AI Summary
Checkpoint inhibitors, a type of immunotherapy, have shown potential in neoadjuvant therapy for various types of cancer. Clinical trials have demonstrated successful tumor eradication and the FDA has already approved neoadjuvant immunotherapy in certain cancers. Checkpoint inhibitors have been found to significantly change cancer tissue patterns in lung cancer and can completely wipe away tumors in skin cancer. In triple-negative breast cancer, checkpoint inhibitors in combination with chemotherapy have shown success, especially when administered early in cancer progression. The use of checkpoint inhibitors in combination with surgery is advancing the field and may replace chemotherapy in the future.
Within the last century different ways have been developed to fight cancer. The most recent type of therapy includes immunotherapy. Immunotherapy activates the immune system to recognize and target the tumor that was initially undetectable. The most common immunotherapy treatments include anti-programmed death-1 (anti-PD-1) and anti-cytotoxic T lymphocyte-associated antigen (anti-CTLA-4). The two therapies are known as checkpoint inhibitors because they block cell signaling between immune cells and cancer which allow immune cells to be activated and kill the tumor. For their work on both of these therapies, Dr. James Allison and Dr. Tasuku Honjo were awarded the Nobel Prize in Physiology or Medicine in 2018. Since the discovery of these checkpoint inhibitors, they have been used in multiple settings as single-agent therapies or in combination against many different cancers.
The use of checkpoint inhibitors before therapy or as a neoadjuvant has grown as a possible treatment in various cancer types. According to researchers at the Bloomberg-Kimel Institute for Cancer Immunotherapy and the Johns Hopkins Kimmel Cancer Center medicine, checkpoint inhibitors have just touched the surface in neoadjuvant immunotherapy. Researchers including Suzanne Topalian, Director of Johns Hopkins Melanoma/Skin Cancer Program, believe that cancer immunotherapy has a lot of rich untapped potential that can be used to further improve treatments.
Neoadjuvant immunotherapy, or therapy prior to surgery, has since been tested in various clinical trials. In some tumor types this form of therapy has resulted in complete tumor eradication. The report published in Cancer Cell highlights successful clinical trials in cancers such as lung, triple-negative breast, skin, and gastrointestinal. Although this therapy is still highly underdeveloped, the US Food and Drug Administration (FDA) has already approved neoadjuvant immunotherapy in triple-negative breast and lung cancer. It is expected that more approvals will follow for other cancer types.
In lung cancer, the cancer tissue pattern significantly changes after checkpoint inhibitors are administered. Additionally, it has been found that masses on the CT scan are dead tumors once the surgeon goes in to operate.
In triple-negative breast cancer, it was found that checkpoint inhibitors with chemotherapy can serve as a successful treatment after surgical release in patients. It was also found that treating patients with checkpoint inhibitors early in cancer progression before surgery is significantly more effective than giving it to patients with advanced disease. In skin cancer, combination immunotherapy is not as necessary as in other cancers. Single-agent checkpoint inhibitors can completely wipe away the tumor and further medical treatment is not needed. Additionally, in gastrointestinal cancer some subtypes don’t even need surgery because the checkpoint inhibitor is enough.
Overall, the clinical trials that include checkpoint inhibitors in combination with surgery is pushing the field forward by determining the best cancer treatment. The checkpoint inhibitors allow the immune system to recognize the tumor and shrink it before surgery and prevents the tumor from coming back. This type of therapy is revolutionary, and patients are already seeing the benefits. In the future this may replace chemotherapy altogether making treatment less toxic to patients.
Report, Cancer Cell, James Allison, Tasuku Honjo, Suzanne Topalian, Bloomberg-Kimel Institute for Cancer Immunotherapy, Johns Hopkins Kimmel Cancer Center