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Clinical Trial Summary

This project will test the effect of enalapril to mitigate the lung damage that can occur as a side effect of radiation therapy for lung cancer or other intrathoracic cancers. Thousands of Veterans develop lung cancer every year, and are treated by radiation therapy. Studies of lung radiation injury in laboratory animals show that with enalapril, investigators can significantly reduce the severity of radiation injury to the lung. Enalapril is FDA approved and in common use for treatment of hypertension, kidney disease, and heart failure. These studies will advance that work to human use. Successful mitigation of lung radiation damage will improve the quality of life in Veterans and non-Veterans who are treated for lung cancer by radiation, and may also improve cure rates of radiation therapy for lung cancer.


Clinical Trial Description

Aim 1: To test the benefit of enalapril, an angiotensin-converting-enzyme-inhibitor, to mitigate radiation pneumonitis and fibrosis in humans.

Subjects

Men and women undergoing radiation therapy for lung cancer or other intrathoracic cancers at the Baltimore the Milwaukee or Ann Arbor Veterans Affairs Hospital are eligible. Subjects will be recruited to this phase 2 trial after their diagnosis of cancer and after referral to Radiation Oncology for treatment. The existence of this study will be posted in the Radiation Oncology clinics. Dr Cohen, Dr Beth Gore, and Dr Michelle Mierzwa (co-investigators) and our study coordinators will ensure recruitment. The informed consent process will be done by Dr Cohen or Gore or Dr Mierzwa or the study coordinators. Subjects who require radiation therapy to attempt to cure or to palliate their disease will be eligible for this study. Subjects eligible for surgical resection and who do not need radiation therapy will not be eligible for this study. Subjects on ACE inhibitors, angiotensin blockers, or renin antagonists will be excluded. Use of other antihypertensives is not an exclusion criterion. There will be no inclusion or exclusion by race or ethnic origin. Women and minorities are eligible. Children are not eligible because children do not develop lung cancer. Previous surgery and past or current use of chemotherapy are not exclusions. Subjects will have a Karnofsky performance status >/=70, absolute neutrophils > 1000/mm^3, platelets > 75,000/mm^3, and hematocrit > 25%. Liver and kidney function tests will be within normal range and baseline blood pressure will be systolic > 110 mmHg sitting. Pregnant or nursing subjects are excluded and fertile patients will use contraception. Lung function tests including spirometry, lung volumes and diffusing capacity will be obtained as part of standard of care for patients prior to radiotherapy, but indices from lung function tests will not be a cause for exclusion.

The mean lung dose will be >/= 18 Gy and/or V20 >20%. Radiation will be delivered with standard fractionation schedule of 1.8 to 2 Gy per day, 5 days per week, without planned treatment breaks.

Experimental design

Radiation treatment starts at time 0, and is given to completion, as indicated. Enalapril or placebo are started after the first radiation treatment fraction and continued thereafter. The renin-angiotensin system is tested at time 0, at three weeks, and at the completion of radiation treatment. CT scanning is done at time 0 and every three months thereafter for the first two years. Median survival is expected to be 18 months.

Subjects will undergo therapeutic irradiation as indicated for clinical care. They will be enrolled to this masked, phase 2 trial at the start of radiation therapy (RT), stratified for cancer stage, then randomized to enalapril or identical-appearing placebo. Randomization will be done by the Department of Biostatistics, Medical College of Wisconsin, using random number tables; the center pharmacies will be notified of the assignment to enalapril or placebo. There will be no stratification by age, gender, lung cancer histology, or use of chemotherapy since these do not have a consistent relation with the occurrence of RP . Use of enalapril or placebo will not be known to the patients or their physicians during the time of study. The medical center pharmacy will stock and provide the study drug. Study drug, enalapril or placebo, will be started after the first fraction of the RT, at 2.5 mg by mouth once a day and increased to 10 mg/day in weekly increments as tolerated. Routine clinical care during the course of irradiation includes weekly or more frequent clinical assessment and vital signs. Blood testing for kidney function and potassium will occur within ten days after start of study drug. Additional patient visits will not occur for this study alone. Additional blood testing will occur in usual clinical care and will also be recorded. Routine care, independent of this study, includes CT scan chest imaging every three months for the first two years of follow-up. The study drug will be continued for life.

