A 35-year-old man was referred to his primary care physician for evaluation of previously unknown hypertension that had been identified during a medical screening for his rugby team. The patient was asymptomatic. The blood pressure was 146/89 mm Hg in the left arm, 146/99 mm Hg in the right arm, 104/83 mm Hg in the left leg, and 109/90 mm Hg in the right leg. On physical examination, a radial–femoral delay was present. A chest radiograph showed notching of posterior ribs 3 through 8 (Panel A, arrows) and widened paratracheal stripes (Panel A, asterisks). Computed tomographic (CT) angiography of the chest revealed coarctation of the descending aorta, with the isthmus measuring 3 mm in diameter (reference range for the patient’s age and size, 18 to 25) (Panel B, arrow). CT angiography also showed extensive collateral arterial circulation in the soft tissues (Panels C and D, white arrows), along the trachea (which accounted for the paratracheal stripes seen on chest radiography) (Panel C, dashed box), and in the intercostal spaces (which accounted for the notching of the ribs seen on chest radiography) (Panel D, black arrows). A transthoracic echocardiogram showed left ventricular hypertrophy and a pressure gradient of 25 mm Hg across the coarctation. No other cardiac abnormalities were identified. Percutaneous stenting of the aortic coarctation was performed without complications. At a follow-up visit 1 month after the procedure, the patient’s blood pressure had improved. At a 3-month follow-up visit, repeat imaging showed a marked decrease in collateral arterial circulation.
Short sleep is associated with increased risk for incident hypertension, especially for women.
There was no association between long sleep duration and hypertension risk.
ATLANTA — Adults who sleep fewer than 7 hours per night are more likely to develop hypertension over time, with greater risk observed for women vs. men, researchers reported at the American College of Cardiology Scientific Session.
“The motivation behind conducting this study stemmed from the significant impact of hypertension as a preventable risk factor for various health conditions, particularly CVD,” Aayushi Sood, MD, a resident at The Wright Center for Graduate Medical Education in Scranton, Pennsylvania, told Healio. “Despite advancements in understanding and managing hypertension, its prevalence has been increasing globally. We wanted to assess how something as simple as sleep could be contributing to hypertension burden.”
Data were derived from Sood A, et al. Abstract 1352-214. Presented at: American College of Cardiology Scientific Session; April 6-8, 2024; Atlanta.
Sood and colleagues analyzed data from 16 cohort studies published from 2000 to May 2023 that evaluated the association between self-reported sleep duration and hypertension incidence among 1,044,035 adults who did not have hypertension at baseline. Follow-up duration ranged from 2.4 to 18 years (median follow-up, 5 years). The age of participants ranged from 35 to 61 years and 61% were women.
The researchers found that short sleep duration was associated with higher risk for developing hypertension (HR = 1.07; 95% CI, 1.06-1.09), and the association was more pronounced in those who reported sleeping fewer than 5 hours per night (HR = 1.11; 95% CI, 1.08-1.14).
In analyses stratified by sex, women were more likely than men to develop hypertension with short sleep (HR = 1.07; 95% CI, 1.04-1.09). Results did not change in analyses stratified by age or follow-up duration, and the researchers did not observe any association between long sleep duration and hypertension incidence.
Aayushi Sood
“While the association between short sleep duration and hypertension risk was not entirely surprising based on existing literature, the degree of risk, especially for females, was notable,” Sood told Healio. “The higher risk for women compared with men may be attributed to several factors, including hormonal differences, variations in neurohormonal responses to sleep patterns, and potential interactions with other CV risk factors that may affect females differently.” Sood said more research is needed on the underlying mechanisms linking sleep duration with hypertension, exploring interventions to improve sleep quality and duration, and conducting longitudinal studies to assess the long-term impact of sleep patterns on CV outcomes. The researchers noted that a limitation of the study is sleep duration was based on self-reported questionnaires and changes in sleep duration during follow-up were not assessed. The definition of short sleep also varied by study (fewer than 5 or 6 hours).
“Additionally, investigating the role of lifestyle factors and psychological stressors in mediating the sleep/BP relationship would be valuable, as well as a better understanding of the sex-based results in the study,” Sood told Healio.
As the eye care world approaches a possible shortage of ophthalmologists, the steady hand of robotic surgical tools could be a welcome addition for patients undergoing cataract surgery.
Although the days of robotic surgeons or even robotic-assisted surgery in ophthalmology are a thing of the future, Vance Thompson, MD, said that it is not hard to see how robotics could significantly improve a patient’s journey, as well as a surgeon’s experience.
Introducing more automation has the potential to make cataract surgery more consistent, widely available and efficient, according to John A. Hovanesian, MD, FACS.
