Your search keyword '"Skwarchuk MW"' showing total 12 results

1. The effect of pH on the aerobic and hypoxic cytotoxicity of SR4233 in HT-29 cells

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Author

Skarsgard, LD, primary, Skwarchuk, MW, additional, Vinczan, A, additional, and Chaplin, DJ, additional

Published

1993

2. Does prone positioning reduce small bowel dose in pelvic radiation with intensity-modulated radiotherapy for gynecologic cancer?

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Author

Adli M, Mayr NA, Kaiser HS, Skwarchuk MW, Meeks SL, Mardirossian G, Paulino AC, Montebello JF, Gaston RC, Sorosky JI, and Buatti JM

Subjects

Adult, Aged, Endometrial Neoplasms radiotherapy, Female, Genital Neoplasms, Female radiotherapy, Humans, Intestine, Large, Middle Aged, Organ Specificity, Prone Position, Radiation Dosage, Radiotherapy Dosage, Urinary Bladder, Uterine Cervical Neoplasms radiotherapy, Immobilization, Intestine, Small, Posture, Radiation Protection methods, Radiometry methods, Radiotherapy, Conformal methods

Abstract

Purpose: Intensity-modulated radiotherapy (IMRT) has been shown to reduce the radiation dose to small bowel in pelvic RT in gynecology patients. Prone positioning has also been used to decrease small bowel dose by displacement of small bowel from the RT field in these patients. The purpose of this study was to determine whether the combination of both IMRT and prone positioning on a belly board can reduce small bowel dose further in gynecologic cancer patients undergoing pelvic RT., Methods and Materials: IMRT plans for pelvic RT were computed in 16 patients with gynecologic cancer who had undergone planning CT scans in both the supine and the prone positions on a belly board. For the gross tumor volume, the uterus, cervix, and tumor (or postoperative region) were traced. The clinical target volume was defined as the vessels and lymph nodes from the obturator level to the aortic bifurcation, presacral region, and upper 4 cm of the vagina, in addition to gross tumor volume. The planning target volume was defined as a 2-cm margin in addition to the gross tumor volume and upper 4 cm of the vagina, and 1.5 cm for lymph nodes and vessels. Normal tissue regions of interest included small bowel, large bowel, and bladder. IMRT plans using (1) the limited arc technique (180 degrees arc length) and (2) the extended arc technique (340 degrees arc length) were computed. Dose-volume histograms for normal tissue structures and target were compared between the supine and prone IMRT plans using the paired t test., Results: Prone positioning on a belly board decreased the small bowel dose in gynecologic pelvic IMRT, and the magnitude of improvement depended on the specific IMRT technique used. With the limited arc technique, prone positioning significantly decreased the irradiated small bowel volume at the 25-50-Gy dose levels compared with supine positioning. Small bowel volumes receiving > or =45 Gy decreased from 19% to 12.5% (p = 0.005) with prone positioning. With the extended arc technique, the decrease in irradiated small bowel volume was less marked, but remained detectable in the 35-45-Gy dose levels. Small bowel volumes receiving > or =45 Gy decreased from 13.6% to 10.1% (p = 0.03) with prone positioning. The effect of prone positioning on large bowel and bladder was variable. Large bowel volumes receiving > or =45 Gy increased with prone positioning from 16.5% to 20.6% (p = 0.02) in the limited arc technique and was unaffected in the extended arc technique., Conclusion: These preliminary data suggest that prone positioning on a belly board can reduce the small bowel dose further in gynecology patients treated with pelvic RT, and that the dose reduction depends on the IMRT technique used. more...

