3D dosimetry study of 188Re liquid balloon for intravascular brachytherapy using bang polymer gel dosemeters.

It has been suggested that the combination of intravascular brachytherapy and coronary stent implantation may result in further reduction of restenosis after percutaneous balloon angioplasty. The use of an angioplasty balloon filled with a 188Re liquid beta source for intravascular brachytherapy provides the advantages of accurate source positioning and uniform dose distribution to the coronary vessel wall. The effect of source edge and stent on the dose distribution of the target tissue may be clinically important. In BANG gels, the absorbed radiation produces free-radical chain polymerisation of acrylic monomers that are initially dissolved in the gel. The number of polymer particles is proportional to the absorbed dose. In this study, 3D dose distributions are presented for 188Re balloons, with and without stents, using a prototype He-Ne laser CT scanner and the proprietary BANG polymer gel dosemeters.

Spectrum-analysis and neural networks for imaging to detect and treat prostate cancer.

Conventional B-mode ultrasound currently is the standard means of imaging the prostate for guiding prostate biopsies and planning brachytherapy to treat prostate cancer. Yet B-mode images do not adequately display cancerous lesions of the prostate. Ultrasonic tissue-type imaging based on spectrum analysis of radiofrequency (rf) echo signals has shown promise for overcoming the limitations of B-mode imaging for visualizing prostate tumors. This method of tissue-type imaging utilizes nonlinear classifiers, such as neural networks, to classify tissue based on values of spectral parameter and clinical variables. Two- and three-dimensional images based on these methods demonstrate potential for guiding prostate biopsies and targeting radiotherapy of prostate cancer. Two-dimensional images are being generated in real time in ultrasound scanners used for real-time biopsy guidance and have been incorporated into commercial dosimetry software used for brachytherapy planning. Three-dimensional renderings show promise for depicting locations and volumes of cancer foci for disease evaluation to assist staging and treatment planning, and potentially for registration or fusion with CT images for targeting external-beam radiotherapy.

Which patients with newly diagnosed prostate cancer need a radionuclide bone scan? An analysis based on 631 patients.

PURPOSE: Although radionuclide bone scans are frequently recommended as part of the staging evaluation for newly diagnosed prostate cancer, most scans are negative for metastases. We hypothesized that Gleason score, prostate-specific antigen (PSA), and clinical stage could predict for a positive bone scan (BS), and that a low-risk group of patients could be identified in whom BS might be omitted. METHODS: All patients who had both pathologic review of their prostate cancer biopsies and radionuclide BS at our institution between 1/90 and 5/96 were studied. Gleason score, PSA, and clinical stage (AJCC, 4th edition) were evaluated by univariate and multivariate analyses for their ability to predict a positive BS. Groups analyzed were Gleason of 2-6 vs. 7 vs. 8-10; PSA of 0-15 vs. greater than 15-50 vs. greater than 50; and clinical stage of T1a-T2b vs. T2c-T4. Univariate analysis using chi(2) and multivariate analysis using logistic regression were performed. RESULTS: Of the 631 consecutive patients, 88 (14%) had positive BS. Multivariate analysis (64 excluded due to missing PSA and/or clinical stage) showed Gleason score, PSA, and clinical stage to be significant independent predictors for positive BS (p < 0.002, p < 0.001, p < 0.001, respectively). The odds ratios were 5.25 (confidence interval [CI], 3.43-8.04) for PSA > 50 vs. 0-15; 2.25 (CI, 1.43-3.54) for Gleason of 8-10 vs. 2-6; 2.15 (CI, 1.54-2.99) for clinical stage T2c-T4 vs. T2b or less. Three of 308 (1%) had a positive BS in patients with Gleason 2-7, PSA of 50 or less, and clinical stage of T2b or less. In the subset of the same risk group with PSA of 15 or less, all 237 had negative bone scans. In patients with PSA greater than 50, 49/99(49.5%) had positive BS. CONCLUSION: Gleason score, PSA, and clinical stage were independent predictors for a positive radionuclide BS in newly diagnosed prostate cancer patients. PSA is the major predictor for positive BS. About one-half of the patients analyzed were in the low-risk group (Gleason 2-7, PSA < or = 50, clinical stage < or = T2b) and elimination of BS in these patients would result in considerable economic savings.

Dosimetric and volumetric criteria for selecting a source activity and a source type ((125)I or (103)Pd) in the presence of irregular seed placement in permanent prostate implants.

