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M H W Starmans,
B Krishnapuram,
H Steck,
H Horlings,
D S A Nuyten,
M J van de Vijver,
R Seigneuric,
F M Buffa,
A L Harris,
B G Wouters, P Lambin
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ABSTRACT: Tumour proliferation is one of the main biological phenotypes limiting cure in oncology. Extensive research is being performed to unravel the key players in this process. To exploit the potential of published gene expression data, creation of a signature for proliferation can provide valuable information on tumour status, prognosis and prediction. This will help individualizing treatment and should result in better tumour control, and more rapid and cost-effective research and development. From in vitro published microarray studies, two proliferation signatures were compiled. The prognostic value of these signatures was tested in five large clinical microarray data sets. More than 1000 patients with breast, renal or lung cancer were included. One of the signatures (110 genes) had significant prognostic value in all data sets. Stratifying patients in groups resulted in a clear difference in survival (P-values <0.05). Multivariate Cox-regression analyses showed that this signature added substantial value to the clinical factors used for prognosis. Further patient stratification was compared to patient stratification with several well-known published signatures. Contingency tables and Cramer's V statistics indicated that these primarily identify the same patients as the proliferation signature does. The proliferation signature is a strong prognostic factor, with the potential to be converted into a predictive test. Furthermore, evidence is provided that supports the idea that many published signatures track the same biological processes and that proliferation is one of them.
British Journal of Cancer 12/2008; 99(11):1884-90. · 5.04 Impact Factor
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ABSTRACT: The potential utility of tumour-selective 5-fluorouracil treatment using attenuated Salmonella serovar typhimurium recombinant for cytosine deaminase (TAPET-CD) has been documented in experimental settings. The present data demonstrate that in vivo (19)F-magnetic resonance spectroscopy measurements allow the outcome prediction of this prokaryotic-based therapy, demonstrating the necessity of non-invasive real-time imaging techniques for treatment monitoring.
British Journal of Cancer 04/2007; 96(5):758-61. · 5.04 Impact Factor
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J Theys,
O Pennington,
L Dubois,
G Anlezark,
T Vaughan,
A Mengesha,
W Landuyt,
J Anné,
P J Burke,
P Dûrre,
B G Wouters,
N P Minton, P Lambin
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ABSTRACT: The unique properties of the tumour microenvironment can be exploited by using recombinant anaerobic clostridial spores as highly selective gene delivery vectors. Although several recombinant Clostridium species have been generated during the past decade, their efficacy has been limited. Our goal was to substantially improve the prospects of clostridia as a gene delivery vector. Therefore, we have assessed a series of nitroreductase (NTR) enzymes for their capacity to convert the innocuous CB1954 prodrug to its toxic derivative. Among the enzymes tested, one showed superior prodrug turnover characteristics. In addition, we established an efficient gene transfer procedure, based on conjugation, which allows for the first time genetic engineering of Clostridium strains with superior tumour colonisation properties with high success rates. This conjugation procedure was subsequently used to create a recombinant C. sporogenes overexpressing the isolated NTR enzyme. Finally, analogous to a clinical setting situation, we have tested the effect of multiple consecutive treatment cycles, with antibiotic bacterial clearance between cycles. Importantly, this regimen demonstrated that intravenously administered spores of NTR-recombinant C. sporogenes produced significant antitumour efficacy when combined with prodrug administration.
British Journal of Cancer 12/2006; 95(9):1212-9. · 5.04 Impact Factor
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ABSTRACT: The aim of this study was to evaluate the applicability of fluorine-19 magnetic resonance spectroscopy ((19)F MRS) for monitoring in vivo the conversion of 5-fluorocytosine (5-FC) to 5-fluorouracil (5-FU) after using an attenuated Salmonella Typhimurium strain recombinant to provide cytosine deaminase (TAPET-CD). The (19)F MRS measurements were done on mice bearing the human colon tumour xenograft (HCT116). The intratumoural conversion is greater when TAPET-CD/5-FC is delivered intratumourally (i.tu.) than when TAPET-CD is delivered intravenously (i.v.) and 5-FC intraperitoneally (i.p.). Repeat measurements of the same tumour also yielded important information on the tumour colonization by TAPET-CD through the correlated 5-FC to 5-FU conversion efficacy. The in vivo MRS spectra were confirmed by in vitro (19)F MRS of perchloric acid extracts of the tumour tissue. No 5-FU metabolites were detectable in vivo in the tumours. However, the in vitro measurements revealed, besides 5-FC and 5-FU, the presence of small amounts of catabolites. Finally, spectra obtained in vitro from liver extracts of tumour-bearing mice treated i.tu. with TAPET-CD/5-FC showed no 5-FU and only little amounts of catabolites. Our data illustrate most importantly the potential of (19)F MRS to monitor biologically-based treatments involving cytosine deaminase.