Published

2003

3. Disruption of DAG1 in differentiated skeletal muscle reveals a role for dystroglycan in muscle regeneration.

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Author

Cohn RD, Henry MD, Michele DE, Barresi R, Saito F, Moore SA, Flanagan JD, Skwarchuk MW, Robbins ME, Mendell JR, Williamson RA, and Campbell KP

Subjects

Aging, Animals, Cell Differentiation, Cytoskeletal Proteins genetics, Dystroglycans, Hypertrophy, Membrane Glycoproteins genetics, Mice, Mice, Inbred mdx, Muscle, Skeletal pathology, Recombination, Genetic, Regeneration, Cytoskeletal Proteins physiology, Membrane Glycoproteins physiology, Muscle, Skeletal metabolism, Muscle, Skeletal physiology, Muscular Dystrophy, Animal genetics

Abstract

Striated muscle-specific disruption of the dystroglycan (DAG1) gene results in loss of the dystrophin-glycoprotein complex in differentiated muscle and a remarkably mild muscular dystrophy with hypertrophy and without tissue fibrosis. We find that satellite cells, expressing dystroglycan, support continued efficient regeneration of skeletal muscle along with transient expression of dystroglycan in regenerating muscle fibers. We demonstrate a similar phenomenon of reexpression of functional dystroglycan in regenerating muscle fibers in a mild form of human muscular dystrophy caused by disruption of posttranslational dystroglycan processing. Thus, maintenance of regenerative capacity by satellite cells expressing dystroglycan is likely responsible for mild disease progression in mice and possibly humans. Therefore, inadequate repair of skeletal muscle by satellite cells represents an important mechanism affecting the pathogenesis of muscular dystrophy. more...

Published

2002

4. Fitting tumor control probability models to biopsy outcome after three-dimensional conformal radiation therapy of prostate cancer: pitfalls in deducing radiobiologic parameters for tumors from clinical data.

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Author

Levegrün S, Jackson A, Zelefsky MJ, Skwarchuk MW, Venkatraman ES, Schlegel W, Fuks Z, Leibel SA, and Ling CC

Subjects

Analysis of Variance, Biopsy, Confidence Intervals, Dose-Response Relationship, Radiation, Humans, Likelihood Functions, Male, Neoplasm Staging, Probability, Prospective Studies, Radiobiology, Radiotherapy Dosage, Adenocarcinoma pathology, Adenocarcinoma radiotherapy, Prostate pathology, Prostatic Neoplasms pathology, Prostatic Neoplasms radiotherapy, Radiotherapy, Conformal

Abstract

Purpose: The goal of tumor control probability (TCP) models is to predict local control for inhomogeneous dose distributions. All existing fits of TCP models to clinical data have utilized summaries of dose distributions (e.g., prescription dose). Ideally, model fits should be based on dose distributions in the tumor, but usually only dose-volume histograms (DVH) of the planning target volume (PTV) are available. We fit TCP models to biopsy outcome after three-dimensional conformal radiation therapy of prostate cancer using either a dose distribution summary or the full DVH in the PTV. We discuss differences in the radiobiologic parameters and dose-response curves and demonstrate pitfalls in interpreting the results., Methods and Material: Two mechanistic TCP models were fit with a maximum likelihood technique to biopsy outcome from 103 prostate patients treated at Memorial Sloan-Kettering Cancer Center. Fits were performed separately for different patient subgroups defined by tumor-related prognostic factors. Fits were based both on full DVHs, denoted TCP(DVH(calc)), and, alternatively, assuming a homogeneous PTV dose given by the mean dose (Dmean) of each DVH, denoted TCP(Dmean(calc)). Dose distributions for these patients were very homogeneous with any cold spots located on the periphery of the PTV. These cold spots were uncorrelated with biopsy outcome, likely because the low-dose regions may not contain tumor cells. Therefore, fits of TCP models that are potentially sensitive to cold spots (e.g., TCP(DVH(calc))) likely give biologic parameters that diminish this sensitivity. In light of this, we examined differences in fitted clonogenic cell number, N(C), or density, rho(C), surviving fraction after 2 Gy, SF(2), or radiosensitivity, alpha, and their standard deviations in the population, sigma(SF(2)) and sigma(alpha), resulting from fits based on TCP(DVH(calc)) and TCP(Dmean(calc)). Dose-response curves for homogeneous irradiation (characterized by TCD(50), the dose for a TCP of 50%) and differences in TCP predictions calculated from the DVH using alternatively derived parameters were evaluated., Results: Fits of TCP(Dmean(calc)) are better (i.e., have larger likelihood) than fits of TCP(DVH(calc)). For TCP(Dmean(calc)) fits, matching values of SF(2) and sigma(SF(2)) (or alpha and sigma(alpha)) exist for all N(C) (rho(C)) above a threshold that give fits of equal quality, with no maximum in likelihood. In contrast, TCP(DVH(calc)) fits have maximum likelihood for high SF(2) (low alpha) values that minimize effects of cold spots. Consequently, small N(C) (rho(C)) values are obtained to match the observed control rate. For example, for patients in low-, intermediate-, and high-risk groups, optimum values of SF(2) and N(C) are 0.771 and 3.3 x 10(3), 0.736 and 2.2 x 10(4), and 0.776 and 1.0 x 10(4), respectively. The TCD(50) of dose-response curves for intermediate-risk patients is 2.6 Gy lower using TCP(DVH(calc)) parameters (TCD(50) = 67.8 Gy) than for TCP(Dmean(calc)) parameters (TCD(50) = 70.4 Gy). TCP predictions calculated from the DVH using risk group-dependent TCP(Dmean(calc)) parameters are up to 53% lower than corresponding calculations with TCP(DVH(calc)) parameters., Conclusion: For our data, TCP parameters derived from DVHs likely do not reflect true radiobiologic parameters in the tumor, but are a consequence of the reduced importance of low-dose regions at the periphery of the PTV. Deriving radiobiologic parameters from TCP(Dmean(calc)) fits is not possible unless one parameter is already known. TCP predictions using TCP(DVH(calc)) and TCP(Dmean(calc)) parameters may differ substantially, requiring consistency in the derivation and application of model parameters. The proper derivation of radiobiologic parameters from clinical data requires both substantial dose inhomogeneities and understanding of how these coincide with tumor location. more...