PURPOSE: The dosimetric merit of a permanent prostate implant relies on two factors: the quality of the plan itself, and the fidelity of its implementation. The former factor depends on source type and on source strength, while the latter is a combination of skill and experience. The purpose of this study is to offer criteria by which to select a source type ((125)I or (103)Pd) and activity. METHODS AND MATERIALS: Given a prescription dose and potential seed positions along needles, treatment plans were designed for a number of seed types and activities, specifically for (125)I with activities ranging from 0.3 to 0.7 mCi, and for (103)Pd with activities in the range of 0.8 to 1.6 mCi. To avoid human planner bias, an automated computerized planning system based on integer programming was used to obtain optimal seed configurations for each seed type and activity. To simulate the effect of seed-placement inaccuracies, random seed-displacement "errors" were generated for all plans. The displacement errors were assumed to be uniformly distributed within a cube with side equal to 2sigma. The resulting treatment plans were assessed using two volumetric and two dosimetric indices. RESULTS: For (125)I implants a coverage index (CI) of 98.5% or higher can be achieved for all activities (CI is the fraction of the target volume receiving the prescribed or larger dose). The external volume index (EI) (i.e., the amount of healthy tissue, as percentage of the target volume, receiving the prescribed or larger dose) increases from 13.9% to 20% as the activity increases from 0.3 to 0.7 mCi. For implants using (103)Pd, the external volume index increases from 10. 2% to 13.9% whenever CI exceeds 98.5%. Volumetric and dosimetric indices (coverage index, external volume index, D90, and D80) are all sensitive to seed displacement, although the activity dependence of these indices is more pronounced for (125)I than for (103)Pd implants. CONCLUSIONS: For both isotopes, the lower activities studied systematically result in lower EIs. If seeds can be placed within approximately 0.5 cm of their intended position (103)Pd should be preferred because its EI is lower than that of (125)I. For all activities the coverage indices and D90 are within the required range. If seed placement uncertainties are larger than 0.5 cm, (125)I provides slightly better target coverage; however, in terms of external volume (healthy tissue) covered, (103)Pd is superior to (125)I.

PSA based review of adjuvant and salvage radiation therapy vs. observation in postoperative prostate cancer patients.

Because of the uncertainties regarding the efficacy of postoperative radiation therapy for early prostate cancer, treatment strategies following radical prostatectomy include: (1) observation alone in high-risk patients, (2) adjuvant radiation therapy (PSA undetectable) in high-risk patients, or (3) salvage radiation therapy for biochemical and clinical recurrence. Fifty-two patients treated with postoperative radiation therapy in either an adjuvant setting (13) or for salvage (39) were retrospectively reviewed. The actuarial biochemical disease-free survival (bNED) rates following radiation therapy were calculated using the life-table method. Univariate and multi variate analyses were used to define the clinical factors that predict biochemical failure following postoperative radiation therapy. In addition, the bNED survival rate for 36 high-risk surgery patients who were simply observed following prostatectomy was determined. The 3-year bNED survival rate for the adjuvant radiation group was 85% compared with 27% for salvage radiation and 43% for the observation group. These results are statistically significant. Factors that predict biochemical failure following postoperative radiation therapy include preoperative PSA level, pre-radiation therapy PSA level, and seminal vesicle involvement. At our institutions, adjuvant radiation therapy was a superior strategy compared with either observation alone or salvage radiation therapy for high-risk postoperative prostate cancer patients. Int. J. Cancer (Radiat. Oncol. Invest.) 90, 29-36 (2000).

Which patients with newly diagnosed prostate cancer need a computed tomography scan of the abdomen and pelvis? An analysis based on 588 patients.