Source: John A. Hovanesian, MD, FACS
“Robotics have the potential to standardize the level of care and ensure every surgeon, novice or expert, can provide patients with the best clinical outcomes,” he said. “By reducing the natural hand tremor, robotics can significantly improve precision and accuracy, leading to fewer surgical complications.”
Thompson said orthopedic surgery and general surgery have already adopted some forms of robotics, and a few aspects of eye surgery provide a good opportunity to expand automated systems.
Vance Thompson
“The standardized anatomy of the human eye, coupled with the reproducible steps of cataract surgery, in addition to the colossal global need for more procedures, make cataracts the perfect candidate for robotic surgery,” Thompson said. “Ophthalmology is ready for a robotic revolution.”
The idea of a robotic revolution might be a little threatening for any surgeon, but especially in cataract surgery, where ophthalmologists have invested years learning and mastering microsurgical techniques. When David F. Chang, MD, was first approached by ForSight Robotics, a company developing robotic cataract surgery systems, to head its medical advisory board, he was skeptical. He wondered how microsurgery could ever become fully automated.
“Each of us has honed our skills over thousands of surgeries and many years, so how could a machine possibly emulate that?” he said. “Secondly, why would I want to facilitate development of technology that would put me and my fellow cataract surgeons out of business?”
However, after he learned more, Chang said he started seeing robotics as a potential solution to the global shortage of cataract surgeons, “where we will eventually face severe manpower shortages in even the wealthiest nations.”
“I can see that it’s not only possible, but I think it has a reasonably good chance of succeeding,” he said.
Technology advancements have always been an important part of medicine, and ophthalmology in particular has usually been enthusiastic about finding new ways to improve outcomes. It is no different with robotics, Audrey R. Talley Rostov, MD, said.
“Our goal always is to have things as new as possible to achieve the best outcomes and to achieve them with less invasive technologies,” she said. “That’s just an overarching goal that we all have. We have to think about how we can create safer surgeries, less invasive surgeries and more consistent outcomes. Therefore, it seems certainly reasonable that this is an area worthy of investigation to see if we can use robotics here in cataract surgery.”
Automated processes
Chang said that robotic cataract surgery would initially be semiautonomous with surgeons guiding the robotic arms.
“The most compelling application, however, would be a fully autonomous robot that would do all the steps of cataract surgery while working with a surgical technician,” he said. “But even in that scenario, it would be under the monitoring of an actual cataract surgeon who would be available to step in should there be a complication or safety concern of any kind.”
As for semiautonomous surgery, in some ways, it is already here, John A. Hovanesian, MD, FACS, said.
“I would argue that we’re already doing robotic surgery because femtosecond laser is robotic,” he said. “The use of devices like the precision pulse capsulotomy, also known as Zepto (Centricity Vision), is an automated step that we use that is in a way robotic. Although we haven’t seen these things take huge strides forward, they are in common use, and they do indeed improve on our results. It’s not a new concept to us that we would have some automation involved in surgery.”
Automating some surgical maneuvers has been the key premise of femtosecond laser-assisted cataract surgery, Chang said.
“Although I don’t personally use it, those that do like the reproducibility and precision of an automated capsulotomy,” he said.
Device manufacturers such as Lensar have been incorporating more automated features into their femtosecond laser systems over the last few years, Talley Rostov said.
“They have software that enables better toric alignment with iris registration and with capsular tabs to help orient toric lenses,” she said. “Lensar has the new Ally system that would allow for a combined femto and phaco using essentially the same machine. That automates the process more and increases efficiency with a smaller footprint.”
According to Lensar data, the Ally system can save up to 8 minutes per case compared with other femtosecond laser systems and provides up to a 27% reduction in mean phacoemulsification time compared with manual cataract surgery.
Talley Rostov said that Zeiss has improved femtosecond technology in its refractive surgery platform with the VisuMax 800 system to increase the speed of the process while improving patient comfort.
“It has a robotic arm that comes down that decreases the risk for complications,” she said. “It is also much more ergonomic for the surgeon, as well.”
Robotic assistance
There are a handful of companies currently developing robotic systems for ocular surgery, according to Hovanesian. Some are focused on maneuvers in retina surgery, such as membrane peels that require a lot of dexterity. Hovanesian said it is not hard to imagine that translating to cataract surgery.
“If we have the precision of a human guiding a machine to grasp tissue and not damage the surrounding tissue, that could, indeed, offer some help,” he said. “We’re optimistic about these companies that have good funding all over the world, and I think it’s pretty likely that we’re going to have some meaningful progress on this within the next decade or maybe even sooner.”
One of those companies is ForSight, which is developing the ORYOM platform. The system includes a robotic hand, enhanced 3D visualization and improved data analytics designed to help improve surgical techniques.
