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3. Impact of attenuation correction of radiotherapy hardware for positron emission tomography-magnetic resonance in ano-rectal radiotherapy patients.

Author

Wyatt, Jonathan J., Petrides, George, Pearson, Rachel A., McCallum, Hazel M., and Maxwell, Ross J.

Subjects
POSITRON emission, POSITRON emission tomography, COMPUTED tomography, DOSE-response relationship (Radiation), RADIOTHERAPY, RECTAL cancer, RESONANCE
Abstract

Background: Positron Emission Tomography-Magnetic Resonance (PET-MR) scanners could improve ano-rectal radiotherapy planning through improved Gross Tumour Volume (GTV) delineation and enabling dose painting strategies using metabolic measurements. This requires accurate quantitative PET images acquired in the radiotherapy treatment position. Purpose: This study aimed to evaluate the impact on GTV delineation and metabolic parameter measurement of using novel Attenuation Correction (AC) maps that included the radiotherapy flat couch, coil bridge and anterior coil to see if they were necessary. Methods: Seventeen ano-rectal radiotherapy patients received a 18FFluoroDeoxyGlucose PET-MR scan in the radiotherapy position. PET images were reconstructed without (CTACstd) and with (CTACcba) the radiotherapy hardware included. Both AC maps used the same Computed Tomography image for patient AC. Semi-manual and threshold GTVs were delineated on both PET images, the volumes compared and the Dice coefficient calculated. Metabolic parameters:Standardized Uptake Values SUVmax,SUVmean and Total Lesion Glycolysis (TLG) were compared using paired t-tests with a Bonferroni corrected significance level of p = 0.05/8 = 0.006. Results: Differences in semi-manual GTV volumes between CTACcba and CTACstd were approaching statistical significance (difference -15.9%±1.6%, p = 0.007), with larger differences in low FDG-avid tumours (SUVmean < 8.5 gmL-1). The CTACcba and CTACstd GTVs were concordant with Dice coef- ficients 0.89 ± 0.01 (manual) and 0.98 ± 0.00 (threshold).Metabolic parameters were significantly different, with SUVmax, SUVmean and TLG differences of -11.5% ±0.3% (p < 0.001), -11.6%±0.3% (p < 0.001) and -13.7% ±0.6% (p = 0.003) respectively. The TLG difference resulted in 1/8 rectal cancer patients changing prognosis group,based on literature TLG cut-offs,when using CTACcba rather than CTACstd. Conclusions: This study suggests that using AC maps with the radiotherapy hardware included is feasible for patient imaging. The impact on tumour delineation was mixed and needs to be evaluated in larger cohorts. However using AC of the radiotherapy hardware is important for situations where accurate metabolic measurements are required, such as dose painting and treatment prognostication. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Applications of Magnetic Resonance in Model Systems: Cancer Therapeutics

Author

Evelhoch, Jeffrey L, Gillies, Robert J, Karczmar, Gregory S, Koutcher, Jason A, Maxwell, Ross J, Nalcioglu, Orhan, Raghunand, Natarajan, Ronen, Sabrina M, Ross, Brian D, and Swartz, Harold M

Subjects
nuclear magnetic resonance, neoplasms, pathophysiology, metabolism, therapy, nuclear magnetic resonance, neoplasms, pathophysiology, metabolism, therapyweighted h-1-nmr spectroscopy, carbogen-induced changes, cells in-vitro, thymidine kinase, human breast, tumor-cells, murine tumor, brain-tumor, p-31 nmr, capillary-permeability
Abstract

AbstractThe lack of information regarding the metabolism and pathophysiology of individual tumors limits, in part, both the development of new anti-cancer therapies and the optimal implementation of currently available treatments. Magnetic resonance [MR, including magnetic resonance imaging (MRI), magnetic resonance spectroscopy (MRS), and electron paramagnetic resonance (EPR)] provides a powerful tool to assess many aspects of tumor metabolism and pathophysiology. Moreover, since this information can be obtained non-destructively, pre-clinical results from cellular or animal models are often easily translated into the clinic. This review presents selected examples of how MR has been used to identify metabolic changes associated with apoptosis, detect therapeutic response prior to a change in tumor volume, optimize the combination of metabolic inhibitors with chemotherapy and/or radiation, characterize and exploit the influence of tumor pH on the effectiveness of chemotherapy, characterize tumor reoxygenation and the effects of modifiers of tumor oxygenation in individual tumors, image transgene expression and assess the efficacy of gene therapy. These examples provide an overview of several of the areas in which cellular and animal model studies using MR have contributed to our understanding of the effects of treatment on tumor metabolism and pathophysiology and the importance of tumor metabolism and pathophysiology as determinants of therapeutic response.