OBJECTIVES: Although a computed tomography (CT) scan of the abdomen and pelvis is often recommended as part of the staging evaluation for newly diagnosed prostate cancer, most scans are negative for metastases. We hypothesized that biopsy Gleason score, serum prostate-specific antigen (PSA) levels, and clinical stage could predict for a positive CT scan and that a low-risk group of patients could be identified in whom CT might be omitted. METHODS: All patients who had both pathologic review of their prostate cancer biopsies and abdominopelvic CT scans at our institution between January 1990 and May 1996 were studied. Gleason score, PSA, and stage were evaluated by univariate (chi-square) and multivariate (logistic regression) analyses for their ability to predict for a positive CT. RESULTS: Of 588 patients, 41 (7%) had a positive CT scan. Multivariate analysis showed Gleason score, PSA, and clinical stage to be significant independent predictors of a positive CT scan, all P <0.001. The odds ratios for a positive CT scan were 6.17 (95% confidence interval [CI] = 1.58 to 24) for Gleason score 8 to 10 versus 2 to 6; 2.25 (CI = 1.24 to 4) for PSA greater than 50 versus 0 to 15 ng/mL; 2.08 (CI = 1.70 to 3.21 ) for Stage T2c-T4 versus T2b or lower. All 244 patients with Gleason score 2 to 7, PSA 1 5 ng/mL or less, and clinical Stage T2b or less had negative CT scans. Of the other 174 patients with a Gleason score of 2 to 7, 8 (5%) had a positive CT scan. Of the 1 26 patients with a Gleason score of 8 to 10, 28 (22%) had a positive CT scan. CONCLUSIONS: Gleason score, PSA, and clinical stage were independent predictors for a positive CT scan of the abdomen and pelvis in patients with newly diagnosed prostate cancer. In this cost-conscious era, we can decrease expenditure by obviating the need for a CT scan in low-risk patients (clinical Stage T2b or less, Gleason score 2 to 7, and PSA 15 ng/mL or less). A CT scan should be considered in all other patients.

Potential decreased morbidity of interstitial brachytherapy for gynecologic malignancies using laparoscopy: A pilot study.

OBJECTIVES: This pilot study was designed to prospectively assess whether the addition of laparoscopy at the time of interstitial brachytherapy is safe, provides verification and/or guidance of needle placement, and results in a reduction of treatment-related morbidity. METHODS: Between 7/93 and 2/97 15 consecutive eligible patients were entered into this study. All patients received external pelvic radiation to a dose range between 45 and 61.20 Gy using 1.8-Gy fractions. In each patient the minimum prescribed dose for the brachytherapy portion was 20 Gy. Minimum cumulative doses to sites of gross disease ranged from 71.8 to 115.3 Gy. A Syed-Neblett afterloading perineal template was used in all the procedures. Laparoscopy using established guidelines was performed during placement of interstitial needles. During template placement, verification of interstitial needles on laparoscopy and any subsequent changes or needle rearrangement were noted. RESULTS: No acute radiation toxicity greater than Grade 2 was noted during the external beam portion of treatment, and no perioperative complications were encountered. These needles were withdrawn under laparoscopic guidance to just below the peritoneal reflection, avoiding proximity to the bowel and improving tumor coverage. Median follow-up time was 26 months. No late radiation morbidity greater than Grade 2 nor any laparoscopic-related complications were noted. To date, one patient has died of disease; six are alive with disease; and eight are alive free of disease with a mean disease-free survival of 17.3 months. CONCLUSION: Laparoscopy at the time of interstitial brachytherapy appears to be safe. No radiation toxicity greater than Grade 2 has developed. No perioperative complications were seen with the addition of laparoscopy. The addition of laparoscopy to the placement of transperineal interstitial implants impacted needle arrangement and/or loading of sources in 50% of patients.

Growth inhibition induced by Ro 31-8220 and calphostin C in human glioblastoma cell lines is associated with apoptosis and inhibition of CDC2 kinase.

Protein kinase C (PKC) is a central component in signal transduction and growth control and might be an appropriate target for the chemotherapy of human brain tumors. This study demonstrates that the staurosporine derivative Ro 31-8220, a potent PKC inhibitor, inhibited the growth of 7 human brain tumor cell lines with an IC50 of about 2 microM. Calphostin C, a structurally unrelated PKC inhibitor, inhibited the growth of two of these cell lines with an IC50 of about 100 to 300 nM. Drug withdrawal and clonogenicity assays indicated that the growth inhibition by both of these compounds was irreversible. Morphologic studies, DNA fragmentation studies and flow cytometric assays showed that the treated glioblastoma cells underwent apoptosis. Treatment of glioblastoma cells with Ro 31-8220 lead to a rapid decline in the level of the anti-apoptosis protein bcl-2. At least three of the glioblastoma cell lines carried mutant p53 alleles with missense mutations in the DNA binding domain of p53. Therefore, the induction of apoptosis in these cell lines occurred through a p53-independent mechanism. Furthermore treatment of these glioblastoma cell lines with Ro 31-8220 or calphostin C led to an increase of cells in the G2-M phase of the cell cycle. This correlated with a decrease in CDC2-associated histone H1 kinase activity, as well as a decrease in the level of the CDC2 protein as shown by immunoblotting. When added to subcellular assays Ro 31-8220 markedly inhibited CDC2 histone H1 kinase activity with an IC50 of 100 nM, but calphostin C directly inhibited this kinase activity only at very high concentrations (above 100 microM). Thus these compounds inhibit the growth of glioblastoma cells through novel mechanisms. Ro 31-8220, in particular, might be a useful agent for the treatment of human brain tumors.