Published

2001

5. Late rectal bleeding after conformal radiotherapy of prostate cancer. II. Volume effects and dose-volume histograms.

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Author

Jackson A, Skwarchuk MW, Zelefsky MJ, Cowen DM, Venkatraman ES, Levegrun S, Burman CM, Kutcher GJ, Fuks Z, Liebel SA, and Ling CC

Subjects

Algorithms, Humans, Logistic Models, Male, Multivariate Analysis, Prostatic Neoplasms pathology, Radiation Tolerance, Radiotherapy Dosage, Gastrointestinal Hemorrhage etiology, Prostatic Neoplasms radiotherapy, Radiation Injuries complications, Radiotherapy, Conformal adverse effects, Rectal Diseases etiology, Rectum radiation effects

Abstract

Purpose and Objective: Late rectal bleeding is a potentially dose limiting complication of three-dimensional conformal radiotherapy (3D-CRT) for prostate cancer. The frequency of late rectal bleeding has been shown to increase as the prescription dose rises above 70 Gy. The purpose of this study is to identify features of the cumulative dose-volume histogram (DVH) for the rectal wall that correlate with late rectal bleeding after 3D-CRT for prostate cancer., Methods and Materials: Follow-up information on rectal bleeding is available for 261 and 315 patients treated using 3D-CRT at Memorial Sloan-Kettering Cancer Center for Stage T1c-T3 prostate cancer with minimum target doses of 70.2 and 75.6 Gy, respectively. All patients in this study were treated with a coplanar 6-field technique (2 lateral and 4 oblique fields). Patients were classified as having rectal bleeding if they bled (> or = Grade 2) before 30 months, and nonbleeding (< or = Grade 1) if they were without bleeding at 30 months, using the RTOG morbidity scale. Rectal bleeding was observed in 13 and 38 of the patients treated at 70.2 and 75.6 Gy, respectively. Treatment plans were analyzed for 39 nonbleeding and 13 bleeding patients receiving 70.2 Gy, and 83 nonbleeding and 36 bleeding patients receiving 75.6 Gy. Dose-volume histograms (DVHs) for the anatomic rectal wall were calculated. Average DVHs of the bleeding and nonbleeding patients were generated, and a permutation test was used to assess the significance of differences between them, for each dose group. The confounding effect of total rectal wall volume (V(RW)) was removed by calculating the average differences in DVHs between all combinations of bleeding and nonbleeding patients with similar V(RW)s. Finally, multivariate analysis using logistic regression was performed to test the significance of the DVH variables in the presence of anatomic, geometric, and medical variables previously found to correlate with rectal bleeding in a companion analysis of the same patients., Results: The area under the average percent volume DVH for the rectal wall of patients with bleeding was significantly higher than those of patients without bleeding in both dose groups (p = 0.02, 70.2 Gy; p < 0.0001, 75.6 Gy). However, small V(RW)s were associated with rectal bleeding (p = 0.06, 70.2 Gy; p < 0.01, 75.6 Gy), resulting in an increase in average percent volumes exposed to all doses for patients with rectal bleeding. For patients with similar V(RW)s, rectal bleeding was significantly correlated with the volumes exposed to 46 Gy in both dose groups (p = 0.02, 70.2 Gy; p = 0.005, 75.6 Gy, tolerance in V(RW): 5 ccs). For the 75.6 Gy dose group, the percent volume receiving 77 Gy was significantly correlated with rectal bleeding (p < 0.005). Bivariate analysis using logistic regression, including V(RW) together with a single DVH variable, showed good agreement with the above analysis. Multivariate analysis revealed a borderline significant correlation of the percent volume receiving 71 Gy in the 70.2 Gy dose group. It also showed that the DVH variables were highly correlated with geometric and dosimetric variables previously found to correlate with rectal bleeding in multivariate analysis., Conclusion: Significant volume effects were found in the probability of late rectal bleeding for patients undergoing 3D-CRT for prostate cancer with prescription doses of 70.2 and 75.6 Gy. The percent volumes exposed to 71 and 77 Gy in the 70.2 and 75.6 Gy dose groups respectively were significantly correlated with rectal bleeding. The independent correlation of small V(RW) with rectal bleeding may indicate the existence of a functional reserve for the rectum. The independent association with larger percent volumes exposed to intermediate doses ( approximately 46 Gy) seen in both dose groups may indicate that a large surrounding region of intermediate dose may interfere with the ability to repair the effects of a central high dose region. more...

Published

2001

6. Analysis of biopsy outcome after three-dimensional conformal radiation therapy of prostate cancer using dose-distribution variables and tumor control probability models.

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Author

Levegrün S, Jackson A, Zelefsky MJ, Venkatraman ES, Skwarchuk MW, Schlegel W, Fuks Z, Leibel SA, and Ling CC

Subjects

Analysis of Variance, Biopsy, Humans, Male, ROC Curve, Radiotherapy Dosage, Regression Analysis, Models, Statistical, Prostate pathology, Prostatic Neoplasms pathology, Prostatic Neoplasms radiotherapy, Radiotherapy, Conformal

