Brachytherapy
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Standard therapies for locally advanced prostate cancer have resulted in suboptimal disease control rates. A Phase I/II trial was designed for patients with positive seminal vesicle biopsies, prostate-specific antigen (PSA) >15 ng/ml, Gleason score > or =8 or clinical classification T2c-T3 to improve local control and to test the tolerance of the prostate to high-dose radiation by using neoadjuvant hormonal therapy, 103Pd brachytherapy, and conformal three-dimensional external beam radiation therapy (EBRT). This article outlines treatment-related morbidity and PSA response to this regimen and analyzes the effect of escalating doses of brachytherapy. ⋯ The preliminary results from this regimen show an improvement in PSA control for this group of locally advanced prostate cancer patients over more standard therapies. To maximize control while minimizing toxicity, doses of 65-70 Gy of 103Pd should be used when 59.4 Gy of three-dimensional EBRT is delivered. Longer follow-up will be needed to further substantiate these findings.
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To examine the relationship between calculated doses to the neurovascular bundles (NVBs) and the penile bulb (PB) and the development of erectile dysfunction (ED) after low-dose-rate prostate brachytherapy (LDRPB) alone. ⋯ In our experience, higher calculated doses to the NVB or PB are not associated with ED after LDRPB.
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Comparative Study
LDR vs. HDR brachytherapy for localized prostate cancer: the view from radiobiological models.
Permanent LDR brachytherapy and temporary HDR brachytherapy are competitive techniques for clinically localized prostate radiotherapy. Although a randomized trial will likely never be conducted comparing these two forms of brachytherapy, a comparative radiobiological modeling analysis proves useful in understanding some of their intrinsic differences, several of which could be exploited to improve outcomes. ⋯ Radiobiological models support the current clinical evidence for equivalent outcomes in localized prostate cancer with either LDR or HDR brachytherapy using current dose regimens. However, HDR brachytherapy dose escalation regimens might be able to achieve higher biologically effective doses of irradiation in comparison to LDR, and hence improved outcomes. This advantage over LDR would be amplified should prostate cancer possess a high sensitivity to dose fractionation (i.e., a low alpha/beta ratio) as the current evidence suggests.