User login
Development of a press release from the University of Oxford, England.
A team of scientists from the University of Oxford, the Francis Crick Institute, and University College London (UCL) will receive funding from the Cancer Research UK and the CRIS Cancer Foundation.
The LungVax vaccine is based on technology similar to that used in the creation of the successful Oxford/AstraZeneca COVID-19 vaccine and will carry a DNA strand that trains the immune system to recognize the neoantigens that indicate abnormal lung cancer cells and then activate the immune system to kill these cells and stop the cancer, according to the statement.
Initially, scientists are working to develop a vaccine that triggers an immune response in the lab setting. If successful, the vaccine will move directly into a clinical trial. “If the subsequent early trial delivers promising results, the vaccine could then be scaled up to bigger trials for people at high risk of lung cancer,” according to the release.
Help for High-Risk Patients
Lung cancer is diagnosed in approximately 48,000 individuals in the United Kingdom each year, and the average 10-year survival is only 10%, Tim Elliott, MD, professor of immuno-oncology at the University of Oxford and lead researcher on the LungVax project, said in an interview. Nearly three-quarters of the 35,000 annual deaths are preventable by quitting smoking, which remains the best risk reduction strategy to date, he said. However, “an intervention such as a vaccine, given when people are healthy and are more likely to have a strong immune system, could benefit many thousands per year in the UK and 1.8 million patients worldwide,” he said.
Preliminary Trial Plans
The initial trial of the vaccine is a collaboration between Oxford University, UCL, and the Francis Crick Institute, Dr. Elliott said. The trial is a culmination of research into the biology and genetics of lung cancer at UCL and vaccine design research at the University of Oxford.
“We are at a very early stage of the program, which will develop over the next 6 years if all goes to plan,” said Dr. Elliott. The vaccine is designed on the basis of shared lung cancer antigens and packaged into the ChAdOx delivery system that proved successful as the Oxford-AstraZeneca COVID-19 vaccine, he said.
“We intend to vaccinate individuals who have had curative surgery for their lung cancer after being diagnosed with a very early stage of the disease,” Dr. Elliott said.
Challenges to vaccine development include knowing whether there is a clinical benefit, Dr. Elliott noted. “Our clinical trial is calculated to show up to 15% reduction in risk over 3-5 years, but only long-term follow-up will really tell us whether the immune responses we see to the vaccine within the first few weeks will have a long-term effect,” he emphasized.
In clinical practice, “these people are cancer-free and healthy after surgery,” said Dr. Elliott. However, “they are at a high risk of recurrence; 30%-70% of ex-patients will develop new cancer in their lifetime and in the majority of cases that will happen within 2 years after surgery,” he said. “We think that vaccinating them against common lung cancer antigens could reduce this risk significantly and remove some of the uncertainty that they live with after their operation.”
Vaccine Has Potential for Immense Impact
Lung cancer remains one of the most frequently diagnosed cancers. “In the past few decades, public health measures including tobacco cessation and lung cancer screening have contributed to the reduction of lung cancer incidence and improved survival in high-income countries, but lung cancer continues to be the leading cause of cancer-related deaths worldwide,” Saadia A. Faiz, MD, a member of the CHEST Physician editorial board, said in an interview.
“Further, new cancer diagnoses continue to increase in low-income countries where there may not be widespread public health initiatives and/or access to healthcare. Thus, development of a vaccine to prevent lung cancer could be very impactful,” she said.
Challenges to vaccine development include the heterogeneous nature of the disease, which may occur in smokers and nonsmokers, said Dr. Faiz. “Targeting the various molecular markers may be challenging,” she said. However, building on the success of other vaccine initiatives, such as the human papillomavirus vaccine for cervical cancer, and COVID-19 vaccines with collaboration and clinical research will ideally overcome these challenges, she added.
“The potential implications for a lung cancer vaccine are immense,” said Dr. Faiz.
A lung cancer vaccine could prevent a deadly disease, but continued efforts in risk factor reduction and lung cancer screening will also be important, she said.
“Depending on the results of this clinical research, longitudinal data regarding efficacy, side effects, and prevention will be vital prior to application in high-risk patients in clinical practice,” she emphasized.
The development of the lung cancer vaccine is supported in part by Cancer Research UK and the CRIS Cancer Foundation. Dr. Elliott has received support from Cancer Research UK but had no financial conflicts to disclose. Dr. Faiz had no financial conflicts to disclose.
A version of this article appeared on Medscape.com.