Published
2000

5. Comprehensive dose evaluation of a Deep Learning based synthetic Computed Tomography algorithm for pelvic Magnetic Resonance-only radiotherapy

Author

Wyatt, Jonathan J, Kaushik, Sandeep, Cozzini, Cristina, Pearson, Rachel A, Petit, Steven, Capala, Marta, Hernandez-Tamames, Juan A, Hideghéty, Katalin, Maxwell, Ross J, Wiesinger, Florian, McCallum, Hazel M, Wyatt, Jonathan J, Kaushik, Sandeep, Cozzini, Cristina, Pearson, Rachel A, Petit, Steven, Capala, Marta, Hernandez-Tamames, Juan A, Hideghéty, Katalin, Maxwell, Ross J, Wiesinger, Florian, and McCallum, Hazel M

Abstract

BACKGROUND AND PURPOSE: Magnetic Resonance (MR)-only radiotherapy enables the use of MR without the uncertainty of MR-Computed Tomography (CT) registration. This requires a synthetic CT (sCT) for dose calculations, which can be facilitated by a novel Zero Echo Time (ZTE) sequence where bones are visible and images are acquired in 65 seconds. This study evaluated the dose calculation accuracy for pelvic sites of a ZTE-based Deep Learning sCT algorithm developed by GE Healthcare.MATERIALS AND METHODS: ZTE and CT images were acquired in 56 pelvic radiotherapy patients in the radiotherapy position. A 2D U-net convolutional neural network was trained using pairs of deformably registered CT and ZTE images from 36 patients. In the remaining 20 patients the dosimetric accuracy of the sCT was assessed using cylindrical dummy Planning Target Volumes (PTVs) positioned at four different central axial locations, as well as the clinical treatment plans (for prostate (n=10), rectum (n=4) and anus (n=6) cancers). The sCT was rigidly and deformably registered, the plan recalculated and the doses compared using mean differences and gamma analysis.RESULTS: Mean dose differences to the PTV D98% were ≤ 0.5% for all dummy PTVs and clinical plans (rigid registration). Mean gamma pass rates at 1%/1 mm were 98.0 ± 0.4% (rigid) and 100.0 ± 0.0% (deformable), 96.5 ± 0.8% and 99.8 ± 0.1%, and 95.4 ± 0.6% and 99.4 ± 0.4% for the clinical prostate, rectum and anus plans respectively.CONCLUSIONS: A ZTE-based sCT algorithm with high dose accuracy throughout the pelvis has been developed. This suggests the algorithm is sufficiently accurate for MR-only radiotherapy for all pelvic sites.

Published
2023

7. Minimally Invasive Pharmacokinetic and Pharmacodynamic Technologies in Hypothesis-Testing Clinical Trials of Innovative Therapies

Author

Workman, Paul, Aboagye, Eric O., Chung, Yuen-Li, Griffiths, John R., Hart, Rachel, Leach, Martin O., Maxwell, Ross J., McSheehy, Paul M. J., Price, Pat M., Zweit, Jamal, Workman, Paul, Aboagye, Eric O., Chung, Yuen-Li, Griffiths, John R., Hart, Rachel, Leach, Martin O., Maxwell, Ross J., McSheehy, Paul M. J., Price, Pat M., and Zweit, Jamal