Chang, who had a chance to test the platform in animal eyes, said the surgeon operates at a workstation about 12 feet away from the OR table maneuvering robotic arms that mirror a surgeon’s movements through every stage of the surgery.
“Several of us from the medical advisory board got to try this system,” he said. “I think we all came away quite impressed with the feasibility of semiautonomous robotic surgery.”
Chang delivered the Charles D. Kelman, MD, Innovator’s Lecture at the American Society of Cataract and Refractive Surgery meeting in Boston and shared footage of him performing a complete operation in a porcine eye with the ORYOM platform. He also discussed how AI-powered machine learning software might someday enable fully autonomous robotic cataract surgery.
“It’s exciting because this is the 50th anniversary of ASCRS,” he said. “During the last 5 decades, we’ve seen cataract surgery evolve from intracapsular surgery and aphakia to extracapsular surgery with lens implants to sutureless incisions with phacoemulsification and foldable IOLs, and then automating the capsulotomy with either femtosecond laser or Zepto — is this the next evolutionary step?”
Thompson also had a chance to test the platform and called his experience a peek into the future of surgical eye care.
“The addition of augmentation and real-time image guidance, as developed by ForSight Robotics in their surgical robotics platform, for example, can also alleviate cognitive stress, thus providing surgeons with a holistic solution for improving our health and capabilities, ultimately helping us serve our patients better,” he said.
Hovanesian said introducing more automation into the cataract surgery process has the potential to improve factors with innovative technology, making surgery more consistent, more widely available and more efficient.
“If you don’t give the patient the vision they anticipate, then you failed, even if it was an uncomplicated surgery,” he said. “These systems will target the same things as we look ahead to a workforce shortage among doctors.”
Robotics have the potential to fill in some gaps as more patients will likely undergo surgery at greater rates and with greater expectations. Hovanesian said cataract surgeons must embrace whatever they can to make the process better.
“Our profession is filled with many capable surgeons who have very low complications rates,” he said. “Many of these surgeons don’t ever give lectures — they are just doing what they’re doing in their communities with a lot of skill. But not everyone has that level of skill, and there are many communities across the country where they don’t have a skilled surgeon. Complications can happen.”
Looking beyond the United States, automation may provide a lot of benefits for patients.
“If we could take steps toward automation, we would improve humanity’s outlook,” Hovanesian said. “Cataracts are still one of the leading causes of blindness across the world.”
Thompson said one area in which robotics could make a substantial impact is in training because it can take years for a physician to prepare for cataract surgery.
“Today, it takes an average of 15 years to train an ophthalmologist, and a lifetime of practice and growth to improve surgical skill,” he said. “Novice surgeons or surgeons with limited access to advancement opportunities like top-tier residency programs, fellowships or mentors are at a disadvantage and may take much longer to reach their full potential. Robotics can shorten the learning curve by providing all ophthalmic surgeons with a system that improves dexterity, precision and accuracy, thus standardizing the highest level of surgical techniques.”
According to Chang, the historically large backlog of cataract blindness in low- to middle-income countries is primarily due to a shortage of ophthalmologists.
“However, we’ll soon be facing a shortage of cataract surgeons in high-income countries as well due to aging populations and our limited capacity to train enough new surgeons,” he said. “Taking steps toward fully automating the process has the potential to address these challenges.”
“Another factor that many are overlooking is what I believe will be a rapid rise in refractive lens exchange volume,” he said. “As adjustable and accommodating IOLs propel this demand in presbyopic patients without cataracts, who is going to do all these surgeries?”
Chang fantasizes that a single surgeon could simultaneously monitor multiple autonomous robotic systems operating on routine cataracts and refractive lens exchange eyes. Complex cases would still be done by ophthalmologists.
“Such a system could expand the capacity of individual surgeons in even high-income countries to do higher volumes of cataract surgery with good outcomes,” he said.
Thompson said robotics have the potential to improve precision and reduce a surgeon’s natural hand tremor, which is particularly important in a small organ such as the eye. They also have the ability to consume large amounts of data and provide real-time insights that a surgeon might need, he said.
“Final refractive clinical outcomes are dependent on perioperative, operative and postoperative information,” Thompson said. “Today we gather a large amount of information prior to operating. However, we do not have enough data analysis during and after operation to reach actionable insights on a large scale. Robotics enable the synthesis, prioritization and optimization of data from the patient’s journey. This process can standardize better clinical outcomes and elevate the quality of our care.”
A human touch
Talley Rostov views robotics as an addition to a surgeon’s skill, not a replacement.
Audrey R. Talley Rostov
“I see robotic surgery as another tool or maybe the next step in creating more consistent outcomes,” she said. “There is, of course, the challenge of making this accessible globally. I do a lot of global health work, and in many parts of the world and underserved areas, your best option is actual manual small-incision cataract surgery because they don’t even have access to phaco capability.”