Abstract

Purpose: To investigate tumor control following three-dimensional conformal radiation therapy (3D-CRT) of prostate cancer and to identify dose-distribution variables that correlate with local control assessed through posttreatment prostate biopsies., Methods and Material: Data from 132 patients, treated at Memorial Sloan-Kettering Cancer Center (MSKCC), who had a prostate biopsy 2.5 years or more after 3D-CRT for T1c-T3 prostate cancer with prescription doses of 64.8-81 Gy were analyzed. Variables derived from the dose distribution in the PTV included: minimum dose (Dmin), maximum dose (Dmax), mean dose (Dmean), dose to n% of the PTV (Dn), where n = 1%,...,99%. The concept of the equivalent uniform dose (EUD) was evaluated for different values of the surviving fraction at 2 Gy (SF(2)). Four tumor control probability (TCP) models (one phenomenologic model using a logistic function and three Poisson cell kill models) were investigated using two sets of input parameters, one for low and one for high T-stage tumors. Application of both sets to all patients was also investigated. In addition, several tumor-related prognostic variables were examined (including T-stage, Gleason score). Univariate and multivariate logistic regression analyses were performed. The ability of the logistic regression models (univariate and multivariate) to predict the biopsy result correctly was tested by performing cross-validation analyses and evaluating the results in terms of receiver operating characteristic (ROC) curves., Results: In univariate analysis, prescription dose (Dprescr), Dmax, Dmean, dose to n% of the PTV with n of 70% or less correlate with outcome (p < 0.01). The area under the ROC curve for Dmean is 0.64. In contrast, Dmin (p = 0.6), D98 (p = 0.2) or D95 (p = 0.1) are not significantly correlated with outcome. The results for EUD depend on the input parameter SF(2): EUD correlates significantly with outcome for SF(2) of 0.4 or more, but not for lower SF(2) values. Using either of the two input parameters sets, all TCP models correlate with outcome (p < 0.05; ROC areas 0.60-0.62). Using T-stage dependent input parameters, the correlation is improved (logistic function: p < 0.01, ROC area 0.67, Poisson models: p < 0.01, ROC areas 0.64-0.66). In comparison, the ROC area is 0.68 for the combination of Dmean and T-stage. After multivariate analysis, a model based on TCP, D20 and Gleason score is the best overall model (ROC area 0.73). However, an alternative model based on Dmean, Gleason score, and T-stage is competitive (ROC area 0.70)., Conclusion: Biopsy outcome after 3D-CRT of prostate cancer at MSKCC is not correlated with Dmin in the PTV and appears to be insensitive to cold spots in the dose distribution. This observation likely reflects the fact that much of the PTV, especially at the periphery, may not contain viable tumor cells and that the treatment margins were sufficiently large. Therefore, the predictive power of all variables which are sensitive to cold spots, like TCPs with Poisson models and EUD for low SF(2), is limited because the low dose region may not coincide with the tumor location. Instead, for MSKCC prostate cancer patients with their standardized CTV definition, substantial target motion and small dose inhomogeneities, Dmean (or any variable that downplays the effect of cold spots) is a very good predictor of biopsy outcome. While our findings may indicate a general problem in the application of current TCP models to clinical data, these conclusions should not be extrapolated to other disease sites without careful analysis. more...