A preliminary report: frequency of A-T heterozygotes among prostate cancer patients with severe late responses to radiation therapy.

PURPOSE: To investigate whether a significant proportion of prostate cancer patients who have late sequelae after high-dose external-beam conformal radiation therapy are radio-sensitive because they are carriers of ataxia-telangiectasia, that is, are heterozygous for mutations in the ATM gene. PATIENTS AND METHODS: A group of prostate cancer patients were selected who experienced severe late sequelae, specifically proctitis or cystitis, after high-dose external-beam conformal radiation therapy, together with a control group of patients treated in the same way but who did not have severe late effects. Blood samples were taken from these patients, genomic DNA extracted, and mutations sought in the ATM gene. RESULTS: Of 17 late-effect patients in whom most or all of the ATM gene has been examined, significant mutations (17.6%) were identified in three. No significant mutations were found in the control group. The incidence of ataxia- telangiectasia heterozygotes in the United States population is 1% to 2%. DISCUSSION: These preliminary data suggest that a disproportionate number, but by no means all, of prostate cancer radiotherapy patients who experience severe late effects are ataxia-telangiectasia heterozygotes. If this conclusion is confirmed, these individuals could be identified prospectively and, with dose de-escalation, spared a great deal of discomfort and suffering. As a corollary, if most of the small late-effects population were prospectively identifiable, the dose to the remaining population could potentially be escalated. Present methods of identifying mutations in a large gene, such as ATM, are cumbersome and expensive, but the technology is evolving rapidly, so that rapid screening of the ATM gene is imminent.

Treatment of human glioblastoma cells with the staurosporine derivative CGP 41251 inhibits CDC2 and CDK2 kinase activity and increases radiation sensitivity.

CGP, 41251, a staurosporine derivative, is a potent inhibitor of protein kinase C (PKC). In recent studies we found that this compound causes growth inhibition and induces apoptosis in human glioblastoma cell lines and also inhibits the growth of xenografts of a human astrocytoma. In this study we investigate its effects on cell cycle control. Treatment of glioblastoma or gliosarcoma cells with CGP 41251 lead to a time and dose dependent increase of the percentage of cells in the G2-M phase of the cell cycle. This correlated with a decrease of CDC2- and CDK2-associated histone H1 kinase activities as well as a decrease in the cellular level of the CDC2 protein. The decrease of CDC2- associated histone H1 kinase activity was detected within 5 hours, and there was complete inhibition after 24 hours. Assays of mixtures of cell extracts obtained from cultures treated with CGP 41251, the inactive analog CGP 42700, or untreated cultures indicated that this decrease was due to a decrease in the CDC2 kinase itself rather than the accumulation of an inhibitor of this kinase. In vitro assays in which CGP 41251 was added directly to the in vitro assay system revealed marked inhibition of both CDC2- and CDK2-associated kinase activity at about 1 microM. Thus CGP 41251 inhibits CDC2- and CDK2-associated kinase activities both in vivo and in vitro. Its biologic effects may, therefore, not be due simply to inhibition of PKC. Since cells in the G2-M phase of the cell cycle are relatively more sensitive to killing by gamma- radiation than cells in other phases of the cell cycle, we carried out radiosensitization studies. We found that CGP 41251 was a radiation sensitizer in two glioblastoma cell lines. Therefore, this compound may be useful in the treatment of glioblastomas, possibly in combination with radiation therapy.

Changes in biochemical disease-free survival rates as a result of adoption of the consensus conference definition in patients with clinically localized prostate cancer treated with external-beam radiotherapy.

