PURPOSE: Significant regression of radiation (RT) -induced fibrosis (RIF) has been achieved after treatment combining pentoxifylline (PTX) and alpha-tocopherol (vitE). In this study, we focus on the maximum response, how long it takes to achieve response, and changes after treatment discontinuation. PATIENTS AND METHODS: Measurable superficial RIF was assessed in patients treated by RT for breast cancer in a long-treatment (24 to 48 months) PTX-vitE (LPE) group of 37 patients (47 RIFs) and in a short-treatment (6 to 12 months) PTX-vitE (SPE) group of seven patients (eight RIFs). Between April 1995 and April 2000, women were treated with a daily combination of PTX (800 mg) and VitE (1,000 IU). RESULTS: Combined PTX-vitE was continuously effective and resulted in exponential RIF surface area regression (-46% for LPE and -68% for SPE at 6 months, -58% for LPE and -69% for SPE at 12 months, -63% for LPE and -62% for SPE at 18 months, and -68% for LPE at 24 and 36 months). The mean estimated maximal treatment effect was 68% RIF surface area regression. The mean time to this effect was 24 months and was shorter (16 months) in more recent RIF (< 6 years since RT) than in older RIF (28 months; P = .0003). Symptom severity (Subjective Objective Medical Management and Analytic Evaluation score) was halved in both groups. After treatment discontinuation, mean RIF surface area at 1 year had increased by +40% in the SPE group (rebound) and +8.5% in the LPE group. CONCLUSION: Under combined PTX-vitE treatment, RIF regression was exponential, with a two-thirds maximum response after a mean of 2 years. There was a risk of a rebound effect if treatment was too short. Long treatment (>/= 3 years) is recommended in patients with severe RIF.
PURPOSE: Significant regression of radiation (RT) -induced fibrosis (RIF) has been achieved after treatment combining pentoxifylline (PTX) and alpha-tocopherol (vitE). In this study, we focus on the maximum response, how long it takes to achieve response, and changes after treatment discontinuation. PATIENTS AND METHODS: Measurable superficial RIF was assessed in patients treated by RT for breast cancer in a long-treatment (24 to 48 months) PTX-vitE (LPE) group of 37 patients (47 RIFs) and in a short-treatment (6 to 12 months) PTX-vitE (SPE) group of seven patients (eight RIFs). Between April 1995 and April 2000, women were treated with a daily combination of PTX (800 mg) and VitE (1,000 IU). RESULTS: Combined PTX-vitE was continuously effective and resulted in exponential RIF surface area regression (-46% for LPE and -68% for SPE at 6 months, -58% for LPE and -69% for SPE at 12 months, -63% for LPE and -62% for SPE at 18 months, and -68% for LPE at 24 and 36 months). The mean estimated maximal treatment effect was 68% RIF surface area regression. The mean time to this effect was 24 months and was shorter (16 months) in more recent RIF (< 6 years since RT) than in older RIF (28 months; P = .0003). Symptom severity (Subjective Objective Medical Management and Analytic Evaluation score) was halved in both groups. After treatment discontinuation, mean RIF surface area at 1 year had increased by +40% in the SPE group (rebound) and +8.5% in the LPE group. CONCLUSION: Under combined PTX-vitE treatment, RIF regression was exponential, with a two-thirds maximum response after a mean of 2 years. There was a risk of a rebound effect if treatment was too short. Long treatment (>/= 3 years) is recommended in patients with severe RIF.
Authors: Pataje G S Prasanna; Deepa Narayanan; Kory Hallett; Eric J Bernhard; Mansoor M Ahmed; Gregory Evans; Bhadrasain Vikram; Michael Weingarten; C Norman Coleman Journal: Radiat Res Date: 2015-08-18 Impact factor: 2.841