Evaluation of Acute Toxicities of Hypofractionated Radiotherapy Using Volumetric Arc Therapy

Article Type
Changed
Tue, 12/13/2016 - 10:27
Abstract 39: 2016 AVAHO Meeting

Purpose: Traditional radiation therapy for prostate cancer is given over 39 – 42 daily fractions. There have been increasing efforts to decrease the treatment time by using hypofractionated radiotherapy. The purpose of this retrospective study is to evaluate the acute toxicities (RTOG definition) in prostate cancer patients when using hypofractionated radiotherapy.

Methods: 42 patients were treated with 25 daily fractions from 2014 – 2015. Patient, tumor, and dosimetric factors (rectal and bladder min dose, max dose, mean dose, median dose, volume, V31, V50, as well as PTV max, min, mean, and median doses) were analyzed to find associations between acute (< 90 days) GU and GI toxicities.

Results: The median age was 68 with a median follow-up of 18 months. There were 2 low, 12 intermediate, and 18 high risk patients (NCCN criteria). Dose fractionations schemas used were 267 cGy (n = 6), 270 cGy (n = 14); 275 cGy (n = 17), and some high risk patients received a simultaneous integrated boost (SIB) of 300 cGy (n = 5) to a smaller volume of the prostate. 13 patients received pelvic irradiation via SIB at 200 cGy per fraction. 10 patients received no androgen deprivation therapy (ADT), 15 received short term ADT (≤ 6 months), and 17 received long term ADT (> 6 months). Grade 0 acute GU toxicity occurred in 12 patients (29%), grade 1 in 7 (17%), grade 2 in 22 (52%), and grade 3 in 1 (2%). Grade 0 acute GI toxicity occurred in 30 patients (71%), grade 1 in 5 (12%), grade 2 in 7 (17), and no grade 3 toxicity. There were no grade 4 or 5 toxicities. On univariate analysis, factors positively associated with acute GU toxicity were AUA score (P = .02) and PTV max dose (P = .04); acute GI were pelvic radiation (P = .04) and rectal min dose (P = .02). These factors were not significant on multivariate analysis.

Conclusion: Volumetric Arc Therapy based hypofractionated radiotherapy was well tolerated and is an acceptable treatment for prostate cancer patients. Larger and adequately powered studies are needed to validate these findings.

Publications
Topics
Sections
Abstract 39: 2016 AVAHO Meeting
Abstract 39: 2016 AVAHO Meeting

Purpose: Traditional radiation therapy for prostate cancer is given over 39 – 42 daily fractions. There have been increasing efforts to decrease the treatment time by using hypofractionated radiotherapy. The purpose of this retrospective study is to evaluate the acute toxicities (RTOG definition) in prostate cancer patients when using hypofractionated radiotherapy.

Methods: 42 patients were treated with 25 daily fractions from 2014 – 2015. Patient, tumor, and dosimetric factors (rectal and bladder min dose, max dose, mean dose, median dose, volume, V31, V50, as well as PTV max, min, mean, and median doses) were analyzed to find associations between acute (< 90 days) GU and GI toxicities.

Results: The median age was 68 with a median follow-up of 18 months. There were 2 low, 12 intermediate, and 18 high risk patients (NCCN criteria). Dose fractionations schemas used were 267 cGy (n = 6), 270 cGy (n = 14); 275 cGy (n = 17), and some high risk patients received a simultaneous integrated boost (SIB) of 300 cGy (n = 5) to a smaller volume of the prostate. 13 patients received pelvic irradiation via SIB at 200 cGy per fraction. 10 patients received no androgen deprivation therapy (ADT), 15 received short term ADT (≤ 6 months), and 17 received long term ADT (> 6 months). Grade 0 acute GU toxicity occurred in 12 patients (29%), grade 1 in 7 (17%), grade 2 in 22 (52%), and grade 3 in 1 (2%). Grade 0 acute GI toxicity occurred in 30 patients (71%), grade 1 in 5 (12%), grade 2 in 7 (17), and no grade 3 toxicity. There were no grade 4 or 5 toxicities. On univariate analysis, factors positively associated with acute GU toxicity were AUA score (P = .02) and PTV max dose (P = .04); acute GI were pelvic radiation (P = .04) and rectal min dose (P = .02). These factors were not significant on multivariate analysis.