Endpoints for injury

The primary endpoint is symptomatic grade 2 or higher radiation pneumonitis, as defined by the established criteria, within the first 4 months of irradiation. The NCI Common Terminology Criteria Adverse Event (CTCAE) version 4.0 will be used to grade pulmonary toxicity. CTCAE is a worldwide standard for reporting adverse events from all modalities on cancer clinical trials. Pneumonitis is a new-onset and persistent cough requiring anti-tussive agents and or dyspnea with effort that is unexplained by other pulmonary illness. It may last for days to weeks. Severe cases may evolve to respiratory failure. Use of such patient-reported symptoms is strongly recommended for cancer-related clinical trials. Radiographic changes of RP occur in over half of subjects undergoing therapeutic thoracic irradiation; radiographic RP will be a secondary endpoint. Classic radiographic manifestations of RP are increased lung density within the radiation field within the first six months after radiation therapy that is not explained by infection or cancer. radiographic pneumonitis will be recorded by two investigators (Drs Gore and Antonescu-Turcu, EG, AAT), using the scale reported by Guckenberger. Investigators expect a radiographic rate of RP of 50%.

Investigators expect almost all surviving subjects to have fibrosis by CT scanning at 6 and 12 months, and will test this as another major endpoint. Radiation fibrosis in the lung is evident as scarring with volume loss and bronchiectasis within the radiation field at six months or more after radiation therapy, not explained by infection or cancer. radiographic fibrosis will be recorded and quantified by two investigators (EG, AAT). Reduction in diffusion capacity for carbon monoxide (DLCO) correlates with pulmonary radiation fibrosis. DLCO is obtained in all survivors at the 12 month time point, and will be compared to baseline values as an additional secondary endpoint. The occurrence of clinical grade 2 or higher RP, of radiographic RP and fibrosis as dichotomous variables, will be compared for the subjects on enalapril compared to those on placebo. For RP, any image showing RP will assign a subject to the RP group. For fibrosis, the last CT scan will be used.

Investigators will test quality of life as a secondary endpoint. The Functional Assessment of Cancer Therapy -lung (FACT-L version 4) will be used to assess Quality of Life (QoL). FACT-L contains four general (physical, social/family, emotional, and functional well being) and one lung cancer specific subscale. QoL will be assessed pretreatment, and at 12 months post treatment. Use of patient-reported data is strongly recommended for cancer-related clinical trials.

Aim 2: To test the mechanism of mitigation by enalapril

Subjects These are the same subjects as in aim 1.

Experimental design Investigators will test the major components of the renin-angiotensin system; angiotensinogen, plasma renin activity, and angiotensin II (ang II). These will be measured at baseline, at three weeks after the start of irradiation, and at the completion of irradiation. Investigators will test their mechanistic involvement by their change with use of enalapril, in particular whether the benefit of enalapril is correlated with its effect to lower the plasma ang II levels. Other components of the RAS, including angiotensin (1-7), aldosterone, AcSDKP, and bradykinin will not be tested because experimental studies have not shown them to be relevant to mitigation of normal tissue radiation injury.

Baseline elevation of one or more of these RAS components, compared to known levels in the normal population, may correlate with development of RP and or fibrosis in the control, placebo group. This may permit better focused use of mitigators in the future, in only those at risk.

Enalapril, by inhibition of ACE, will reduce plasma ang II and lead to a feedback elevation of PRA. This will confirm adherence to drug therapy and may also correlate with its benefit. Elevation of PRA in subjects on enalapril, but without mitigation benefit, will show that it is ineffective, despite its adequate bioavailability.

Aim 3: To confirm that enalapril does not adversely affect cancer treatment outcomes.

Subjects These are the same subjects as in aim 1.

Experimental design Investigators will compare cancer recurrence and cancer-related survival in subjects on enalapril versus placebo. Cancer recurrence will be assessed clinically, as confirmed by CT imaging and or histology. The RECIST criteria will be used. Recurrence rates and survival will be assessed by interim safety analyses during the study, and finally at its completion. In the statistical analysis, investigators will account for the effects of interim sampling for the safety analyses, and will adjust for patient and disease characteristics as well as missing data. A benefit of enalapril on RP may enhance patient survival. An adverse effect of enalapril on survival will stop this study. But a cohort of 162 Veterans showed no difference in patient survival for those on ACE inhibitor compared to those not on ACE inhibitor. Thus, investigators do not expect adverse changes in recurrence rates or patient survival.

Expected results, potential problems, and long-term impact

Investigators expect that subjects on enalapril will have significantly less clinical and radiographic RP and fibrosis, compared to those on placebo. Investigators expect that subjects on placebo who develop RP and or fibrosis may have baseline elevation of AGT and PRA compared to those who don't develop RP and or fibrosis, and that the mitigation benefit of enalapril will correlate with its effect to increase the PRA and reduce the plasma ang II levels. Investigators expect that enalapril will not increase cancer-related mortality, and may even enhance overall patient survival through mitigation of radiation lung injury. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT01754909
Study type Interventional
Source VA Office of Research and Development
Contact
Status Completed
Phase Phase 2
Start date November 1, 2013
Completion date April 1, 2018

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