Development of a press release from the University of Oxford, England.
A team of scientists from the University of Oxford, the Francis Crick Institute, and University College London (UCL) will receive funding from the Cancer Research UK and the CRIS Cancer Foundation.
The LungVax vaccine is based on technology similar to that used in the creation of the successful Oxford/AstraZeneca COVID-19 vaccine and will carry a DNA strand that trains the immune system to recognize the neoantigens that indicate abnormal lung cancer cells and then activate the immune system to kill these cells and stop the cancer, according to the statement.
Initially, scientists are working to develop a vaccine that triggers an immune response in the lab setting. If successful, the vaccine will move directly into a clinical trial. “If the subsequent early trial delivers promising results, the vaccine could then be scaled up to bigger trials for people at high risk of lung cancer,” according to the release.
Help for High-Risk Patients
Lung cancer is diagnosed in approximately 48,000 individuals in the United Kingdom each year, and the average 10-year survival is only 10%, Tim Elliott, MD, professor of immuno-oncology at the University of Oxford and lead researcher on the LungVax project, said in an interview. Nearly three-quarters of the 35,000 annual deaths are preventable by quitting smoking, which remains the best risk reduction strategy to date, he said. However, “an intervention such as a vaccine, given when people are healthy and are more likely to have a strong immune system, could benefit many thousands per year in the UK and 1.8 million patients worldwide,” he said.
Preliminary Trial Plans
The initial trial of the vaccine is a collaboration between Oxford University, UCL, and the Francis Crick Institute, Dr. Elliott said. The trial is a culmination of research into the biology and genetics of lung cancer at UCL and vaccine design research at the University of Oxford.
“We are at a very early stage of the program, which will develop over the next 6 years if all goes to plan,” said Dr. Elliott. The vaccine is designed on the basis of shared lung cancer antigens and packaged into the ChAdOx delivery system that proved successful as the Oxford-AstraZeneca COVID-19 vaccine, he said.
“We intend to vaccinate individuals who have had curative surgery for their lung cancer after being diagnosed with a very early stage of the disease,” Dr. Elliott said.
Challenges to vaccine development include knowing whether there is a clinical benefit, Dr. Elliott noted. “Our clinical trial is calculated to show up to 15% reduction in risk over 3-5 years, but only long-term follow-up will really tell us whether the immune responses we see to the vaccine within the first few weeks will have a long-term effect,” he emphasized.
In clinical practice, “these people are cancer-free and healthy after surgery,” said Dr. Elliott. However, “they are at a high risk of recurrence; 30%-70% of ex-patients will develop new cancer in their lifetime and in the majority of cases that will happen within 2 years after surgery,” he said. “We think that vaccinating them against common lung cancer antigens could reduce this risk significantly and remove some of the uncertainty that they live with after their operation.”
Vaccine Has Potential for Immense Impact
Lung cancer remains one of the most frequently diagnosed cancers. “In the past few decades, public health measures including tobacco cessation and lung cancer screening have contributed to the reduction of lung cancer incidence and improved survival in high-income countries, but lung cancer continues to be the leading cause of cancer-related deaths worldwide,” Saadia A. Faiz, MD, a member of the CHEST Physician editorial board, said in an interview.
“Further, new cancer diagnoses continue to increase in low-income countries where there may not be widespread public health initiatives and/or access to healthcare. Thus, development of a vaccine to prevent lung cancer could be very impactful,” she said.
Challenges to vaccine development include the heterogeneous nature of the disease, which may occur in smokers and nonsmokers, said Dr. Faiz. “Targeting the various molecular markers may be challenging,” she said. However, building on the success of other vaccine initiatives, such as the human papillomavirus vaccine for cervical cancer, and COVID-19 vaccines with collaboration and clinical research will ideally overcome these challenges, she added.
“The potential implications for a lung cancer vaccine are immense,” said Dr. Faiz.
A lung cancer vaccine could prevent a deadly disease, but continued efforts in risk factor reduction and lung cancer screening will also be important, she said.
“Depending on the results of this clinical research, longitudinal data regarding efficacy, side effects, and prevention will be vital prior to application in high-risk patients in clinical practice,” she emphasized.
The development of the lung cancer vaccine is supported in part by Cancer Research UK and the CRIS Cancer Foundation. Dr. Elliott has received support from Cancer Research UK but had no financial conflicts to disclose. Dr. Faiz had no financial conflicts to disclose.
A version of this article appeared on Medscape.com.