PURPOSE: The optimal definition of biochemical recurrence of prostate cancer after definitive radiotherapy remains elusive. Different institutions have developed their own definitions, and a consensus conference (CC) sponsored by the American Society for Therapeutic Radiology and Oncology has recently proposed another definition. This study compares the definition previously used at our institution with the definition proposed by the CC. METHODS: Two hundred and eight patients were treated for localized prostate cancer with conformal external-beam radiotherapy between 1989-1993 at our institution and followed for at least 24 months. Patients were categorized as failures according to our institutional definition and the CC definition. Our definition (CPMC) required two increases in serum prostate specific antigen (PSA) over at least a 3-month period with a final value of at least 1 ng/ml or a single value resulting in clinical intervention. The CC definition required three consecutive increases in PSA. This was modified to also consider those patients with one or two increases leading to clinical intervention as failures. Differences in the failure rates between the two definitions were evaluated and factors influencing these differences were explored. In an additional analysis, CC was modified such that patients with one or two PSA increases were censored at the time of the PSA prior to the increases (CC-II), rather than at the last PSA (CC). The median follow-up time was 31 months. RESULTS: There were 36 fewer failures according to CC (n = 96) compared with CPMC (n = 132) (p < 0.001). Twenty cases called failures by CPMC subsequently had a decrease in PSA ("false failures"). The other 16 patients have had two increases in PSA, but are awaiting their next follow-up visit to obtain a third PSA ("pending failures"). Analysis of factors predicting "pending failures" showed Gleason score to be the sole predictor of this change in status in multivariate analysis (p = 0.03) with patients with lower-grade tumors being more likely to change status (Gleason 2-6: 15% vs. Gleason 7-10: 1%). On the other hand, "false failures," compared to true failures, had a lower mean PSA nadir (1.7 ng/ml vs. 7.0 ng/ml, p < 0.001) and significantly smaller mean increases in PSA (1st increase: 0.6 ng/ml vs. 3.4 ng/ml, p = 0.006; 2nd increase: 0.4 ng/ml vs. 4.8 ng/ml, p = 0.002). In 85% (17 of 20) of these patients, at least one of the increases was < or = 0.3 ng/ml compared with 44% (42 of 96) of the true failures (p = 0.0008). CC-II resulted in a small decrease in BDFS rates compared with CC, but did not affect the overall difference between CC and CPMC. A modified definition that defines failure as two consecutive increases in PSA over 3 months, with a final value greater than 1.0 ng/ml and each increase being at least 0.3 ng/ml, or three consecutive increases would result in a "false" failure rate of only 3% (3 of 99) and identify 56% (54 of 96) of the true failures after only two PSA increases. CONCLUSION: The CPMC definition of two PSA increases can falsely identify patients as failures, particularly if the increases in PSA are small (i.e., < or = 0.3 ng/ml). The CC definition requiring three increases in PSA can falsely identify patients as disease-free when the time to failure is long relative to the follow-up time. We propose a that a definition that combines aspects of both definitions (two consecutive increases in PSA over 3 months, with a final value greater than 1.0 ng/ml and each increase being at least 0.3 ng/ml, or three consecutive increases) may be a better definition of biochemical failure.

Biologic classification as an alternative to anatomic staging for clinically localized prostate cancer: a proposal based on patients treated with external beam radiotherapy.

OBJECTIVES: The prognostic significance of clinical stage in patients with prostate cancer who are treated with external beam radiotherapy is unclear. This study evaluates multiple pretreatment factors, including clinical stage, to determine which are the best prognostic factors, and develops a classification system based on these factors. METHODS: All 249 evaluable patients with clinically localized adenocarcinoma of the prostate treated with definitive conformal external beam radiotherapy without androgen deprivation at our institution between 1989 and 1993 were analyzed. Clinical stage, serum PSA level, Gleason score, race, and history of transurethral resection of the prostate (TURP) were evaluated for their ability to predict biochemical disease-free survival (BDFS). Factors predictive of BDFS were then used to construct a classification system. The classification system was then analyzed for its ability to predict BDFS, distant metastases, local recurrence, and clinical disease free survival in univariate and multivariate analyses. Median follow-up was 27 months. RESULTS: Gleason score and PSA predicted BDFS in multivariate analysis (both P <0.0001), whereas clinical stage, race, and history of a TURP did not. These two biologic factors were combined into a four-level classification system. This classification system was analyzed together with Gleason score and PSA and was found to be the only predictor of BDFS on multivariate analysis (P <0.0001). In addition, this classification system was the only predictor of distant metastases in multivariate analysis (P <0.0001). CONCLUSIONS: The classification system derived herein based on the biologic factors of Gleason score and serum PSA levels is the sole predictor of distant metastases and biochemical recurrence for patients treated with definitive conformal external beam radiotherapy for clinically localized prostate cancer. This classification system may be useful when comparing competing therapies and stratifying patients in clinical trials, but requires validation from other institutions and other therapies prior to its widespread use.