Published

2000

7. Late rectal toxicity after conformal radiotherapy of prostate cancer (I): multivariate analysis and dose-response.

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Author

Skwarchuk MW, Jackson A, Zelefsky MJ, Venkatraman ES, Cowen DM, Levegrün S, Burman CM, Fuks Z, Leibel SA, and Ling CC

Subjects

Analysis of Variance, Dose-Response Relationship, Radiation, Humans, Male, Neoplasm Staging, Prostatic Neoplasms pathology, Regression Analysis, Retrospective Studies, Time Factors, Gastrointestinal Hemorrhage etiology, Prostatic Neoplasms radiotherapy, Radiation Injuries etiology, Radiotherapy, Conformal adverse effects, Rectal Diseases etiology, Rectum radiation effects

Abstract

Purpose: The purpose of this paper is to use the outcome of a dose escalation protocol for three-dimensional conformal radiation therapy (3D-CRT) of prostate cancer to study the dose-response for late rectal toxicity and to identify anatomic, dosimetric, and clinical factors that correlate with late rectal bleeding in multivariate analysis., Methods and Materials: Seven hundred forty-three patients with T1c-T3 prostate cancer were treated with 3D-CRT with prescribed doses of 64.8 to 81.0 Gy. The 5-year actuarial rate of late rectal toxicity was assessed using Kaplan-Meier statistics. A retrospective dosimetric analysis was performed for patients treated to 70.2 Gy (52 patients) or 75.6 Gy (119 patients) who either exhibited late rectal bleeding (RTOG Grade 2/3) within 30 months after treatment (i.e., 70.2 Gy-13 patients, 75. 6 Gy-36 patients) or were nonbleeding for at least 30 months (i.e., 70.2 Gy-39 patients, 75.6 Gy-83 patients). Univariate and multivariate logistic regression was performed to correlate late rectal bleeding with several anatomic, dosimetric, and clinical variables., Results: A dose response for >/= Grade 2 late rectal toxicity was observed. By multivariate analysis, the following factors were significantly correlated with >/= Grade 2 late rectal bleeding for patients prescribed 70.2 Gy: 1) enclosure of the outer rectal contour by the 50% isodose on the isocenter slice (i.e., Iso50) (p < 0.02), and 2) smaller anatomically defined rectal wall volume (p < 0.05). After 75.6 Gy, the following factors were significant: 1) smaller anatomically defined rectal wall volume (p < 0.01), 2) higher rectal D(max) (p < 0.01), 3) enclosure of rectal contour by Iso50 (p < 0.01), 4) patient age (p = 0.02), and 5) history of diabetes mellitus (p = 0.04). In addition to these five factors, acute rectal toxicity was also significantly correlated (p = 0.05) with late rectal bleeding when patients from both dose groups were combined in multivariate analysis., Conclusion: A multivariate logistic regression model is presented which describes the probability of developing late rectal bleeding after conformal irradiation of prostate cancer. Late rectal bleeding correlated with factors which may indicate that a greater fractional volume of rectal wall was exposed to high dose, such as smaller rectal wall volume, inclusion of the rectum within the 50% isodose on the isocenter slice, and higher rectal D(max). more...