Abstract

Clinical trials of new cancer drugs should ideally include measurements of parameters such as molecular target expression, pharmacokinetic (PK) behavior, and pharmacodynamic (PD) endpoints that can be linked to measures of clinical effect. Appropriate PK/PD biomarkers facilitate proof-of-concept demonstrations for target modulation; enhance the rational selection of an optimal drug dose and schedule; aid decision-making, such as whether to continue or close a drug development project; and may explain or predict clinical outcomes. In addition, measurement of PK/PD biomarkers can minimize uncertainty associated with predicting drug safety and efficacy, reduce the high levels of drug attrition during development, accelerate drug approval, and decrease the overall costs of drug development. However, there are many challenges in the development and implementation of biomarkers that probably explain their disappointingly low implementation in phase I trials. The Pharmacodynamic/Pharmacokinetic Technologies Advisory committee of Cancer Research UK has found that submissions for phase I trials of new cancer drugs in the United Kingdom often lack detailed information about PK and/or PD endpoints, which leads to suboptimal information being obtained in those trials or to delays in starting the trials while PK/PD methods are developed and validated. Minimally invasive PK/PD technologies have logistic and ethical advantages over more invasive technologies. Here we review these technologies, emphasizing magnetic resonance spectroscopy and positron emission tomography, which provide detailed functional and metabolic information. Assays that measure effects of drugs on important biologic pathways and processes are likely to be more cost-effective than those that measure specific molecular targets. Development, validation, and implementation of minimally invasive PK/PD methods are encouraged

Published
2017

8. Development of a Preclinical Orthotopic Xenograft Model of Ewing Sarcoma and Other Human Malignant Bone Disease Using Advanced In Vivo Imaging

Author

Vormoor, Britta, primary, Knizia, Henrike K., additional, Batey, Michael A., additional, Almeida, Gilberto S., additional, Wilson, Ian, additional, Dildey, Petra, additional, Sharma, Abhishek, additional, Blair, Helen, additional, Hide, I. Geoff, additional, Heidenreich, Olaf, additional, Vormoor, Josef, additional, Maxwell, Ross J., additional, and Bacon, Chris M., additional

Published
2014
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9. Genetic programming for classification and feature selection: Analysis of 1H nuclear magnetic resonance spectra from human brain tumour biopsies

Author

Gray, Helen F., Maxwell, Ross J., and Cerdán, Sebastián

Abstract

Genetic programming (GP) is used to classify tumours based on 1H nuclear magnetic resonance (NMR) spectra of biopsy extracts. Analysis of such data would ideally give not only a classification result but also indicate which parts of the spectra are driving the classification (i.e. feature selection). Experiments on a database of variables derived from 1H NMR spectra from human brain tumour extracts (n = 75) are reported, showing GP's classification abilities and comparing them with that of a neural network. GP successfully classified the data into meningioma and non-meningioma classes. The advantage over the neural network method was that it made use of simple combinations of a small group of metabolites, in particular glutamine, glutamate and alanine. This may help in the choice of the most informative NMR spectroscopy methods for future non-invasive studies in patients., Funded by Karen Elise Jensens Fund. Grant Number: CICYT SAF93-0582-C02-01 and SAF96-0147; Conselleria de Sanitat, Generalitat de Catalunya, Spain and EC Concerted Action Biomed-1. Grant Number: PL920432.

Published
1998

13. Pattern recognition analysis of 1H NMR spectra from perchloric acid extracts of human brain tumor biopsies

Author

Maxwell, Ross J., Cerdán, Sebastián, Maxwell, Ross J., and Cerdán, Sebastián

Abstract

Pattern recognition techniques (factor analysis and neural networks) were used to investigate and classify human brain tumors based on the 1H NMR spectra of chemically extracted biopsies (n = 118). After removing information from lactate (because of variable ischemia times), unsupervised learning suggested that the spectra separated naturally into two groups: meningiomas and other tumors. Principal component analysis reduced the dimensionality of the data. A back-propagation neural network using the first 30 principal components gave 85% correct classification of meningiomas and nonmeningiomas. Simplification by vector rotation gave vectors that could be assigned to various metabolites, making it possible to use or to reject their information for neural network classification. Using scores calculated from the four rotated vectors due to creatine and glutamine gave the best classification into meningiomas and nonmeningiomas (89% correct). Classification of gliomas (n = 47) gave 62% correct within one grade. Only inositol showed a significant correlation with glioma grade.