Hovanesian said no computer or machine ever created has come close to what can be accomplished with the human mind. Even if robotics can come close, that would likely be many years away.
“We often recognize patterns without consciously knowing what we’re thinking. As a surgeon progresses through his or her career, we can just get better at what we do because we’ve seen so many different variations of the same thing. Computers are not going to have that experience even if they watch the videos because the videos can’t capture all the nuance or get the same tactile feedback that we see through a binocular microscope in real time as we operate,” he said.
“For a routine soft cataract in uncomplicated eyes, a machine could probably do pretty well. However, if you have a case with a small pupil, pseudoexfoliation and other risk factors that can lead to a poor outcome, it’s hard to imagine at least the first generation of computer systems mapping that,” Hovanesian said. “We’re still the best hope for our patients, but we ought to welcome these technologies and be humble about the fact that, at some point, they may become better than us.”
Even as these technologies progress, they will still require some degree of skill from an experienced surgeon to be successful, Talley Rostov said.
“It’s another tool in your armamentarium, another tool in the toolbox,” she said. “Just because something is more automated doesn’t mean that your skills aren’t required. When phaco was introduced, it didn’t eliminate the need for surgeons who had trained with the extracapsular technique.”
Thompson said advancing technologies are part of the changing world, and it is up to surgeons to adapt. No matter what technology comes into play for cataract surgery, surgeons will always be required, just like pilots are still needed despite most flights being completed on autopilot, he said.
“Human surgeons will always need to be in the loop, both in case of complications during surgery and to simply hold a patient’s hand,” he said. “One of the main reasons I love practicing surgery is because I have the privilege of interacting with so many patients every day. Their smile after receiving the gift of sight again is priceless. I believe the implementation of robotics will help make their smiles even bigger, as more patients will have better access to the best refractive outcomes.”
Amyloid immunotherapies took 20 years to reach the clinic. Scientists are testing new types of therapies they hope could deliver stronger benefits and fewer side effects
On a spring day in 2011, neuroscientist Cynthia Lemere stood nervously before scientists gathered to appraise the world’s latest research—including hers—at a conference on immune strategies for treating Alzheimer’s disease. Advancing her presentation slides to show stained brain tissue from a recent set of mouse experiments, Lemere circled the pointer around the reddish-brown clumps: protein fragments called amyloid beta that form plaques, a hallmark of the disease. In Lemere’s experiments, mice that received antibody treatment accumulated fewer amyloid plaques than animals receiving placebo.
Some in the audience were skeptical. As Lemere recalls, when she finished her presentation one prominent researcher rose and proclaimed: “It’s not a real thing. It’s a biochemical artifact.”
What that researcher dismissed, others pursued. Lemere and colleagues at Brigham and Women’s Hospital in Boston have studied this form of amyloid beta since the 1990s; so have researchers in Japan and Germany. Now, the rogue protein is center stage: A drug (donanemab) that targets the molecule recently showed clear benefits in a large clinical study of people with mild Alzheimer’s disease.
Donanemab’s success follows another Alzheimer’s drug, lecanemab (brand name Leqembi), which hit the market in January, and aducanumab (brand name Aduhelm), which got a nod from the U.S. Food and Drug Administration in 2021 after a controversial review. (Aducanumab was withdrawn from the market in 2024.) These are the first new Alzheimer’s treatments since 2003, and the only ones to impede the disease’s progression; earlier drugs only eased symptoms.
The new therapies are revitalizing Alzheimer’s research and renewing hope for millions of families touched by this devastating disease. Yet these treatments carry some risk and a formidable price tag. Translating them from controlled studies to clinical use will require diagnostics that are more scalable and accessible, as well as new training to equip physicians to recognize early-stage disease and decide who is eligible for treatment.
MOLECULAR UNDERPINNINGS
Alzheimer’s is the most common cause of dementia. It afflicts nearly 7 million people in the United States and more than 30 million worldwide. Older drugs—including donepezil, galantamine and rivastigmine—work by prolonging the activity of key chemical messengers in the brain. This enhancement of nerve cell communication offers a temporary boost but does not get at the disease’s molecular roots.
The newest drugs do. They are the long-awaited fruit of the amyloid hypothesis, the theory that identifies amyloid buildup as an essential trigger that disrupts neural circuits, causing mental decline and other signs of dementia decades later. This theory has driven much of the Alzheimer’s disease research and drug development since the 1990s.
Creating drugs to slow this progression requires a deep understanding of how the culprit molecules form and how they become a threat. Before amyloid clumps into disease-associated plaques, it floats in the blood as harmless proteins. Day by day, decade after decade, these amyloid beta peptides are churned out and cleared out, like scores of other proteins processed in the brain as part of normal metabolism.