British Journal of Cancer 12/2003; 89(9):1796-801. · 5.04 Impact Factor
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ABSTRACT: The loco-regional control of cancer remains a major contributor to the treatment outcome for many cancer patients prescribed conventional radiotherapy or chemotherapy. Failure of treatment coupled with the realisation that cancer is essentially a genetic disease has led to development of many clinical protocols based on gene therapy. In this review, we will describe an alternative gene delivery system based on the use of non-pathogenic bacteria. Tumor regressions have been reported long ago in patients with bacterially infected tumors, suggesting that bacteria could target tumors and have local anti-tumor effects. The basis of this phenomenon is attributable to the unique properties of the tumor micro-environment. The presence of hypoxic and/or necrotic areas provides a haven for a number of anaerobic bacteria and over the past 60 years, several strains of anaerobic bacteria have been shown to localise within and cause cell lysis of experimental animal tumors. One of the most important strains in that context is Clostridium. Other bacteria have also been implicated in experimental anti-cancer settings. Of these, attenuated Salmonella strains capable of both selective amplification within tumors and expression of effector genes encoding therapeutic proteins are probably the most promising. We will discuss the potential advantages and the pitfalls of this alternative delivery approach. We will emphasize the importance of hypoxia in solid tumors and discuss the potential of radiation-inducible promoters and combined treatment modalities, involving vascular targeting and radiotherapy. We believe that this approach will act in a complementary way to current radiotherapy and chemotherapy treatments of solid tumors.
Current Gene Therapy 07/2003; 3(3):207-21. · 3.39 Impact Factor
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ABSTRACT: Our preclinical in vivo investigations were aimed to evaluate the potential of selectively targeting the tumour vasculature as an additional anti-cancer strategy. Using a clinical angiography method and the tumour growth delay assay, the efficacy of the vascular targeting compound combretastatin A-4 phosphate was demonstrated in rat rhabdomyosarcomas: specifically, an inverse efficacy as compared to radio- or chemotherapy was measured when comparing small and large tumours. The combination of this vascular targeting compound with ionising radiation indicated, depending on the timing and the sequence, a potential benefit. Within the limits of our experiments, no significant increase in tumour growth delay was measured when TNP-470 anti-angiogenesis was given after the combretastatin A-4 phosphate treatment. The use of the vascular targeting agent did advance the in vivo application of a non-apathogenic anaerobe Clostridium transfer system of therapeutic proteins. A strong improvement of the selective expression of cytosine deaminase in the tumour microenvironment was observed, even with very small tumours. In summary, the present preclinical results demonstrate several advantages from the introduction of vascular targeting next to classical and novel anti-cancer therapies.
Verhandelingen - Koninklijke Academie voor Geneeskunde van België 02/2003; 65(1):29-46.
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ABSTRACT: Insufficient blood supply of rapidly growing tumors leads to the presence of hypoxia, a well-known feature in solid tumors. Hypoxia is known to decrease the efficiency of currently used anti-cancer modalities like surgery, chemotherapy and radiotherapy. Therefore, hypoxia seems to be a major limitation in current anti-cancer therapy. The use of non-pathogenic clostridia to deliver toxic agents to the tumor cells takes advantage of this unique physiology. These strictly anaerobic, Gram-positive, spore-forming bacteria give, after systemic administration, a selective colonization of hypoxic/necrotic areas within the tumor. Moreover, they can be genetically modified to secrete therapeutic proteins like cytosine deaminase or tumor necrosis factor-alpha. The specificity of this protein delivery system can be further increased when expression is controlled by the use of a radio-inducible promoter, leading to increased spatial and temporal regulation of protein expression. This approach of bacterial vector systems to target protein expression to the tumor can be considered very safe since bacteria can be eliminated at any moment by the addition of proper antibiotics. The Clostridium-based delivery system thus presents an alternative therapeutic modality to deliver anti-tumor agents specifically to the tumor site. This high selectivity offers a major advantage in comparison with the classical gene therapy systems.