Conclusion: Volumetric Arc Therapy based hypofractionated radiotherapy was well tolerated and is an acceptable treatment for prostate cancer patients. Larger and adequately powered studies are needed to validate these findings.

Purpose: Traditional radiation therapy for prostate cancer is given over 39 – 42 daily fractions. There have been increasing efforts to decrease the treatment time by using hypofractionated radiotherapy. The purpose of this retrospective study is to evaluate the acute toxicities (RTOG definition) in prostate cancer patients when using hypofractionated radiotherapy.

Methods: 42 patients were treated with 25 daily fractions from 2014 – 2015. Patient, tumor, and dosimetric factors (rectal and bladder min dose, max dose, mean dose, median dose, volume, V31, V50, as well as PTV max, min, mean, and median doses) were analyzed to find associations between acute (< 90 days) GU and GI toxicities.

Results: The median age was 68 with a median follow-up of 18 months. There were 2 low, 12 intermediate, and 18 high risk patients (NCCN criteria). Dose fractionations schemas used were 267 cGy (n = 6), 270 cGy (n = 14); 275 cGy (n = 17), and some high risk patients received a simultaneous integrated boost (SIB) of 300 cGy (n = 5) to a smaller volume of the prostate. 13 patients received pelvic irradiation via SIB at 200 cGy per fraction. 10 patients received no androgen deprivation therapy (ADT), 15 received short term ADT (≤ 6 months), and 17 received long term ADT (> 6 months). Grade 0 acute GU toxicity occurred in 12 patients (29%), grade 1 in 7 (17%), grade 2 in 22 (52%), and grade 3 in 1 (2%). Grade 0 acute GI toxicity occurred in 30 patients (71%), grade 1 in 5 (12%), grade 2 in 7 (17), and no grade 3 toxicity. There were no grade 4 or 5 toxicities. On univariate analysis, factors positively associated with acute GU toxicity were AUA score (P = .02) and PTV max dose (P = .04); acute GI were pelvic radiation (P = .04) and rectal min dose (P = .02). These factors were not significant on multivariate analysis.

Conclusion: Volumetric Arc Therapy based hypofractionated radiotherapy was well tolerated and is an acceptable treatment for prostate cancer patients. Larger and adequately powered studies are needed to validate these findings.

Publications
Publications
Topics
Article Type
Sections
Citation Override
Fed Pract. 2016 September;33 (supp 8):33S
Disallow All Ads

Alemtuzumab May Be Superior to Interferon Beta-1a in Patients With MS—Results From the CARE-MS II Study

Article Type
Changed
Wed, 01/16/2019 - 15:53
Display Headline
Alemtuzumab May Be Superior to Interferon Beta-1a in Patients With MS—Results From the CARE-MS II Study

NEW ORLEANS—Compared with interferon beta-1a, alemtuzumab reduced the annualized relapse rate by 49% among patients with relapsing–remitting multiple sclerosis (MS) who had relapsed on previous therapy, according to research presented at the 64th Annual Meeting of the American Academy of Neurology. Approximately 65% of patients taking alemtuzumab were relapse-free, compared with 47% of patients taking interferon beta-1a, per results from the phase III Comparison of Alemtuzumab and Rebif Efficacy in Multiple Sclerosis II (CARE-MS II) study.

In addition, patients with relapsing–remitting MS taking alemtuzumab had a 12.7% risk of sustained accumulation of disability, while patients taking interferon had a 21% risk, said Jeffrey A. Cohen, MD, Director of Experimental Therapeutics at the Cleveland Clinic Mellen MS Center. This reduction represents a hazard ratio of 0.58, or 42% treatment effect, he noted.

