Would You Want to Know a Decade Early If You Were Getting Alzheimer's?
Editor's Note: A team of researchers in Italy recently used artificial intelligence and machine learning to diagnose Alzheimer's disease on a brain scan an entire decade before symptoms show up in the patient. While some people argue that early detection is critical, others believe the knowledge would do more harm than good. LeapsMag invited contributors with opposite opinions to share their perspectives.
I first realized something was wrong with my dad when I came home for Thanksgiving 20 years ago.
I hadn't seen my family for more than a year after moving from New York to California. My father was meticulous, a multi-shower a day man, a regular Beau Brummell. He was never officially diagnosed with dementia, but it was easy to figure out after he stopped leaving the house, stopped reading, stopped being himself. My mother knew, but she never sought help. After his illness showed itself, I asked her if she considered a nursing home. "Never," she told me. "I can take care of him." And she did.
She gave herself a break once to visit me, and it was the first time she traveled separately from him since they eloped at seventeen. My brother watched my father, and it was not smooth. Dad was angry, hallucinating, and demanding his gun, which had been disposed of long ago. While Mom was visiting me in California, we played some board games. One demanded honest answers. The card read, What are you most afraid of? "Dementia," she said.
My father never saw this coming, none of us did.
Dementia ran on my mother's side. Her mother, my Nana, was senile, the popular diagnosis for older folks back then. My grandfather tried his hardest to take care of her, but she kept escaping their tidy 6th floor apartment to run away. My mother would go over every day to take care of them, but once my grandfather became ill, she took her mother into our apartment. She had two small children, Nana, and her husband in a two-bedroom flat. Nana talked to people under plates, wore tissues on her head, and tried to escape. We were on the first floor, so she could run into traffic if all eyes weren't on her. Soon, it was too much, even for my Wonder Woman mom. Nana was placed in a nursing home and died soon after.
My mother dropped dead on a NYC sidewalk two years after my father started to deteriorate. She was probably going to the store to buy milk and cigarettes. A kind stranger called 911, and a cop came to my parent's door soon after to tell my dad the news. My father cried for death, raged and ranted, then calmed down enough to come back as the dad we remembered for the week of mourning. He even ordered a Manhattan at dinner. His death came exactly a week and an hour after my mother's. He died of a broken heart. My husband cried with all his body after we left the cemetery, weeping, "Poor Buck. Poor Buck." I never saw him cry before.
Now, 18 years later, I sit here with my husband, 59 years old, as he suffers from the same hideous disease.
He is talking to someone I can't see, even laughing with him. He holds a Ph.D. in literature, taught college, had a single handicap golf game, and ate well. We never saw this coming. One day he went to type and jumbled letters came on the screen. He would show up late or early for his classes, wondering what was wrong with the students. He started running red lights. He was graciously counseled to retire, and he did, at 55. His doctor told him it was depression. The second opinion agreed. He was told to do nothing for a year, and he did. He played golf a bit, then one day he couldn't speak or think clearly. I came home from work to find him roaming the neighborhood, eyes ablaze, muttering to himself. I went on family leave. Many tests later we got the working diagnosis, but it meant nothing to him. He never reacted to the words Primary Progressive Aphasia or dementia. I was glad. If he was lucid, I knew what he would talk about doing. He told me after my dad's death that he did not want that life for himself.
I worry I may get it, too. It almost seems inescapable. Dementia has no cure, and the treatments for the symptoms are hit and miss. I thought about getting the full flight of predictive tests, but I know myself, and I scare myself into bracing for the worst. Others scare me, too, when I read their online statements about ending their lives if they learn they have it: I told my children to take me to a state where assisted suicide is legal; it's easy to overdose; I don't want to be a burden on my children. These are caregivers on social media forums. They live with the terror, eyes wide open. We have no children, but who would I burden? My sisters? My brother? Do I stay or do I go? This disease invites pandemonium. Assisted murder-suicides with caregiver spouses of those with dementia don't merit headlines, but their stories are on the sidebars. No thanks. I work on God's timeline.
There are no survivors – yet.