Published
1998

14. Imaging biomarker roadmap for cancer studies

Author

O’Connor, James P. B., Aboagye, Eric O., Adams, Judith E., Aerts, Hugo J. W. L., Barrington, Sally F., Beer, Ambros J., Boellaard, Ronald, Bohndiek, Sarah E., Brady, Michael, Brown, Gina, Buckley, David L., Chenevert, Thomas L., Clarke, Laurence P., Collette, Sandra, Cook, Gary J., deSouza, Nandita M., Dickson, John C., Dive, Caroline, Evelhoch, Jeffrey L., Faivre-Finn, Corinne, Gallagher, Ferdia A., Gilbert, Fiona J., Gillies, Robert J., Goh, Vicky, Griffiths, John R., Groves, Ashley M., Halligan, Steve, Harris, Adrian L., Hawkes, David J., Hoekstra, Otto S., Huang, Erich P., Hutton, Brian F., Jackson, Edward F., Jayson, Gordon C., Jones, Andrew, Koh, Dow-Mu, Lacombe, Denis, Lambin, Philippe, Lassau, Nathalie, Leach, Martin O., Lee, Ting-Yim, Leen, Edward L., Lewis, Jason S., Liu, Yan, Lythgoe, Mark F., Manoharan, Prakash, Maxwell, Ross J., Miles, Kenneth A., Morgan, Bruno, Morris, Steve, Ng, Tony, Padhani, Anwar R., Parker, Geoff J. M., Partridge, Mike, Pathak, Arvind P., Peet, Andrew C., Punwani, Shonit, Reynolds, Andrew R., Robinson, Simon P., Shankar, Lalitha K., Sharma, Ricky A., Soloviev, Dmitry, Stroobants, Sigrid, Sullivan, Daniel C., Taylor, Stuart A., Tofts, Paul S., Tozer, Gillian M., van Herk, Marcel, Walker-Samuel, Simon, Wason, James, Williams, Kaye J., Workman, Paul, Yankeelov, Thomas E., Brindle, Kevin M., McShane, Lisa M., Jackson, Alan, and Waterton, John C.

Abstract

Imaging biomarkers (IBs) are integral to the routine management of patients with cancer. IBs used daily in oncology include clinical TNM stage, objective response and left ventricular ejection fraction. Other CT, MRI, PET and ultrasonography biomarkers are used extensively in cancer research and drug development. New IBs need to be established either as useful tools for testing research hypotheses in clinical trials and research studies, or as clinical decision-making tools for use in healthcare, by crossing ‘translational gaps’ through validation and qualification. Important differences exist between IBs and biospecimen-derived biomarkers and, therefore, the development of IBs requires a tailored ‘roadmap’. Recognizing this need, Cancer Research UK (CRUK) and the European Organisation for Research and Treatment of Cancer (EORTC) assembled experts to review, debate and summarize the challenges of IB validation and qualification. This consensus group has produced 14 key recommendations for accelerating the clinical translation of IBs, which highlight the role of parallel (rather than sequential) tracks of technical (assay) validation, biological/clinical validation and assessment of cost-effectiveness; the need for IB standardization and accreditation systems; the need to continually revisit IB precision; an alternative framework for biological/clinical validation of IBs; and the essential requirements for multicentre studies to qualify IBs for clinical use.

Published
2017
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15. Development of a Preclinical Orthotopic Xenograft Model of Ewing Sarcoma and Other Human Malignant Bone Disease Using Advanced In Vivo Imaging.

Author

Vormoor, Britta, Knizia, Henrike K., Batey, Michael A., Almeida, Gilberto S., Wilson, Ian, Dildey, Petra, Sharma, Abhishek, Blair, Helen, Hide, I. Geoff, Heidenreich, Olaf, Vormoor, Josef, Maxwell, Ross J., and Bacon, Chris M.

Subjects
XENOGRAFTS, EWING'S sarcoma, OSTEOSARCOMA, PROSTATE cancer, BONE metastasis, BONE tumors, DISEASE progression, PROGNOSIS
Abstract

