International journal of radiation oncology, biology, physics
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Int. J. Radiat. Oncol. Biol. Phys. · Dec 1997
Combined castration and fractionated radiotherapy in an experimental prostatic adenocarcinoma.
The present study using the Dunning R3327-PAP rat prostatic adenocarcinoma model was designed to study the effect on tumor growth of castration prior to or after irradiation with 20-25 Gy as compared with either irradiation or castration alone. ⋯ In combination with suboptimal irradiation neoadjuvant androgen deprivation was more inhibitory to rat prostatic adenocarcinoma regrowth than adjuvant androgen deprivation. Irradiation with suboptimal doses combined with castration may cause an earlier relapse to androgen-independent tumor growth than castration alone.
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Int. J. Radiat. Oncol. Biol. Phys. · Nov 1997
Concomitant infusion cisplatin and hyperfractionated radiotherapy for locally advanced nasopharyngeal and paranasal sinus tumors.
This is a prospective study to improve the therapeutic ratio in the treatment of patients with locally advanced nasopharyngeal and paranasal sinus tumors by using split-course concomitant infusion cisplatin chemotherapy and hyperfractionated radiotherapy. ⋯ Concomitant infusion cisplatinum with hyperfractionated radiation improved tumor control, but did not increase normal tissue injury. Acute reactions were minimized by splitting the treatment with a 1- to 2-week break after each 2 weeks of radiation treatment. Late complications were not increased by using a hyperfractionated radiation regimen. The local failure rate was only 18% (3 of 17 patients), but the distant failure rate was 35% (6 patients). Further investigation is needed to prove if adjuvant chemotherapy after concomitant chemoradiation improves survival by decreasing the distant failure in such advanced cases.
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Int. J. Radiat. Oncol. Biol. Phys. · Nov 1997
Cost benefit of emerging technology in localized carcinoma of the prostate.
In a health care environment strongly concerned with cost containment, cost-benefit studies of new technology must include analyses of loco-regional tumor control, morbidity, impact on quality of life, and financial considerations. ⋯ Three-dimensional CRT irradiated less bladder and rectum volume than SRT; CRT initial reimbursement was 28% higher than SRT and 12% higher than radical prostatectomy. Because of projected better local tumor control, average total cost of treating a patient with 3D CRT or radical prostatectomy is equivalent to cost of SRT. Treatment morbidity was lower with 3D CRT. Our findings reflect an overall benefit with 3D CRT as a new promising technology in treatment of localized prostate cancer. Dose-escalation studies may enhance its efficacy and cost benefit.
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Int. J. Radiat. Oncol. Biol. Phys. · Nov 1997
Pulsed-dose-rate brachytherapy: design of convenient (daytime-only) schedules.
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. ⋯ 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.
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Int. J. Radiat. Oncol. Biol. Phys. · Nov 1997
Conservative surgery and radiotherapy for early-stage breast cancer using a lung density correction: the University of Michigan experience.
Although an abundance of reports detail the successful use of definitive radiotherapy of the breast in the treatment in Stage I or II breast cancer, little data have been published concerning the use of lung density correction and its effect upon long-term outcome. As it has been the practice at the University of Michigan to routinely use lung density correction in the dose calculations to the breast, we retrospectively analyzed our results for local control, relapse-free, and overall survival. ⋯ Lung density correction results in rates of local control, disease-free, and overall survival at 5 years that compare favorably with series using noncorrected unit density calculations. While we will continue to update our results with increasing follow-up, our 5-year data indicate that the use of lung-density correction for dosimetric accuracy does not compromise local control.