Published

2000

8. Volume effects and epithelial regeneration in irradiated mouse colorectum.

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Author

Skwarchuk MW and Travis EL

Subjects

Animals, Epithelium physiology, Epithelium radiation effects, Male, Mice, Mice, Inbred C3H, Probability, Colon radiation effects, Rectum radiation effects, Regeneration

Abstract

The use of three-dimensional treatment planning and volume-reduction techniques in radiotherapy has prompted the development of a number of mathematical models to describe the effect of changing treatment volume on the probability of associated complications in normal tissues. However, limited data are available to test or support these models. One prediction of the Probability model and analogous models, which describe the volume-effect relationship for late end points in tissues with a series-type arrangement of functional subunits, is that there is no threshold volume in the development of the end point. This hypothesis was tested in mouse colorectum, a normal tissue with functional subunits suggested to be arranged in series, using the incidence of obstructions due to consequential fibrosis as the end point of damage. Various lengths of the colorectum of C3Hf/Kam mice were irradiated with single doses of 250 kVp X rays. A threshold length between 10 and 15 mm was observed after 32 Gy. The Probability model could not describe the data adequately, but a modified version that included a threshold volume term (the Threshold Probability model) provided an excellent fit. In a separate experiment, epithelial regeneration (migration, extracryptal proliferation and formation of new crypts) was examined as a possible mechanism for the threshold length. Re-epithelialization was complete after 32 Gy was delivered to lengths below (5 or 10 mm) but not above (20 mm) the threshold for consequential obstruction. Proliferation of epithelial cells outside the crypt on the mucosal surface (i.e. extracryptal proliferation) may contribute to the regeneration process. The data indicate that regeneration of the epithelium after irradiation results in a threshold length of the colorectum in the development of consequential fibrosis, in contradiction to predictions of the Probability model. more...

Published

1998

9. Substructure in the radiation survival response at low dose in cells of human tumor cell lines.

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Author

Skarsgard LD, Skwarchuk MW, Wouters BG, and Durand RE

Subjects

Animals, Cell Line, Cricetinae, Cricetulus, Dose-Response Relationship, Radiation, Flow Cytometry, Humans, Models, Biological, Neoplasms pathology, Radiation Tolerance, Radiobiology, Tumor Cells, Cultured, Cell Survival radiation effects, Neoplasms radiotherapy