During a two-year period, the average Expanded Disability Status Scale (EDSS) score decreased by 0.17 steps among patients taking alemtuzumab, compared with an increase of 0.24 steps among patients taking interferon. The net difference of 0.41 EDSS steps between the two groups after two years was statistically significant, said Dr. Cohen, as were the differences between each group’s scores at baseline and at 12 months.

Patients receiving alemtuzumab also experienced a 29% chance of sustained reduction of disability. Patients receiving interferon, in contrast, experienced a 13% chance of this outcome.

Comparing the Same Drugs in a New Patient Population
The results of the study were consistent with those of a previous phase III trial—Comparison of Alemtuzumab and Rebif Efficacy in Multiple Sclerosis I (CARE-MS I) (see sidebar). The two-year CARE-MS II trial, conducted by Dr. Cohen and colleagues, compared the effects of alemtuzumab and interferon beta-1a in patients who had relapsed on prior therapy. The study’s two primary efficacy end points were relapse rate and time to six-month sustained accumulation of disability. Additional end points included EDSS change from baseline and sustained reduction of disability, MRI lesion analyses, and normalized whole-brain volume, as measured by brain parenchymal fraction.

Eligible patients ages 18 to 55 were randomized to receive either 12 mg of alemtuzumab for five days at month 0 and for three days at month 12, or 44 µg of subcutaneous interferon beta-1a three times per week. To prevent side effects, the alemtuzumab patients received three days of IV methylprednisolone with each infusion course, and the same therapy was administered annually to the interferon patients. “Because of the distinct mode of administration and side-effect profiles, we felt that blinding of participants and treating clinicians was not feasible,” said Dr. Cohen.

The patients’ average EDSS score was 2.7, and participants had had an average of 1.5 relapses in the previous year. Approximately 80% of patients had previously received interferon therapy, 30% had received glatiramer acetate, and 20% had received both therapies.

Alemtuzumab Reduces the Number of T2 Lesions
Approximately 46% of patients receiving alemtuzumab had new or enlarging T2 lesions over two years, compared with 68% of patients receiving interferon. Although T2 lesion volume decreased in both patient groups, the difference was not statistically significant. Patients taking alemtuzumab experienced 23% less brain volume loss over two years, as measured by brain parenchymal fraction, compared with patients taking interferon beta-1a.

The overall incidence of adverse events was similar in both groups, as was the incidence of serious adverse events. Infections such as nasopharyngitis, sinusitis, and upper respiratory infection were somewhat more common among patients receiving alemtuzumab, as were serious infections such as pneumonia, appendicitis, and herpes zoster.

“This study showed superior efficacy of alemtuzumab, compared with interferon beta-1a, across multiple outcomes,” said Dr. Cohen. “This is now the third study demonstrating superior efficacy of alemtuzumab, and it’s important to note [that] all three of those studies were against an active comparator—subcutaneous interferon beta-1a—which itself is effective against relapses, disability, and MRI. The adverse event profile was consistent with [that of] previous studies, and a comprehensive monitoring program was successful in early detection, facilitating early treatment,” he concluded.


—Erik Greb

To hear an audiocast related to this news article, please click here.

To read a commentary on this news article, please click here.

References

Suggested Reading
Coles AJ, Fox E, Vladic A, et al. Alemtuzumab more effective than interferon b-1a at 5-year follow-up of CAMMS223 Clinical Trial. Neurology. 2012;78(14):1069-1078.
Coles AJ, Fox E, Vladic A, et al. Alemtuzumab versus interferon beta-1a in early relapsing-remitting multiple sclerosis: post-hoc and subset analyses of clinical efficacy outcomes. Lancet Neurol. 2011;10(4):338-348.
Hill-Cawthorne GA, Button T, Tuohy O, et al. Long term lymphocyte reconstitution after alemtuzumab treatment of multiple sclerosis. J Neurol Neurosurg Psychiatry. 2012;83(3):298-304.