At some point, though, things go awry. Amyloid collects and forms clumps in the brain, eventually killing nerve cells and making it hard for people to remember things and manage everyday tasks such as paying bills and getting dressed. “Watching a neurodegenerative disease cause the slow decline of a loved one is sad, worrisome and exhausting,” says Lemere. She lost two aunts to a related condition, Lewy body dementia, and says that “definitely had an impact on my desire to keep working in this field.”
To study the progression of Alzheimer’s, Lemere and colleagues use laboratory mice that are engineered to mimic key pathological manifestations of the human disease. One example: the plaques stained reddish-brown on Lemere’s conference presentation slides.
Each clump represents amyloid beta, but these peptides are anything but identical. Some exist alone as monomers. Others assemble into menacing structures called fibrils, or as intermediate-sized oligomers, which many researchers consider to be the most toxic to nerve cells. Plaques can act as a reservoir for these smaller, toxic species.
What’s more, individual peptides differ in length and shape and sometimes morph further through chemical reactions, as shown in scores of biochemical studies. One variant—a ring-shaped molecule called pyroglutamate amyloid beta (pyroglu Aß) is especially nasty. In lab studies decades ago, it seemed sturdier and stickier than other amyloid peptides and hurt nerve cells even at tiny concentrations.
These observations were later confirmed in therapeutics tested on mice and ultimately in clinical trials of Alzheimer’s patients—but it has taken decades to capture attention from the scientific community.
AN INTRIGUING CULPRIT
Initial descriptions of pyroglu Aß appeared in the biomedical literature as early as 1985. Interest grew as multiple labs published follow-up papers confirming the presence of this unusual protein in autopsy tissue from Alzheimer’s patients. In some brain specimens Lemere analyzed in the 1990s as a Ph.D. student, pyroglu Aß appeared as a dominant species.
In those analyses—when Lemere noticed that pyroGlu showed up well in some samples but less so in others—it seemed to depend on how the tissues were processed. When specimens sat in fixative solution for longer than a few hours, pyroglu Aß was faint or undetectable, she says.
Methodological challenges like that plagued the field for years, fueling claims that pyroglu Aß was a biochemical artifact.
There was another problem with pyroglu Aß: No one could explain how it was formed. Then, in 2000, a doctoral student in Germany studying diabetes made a surprising discovery. Stephan Schilling was investigating how a pancreatic hormone resists degradation in the bloodstream.
He found that the hormone was chemically altered by an enzyme that adds pyroglutamate and that the same enzyme can add pyroglutamate to many other proteins—including amyloid beta.
During his postdoc, Schilling reported in 2008 that inhibiting this enzyme, called glutaminyl cyclase, curbs amyloid buildup and improves cognition in mice and fruit flies that model Alzheimer’s disease.
An inhibitor of the enzyme has been developed by Vivoryon Therapeutics AG, a German precision medicine company, and was recently tested in a clinical trial of people with mild Alzheimer’s disease, says Schilling, who is now a professor at Anhalt University of Applied Sciences and serves on Vivoryon’s scientific advisory board. (The inhibitor did not prove effective at slowing cognitive decline, the company announced in March.)
While developing the enzyme inhibitor, company researchers started pursuing another strategy—immunizing mice with antibodies against pyroglu Aß. The rationale was that if pyroglu Aß is found in plaques, then targeting it with antibodies could lower brain amyloid and slow cognitive decline. Schilling and Lemere joined forces in 2008, testing pyroglu Aß antibodies made by Probiodrug AG, which later became Vivoryon, on Lemere’s brain tissue samples and Alzheimer’s mouse models.
AMYLOID IMMUNOTHERAPY
By then, amyloid had emerged as a prime focus for Alzheimer’s drug development. The first strategy to reach clinical testing was active immunotherapy: vaccinate with amyloid beta peptide to stimulate an immune response to remove amyloid deposits.
This approach worked in mice and was further studied in people with mild to moderate Alzheimer’s disease. But investigators stopped that trial in 2001 after 6 percent of participants developed brain inflammation, presumably resulting from an autoimmune response to injection with a naturally occurring protein.
To avoid those harmful effects, some Alzheimer’s trials turned to passive immunotherapy—injecting antibodies directly into the patient rather than stimulating the patient’s body to make them.
Scientists at Lilly Research Laboratories in Indianapolis developed an antibody that binds soluble amyloid beta, thinking this could shift the equilibrium to prevent neurotoxic aggregates from forming. The antibody looked impressive in Alzheimer’s mice, reversing memory deficits even as amyloid piled up in their brains. But when Eli Lilly created a humanized version of this antibody and moved it into clinical trials, the antibody, solanezumab, failed to help patients with mild to moderate symptoms who enrolled in two late-stage, placebo-controlled studies. Meanwhile, bapineuzumab, an antibody that recognizes both soluble and plaque amyloid, also failed in a large phase 3 trial; Johnson & Johnson and Pfizer decided in 2012 to discontinue this drug.