Ewing sarcoma and osteosarcoma represent the two most common primary bone tumours in childhood and adolescence, with bone metastases being the most adverse prognostic factor. In prostate cancer, osseous metastasis poses a major clinical challenge. We developed a preclinical orthotopic model of Ewing sarcoma, reflecting the biology of the tumour-bone interactions in human disease and allowing in vivo monitoring of disease progression, and compared this with models of osteosarcoma and prostate carcinoma. Human tumour cell lines were transplanted into non-obese diabetic/severe combined immunodeficient (NSG) and Rag2−/−/γc−/− mice by intrafemoral injection. For Ewing sarcoma, minimal cell numbers (1000–5000) injected in small volumes were able to induce orthotopic tumour growth. Tumour progression was studied using positron emission tomography, computed tomography, magnetic resonance imaging and bioluminescent imaging. Tumours and their interactions with bones were examined by histology. Each tumour induced bone destruction and outgrowth of extramedullary tumour masses, together with characteristic changes in bone that were well visualised by computed tomography, which correlated with post-mortem histology. Ewing sarcoma and, to a lesser extent, osteosarcoma cells induced prominent reactive new bone formation. Osteosarcoma cells produced osteoid and mineralised “malignant” bone within the tumour mass itself. Injection of prostate carcinoma cells led to osteoclast-driven osteolytic lesions. Bioluminescent imaging of Ewing sarcoma xenografts allowed easy and rapid monitoring of tumour growth and detection of tumour dissemination to lungs, liver and bone. Magnetic resonance imaging proved useful for monitoring soft tissue tumour growth and volume. Positron emission tomography proved to be of limited use in this model. Overall, we have developed an orthotopic in vivo model for Ewing sarcoma and other primary and secondary human bone malignancies, which resemble the human disease. We have shown the utility of small animal bioimaging for tracking disease progression, making this model a useful assay for preclinical drug testing. [ABSTRACT FROM AUTHOR]

Published
2014
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16. The Enhanced In Vivo Activity of the Combination of a MEK and a PI3K Inhibitor Correlates with [18F]-FLT PET in Human Colorectal Cancer Xenograft Tumour-Bearing Mice.

Author

Haagensen, Emma J., Thomas, Huw D., Wilson, Ian, Harnor, Suzannah J., Payne, Sara L., Rennison, Tommy, Smith, Kate M., Maxwell, Ross J., and Newell, David R.

Subjects
MITOGEN-activated protein kinases, PHOSPHATIDYLINOSITOL 3-kinases, THYMIDINE, POSITRON emission tomography, COLON cancer, XENOGRAFTS, LABORATORY mice
Abstract

Combined targeting of the MAPK and PI3K signalling pathways in cancer may be necessary for optimal therapeutic activity. To support clinical studies of combination therapy, 3′-deoxy-3′-[18F]-fluorothymidine ([18F]-FLT) uptake measured by Positron Emission Tomography (PET) was evaluated as a non-invasive surrogate response biomarker in pre-clinical models. The in vivo anti-tumour efficacy and PK-PD properties of the MEK inhibitor PD 0325901 and the PI3K inhibitor GDC-0941, alone and in combination, were evaluated in HCT116 and HT29 human colorectal cancer xenograft tumour-bearing mice, and [18F]-FLT PET investigated in mice bearing HCT116 xenografts. Dual targeting of PI3K and MEK induced marked tumour growth inhibition in vivo, and enhanced anti-tumour activity was predicted by [18F]-FLT PET scanning after 2 days of treatment. Pharmacodynamic analyses using the combination of the PI3K inhibitor GDC-0941 and the MEK inhibitor PD 0325901 revealed that increased efficacy is associated with an enhanced inhibition of the phosphorylation of ERK1/2, S6 and 4EBP1, compared to that observed with either single agent, and maintained inhibition of AKT phosphorylation. Pharmacokinetic studies indicated that there was no marked PK interaction between the two drugs. Together these results indicate that the combination of PI3K and MEK inhibitors can result in significant efficacy, and demonstrate for the first time that [18F]-FLT PET can be correlated to the improved efficacy of combined PI3K and MEK inhibitor treatment. [ABSTRACT FROM AUTHOR]

Published
2013
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17. Minimally Invasive Pharmacokinetic and Pharmacodynamic Technologies in Hypothesis-Testing Clinical Trials of Innovative Therapies

Author

Workman, Paul, Aboagye, Eric O., Chung, Yuen-Li, Griffiths, John R., Hart, Rachel, Leach, Martin O., Maxwell, Ross J., McSheehy, Paul M. J., Price, Pat M., Zweit, Jamal, Workman, Paul, Aboagye, Eric O., Chung, Yuen-Li, Griffiths, John R., Hart, Rachel, Leach, Martin O., Maxwell, Ross J., McSheehy, Paul M. J., Price, Pat M., and Zweit, Jamal