Development of a press release from the University of Oxford, England.
A team of scientists from the University of Oxford, the Francis Crick Institute, and University College London (UCL) will receive funding from the Cancer Research UK and the CRIS Cancer Foundation.
The LungVax vaccine is based on technology similar to that used in the creation of the successful Oxford/AstraZeneca COVID-19 vaccine and will carry a DNA strand that trains the immune system to recognize the neoantigens that indicate abnormal lung cancer cells and then activate the immune system to kill these cells and stop the cancer, according to the statement.
Initially, scientists are working to develop a vaccine that triggers an immune response in the lab setting. If successful, the vaccine will move directly into a clinical trial. “If the subsequent early trial delivers promising results, the vaccine could then be scaled up to bigger trials for people at high risk of lung cancer,” according to the release.
Help for High-Risk Patients
Lung cancer is diagnosed in approximately 48,000 individuals in the United Kingdom each year, and the average 10-year survival is only 10%, Tim Elliott, MD, professor of immuno-oncology at the University of Oxford and lead researcher on the LungVax project, said in an interview. Nearly three-quarters of the 35,000 annual deaths are preventable by quitting smoking, which remains the best risk reduction strategy to date, he said. However, “an intervention such as a vaccine, given when people are healthy and are more likely to have a strong immune system, could benefit many thousands per year in the UK and 1.8 million patients worldwide,” he said.
Preliminary Trial Plans
The initial trial of the vaccine is a collaboration between Oxford University, UCL, and the Francis Crick Institute, Dr. Elliott said. The trial is a culmination of research into the biology and genetics of lung cancer at UCL and vaccine design research at the University of Oxford.
“We are at a very early stage of the program, which will develop over the next 6 years if all goes to plan,” said Dr. Elliott. The vaccine is designed on the basis of shared lung cancer antigens and packaged into the ChAdOx delivery system that proved successful as the Oxford-AstraZeneca COVID-19 vaccine, he said.
“We intend to vaccinate individuals who have had curative surgery for their lung cancer after being diagnosed with a very early stage of the disease,” Dr. Elliott said.
Challenges to vaccine development include knowing whether there is a clinical benefit, Dr. Elliott noted. “Our clinical trial is calculated to show up to 15% reduction in risk over 3-5 years, but only long-term follow-up will really tell us whether the immune responses we see to the vaccine within the first few weeks will have a long-term effect,” he emphasized.
In clinical practice, “these people are cancer-free and healthy after surgery,” said Dr. Elliott. However, “they are at a high risk of recurrence; 30%-70% of ex-patients will develop new cancer in their lifetime and in the majority of cases that will happen within 2 years after surgery,” he said. “We think that vaccinating them against common lung cancer antigens could reduce this risk significantly and remove some of the uncertainty that they live with after their operation.”
Vaccine Has Potential for Immense Impact
Lung cancer remains one of the most frequently diagnosed cancers. “In the past few decades, public health measures including tobacco cessation and lung cancer screening have contributed to the reduction of lung cancer incidence and improved survival in high-income countries, but lung cancer continues to be the leading cause of cancer-related deaths worldwide,” Saadia A. Faiz, MD, a member of the CHEST Physician editorial board, said in an interview.
“Further, new cancer diagnoses continue to increase in low-income countries where there may not be widespread public health initiatives and/or access to healthcare. Thus, development of a vaccine to prevent lung cancer could be very impactful,” she said.
Challenges to vaccine development include the heterogeneous nature of the disease, which may occur in smokers and nonsmokers, said Dr. Faiz. “Targeting the various molecular markers may be challenging,” she said. However, building on the success of other vaccine initiatives, such as the human papillomavirus vaccine for cervical cancer, and COVID-19 vaccines with collaboration and clinical research will ideally overcome these challenges, she added.
“The potential implications for a lung cancer vaccine are immense,” said Dr. Faiz.
A lung cancer vaccine could prevent a deadly disease, but continued efforts in risk factor reduction and lung cancer screening will also be important, she said.
“Depending on the results of this clinical research, longitudinal data regarding efficacy, side effects, and prevention will be vital prior to application in high-risk patients in clinical practice,” she emphasized.
The development of the lung cancer vaccine is supported in part by Cancer Research UK and the CRIS Cancer Foundation. Dr. Elliott has received support from Cancer Research UK but had no financial conflicts to disclose. Dr. Faiz had no financial conflicts to disclose.
A version of this article appeared on Medscape.com.