A diagnosis today would paralyze me and create melancholy for all who know me. I would second guess everything, I would read everything, I would cry, I would hardly live. I would be tempted to pick up that first drink after 20 plus years sober. I would even think about ending my life. It would be difficult not to consider. As a high school English teacher, I talk about suicide when I teach Hamlet. I tell the students suicide is a permanent solution to a temporary problem. Dementia isn't temporary. There are no survivors – yet.
I often think what my relatives would have done with an advance diagnosis. My grandmother was a classic worrier. She would have been beyond distraught. My father might have found that gun. My husband would have taken the right number of pills.
An advance diagnosis would paralyze me.
I appreciate the arguments for early diagnosis. Some people are made of sterner stuff. They have the mindset I lack. I admire so many who are contributing to the current conversation about dementia and are active advocates for a cure. They have found a purpose in their fate.
I don't need a test to get my ducks in a row. Loving those with dementia has prompted me to be prepared. I have a different type of bucket list: reset my priorities, slow down, be present, educate others, and make my legal plans. If and when it happens, there will be time for toast and tea and a walk along the shore. There will be time to plan for the inevitable and unenviable end. I am morbid enough to know I will recognize the purple elephant in the room. I don't want the shock and awe now. I can wait. My sisters agree. We will keep our elbows out.
Editor's Note: Consider the other side of the argument here.
A new type of cancer therapy is shrinking deadly brain tumors with just one treatment
Few cancers are deadlier than glioblastomas—aggressive and lethal tumors that originate in the brain or spinal cord. Five years after diagnosis, less than five percent of glioblastoma patients are still alive—and more often, glioblastoma patients live just 14 months on average after receiving a diagnosis.
But an ongoing clinical trial at Mass General Cancer Center is giving new hope to glioblastoma patients and their families. The trial, called INCIPIENT, is meant to evaluate the effects of a special type of immune cell, called CAR-T cells, on patients with recurrent glioblastoma.
How CAR-T cell therapy works
CAR-T cell therapy is a type of cancer treatment called immunotherapy, where doctors modify a patient’s own immune system specifically to find and destroy cancer cells. In CAR-T cell therapy, doctors extract the patient’s T-cells, which are immune system cells that help fight off disease—particularly cancer. These T-cells are harvested from the patient and then genetically modified in a lab to produce proteins on their surface called chimeric antigen receptors (thus becoming CAR-T cells), which makes them able to bind to a specific protein on the patient’s cancer cells. Once modified, these CAR-T cells are grown in the lab for several weeks so that they can multiply into an army of millions. When enough cells have been grown, these super-charged T-cells are infused back into the patient where they can then seek out cancer cells, bind to them, and destroy them. CAR-T cell therapies have been approved by the US Food and Drug Administration (FDA) to treat certain types of lymphomas and leukemias, as well as multiple myeloma, but haven’t been approved to treat glioblastomas—yet.
CAR-T cell therapies don’t always work against solid tumors, such as glioblastomas. Because solid tumors contain different kinds of cancer cells, some cells can evade the immune system’s detection even after CAR-T cell therapy, according to a press release from Massachusetts General Hospital. For the INCIPIENT trial, researchers modified the CAR-T cells even further in hopes of making them more effective against solid tumors. These second-generation CAR-T cells (called CARv3-TEAM-E T cells) contain special antibodies that attack EFGR, a protein expressed in the majority of glioblastoma tumors. Unlike other CAR-T cell therapies, these particular CAR-T cells were designed to be directly injected into the patient’s brain.
The INCIPIENT trial results
The INCIPIENT trial involved three patients who were enrolled in the study between March and July 2023. All three patients—a 72-year-old man, a 74-year-old man, and a 57-year-old woman—were treated with chemo and radiation and enrolled in the trial with CAR-T cells after their glioblastoma tumors came back.