Author and Disclosure Information

Patients who received alemtuzumab had lower relapse rates, reduced disability, and decreased brain-volume loss, compared with patients who received interferon beta-1a.

Issue
Neurology Reviews - 20(6)
Publications
Topics
Page Number
6, 7
Legacy Keywords
alemtuzumab, interferon beta-1a, multiple sclerosis, Jeffrey A. Cohen, erik greb, neurology reviewsalemtuzumab, interferon beta-1a, multiple sclerosis, Jeffrey A. Cohen, erik greb, neurology reviews
Author and Disclosure Information

Patients who received alemtuzumab had lower relapse rates, reduced disability, and decreased brain-volume loss, compared with patients who received interferon beta-1a.

Author and Disclosure Information

Patients who received alemtuzumab had lower relapse rates, reduced disability, and decreased brain-volume loss, compared with patients who received interferon beta-1a.

NEW ORLEANS—Compared with interferon beta-1a, alemtuzumab reduced the annualized relapse rate by 49% among patients with relapsing–remitting multiple sclerosis (MS) who had relapsed on previous therapy, according to research presented at the 64th Annual Meeting of the American Academy of Neurology. Approximately 65% of patients taking alemtuzumab were relapse-free, compared with 47% of patients taking interferon beta-1a, per results from the phase III Comparison of Alemtuzumab and Rebif Efficacy in Multiple Sclerosis II (CARE-MS II) study.

In addition, patients with relapsing–remitting MS taking alemtuzumab had a 12.7% risk of sustained accumulation of disability, while patients taking interferon had a 21% risk, said Jeffrey A. Cohen, MD, Director of Experimental Therapeutics at the Cleveland Clinic Mellen MS Center. This reduction represents a hazard ratio of 0.58, or 42% treatment effect, he noted.

During a two-year period, the average Expanded Disability Status Scale (EDSS) score decreased by 0.17 steps among patients taking alemtuzumab, compared with an increase of 0.24 steps among patients taking interferon. The net difference of 0.41 EDSS steps between the two groups after two years was statistically significant, said Dr. Cohen, as were the differences between each group’s scores at baseline and at 12 months.

Patients receiving alemtuzumab also experienced a 29% chance of sustained reduction of disability. Patients receiving interferon, in contrast, experienced a 13% chance of this outcome.

Comparing the Same Drugs in a New Patient Population
The results of the study were consistent with those of a previous phase III trial—Comparison of Alemtuzumab and Rebif Efficacy in Multiple Sclerosis I (CARE-MS I) (see sidebar). The two-year CARE-MS II trial, conducted by Dr. Cohen and colleagues, compared the effects of alemtuzumab and interferon beta-1a in patients who had relapsed on prior therapy. The study’s two primary efficacy end points were relapse rate and time to six-month sustained accumulation of disability. Additional end points included EDSS change from baseline and sustained reduction of disability, MRI lesion analyses, and normalized whole-brain volume, as measured by brain parenchymal fraction.

Eligible patients ages 18 to 55 were randomized to receive either 12 mg of alemtuzumab for five days at month 0 and for three days at month 12, or 44 µg of subcutaneous interferon beta-1a three times per week. To prevent side effects, the alemtuzumab patients received three days of IV methylprednisolone with each infusion course, and the same therapy was administered annually to the interferon patients. “Because of the distinct mode of administration and side-effect profiles, we felt that blinding of participants and treating clinicians was not feasible,” said Dr. Cohen.

The patients’ average EDSS score was 2.7, and participants had had an average of 1.5 relapses in the previous year. Approximately 80% of patients had previously received interferon therapy, 30% had received glatiramer acetate, and 20% had received both therapies.