Pulsed-dose-rate brachytherapy: design of convenient (daytime-only) schedules.

PURPOSE: To design pulsed-brachytherapy (PDR) protocols that are expected to be at least as clinically efficacious (in terms of both tumor control and late sequelae) as continuous low-dose-rate (CLDR) regimens, but that involve irradiation only during extended office hours. Both interstitial and intracavitary brachytherapy protocols are considered. METHODS AND MATERIALS: The linear quadratic formalism was used in which the late normal tissue damage and tumor control for one protocol relative to another are assumed to be determined primarily by the level of cellular survival. PDR schedules were designed in which pulses are delivered during "extended office hours" (8 A.M. to 8 P.M.) with no irradiation overnight. Generally, the proposed PDR regimes last the same number of treatment days as the corresponding CLDR regimen, but the PDR treatment lasts longer on the final day (i.e., until 8 P.M.). PDR doses were calculated such as to produce a tumor control which is equivalent to standard CLDR protocols, and the corresponding predicted late complication rate was compared with that for CLDR. Ranges of plausible values for the half-times of sublethal damage repair for tumors and for late-responding normal tissues were considered. RESULTS: As has been previously shown, the efficacy of PDR relative to CLDR depends considerably on the repair rates for sublethal damage repair. Clinical and experimental evidence suggests that average repair half-times for early effects (e.g., tumor control) are less than about a half hour, and for late sequelae are more than about an hour. If these estimates are correct, daytime PDR regimes can usually be designed which take the same number of days as the corresponding CLDR regimen, but have comparable or better therapeutic ratios than CLDR. CONCLUSION: Protocols for PDR can be designed to involve irradiation only during extended office hours, that are likely to result in clinical results comparable or better than CLDR, for any expected combination of the repair half-times of early- and late-responding tissues. The suggested protocols allow all of the advantages of a computerized remote-controlled afterloader while preserving the benefits of low dose rate. In addition, the protocols could allow the patient to go home overnight, or to stay overnight in an adjacent medical inn or hospital-associated hotel, rather than in a hospital bed-which could have major economic benefits. In such an economic situation, an extra treatment day for the daytime PDR could well be considered, which would virtually guarantee an improved clinical advantage relative to CLDR.

Re-examining the role of prostate-specific antigen density in predicting outcome for clinically localized prostate cancer.

OBJECTIVES: To evaluate the prognostic significance of prostate-specific antigen density (PSAD) in clinically localized prostate cancer and determine whether this index is independent of or superior to prostate-specific antigen (PSA) in predicting outcome of patients treated with external beam radiotherapy. METHODS: Between January 1989 and December 1993, 175 evaluable patients with clinically localized prostate cancer received definitive radiotherapy using computed tomography (CT)-guided conformal techniques. PSAD was defined as the ratio of the pretreatment serum PSA to the prostate volume measured from CT treatment planning scans by one investigator. All PSA values were determined using the Hybritech assay. Biochemical failure was defined as two consecutive elevations in PSA separated by at least 3 months and a final PSA value greater than 1 ng/mL. RESULTS: Multivariate analysis including PSA and Gleason score revealed both to be statistically significant predictors of biochemical disease-free survival (P = 0.048 and P < 0.001, respectively). PSAD did not achieve significance on regression analysis. A direct multivariate analysis including PSA and PSAD required dichotomization in order to reduce high correlation. This analysis demonstrated a relative risk (RR) for failure of 1.27 (NS) for high PSA versus low PSA compared with a RR of 1.20 (NS) for high PSAD versus low PSAD. A regression model containing all three variables indicated only the Gleason score as significant in predicting biochemical failure. CONCLUSIONS: These data do not suggest that PSAD is either an independent prognostic factor or a stronger discriminant of outcome than PSA in patients with clinically localized prostate cancer treated with definitive external beam radiotherapy. Larger patient numbers with longer follow-up data, use of a clinical end point, or an analysis restricted to the appropriate subgroup may demonstrate the utility of PSAD in the future.

Physician/patient-driven risk assignment in radiation oncology: reality or fancy?