Although the drugs failed to help patients, the two studies did mark the first use in Alzheimer’s research of an important new tool: positron emission tomography (PET) brain scans that measure amyloid load in the brains of live patients. PET revealed that nearly a quarter of participants in the solanezumab and bapineuzumab trials did not in fact have Alzheimer’s—their scans showed no brain amyloid—so the tested drugs could not have helped them. And though the Alz-heimer’s antibody trials were failing to identify new drugs, collectively the trials were teaching researchers something valuable: experimental treatments seem to work better when started earlier in the disease process.
Soon Eli Lilly took another shot: It enrolled 2,129 patients in an 18-month trial, in which they would receive monthly infusions of either the drug solanezumab or a placebo. To qualify for that study, participants had to test positive for amyloid, by brain scan or spinal fluid analysis. Yet even with the tightened criteria, the company reported in late 2016 that treated patients showed only a hint of improvement, relative to the placebo group. “It did move the needle, but not enough to be a medicine,” says Eric Siemers, who started a consulting business in 2017 after 19 years directing Eli Lilly’s Alzheimer’s disease program. “That was a big disappointment.”
And although passive immunotherapy has proved safer by avoiding the brain inflammation that halted the 2001 active immunotherapy trial, antibody infusions still raise concern. A subset of participants develop brain swelling and microbleeds—amyloid-related imaging abnormalities (ARIA), which show up on magnetic resonance imaging (MRI) scans. Some patients experience symptoms—typically headache, confusion or nausea—and three participants in clinical trials with ARIA have died, so patients with ARIA symptoms must be monitored. But most ARIA cases are asymptomatic, transient and resolve with corticosteroids.
DESPAIR AND DETERMINATION
Alzheimer’s drug development is high stakes and high risk. More than 300 interventions—79 of them amyloid-related—have entered clinical testing, and 99 percent of experimental therapies have performed no better than placebo in clinical trials, according to the therapeutics database at Alzforum, a web resource for researchers studying Alzheimer’s and related disorders.
Given these tough odds, companies hedge their bets. While testing antibodies, some also pursued other amyloid strategies—for example, a pill that reduces amyloid beta levels by blocking the activity of an enzyme called BACE1 that is required to produce it. “A lot of people were convinced that these BACE inhibitors were going to be the solution,” Siemers says.
But four large studies of such drugs showed no drug-placebo difference in Alzheimer’s patients; in fact, treated participants actually got a bit worse. For some researchers, the failed trial of Merck’s BACE inhibitor in 2019 was a breaking point. It prompted a reevaluation in the field. “To be blunt, amyloid-beta lowering seems to be an ineffective approach, and it is time to focus on other targets to move therapeutics for Alzheimer’s disease forward,” Mayo Clinic neurologist David Knopman wrote in a 2019 commentary shortly after the failed trial.
For Schilling, such declarations instilled determination to continue the research. “I wanted to show all these people that [pyroglu Aß] is a concept that is viable and that can be used to develop a treatment,” he says. Meanwhile, Lemere’s team used the pyroglu Aß antibody developed by Schilling’s Probiodrug colleagues to treat Alzheimer’s in mice. Reporting in a February 2012 paper, “we found that we were clearing regular amyloid beta as well,” she says.
A team from Eli Lilly published similar findings with their pyroglu Aß antibody later that year and ultimately advanced it into clinical testing before the smaller Probiodrug team could. In spring 2021, the company reported that this drug, donanemab, slowed cognitive decline in a phase 2 trial of 257 participants with early Alzheimer’s disease.
NEW HOPE
That was a “turning point,” says Knopman, whose enthusiasm for amyloid-lowering treatments had waned with past failures of BACE inhibitors and immunotherapy trials. More success followed. In 2022 Eisai and Biogen reported that participants with early-stage Alzheimer’s who were treated with another amyloid antibody, lecanemab (Leqembi), declined 27 percent more slowly than the placebo group in a large 18-month trial. And in summer 2023, Eli Lilly reported that donanemab slowed cognitive worsening by 35 percent in amyloid-positive mild Alzheimer’s patients who also had low to moderate levels of another protein, tau.
The latest results suggest that patients lose function five months later than they would have otherwise during 18 months of treatment, according to a recent analysis by researchers at Pentara, a clinical trials consulting firm. This could preserve their ability to drive or delay their need to move into a nursing home, says CEO Suzanne Hendrix, a statistician who helped Eisai design a key scoring metric for the pivotal trial leading to lecanemab’s FDA approval.
