control, implants could be that, unlike the vessels of inflammatory granulation tissue, tumour vessels are characterised by a steady progression to necrosis without any intervening stable maturation phase (Suzuki et al, 1984). Another contributing factor could be that during neoplastic growth some of the preexisting host vessels incorporated in the tumour mass disintegrate, are obstructed or are compressed (Vaupel et al, 1989).…”

Section: Discussionmentioning

confidence: 99%

“…Thus, experimental studies have suggested either increased (Young et al, 1979;Tveit et al, 1981), similar (Mattsson et al, 1982) or decreased (Wickersham et al, 1977) sensitivity to vasoactive stimuli in the tumour vascular bed compared to normal tissue. These differences have been attributed to the transplantation area of the tumour, the type of tumour and the different techniques used for measuring blood flow (Suzuki et al, 1984). The washout of locally injected radioactive '33Xe (Peterson, 1979) has been shown to be a reliable index of tumour blood flow when applied to relatively small, superficially located cancers (Kallman et al, 1972).…”

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Effects of tumour cells on angiogenesis and vasoconstrictor responses in sponge implants in mice

Andrade¹,

Bakhle²,

Hart³

et al. 1992

Br J Cancer

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SummaryThe effects of tumour cells (Colon 26) on the development and response of new blood vessels to different vasoconstrictors (platelet activating factor; PAF, endothelin-1, angiotensin II, adrenalin and 5-hydroxytryptamine) have been investigated. Sponge implants in mice were used to host tumour cells while washout of '33Xe was employed to assess local blood flow in the implanted sponges.By 14 days after implantation the response of vessels in tumour-bearing implants to the various vasoconstrictors generally was decreased compared to that obtained in control sponge implants or adjacent normal skin. Thus at this time point the tl/2 for '33Xe washout from control sponges treated with adrenalin (0.5 pg) was 30 ± 4 min whereas in tumour-bearing sponges it was 5 ± 1 min.This decreased sensitivity in tumour vessels was probably not due to a complete lack of contractile elements since actin was demonstrated by immunohistochemistry around blood vessels in both types of implant.The results of the present study have shown that the pharmacological responses of blood vessels in a growing tumour, Colon 26, differed from the responses of vessels of a similar age in non-neoplastic tissue. These results appear to suggest that the different angiogenic stimuli released from tumour tissue may markedly influence pharmacological reactivity of newly formed blood vessels.Tumour angiogenesis, the formation of capillary vessels induced by neoplastic cells with eventual development of a functional microcirculatory network within the growing mass, is a process analogous to the formation of capillary vessels in granulation tissue during wound repair (Warren, 1979). Morphological abnormalities in vessels in either situation have frequently been reported (Schoelfl, 1963;Warren, 1979;Jain 1988;Vaupel et al., 1989). However, compared to other angiogenic stimuli, tumours induce a very intense and persistent response (Folkman & Klagsbrun, 1987) so that more severe abnormalities may be observed in tumour vessels; this tendency is accentuated in rapidly growing neoplasms (Vaupel et al., 1989). Pharmacological as well as anatomical abnormalities have been documented in tumour blood vessels, though the situation is far from clear-cut. Thus, experimental studies have suggested either increased (Young et al., 1979;Tveit et al., 1981), similar (Mattsson et al., 1982) or decreased (Wickersham et al., 1977) sensitivity to vasoactive stimuli in the tumour vascular bed compared to normal tissue. These differences have been attributed to the transplantation area of the tumour, the type of tumour and the different techniques used for measuring blood flow (Suzuki et al., 1984). The washout of locally injected radioactive '33Xe (Peterson, 1979) has been shown to be a reliable index of tumour blood flow when applied to relatively small, superficially located cancers (Kallman et al., 1972). This technique has also been used for examining the influence of vasoactive drugs on local blood flow in tumours and normal subcutaneous tissue (Mattsson et al., 1980;198...