Abstract

Clinical trials of new cancer drugs should ideally include measurements of parameters such as molecular target expression, pharmacokinetic (PK) behavior, and pharmacodynamic (PD) endpoints that can be linked to measures of clinical effect. Appropriate PK/PD biomarkers facilitate proof-of-concept demonstrations for target modulation; enhance the rational selection of an optimal drug dose and schedule; aid decision-making, such as whether to continue or close a drug development project; and may explain or predict clinical outcomes. In addition, measurement of PK/PD biomarkers can minimize uncertainty associated with predicting drug safety and efficacy, reduce the high levels of drug attrition during development, accelerate drug approval, and decrease the overall costs of drug development. However, there are many challenges in the development and implementation of biomarkers that probably explain their disappointingly low implementation in phase I trials. The Pharmacodynamic/Pharmacokinetic Technologies Advisory committee of Cancer Research UK has found that submissions for phase I trials of new cancer drugs in the United Kingdom often lack detailed information about PK and/or PD endpoints, which leads to suboptimal information being obtained in those trials or to delays in starting the trials while PK/PD methods are developed and validated. Minimally invasive PK/PD technologies have logistic and ethical advantages over more invasive technologies. Here we review these technologies, emphasizing magnetic resonance spectroscopy and positron emission tomography, which provide detailed functional and metabolic information. Assays that measure effects of drugs on important biologic pathways and processes are likely to be more cost-effective than those that measure specific molecular targets. Development, validation, and implementation of minimally invasive PK/PD methods are encouraged

19. Validation of the fluorinated 2-nitroimidazole SR-4554 as a noninvasive hypoxia marker detected by magnetic resonance spectroscopy.

Author

Seddon BM, Maxwell RJ, Honess DJ, Grimshaw R, Raynaud F, Tozer GM, and Workman P

Subjects
Animals, Chromatography, High Pressure Liquid, Drug Evaluation, Preclinical, Female, Fluorine Radioisotopes, Hypoxia metabolism, Mice, Mice, SCID, Neoplasm Transplantation, Neoplasms, Experimental metabolism, Oxygen metabolism, Polarography, Rats, Tissue Distribution, Biomarkers, Tumor pharmacokinetics, Hypoxia diagnosis, Magnetic Resonance Spectroscopy methods, Neoplasms, Experimental diagnosis, Nitroimidazoles pharmacokinetics
Abstract

Purpose: Tumor hypoxia is associated with poor prognosis and a more malignant tumor phenotype. SR-4554, a fluorinated 2-nitroimidazole, is selectively bioreduced and bound in hypoxic cells. We present validation studies of SR-4554 as a noninvasive hypoxia marker detected by fluorine-19 magnetic resonance spectroscopy ((19)F MRS) in the P22 carcinosarcoma, a tumor with clinically relevant hypoxia levels., Experimental Design: Tumor-bearing female severe combined immunodeficient mice received SR-4554 at 180 mg/kg. Pharmacokinetic studies of parent SR-4554 in plasma and tumors were performed using high-performance liquid chromatography-UV. Total SR-4554 (parent SR-4554 and bioreduction products) was monitored in tumor by (19)F MRS using a 4.7 T spectrometer, with continuous acquisition for up to 5 h. A parameter of total SR-4554 retention, the 3-h (19)F retention index ((19)FRI) was determined. Tumor pO(2), assessed polarographically, was decreased (5 mg/kg hydralazine or 100 mg/kg combretastatin A-4 phosphate) or increased [1 l/min carbogen (5% CO(2), 95% O(2)) plus 500 mg/kg nicotinamide], and the corresponding (19)FRI was measured., Results: Comparative HPLC-UV- and MRS-derived assessments of parent and total SR-4554, respectively, indicated that concentrations of total SR-4554 consistently exceeded parent SR-4554, the differential increasing with time. This indicates formation and retention of SR-4554 bioreduction products in tumor, confirming the presence of hypoxia. The (19)FRI was higher in hydralazine- and combretastatin-treated animals compared with unmodulated animals (P = 0.004 and 0.15, respectively) and animals receiving carbogen and nicotinamide (P = 0.0001 and 0.005, respectively). Significant correlations were demonstrated between mean (19)FRI and polarographic pO(2) parameters (P < 0.002)., Conclusions: Retention of hypoxia-related SR-4554 bioreduction products can be detected in the clinically relevant P22 tumor by (19)F MRS, and the (19)FRI correlates with polarographically measured pO(2). These findings support the use of SR 4554 as a noninvasive hypoxia marker.

Published
2002

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