Alemtuzumab Reduces the Number of T2 Lesions
Approximately 46% of patients receiving alemtuzumab had new or enlarging T2 lesions over two years, compared with 68% of patients receiving interferon. Although T2 lesion volume decreased in both patient groups, the difference was not statistically significant. Patients taking alemtuzumab experienced 23% less brain volume loss over two years, as measured by brain parenchymal fraction, compared with patients taking interferon beta-1a.

The overall incidence of adverse events was similar in both groups, as was the incidence of serious adverse events. Infections such as nasopharyngitis, sinusitis, and upper respiratory infection were somewhat more common among patients receiving alemtuzumab, as were serious infections such as pneumonia, appendicitis, and herpes zoster.

“This study showed superior efficacy of alemtuzumab, compared with interferon beta-1a, across multiple outcomes,” said Dr. Cohen. “This is now the third study demonstrating superior efficacy of alemtuzumab, and it’s important to note [that] all three of those studies were against an active comparator—subcutaneous interferon beta-1a—which itself is effective against relapses, disability, and MRI. The adverse event profile was consistent with [that of] previous studies, and a comprehensive monitoring program was successful in early detection, facilitating early treatment,” he concluded.


—Erik Greb

To hear an audiocast related to this news article, please click here.

To read a commentary on this news article, please click here.

NEW ORLEANS—Compared with interferon beta-1a, alemtuzumab reduced the annualized relapse rate by 49% among patients with relapsing–remitting multiple sclerosis (MS) who had relapsed on previous therapy, according to research presented at the 64th Annual Meeting of the American Academy of Neurology. Approximately 65% of patients taking alemtuzumab were relapse-free, compared with 47% of patients taking interferon beta-1a, per results from the phase III Comparison of Alemtuzumab and Rebif Efficacy in Multiple Sclerosis II (CARE-MS II) study.

In addition, patients with relapsing–remitting MS taking alemtuzumab had a 12.7% risk of sustained accumulation of disability, while patients taking interferon had a 21% risk, said Jeffrey A. Cohen, MD, Director of Experimental Therapeutics at the Cleveland Clinic Mellen MS Center. This reduction represents a hazard ratio of 0.58, or 42% treatment effect, he noted.

During a two-year period, the average Expanded Disability Status Scale (EDSS) score decreased by 0.17 steps among patients taking alemtuzumab, compared with an increase of 0.24 steps among patients taking interferon. The net difference of 0.41 EDSS steps between the two groups after two years was statistically significant, said Dr. Cohen, as were the differences between each group’s scores at baseline and at 12 months.

Patients receiving alemtuzumab also experienced a 29% chance of sustained reduction of disability. Patients receiving interferon, in contrast, experienced a 13% chance of this outcome.

Comparing the Same Drugs in a New Patient Population
The results of the study were consistent with those of a previous phase III trial—Comparison of Alemtuzumab and Rebif Efficacy in Multiple Sclerosis I (CARE-MS I) (see sidebar). The two-year CARE-MS II trial, conducted by Dr. Cohen and colleagues, compared the effects of alemtuzumab and interferon beta-1a in patients who had relapsed on prior therapy. The study’s two primary efficacy end points were relapse rate and time to six-month sustained accumulation of disability. Additional end points included EDSS change from baseline and sustained reduction of disability, MRI lesion analyses, and normalized whole-brain volume, as measured by brain parenchymal fraction.

Eligible patients ages 18 to 55 were randomized to receive either 12 mg of alemtuzumab for five days at month 0 and for three days at month 12, or 44 µg of subcutaneous interferon beta-1a three times per week. To prevent side effects, the alemtuzumab patients received three days of IV methylprednisolone with each infusion course, and the same therapy was administered annually to the interferon patients. “Because of the distinct mode of administration and side-effect profiles, we felt that blinding of participants and treating clinicians was not feasible,” said Dr. Cohen.

The patients’ average EDSS score was 2.7, and participants had had an average of 1.5 relapses in the previous year. Approximately 80% of patients had previously received interferon therapy, 30% had received glatiramer acetate, and 20% had received both therapies.