Anti-Cancer Drugs 03/2002; 13(2):115-25. · 2.41 Impact Factor
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ABSTRACT: There is overwhelming evidence that solid human tumours grow within a unique micro-environment. This environment is characterised by an abnormal vasculature, which leads to an insufficient supply of oxygen and nutrients to the tumour cells. These characteristics of the environment limit the effectiveness of both radiotherapy and chemotherapy. Measurement of the oxygenation status of human tumours has unequivocally demonstrated the importance of this parameter on patient prognosis. Tumour hypoxia has been shown to be an independent prognostic indicator of poor outcome in prostate, head and neck and cervical cancers. Recent laboratory and clinical data have shown that hypoxia is also associated with a more malignant phenotype, affecting genomic stability, apoptosis, angiogenesis and metastasis. Several years ago, scientists realised that the unique properties within the tumour micro-environment could provide the basis for tumour-specific therapies. Efforts that are underway to develop therapies that exploit the tumour micro-environment can be categorised into three groups. The first includes agents that exploit the environmental changes that occur within the micro-environment such as hypoxia and reduced pH. This includes bioreductive drugs that are specifically toxic to hypoxic cells, as well as hypoxia-specific gene delivery systems. The second category includes therapies designed to exploit the unique properties of the tumour vasculature and include both angiogenesis inhibitors and vascular targeting agents. The final category includes agents that exploit the molecular and cellular responses to hypoxia. For example, many genes are induced by hypoxia and promoter elements from these genes can be used for the selective expression of therapeutic proteins in hypoxic tumour cells. An overview of the various properties ascribed to tumour hypoxia and the current efforts underway to exploit hypoxia for improving cancer treatment will be discussed.
European Journal of Cancer 02/2002; 38(2):240-57. · 5.54 Impact Factor
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European Journal of Cancer 11/2001; 37 Suppl 7:S245-9. · 5.54 Impact Factor
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ABSTRACT: Radiation-inducible promoters are being used in many viral vector systems to obtain spatial and temporal control of gene expression. It was previously proven that radiation-induced gene expression can also be obtained in a bacterial vector system using anaerobic apathogenic clostridia. The effect of radiation inducibility was detected using mouse tumor necrosis factor alpha (mTNF-alpha) as a model protein under regulation of the radiation-inducible recA promoter. In this report, experiments are described in which this recA promoter was modified in order to increase radiation responsiveness. Incorporation of an extra Cheo box in the recA promoter region resulted in an increase in mTNF-alpha secretion from 44% for the wild-type promoter to 412% for the promoter with an extra Cheo box after a single irradiation dose of 2 Gy. Deletion of the Cheo box in the promoter region eliminated radiation inducibility. These results prove that the Cheo box in the recA promoter is indeed the radiation-responsive element. We also tested whether we could induce the constitutive endo-beta-1,4-glucanase promoter (eglA) via ionizing irradiation by introducing a Cheo box in the promoter region. While the use of the constitutive promoter did not lead to an increase in mTNF-alpha secretion after irradiation, the introduction of a Cheo box resulted in a 242% increase in mTNF-alpha secretion. Reverse transcriptase PCR of RNA samples isolated from irradiated and nonirradiated bacterial cultures demonstrated that the increase in secretion was the result of enhanced transcription of the mTNF-alpha gene.
Applied and Environmental Microbiology 11/2001; 67(10):4464-70. · 3.83 Impact Factor
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ABSTRACT: One of the major problems with gene therapy today is the lack of tumour specificity. The use of anaerobic apathogenic clostridia as a gene transfer system can target anoxic areas within the tumour. These bacteria can be genetically modified to express therapeutic proteins such as TNFalpha locally in the tumour. As shown in our results, ionising irradiation can be used in clostridia to activate genes encoding cytotoxic agents under control of a radiation-inducible promoter. A 44% significant increase (P < 0.05) in TNFalpha secretion was seen 3.5 h after a single dose of 2 Gy. A second dose of 2 Gy was also capable of repeating gene activation and gave a significant increase of TNFalpha production of 42% (P < 0.05). These results provide evidence that spatial and temporal control of gene expression can be achieved using a radio-inducible promoter. Repetitive gene activation was feasible with a second dose of 2 Gy, indicating that fractionated radiotherapy could lead to repeated gene induction resulting in prolonged and enhanced protein expression. Gene targeting by ionising radiation could thus provide a new means of increasing the therapeutic ratio in cancer treatment.