As the newest Alzheimer’s drugs begin the challenging transition from research trials to real-world use, researchers are testing new types of therapies that they hope can achieve stronger benefits with fewer side effects.
Eli Lilly itself is working on a newer pyroglutamate antibody that eases some of donanemab’s side effects and seems to clear plaques faster, according to early data reported this spring. And researchers at Vivoryon, working with Schilling and Lemere, are trying to re-engineer their pyroglu Aß antibody so it cannot activate the immune reactions underlying ARIA. “It’s important to try to find ways to mitigate ARIA,” says Lemere. “Before I retire, I have to figure this out.”
Meanwhile, several companies are still pursuing active immunotherapy by creating safer amyloid beta vaccines that could one day be deployed to prevent disease, especially once blood tests replace the much costlier brain scans to detect preclinical Alzheimer’s.
In another decade or so, some researchers think such blood panels could become routine—and they would check not just amyloid and tau but also other proteins that are associated with dementia or neurodegeneration. Screening would start around age 65 or 70. “If my amyloid beta and tau are high, maybe I get on a drug that can lower those and prevent me from getting Alzheimer’s, and in someone else it might be a different brain protein,” says neurologist Gil Rabinovici, who directs the Alzheimer’s Disease Research Center at the University of California, San Francisco. “These panels are going to tell us what is going on in the brain and what we might be at risk for developing over time.”
Immune checkpoint inhibitors did not produce increased pregnancy, fetal and neonatal adverse events compared with other anticancer drugs.
Anti-PD1, anti-CTLA4 combo resulted in overreporting of preterm birth.
Use of immune checkpoint inhibitors for pregnant women with cancer may be safer than previously thought, according to study results published in JAMA Network Open.
Patients treated with immune checkpoint inhibitors (ICIs) did not experience significantly more pregnancy-related, fetal or neonatal adverse events compared with those who received other anticancer therapies.
Data derived from Gougis P, et al. JAMA Netw Open. 2024;doi:10.1001/jamanetworkopen.2024.5625.
“It is the beginning of a journey to search for the best information available to help navigate difficult decisions ahead, especially when recommendations regarding life-saving cancer treatment can appear to be at odds with the needs of the pregnancy and growing fetus,” Alisa Kachikis, MD, MSc, assistant professor at University of Washington, and Linda O. Eckert, MD, adjunct professor at University of Washington, wrote in an accompanying editorial about the findings.
They said the study “offers some hope in an area where data are otherwise sparse.”
Background and methodology
Only 0.1% of pregnancies occur during active cancer treatments, with breast cancer, cervical cancer, Hodgkin disease, malignant melanoma and leukemia being the most common types, according to background information provided by Paul Gougis, MD, department of medical oncology at Pitié Salpêtrière Hospital, Paris, and colleagues.
However, managing these cancers can be difficult as clinicians must balance the health of the patient and the fetus.
ICIs have proven effective in cancer care and researchers expect them to be used more often in this population in the future.
“Currently, the use of ICIs during pregnancy is discouraged due to the absence of safety data obtained in the pregnancy setting,” Gougis and colleagues wrote. “Given the major benefits associated with ICIs, data from large-scale studies exploring the toxic effects of these agents during pregnancy are crucial.”
Researchers acquired study data from VigiBase, WHO’s pharmacovigilance database that has accumulated more than 30 million case reports from 130 countries since 1967.
They evaluated 45 different adverse events in reports of women with a pregnancy-related reaction and interaction with at least one anticancer drug.
The final analysis included 3,558 reports (48.1% from the U.S.; mean age, 28.7 years; 2.6% had ICIs exposure).
Reporting odds ratio (ROR) of women having any pregnancy-related, fetal and neonatal adverse outcomes while receiving ICIs compared with other anticancer drugs served as the study’s primary endpoint.
Results and next steps
The ICI group had a 41.8% report rate of pregnancy, fetal and neonatal adverse events compared with 57.1% in the other anticancer drug cohort (ROR = 0.54; 95% CI, 0.35-0.82).
No significant overreporting of adverse events occurred in the ICI group for any of the 45 outcomes evaluated.
In the evaluation of ICI treatments, overreporting of preterm birth did occur when women received a combination of anti-PD1 and anti-CTLA4 compared with other anticancer medications (80% vs. 23%; ROR = 13.87; 95% CI, 3.90-49.28).
However, anti-PD-L1 and anti-CTLA4 did not produce overreporting of preterm birth when used individually.
Researchers noted 3.3% of ICI reports had suspected immune-related complications.