Abstract

In earlier studies using asynchronously growing Chinese hamster cells, we observed substructure in the survival response at low doses. The substructure appeared to result from subpopulations of cells having different, cell cycle phase-dependent radiosensitivity. We have now applied the same flow cytometry and cell sorting technique to accurately measure the responses of cells of eight different asynchronously growing human tumor cell lines, representing a wide range in radiosensitivity. When the data were fitted with a linear-quadratic (LQ) function, most of these lines showed substructure similar to that observed in Chinese hamster cells, with the result that values of alpha and beta were dependent on the dose range used for fitting. Values of alpha describing the low-dose response were typically smaller (by as much as 2.2 times) than the alpha describing the high-dose response, while values of beta were larger at low doses. Values of alpha/beta from our measurements are in reasonable agreement with other values published recently if we fit the data for the high-dose range (excluding, for example, 0-4 Gy), which corresponds to a conventional survival response measurement. However, the values of alpha/beta describing the low-dose range were, on average, 2.8-fold smaller. The results show that the usual laboratory measurement of cell survival over 2 or 3 logs of cell killing, if fitted with a single LQ function, will yield alpha and beta values which may give a rather poor description of cell inactivation at low dose in asynchronous cells, no matter how carefully those measurements are done, unless the low-dose range is fitted separately. The contribution of killing represented by the beta coefficient at low doses was found to be surprisingly large, accounting for 40-70% of cell inactivation at 2 Gy in these cell lines. A two-population LQ model provides excellent fits to the data for most of the cell lines though, as one might expect with a five-parameter model, the best-fitting value of the various parameters is far from unique, and the values are probably not reliable indicators of the size and radiosensitivity of the different cell subpopulations. At very low dose, below 0.5-1 Gy, another order of substructure is observed: the hypersensitive response; this is described in the accompanying paper (Wouters et al., Radiat. Res. 146, 399-413, 1996). more...

Published

1996

10. The use of radiochromic film to measure dose distributions resulting from high dose rate 192Iridium single catheter treatments.

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Author

Skwarchuk MW, Ochran TG, Komaki R, Cundiff J, and Travis EL

Subjects

Humans, Phantoms, Imaging, Quality Control, Radiometry instrumentation, Radiotherapy Dosage, Brachytherapy, Iridium Radioisotopes therapeutic use, Radiometry methods, X-Ray Film

Abstract

Purpose: Radiochromic film was used to measure and compare the dose distributions parallel to a high dose rate (HDR) 192Iridium (192Ir) brachytherapy afterloading catheter that resulted from optimized treatment plans using various combinations of prescribed dose magnitude and location as well as source spacing., Methods and Materials: Differences exist among clinical investigators for specification of the magnitude and location of prescribed treatment dose for brachytherapy irradiations using HDR 192Ir afterloading. Typical prescriptions for endobronchial irradiation include 5 to 10 Gy at 10 mm or 15 Gy at 6 mm measured from the center of the afterloading catheter. The dose distributions that result from these irradiations are very difficult to quantify by conventional dosimetry methods. This study used radiochromic film to measure the dose distributions resulting from optimized treatment plans for source dwell position separations of 2.5 or 5.0 mm and for a prescribed treatment dose of either 15 Gy at 6 mm or 5 Gy at 10 mm, conditions that have been used at M. D. Anderson Cancer Center for the treatment of endobronchial lesions. An acrylic phantom was designed to allow for measurement of the dose distributions at 0.95 mm (catheter surface), 6 mm, and 10 mm from and parallel to the catheter for sources positioned along either 20 or 80 mm of the catheter., Results: Radiochromic film is shown to be a suitable quality assurance and dosimetry modality for the measurement of the dose distribution along an afterloading catheter resulting from an HDR I92Ir source. Each of the treatment plans was about equally effective in being able to produce a uniform dose distribution at their respective planned target distances. Differences were more apparent when comparing the dose distributions at nontargeted distances. On the catheter surface the dose was very nonuniform and in the case of 2.5 mm source spacing along 20 mm of catheter with target dose planned to 10 mm, the central minimum dose was only 13 to 24% of the dose opposite to the most proximal and distal sources. The absolute doses measured at equivalent distances for the 15 Gy planned to 6 mm treatments are about 1.3 to 1.5 times higher than those measured for the 5 Gy planned to 10 mm treatments. It was also observed that the lateral positioning of the encapsulated source within the afterloading catheter can contribute to dose differences about the catheter that are greatest for measurements made in contact with the catheter surface (24 to 40%) but may also be large at the treatment planning distances of 6 (0 to 15%) and 10 mm (0 to 9%)., Conclusion: At their respective treatment planning distances of 6 or 10 mm, each of the treatment plans produced dose distributions of comparable uniformity. Against the catheter, relatively more uniform dose distributions with higher minimum doses were obtained for (a) dose prescription at 6 mm, rather than at 10 mm; (b) source separation of 2.5 mm, rather than 5.0 mm (except for a 20 mm active catheter length with dose planned to 10 mm); and (c) longer active length of the catheter of 80 mm, rather than 20 mm. more...