Gene Therapy 08/2001; 8(15):1197-201. · 3.71 Impact Factor
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ABSTRACT: Nuyts, S., Van Mellaert, L., Theys, J., Landuyt, W., Lambin, P. and Anné, J. The Use of Radiation-Induced Bacterial Promoters in Anaerobic Conditions: A Means to Control Gene Expression in Clostridium-Mediated Therapy for Cancer. Radiat. Res. 155, 716-723 (2001). Apathogenic clostridia, which have been genetically engineered to express therapeutic genes, will specifically target hypoxic and necrotic regions in tumors. This specificity can be improved further if the expression of these genes is controlled by a radiation-induced promoter, leading to spatial and temporal control of gene expression. We isolated two radiation-inducible genes of the SOS repair system of Clostridium. Northern blot experiments confirmed radiation activation of the recA and recN genes at a dose of 2 Gy. The promoter region of these genes was isolated and used to regulate expression of the lacZ gene under anaerobic conditions. For the recA promoter, a significant increase of beta-galactosidase activity of 20-30% was seen after 2 Gy irradiation. The recN promoter did not show a significant induction and had a 50-100 times lower basal expression. Treatment of the recombinant clostridial cultures with the cytostatic agent mitomycin C also resulted in a significant increase of beta-galactosidase activity that was under the control of recA or recN promoter. Oxygen does not appear to be necessary in the activation of the SOS repair system by irradiation as tested with Escherichia coli since recA-deficient and recA-containing strains showed similar survival after treatment with UV and ionizing radiation in the presence or absence of oxygen.
Radiation Research 06/2001; 155(5):716-23. · 2.68 Impact Factor
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ABSTRACT: Several molecular techniques require high-quality RNA, free from DNA. Various methods have been described to obtain RNA to be used in expression studies or as starting material in differential display-reverse transcriptase (dd-RT-PCR), for which high-quality RNA free from DNA is an essential requirement. In this report, we compare three different methods to isolate RNA from Gram-positive bacteria: (1) An acid-phenol extraction protocol. (2) The "RNeasy mini kit" from QIAGEN (Valencia, CA, USA). (3) The "SV Total RNA Isolation System" from Promega (Madison, WI, USA).The QIAGEN-kit delivers the highest amount of RNA with the highest purity. Slot blot analysis and dd-RT-PCR confirm the absence of DNA contamination and Northern blot analysis and dd-RT-PCR show high quality of the extracted RNA. This RNA extraction method thus addresses current problems by permitting rapid and safe isolation with high yields of intact RNA for subsequent analysis.
Journal of Microbiological Methods 05/2001; 44(3):235-8. · 2.09 Impact Factor
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ABSTRACT: The presence of severe hypoxia and necrosis in solid tumors offers the potential to apply an anaerobic bacterial enzyme/prodrug approach in cancer treatment. In this context the apathogenic C. acetobutylicum was genetically engineered to express and secrete E. coli cytosine deaminase (CDase). Considerable levels of functional cytosine deaminase were detected in lysates and supernatants of recombinant C acetobutylicum cultures. After administration of the recombinant Clostridium to rhabdomyosarcoma bearing rats used as a model, cytosine deaminase could be detected at the tumor site. Moreover, following administration of the vascular targeting agent combretastatin A-4 phosphate significantly increased levels of cytosine deaminase were detected at the tumor site as a consequence of enlarged tumor necrosis and subsequently improved growth of C. acetobutylicum. The results provide evidence for the potential application of Clostrisdium-based therapeutic protein transfer to tumors in anticancer therapy.