The results, which were published earlier this year in the New England Journal of Medicine (NEJM), were called “rapid” and “dramatic” by doctors involved in the trial. After just a single infusion of the CAR-T cells, each patient experienced a significant reduction in their tumor sizes. Just two days after receiving the infusion, the glioblastoma tumor of the 72-year-old man decreased by nearly twenty percent. Just two months later the tumor had shrunk by an astonishing 60 percent, and the change was maintained for more than six months. The most dramatic result was in the 57-year-old female patient, whose tumor shrank nearly completely after just one infusion of the CAR-T cells.
The results of the INCIPIENT trial were unexpected and astonishing—but unfortunately, they were also temporary. For all three patients, the tumors eventually began to grow back regardless of the CAR-T cell infusions. According to the press release from MGH, the medical team is now considering treating each patient with multiple infusions or prefacing each treatment with chemotherapy to prolong the response.
While there is still “more to do,” says co-author of the study neuro-oncologist Dr. Elizabeth Gerstner, the results are still promising. If nothing else, these second-generation CAR-T cell infusions may someday be able to give patients more time than traditional treatments would allow.
“These results are exciting but they are also just the beginning,” says Dr. Marcela Maus, a doctor and professor of medicine at Mass General who was involved in the clinical trial. “They tell us that we are on the right track in pursuing a therapy that has the potential to change the outlook for this intractable disease.”
Since the early 2000s, AI systems have eliminated more than 1.7 million jobs, and that number will only increase as AI improves. Some research estimates that by 2025, AI will eliminate more than 85 million jobs.
But for all the talk about job security, AI is also proving to be a powerful tool in healthcare—specifically, cancer detection. One recently published study has shown that, remarkably, artificial intelligence was able to detect 20 percent more cancers in imaging scans than radiologists alone.
Published in The Lancet Oncology, the study analyzed the scans of 80,000 Swedish women with a moderate hereditary risk of breast cancer who had undergone a mammogram between April 2021 and July 2022. Half of these scans were read by AI and then a radiologist to double-check the findings. The second group of scans was read by two researchers without the help of AI. (Currently, the standard of care across Europe is to have two radiologists analyze a scan before diagnosing a patient with breast cancer.)
The study showed that the AI group detected cancer in 6 out of every 1,000 scans, while the radiologists detected cancer in 5 per 1,000 scans. In other words, AI found 20 percent more cancers than the highly-trained radiologists.
Scientists have been using MRI images (like the ones pictured here) to train artificial intelligence to detect cancers earlier and with more accuracy. Here, MIT's AI system, MIRAI, looks for patterns in a patient's mammograms to detect breast cancer earlier than ever before. news.mit.edu
But even though the AI was better able to pinpoint cancer on an image, it doesn’t mean radiologists will soon be out of a job. Dr. Laura Heacock, a breast radiologist at NYU, said in an interview with CNN that radiologists do much more than simply screening mammograms, and that even well-trained technology can make errors. “These tools work best when paired with highly-trained radiologists who make the final call on your mammogram. Think of it as a tool like a stethoscope for a cardiologist.”
AI is still an emerging technology, but more and more doctors are using them to detect different cancers. For example, researchers at MIT have developed a program called MIRAI, which looks at patterns in patient mammograms across a series of scans and uses an algorithm to model a patient's risk of developing breast cancer over time. The program was "trained" with more than 200,000 breast imaging scans from Massachusetts General Hospital and has been tested on over 100,000 women in different hospitals across the world. According to MIT, MIRAI "has been shown to be more accurate in predicting the risk for developing breast cancer in the short term (over a 3-year period) compared to traditional tools." It has also been able to detect breast cancer up to five years before a patient receives a diagnosis.
The challenges for cancer-detecting AI tools now is not just accuracy. AI tools are also being challenged to perform consistently well across different ages, races, and breast density profiles, particularly given the increased risks that different women face. For example, Black women are 42 percent more likely than white women to die from breast cancer, despite having nearly the same rates of breast cancer as white women. Recently, an FDA-approved AI device for screening breast cancer has come under fire for wrongly detecting cancer in Black patients significantly more often than white patients.
As AI technology improves, radiologists will be able to accurately scan a more diverse set of patients at a larger volume than ever before, potentially saving more lives than ever.