PURPOSE: Treatment plan optimization in radiation oncology entails designing multiple x-ray beams to irradiate a tumor to a dose that will achieve locoregional control while minimizing normal tissue complications. For some anatomical sites, it is possible to estimate tumor control probabilities (TCP) and normal tissue complication probabilities (NTCP) as a function of radiation dose. Thus, treatment plan optimization can be based on biologic end points rather than on dose calculations alone. Given multiple plans with different NTCPs and TCPs, a tradeoff must be made between maximizing TCP and maintaining an acceptable NTCP. How do physicians reach these decisions? Can the process be quantified? Should patients participate in the process? METHODS AND MATERIALS: Physicians and patients were asked to rank a series of treatment plans having different combinations of TCP and NTCP. Responses were parametrized into a figure of merit (FM) equation which quantifies predilections of TCP and NTCP. RESULTS: Physician-based FM equations are site- and patient-specific. Variations exist among physicians, but treatment plan selection is often conservative in accordance with the primum non nocere dictum. FM equations generated from the responses of patients suggest that some patients may be willing to accept higher treatment toxicity in exchange for increased TCP. CONCLUSION: The term "optimized treatment plan" contains inherently subjective criteria which reflect one's willingness to accept treatment morbidity in exchange for probability of cure. These criteria may differ among patients and/or physicians. A quantifiable FM may permit the design of custom-made treatment plans that include physician and patient input.

Detection of circulating prostate carcinoma cells via an enhanced reverse transcriptase-polymerase chain reaction assay in patients with early stage prostate carcinoma. Independence from other pretreatment characteristics.

BACKGROUND: Circulating prostate cells can be detected in the venous blood of patients with clinically localized prostate carcinoma by applying reverse transcriptase-polymerase chain reaction (RT-PCR) techniques using primers specific for the prostate specific antigen (PSA) gene. This study evaluates whether the detection of circulating cells correlates with established prognostic factors, treatment, and pathologic stage. METHODS: Two hundred and twenty-seven patients with clinically localized adenocarcinoma of the prostate had an RT-PCR assay performed as part of their staging evaluation. No treatment decisions were made on the basis of the RT-PCR results. Of these, 156 patients were treated with radical prostatectomy (RP) and 71 with radical external beam radiotherapy (EBRT). Forty-eight patients were treated with hormonal therapy prior to RP (n = 39) or EBRT (n = 9). The prognostic factors analyzed for their relationship to RT-PCR were clinical stage, pretreatment serum PSA levels, Gleason score of the biopsy specimen, and Gleason score of the surgical specimen. An analysis of the relationship between treatment and RT-PCR results was also performed. Multivariate logistic regression analysis of predictors of RT-PCR positivity was performed as well. In addition, univariate and multivariate analyses of predictors of pathologic stage, including RT-PCR, were performed. RESULTS: Sixty-one patients (26.9%) had a positive RT-PCR assay. There was no relationship between clinical stage, pretreatment PSA, biopsy Gleason score, or surgical Gleason score and RT-PCR positivity. In univariate analysis, patients treated with RP had a higher rate of RT-PCR positivity than patients treated with EBRT (P = 0.054). However, in multivariate logistic regression analysis no factor, including treatment with RP, was a significant predictor of RT-PCR positivity. RT-PCR and pretreatment PSA predicted pathologic stage in univariate and multivariate analyses (P < 0.0001 and P = 0.002, respectively). CONCLUSIONS: The detection of circulating prostate cells using RT-PCR occurs in approximately 25% of early stage prostate carcinoma patients and is independent of other established prognostic factors. In addition, a positive RT-PCR assay is a strong predictor of pathologic upstaging in patients with clinically organ-confined disease.

Dosimetric considerations for catheter-based beta and gamma emitters in the therapy of neointimal hyperplasia in human coronary arteries.

PURPOSE: Recent data indicate that intraluminal irradiation of coronary arteries following balloon angioplasty reduces proliferation of smooth muscle cells, neointima formation, and restenosis. We present calculations for various isotopes and geometries in an attempt to identify suitable source designs for such treatments. METHODS AND MATERIALS: Analytical calculations of dose distributions and dose rates are presented for 192Ir, 125I, 103Pd, 32P, and 90Sr for use in intracoronary irradiation. The effects of source geometry and positioning accuracy are studied. RESULTS: Accurate source centering, high dose rate, well-defined treatment volume, and radiation safety are all of concern; 15-20 Gy are required to a length of 2-3 cm of vessel wall (2-4 mm diameter). Dose must be confined to the region of the angioplasty, with reduced doses to normal tissues. Beta emitters have radiation safety advantages, but may not have suitable ranges for treating large diameter vessels. Gamma emitters deliver larger doses to normal tissues and to staff. Low energy x-ray emitters such as 125I and 103Pd reduce these risks but are not available at high enough activities. The feasibility of injecting a radioactive liquid directly into the angioplasty balloon is also explored. CONCLUSIONS: Accurate source centering is found to be of great importance. If this can be accomplished, then high energy beta emitters such as 90Sr would be ideal sources. Otherwise, gamma emitters such as 192Ir may be optimal. A liquid beta source would have optimal geometry and dose distribution, but available sources, such as 32P are unsafe for use with available balloon catheters.