Cancer Gene Therapy 05/2001; 8(4):294-7. · 2.80 Impact Factor
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F van Acker,
P Flamen, P Lambin,
A Maes,
G J Kutcher,
C Weltens,
R Hermans,
J Baetens,
P Dupont,
A Rijnders,
W van den Bogaert,
L Mortelmans
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ABSTRACT: Salivary gland scintigraphy (SGS) is used to depict salivary gland dysfunction after radiotherapy (RT). The aim of this study was to investigate the utility of SGS combined with single photon emission computed tomography (SPECT). Twenty-one patients with a carcinoma of head and neck underwent SGS before and 1 month after RT. After injection of 370 MBq 99Tcm-pertechnetate, a biplanar dynamic acquisition (12 x 1 min) was started, followed by a SPECT acquisition during 4 min. Carbachol was then injected and a second dynamic study (16 x 1 min) was performed, again followed by a SPECT acquisition. The salivary excretion fraction (SEF) was calculated both from the geometric mean planar image for each parotid and from the SPECT data for each transverse plane through the parotids. The RT-induced changes in the SEF (dSEF) were correlated with the mean radiation dose calculated using tomography-based dosimetry. The mean radiation dose to the parotids was 44 Gy (range 4.4-68.1 Gy). The mean range of the variation in radiation dose to the transverse slices within the parotids of a patient was 24 Gy (range 6.2-51.9 Gy). Considering all transverse planes through the parotids in all patients, a linear correlation was found between the dSEF calculated using SGS-SPECT and the radiation dose (r=0.45, P=0.0001). Thirteen patients had a variation in radiation dose within the parotids of more than 20 Gy. In nine of these a significant intra-individual correlation between radiation dose and the dSEF of the transverse parotid slices was found (r range 0.55-0.97; P value range 0.037-0.0001). In conclusion, SGS-SPECT can be used for monitoring radiation-induced parotid gland dysfunction. It offers the unique possibility for the assessment of intra-individual dose-dysfunction curves in patients with large variations in the radiation dose within the parotids.
Nuclear Medicine Communications 03/2001; 22(2):225-31. · 1.40 Impact Factor
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ABSTRACT: The feasibility of gene therapy strategies in cancer treatment still has important pitfalls. Transfer of therapeutic proteins to the hypoxic/necrotic 'extracellular' microenvironment of solid tumors, based on the engineering of nonpathogenic clostridia is proposed as an alternative methodology. Using the rat rhabdomyosarcoma R1 in vivo tumor model, we demonstrated that Clostridium species colonized the tumors, whereas proliferation of these bacteria was absent in normal tissues. C. acetobutylicum was genetically engineered to express and secrete either mTNF-alpha or the E. coli cytosine deaminase. Quantitative in vitro data showed stability of the vectors, and significant levels of biologically active therapeutic proteins in lysates and supernatants of recombinant clostridia. Administration of either of these recombinant Clostridium strains to tumor-bearing rats resulted in the presence of active proteins in the tumor tissue. Based on these data and supported by its selective colonization pattern and safety, the Clostridium gene transfer system offers a potential application in anti-cancer therapies.
Cancer Detection and Prevention 02/2001; 25(6):548-57. · 2.52 Impact Factor
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ABSTRACT: Previous studies have demonstrated the feasibility of using apathogenic clostridia as a promising strategy for hypoxia-specific tumour targeting. The present study shows that the use of the vascular targeting compound combretastatin A-4 phosphate could significantly (P<0.001) increase the number of Clostridium vegetative cells in rat rhabdomyosarcomas with sizes between 0.2 cm(2) and 3 cm(2). Furthermore, this study showed that administration of metronidazole for a 9-day period was sufficient to eliminate systemically administered Clostridium from the tumour. Moreover, previous Clostridium spore administration did not effect tumour colonisation, regardless of the immune response status of the host.
FEMS Immunology & Medical Microbiology 02/2001; 30(1):37-41. · 2.44 Impact Factor
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ABSTRACT: Interference with the tumor blood vessels through anti-angiogenesis or vascular targeting can indirectly suppress tumor growth. Vascular targeting of solid tumors, using tubulin-compromising agents, seems a promising and selective novel treatment. We aimed to evaluate the potential (hypothesis-based) benefit from combinations of vascular targeting using combretastatin A-4 phosphate (combreAp) with either ionizing radiation or anti-angiogenesis.
Rhabdomyosarcoma tumor pieces were inplanted subcutaneously (s.c.) in the lower flank region of syngeneic adult WAG/Rij rats. Tumors were grown until different sizes and stratified for the various treatment groups: small (1-3 cm3), medium (3.1-7 cm3), and large (7.1-14 cm3). CombreAp was injected i.p.; injections of TNP-470 were s.c. in the neck area. Localized single-dose (8 Gy) irradiations of tumors were done under Nembutal anesthesia, always 1 day before a single combreAp (25 mg/kg) injection. The TNP-470 treatment (3 times 30 mg/kg in 1 week) started 1 day after a double (8 days interval between both) combreAp administration. Tumor responses were evaluated by the growth delay assay, and statistical significance of tumor growth change was computed.