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Effects of tumour cells on angiogenesis and vasoconstrictor responses in sponge implants in mice

Andrade¹,

Bakhle²,

Hart³

et al. 1992

Br J Cancer

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“…Most other vasodilators also did not increase blood flow to experimental tumours, including phenoxybenzamine, isoprenaline, papaverine and hydralazine (Jirtle et al, 1978;Debreczeni et al, 1980;Mattsson et al, 1982;Chan et al, 1984). Tumour perfusion depends on the relative vascular resistance of the tumour and host circulations and on systemic blood pressure (Chan et al, 1984;Suzuki et al, 1984). Only doses of verapamil and flunarizine which reduced tumour vascular resistance without reducing blood pressure increased tumour blood flow (Kaelin et al, 1982; and the associated change in tumour FDCO would have been detectable by 86Rb.…”

Section: Discussionmentioning

confidence: 99%

Effects of verapamil and alcohol on blood flow, melphalan uptake and cytotoxicity, in murine fibrosarcomas and human melanoma xenografts

Robinson¹,

Clutterbuck²,

Millar³

et al. 1986

Br J Cancer

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Summary Verapamil had previously been shown to increase cellular melphalan uptake and cytotoxicity in fibrosarcomas, and increased the area under the blood concentration versus time curve (AUC) for melphalan in CBA mice. Verapamil (10mgkg-1 i.p.) had no effect on the fractional distribution of cardiac output (FDCO), measured with 86Rb-rubidium chloride, to subcutaneous fibrosarcomas. 14C-Melphalan uptake by FS13 fibrosarcomas was increased 60 min after verapamil (10mg kg1 i.p.), but not after lower doses which did not affect the AUC. Flunarizine (5mg kg-I i.p.) also had no effect on FDCO to FS13 fibrosarcomas, and tended to increase 14C-melphalan content of blood and the fibrosarcomas and to promote growth delay by melphalan. Alcohol increased FDCO to FS13 fibrosarcomas, maximally at a 1:20 dilution in saline, but had no effect on 14C-melphalan uptake or growth delay. Thus, melphalan cytotoxicity correlated with tumour melphalan uptake, and both followed changes in the AUC for melphalan but not changes in FDCO. In these murine fibrosarcomas melphalan uptake and cytotoxicity were not limited by blood flow.In subcutaneous human melanoma HX46 xenografts, verapamil had no effect on the FDCO, nor on 14C-melphalan uptake, and did not affect blood 14C-melphalan levels, suggesting absence of effects on the AUC and on cellular uptake. Alcohol did not increase the FDCO to HX46 xenografts, providing evidence for a different vascular supply.

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“…histopathology ; induced hypertension chemotherapy ; angiotensin II ; gastric carcinoma Suzuki et al (1981Suzuki et al ( , 1984 in an effort to enhance the effect of cancer chemotherapy. It exploits the peculiar microcirculation of cancer tissue, where, due to lack of autoregulation which is present in ordinary tissues, blood flow is susceptible to fluctuation : The flow strongly increases when the systemic blood pressure is temporarily elevated by angiotensin II.…”

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confidence: 99%

Histopathological Evaluation on the Effect of Induced Hypertension Chemotherapy Presurgically Performed in Patients with Advanced Carcinoma of the Stomach.

Nakamura

Takahashi

Sato

et al. 1992

Tohoku J. Exp. Med.

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Stomachs resected from 13 patients with an advanced gastric carcinoma were examined histopathologically to evaluate the effect of induced hypertension chemotherapy (IHC) using angiotensin II. Eight of the 13 patients, randomly chosen, were treated presurgically by IHC with a regimen of 5-fluorouracil, adriamycin and mitomycin C ; the same regimen was used in the remaining five patients but without inducing hypertension. Clinical evaluation of the effect gave rise to the confirmation, presurgically, of complete response in three and partial response(PR) in two patients in the IHC group, whereas in the non-IHC group, the highest rating was PR, which was attained in only one patient. Also in the histopathological assessment based on a five-step grading, the IHC group earned in average a higher score than the non-IHC group, with a difference proved significant by Wilcoxon' s test. A histological rating of Grade 3, the highest effectiveness, was given to three patients in the IHC group, in one of whom the resected stomach disclosed no viable carcinoma cells but only fibrotic areas replacing carcinoma. There was also a correlation between the clinical and histological ratings as proved to be significant by Spearman's test. We conclude that in gastric carcinoma, the effect of chemotherapy is enhanced by angiotensin II-IHC.histopathology ; induced hypertension chemotherapy ; angiotensin II ; gastric carcinoma Induced hypertension chemotherapy (IHC) is a technique developed by

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Functional characterization of the microcirculation in tumors

Cited by 61 publications

References 41 publications

Effects of tumour cells on angiogenesis and vasoconstrictor responses in sponge implants in mice

Effects of tumour cells on angiogenesis and vasoconstrictor responses in sponge implants in mice

Effects of verapamil and alcohol on blood flow, melphalan uptake and cytotoxicity, in murine fibrosarcomas and human melanoma xenografts

Histopathological Evaluation on the Effect of Induced Hypertension Chemotherapy Presurgically Performed in Patients with Advanced Carcinoma of the Stomach.

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