Inhibition of the growth of glioblastomas by CGP 41251, an inhibitor of protein kinase C, and by a phorbol ester tumor promoter.

Protein kinase C (PKC) plays a central role in signal transduction pathways that mediate the action of certain growth factors, tumor promoters, and cellular oncogenes. To explore whether PKC might be an appropriate target for the chemotherapy of human brain tumors, cell lines were established from five glioblastomas, one mixed gliosarcoma and glioblastoma, two astrocytomas, and one choroid plexus carcinoma. The staurosporine derivative CGP 41251, an inhibitor of PKC, inhibited cell proliferation in all nine cell lines with an IC50 in the range of 0.4 micrometer. Drug withdrawal and clonogenicity assays showed that CGP 41251 induced an irreversible growth arrest. Three cell lines were examined in detail: two human glioblastoma cell lines, GB-1 and GB-2, and one gliosarcoma cell line, GS-1. All of these three cell lines were highly aneuploid and displayed morphologies and immunohistochemical markers characteristic of the glial lineage. The compound 12-O-tetradecanoylphorbol-13-acetate (TPA), a tumor promoter and activator of PKC, also inhibited the growth of these cell lines. CGP 41251 in combination with TPA caused further growth inhibition. Cultures treated with CGP 41251 displayed an increase in the fraction of cells in G2-M, a decrease of cells in S phase, and no consistent effect on G0-G1. Immunohistochemical analyses demonstrated that growth inhibition by CGP 41251 was associated with the formation of giant nuclei with extensive fragmentation and apoptotic bodies. These effects of CGP 41251 were abrogated by withdrawal of serum from the medium or by exposure of these cells to aphidicolin, actinomycin D, cycloheximide, or TPA. In contrast to the effects seen with the glioblastoma cell lines, nontransformed astrocyte lines remained viable in the presence of 0.4 and 0.8 micrometer CGP 41251 and displayed only a slight increase in the fraction of giant nuclei with fragmentation. The antitumor activity of CGP 41251 was demonstrated in vivo against xenografts of the glioblastoma cell lines U87 MG and U373 MG. These findings suggest that CGP 41251 might be a useful agent for the treatment of glioblastomas.

Expression of immediate early genes after treatment of human astrocytoma cells with radiation and taxol.

PURPOSE: The promising chemotherapeutic agent, taxol, has been shown to sensitize the G18 line of human astrocytoma cells to ionizing radiation. The present studies were performed to identify specific changes in gene expression associated with this altered sensitivity. METHODS AND MATERIALS: The radioresistant, grade 3 human astrocytoma cell line, G18, was exposed for varying periods of time to treatment with taxol, tetradecanoyl phorbol acetate (TPA), serum, isoproterenol, dibutyryl cyclic adenosine monophosphate, or ionizing radiation alone or in combination with taxol pretreatment. Ribonucleic acid samples from the cells were monitored for the expression of a group of immediate early genes (IEGs), including c-fos, c-jun, TIS1, TIS7, TIS8, TIS11 and TIS21, by northern blot hybridization analysis. RESULTS: Transient immediate early gene induction was observed after treatment of G18 cells with tetradecanoyl phorbol acetate, serum, isoproterenol, or ionizing radiation, but not after treatment with taxol. Of the seven immediate early genes analyzed, all but TIS7 were found to be inducible by one or more of the treatments. Only TIS8 (also known as egr-1 or zif268) was significantly inducible by radiation, and this transient induction was decreased by at least four-fold by pretreatment for 24 hr with a dose of taxol that was previously shown to block 96.5% of the cells in G2/M and enhance radiosensitivity. CONCLUSION: The products of immediate early genes, which are induced transiently in cells in response to a variety of treatments, including growth factors, neurotransmitters, and irradiation with UV light or X rays, are thought to initiate a cascade of genetic responses to alterations in cellular environment. The present results demonstrate a dramatic attenuation in one immediate early gene response in association with a treatment that enhances radiosensitivity in a refractory human brain tumor line.