Published

1996

11. The effect of low pH and hypoxia on the cytotoxic effects of SR4233 and mitomycin C in vitro.

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Author

Skarsgard LD, Vinczan A, Skwarchuk MW, and Chaplin DJ

Subjects

Animals, Cells, Cultured, Cricetinae, Cricetulus, Humans, Hydrogen-Ion Concentration, Tirapazamine, Tumor Cells, Cultured, Antineoplastic Agents pharmacology, Cell Hypoxia, Mitomycin pharmacology, Radiation-Sensitizing Agents pharmacology, Triazines pharmacology

Abstract

Purpose: We examined the effect of acidic pH and hypoxia on the cytotoxicity of SR4233 and mitomycin C in vitro., Methods and Materials: The importance of tumor microenvironment to the response of solid tumors to cytotoxic treatment is well established. The bioreductive drug SR4233 has a very substantial selective toxicity for hypoxic cells. We have used both Chinese hamster and human tumor cells to investigate the influence of low pH and hypoxia on the response of cultured cells to treatment with SR4233 or mitomycin C., Results: We found that low pH (6.6) had little effect on the hypoxic toxicity of SR4233; under aerobic conditions, however, low pH substantially increased the cytotoxic effects of 1 h exposure to SR4233, with drug dose enhancement ratios (ER) of 3.9 and 2.5 in V79 and HT-29 cells, respectively. In similar studies with mitomycin C, hypoxia had little effect on the cytotoxicity of mitomycin C in V79 cells, though a low pH of 6.6 enhanced the cytotoxicity under both aerobic and hypoxic conditions (ER approximately 2). In HT-29 cells, neither low pH nor hypoxia had any significant effect on mitomycin C toxicity., Conclusion: Low pH, like hypoxia, is a common feature of solid tumors and can be an important determinant of the cytotoxic effect of bioreductive drugs such as SR4233 and mitomycin C. more...

Published

1994

12. The survival of asynchronous V79 cells at low radiation doses: modeling the response of mixed cell populations.

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Author

Skarsgard LD, Skwarchuk MW, and Wouters BG

Subjects

Animals, Cell Cycle, Cells, Cultured, Cricetinae, Cricetulus, Cell Survival radiation effects, Dose-Response Relationship, Radiation

Abstract

We have observed that when a single linear-quadratic (LQ) function is used to fit the radiation survival response of an asynchronously dividing population of V79 cells, a consistent misfit occurs at low doses. The data can be better described by fitting the low-dose and high-dose ranges separately, and there is evidence of a two-component response. The most obvious explanation is that we may simply be seeing the response of subpopulations of cells of different radiosensitivity: sensitive G1-, G2- and M-phase cells and resistant S-phase cells. The cell sorting assay for cell survival which we have used in these studies may thus be providing sufficient accuracy to resolve these subpopulations, not previously seen in conventional survival measurements. An alternative explanation is that the linear-quadratic function may be inappropriate for accurate description of the radiation survival response at low dose, at least for these cells. To test this hypothesis we have used three other models to fit the data: the single-hit plus multi-target (SHMT) model and the two-parameter repair-misrepair (RMR) model both yielded inferior fits to the asynchronous survival data; the three-parameter RMR model provided an improved fit to the data. The best fit, however, was obtained using a two-population LQ model, which suggested approximately equal numbers of sensitive and resistant cells. When the survival response of tightly synchronized G1/S-phase cells was measured using the cell sorting assay, no substructure was observed. This offers strong support to the hypothesis that the substructure observed in the asynchronous survival response is due to subpopulations of cells of different, cycle-dependent radiosensitivity. more...

Published

1994