Alemtuzumab Reduces the Number of T2 Lesions
Approximately 46% of patients receiving alemtuzumab had new or enlarging T2 lesions over two years, compared with 68% of patients receiving interferon. Although T2 lesion volume decreased in both patient groups, the difference was not statistically significant. Patients taking alemtuzumab experienced 23% less brain volume loss over two years, as measured by brain parenchymal fraction, compared with patients taking interferon beta-1a.

The overall incidence of adverse events was similar in both groups, as was the incidence of serious adverse events. Infections such as nasopharyngitis, sinusitis, and upper respiratory infection were somewhat more common among patients receiving alemtuzumab, as were serious infections such as pneumonia, appendicitis, and herpes zoster.

“This study showed superior efficacy of alemtuzumab, compared with interferon beta-1a, across multiple outcomes,” said Dr. Cohen. “This is now the third study demonstrating superior efficacy of alemtuzumab, and it’s important to note [that] all three of those studies were against an active comparator—subcutaneous interferon beta-1a—which itself is effective against relapses, disability, and MRI. The adverse event profile was consistent with [that of] previous studies, and a comprehensive monitoring program was successful in early detection, facilitating early treatment,” he concluded.


—Erik Greb

To hear an audiocast related to this news article, please click here.

To read a commentary on this news article, please click here.

References

Suggested Reading
Coles AJ, Fox E, Vladic A, et al. Alemtuzumab more effective than interferon b-1a at 5-year follow-up of CAMMS223 Clinical Trial. Neurology. 2012;78(14):1069-1078.
Coles AJ, Fox E, Vladic A, et al. Alemtuzumab versus interferon beta-1a in early relapsing-remitting multiple sclerosis: post-hoc and subset analyses of clinical efficacy outcomes. Lancet Neurol. 2011;10(4):338-348.
Hill-Cawthorne GA, Button T, Tuohy O, et al. Long term lymphocyte reconstitution after alemtuzumab treatment of multiple sclerosis. J Neurol Neurosurg Psychiatry. 2012;83(3):298-304.

References

Suggested Reading
Coles AJ, Fox E, Vladic A, et al. Alemtuzumab more effective than interferon b-1a at 5-year follow-up of CAMMS223 Clinical Trial. Neurology. 2012;78(14):1069-1078.
Coles AJ, Fox E, Vladic A, et al. Alemtuzumab versus interferon beta-1a in early relapsing-remitting multiple sclerosis: post-hoc and subset analyses of clinical efficacy outcomes. Lancet Neurol. 2011;10(4):338-348.
Hill-Cawthorne GA, Button T, Tuohy O, et al. Long term lymphocyte reconstitution after alemtuzumab treatment of multiple sclerosis. J Neurol Neurosurg Psychiatry. 2012;83(3):298-304.

Issue
Neurology Reviews - 20(6)
Issue
Neurology Reviews - 20(6)
Page Number
6, 7
Page Number
6, 7
Publications
Publications
Topics
Article Type
Display Headline
Alemtuzumab May Be Superior to Interferon Beta-1a in Patients With MS—Results From the CARE-MS II Study
Display Headline
Alemtuzumab May Be Superior to Interferon Beta-1a in Patients With MS—Results From the CARE-MS II Study
Legacy Keywords
alemtuzumab, interferon beta-1a, multiple sclerosis, Jeffrey A. Cohen, erik greb, neurology reviewsalemtuzumab, interferon beta-1a, multiple sclerosis, Jeffrey A. Cohen, erik greb, neurology reviews
Legacy Keywords
alemtuzumab, interferon beta-1a, multiple sclerosis, Jeffrey A. Cohen, erik greb, neurology reviewsalemtuzumab, interferon beta-1a, multiple sclerosis, Jeffrey A. Cohen, erik greb, neurology reviews
Article Source

PURLs Copyright

Inside the Article