Large tumors responded better to combreAp treatment given alone than did the smaller ones, confirming our previous data with this tumor model. Combining irradiation with combreAp also resulted in a tumor size-dependent growth delay. With small and medium tumor volumes, a similar response was measured after the combination treatment when compared with irradiation only. Large tumors, however, showed a strong (at least additive) increase of the growth delay with the combined therapy; the difference in tumor growth between the two treatment groups was very significant (p < 0.0001). m When TNP-470 was combined with combreAp, no significant lengthening of the growth delay, irrespective of the tumor size, was present with the applied schedule.
The current data show a significant advantage in the combination of combreAp with irradiation in rhabdomyosarcomas having a large size (7-14 cm3) at treatment. Such a benefit in tumor response was not observed with the smaller tumors, seemingly because irradiation as such was very effective. No significant gain in growth delay for any tumor size was observed when TNP-470, showing efficacy on its own specifically with tumors measuring <7 cm3, was added to the combreAp treatment. This presumably reflects only little angiogenesis during the first week of rhabdomyosarcoma regrowth after the combreAp treatment.
International Journal of Radiation OncologyBiologyPhysics 02/2001; 49(2):443-50. · 4.11 Impact Factor
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W Landuyt,
J Theys,
S Nuyts,
M Drijkoningen,
J Fowler,
A Reijnders,
S Liekens,
J Neyts,
E de Bruijn,
J Anné, P Lambin
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ABSTRACT: Potential anticancer therapy with the fumagillin analog TNP-470 was investigated in the present project using subcutaneously growing rhabdomyosarcomas in rats. Specifically, influences of different tumor sizes at the start of treatment as well as dose/schedules were evaluated with this angiogenesis inhibitor. The results show a significant (p = < or = 0.01) reduction of the growth rate, even for relatively large-sized (> 7 cm3) tumors, when 50 mg/kg TNP-470 was used every other day for up to 3 or 5 injections. With 30 mg/kg TNP-470 injections, effects were seen only with tumors measuring < 7 cm3. The histologic examinations demonstrate an increase in necrosis, both in the center and in the peripheral part of TNP-470-treated tumors. Overall, both tumor volume and drug dose determine treatment outcome with the rat rhabdomyosarcoma. The results suggest that angiogenesis inhibitors could represent a valid component in the treatment of progressive tumor growth, also of large tumors as often encountered in clinics. The antivasculature therapy might also improve hypoxia/necrosis-related therapeutic approaches.
Cancer Investigation 01/2001; 19(1):35-40. · 1.85 Impact Factor
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W Landuyt,
R Hermans,
H Bosmans,
S Sunaert,
E Béatse,
D Farina,
M Meijerink,
H Zhang,
W Van Den Bogaert, P Lambin,
G Marchal
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ABSTRACT: The aim of this study was to evaluate the feasibility of functional MR imaging (fMRI) at 1.5 T, exploiting blood oxygenation level-dependent (BOLD) contrast, for detecting changes in whole-tumour oxygenation induced by carbogen (5% CO2+95% O2) inhalation of the host. Adult WAG/Rij rats with rhabdomyosarcomas growing subcutaneously in the lower flank were imaged when tumours reached sizes between 1 and 11 cm3 (n=12). Air and carbogen were alternatively supplied at 2 l/min using a snout mask. Imaging was done on a 1.5-T MR scanner using a T2*-weighted gradient-echo, echo-planar imaging (GE-EPI) sequence. Analysis of the whole-tumour EPI images was based on statistical parametric maps. Voxels with and without signal intensity changes (SIC) were recorded. Significance thresholds were set at p<0.05, corrected for multiple comparisons. In continuous air breathing condition, 3 of 12 tumours showed significant negative SIC and 1 tumour had a clear-cut positive SIC. The remaining tumours showed very little or no change. When switching to carbogen breathing, the SIC were significantly positive in 10 of 12 tumours. Negative SIC were present in 4 tumours, of which three were simultaneously characterised by positive SIC. The overall analysis indicated that 6 of the 12 tumours could be considered as strong positive responders to carbogen. Our research demonstrates the applicability of fMRI GE-EPI at 1.5 T to study whole-tumour oxygenation non-invasively. The observed negative SIC during air condition may reflect the presence of transient hypoxia during these measurements. Selection of tumours on the basis of their individual response to carbogen is possible, indicating a role of such non-invasive measurements for using tailor-made treatments.
European Radiology 01/2001; 11(11):2332-40. · 3.22 Impact Factor