“One mother developed a combination of antiphospholipid syndrome, pneumonitis and thyroiditis associated with spontaneous abortion,” they wrote. “One report mentioned fetal pneumonitis, possibly immune-related and leading to neonatal respiratory distress syndrome. One newborn experienced intrauterine growth restriction, preterm birth and transient congenital hypothyroidism.”
Study limitations included lack of various data points, including timing of exposure to medications and tumor characteristics.
“The risk-benefit evaluation for both the mother and the fetus or newborn should be discussed case by case considering the oncologic urgency,” researchers wrote.
Kachikis and Eckert stressed the need for more research.
“While this study is a step forward, more studies on cancer treatment in pregnancy and funding for reproductive health research are needed to mitigate the fraught nature of these difficult decisions,” they wrote.
E-cigarette use was associated with elevated risk for incident heart failure compared with never use.
The association was significant even after adjustment for concomitant substance use and other risk factors.
ATLANTA — Individuals with a history of e-cigarette use may have increased risk for incident heart failure, regardless of concomitant cigarette, cigar, hookah or smokeless cigarette use, a speaker reported.
“More and more studies are linking e-cigarettes to harmful effects and finding that it might not be as safe as previously thought,” Yakubu Bene-Alhasan, MD, resident physician at MedStar Health in Baltimore, said in a press release. “The difference we saw was substantial. It’s worth considering the consequences to your health, especially with regard to heart health.”
E-cigarette use was associated with elevated risk for incident heart failure compared with never use.
Bene-Alhasan and colleagues used electronic health record data from the NIH-sponsored All of Us Research Program and responses to the Population Assessment of Tobacco and Health-styled questions to conduct a prospective analysis to better understand the association between e-cigarette use and incident HF. The overall cohort included 175,667 participants.
During a median follow-up of 45 months, 3,242 HF events occurred.
The findings were presented at the American College of Cardiology Scientific Session.
After adjusting for demographic factors, socioeconomic factors, diabetes, hypertension, hyperlipidemia, BMI and concomitant substance use — including cigarette, cigar, hookah, smokeless cigarette and alcohol use — users of e-cigarettes had an 19% greater risk for incident HF compared with never users (adjusted HR = 1.19; 95% CI, 1.06-1.35).
The researchers noted an increased risk for HF with preserved ejection fraction (aHR = 1.21; 95% CI, 1.01-1.47) and not HF with reduced EF (aHR = 1.11; 95% CI, 0.9-1.37).
The association between e-cigarette use and risk for incident HF was attenuated slightly after researchers excluded participants who reported having a history of cigarette, cigar, hookah and smokeless cigarette use (aHR = 1.04; 95% CI, 0.57-1.89).
“I think this research is long overdue, especially considering how much e-cigarettes have gained traction,” Bene-Alhasan said in the release. “We don’t want to wait too long to find out eventually that it might be harmful, and by that time a lot of harm might already have been done. With more research, we will get to uncover a lot more about the potential health consequences and improve the information out to the public.”
Pancreatic cancer is a lethal malignancy with a grim prognosis. Previous studies have proven that Leucine Rich Repeat of Flightless-1 Interacting Protein 1 (LRRFIP1) plays a pivotal role in cell biological processes, while its clinical significance and function in pancreatic cancer remain to be elucidated. Hence, we aimed to explore the roles and mechanisms of LRRFIP1 in pancreatic cancer.
Methods
The expression of LRRFIP1 in pancreatic cancer tissues and its clinical significance for pancreatic cancer were analyzed by immunohistochemistry assay and bioinformatic analysis. The influences of LRRFIP1 on the proliferation and migration of pancreatic cancer cells were assessed in vitro. The underlying mechanisms of LRRFIP1 in pancreatic cancer progression were explored using gene set enrichment analysis (GSEA) and molecular experiments.
Results
The results showed that LRRFIP1 expression was significantly upregulated in pancreatic cancer tissues compared to the normal tissues, and such upregulation was associated with poor prognosis of patients with pancreatic cancer. GSEA revealed that LRRFIP1 upregulation was significantly associated with various cancer-associated signaling pathways, including PI3K/AKT signaling pathway and Wnt pathway. Furthermore, LRRFIP1 was found to be associated with the infiltration of various immune cells. Functionally, LRRFIP1 silencing suppressed cell proliferation somewhat and inhibited migration substantially. Further molecular experiments indicated that LRRFIP1 silencing inactivated the AKT/GSK-3β/β-catenin signaling axis.
Conclusion
Taken together, LRRFIP1 is associated with tumorigenesis, immune cell infiltration, and prognosis in pancreatic cancer, which suggests that LRRFIP1 may be a potential biomarker and therapeutic target for pancreatic cancer.
Replacing sugar with sweeteners like stevia does not increase a person’s appetite and can even help reduce blood sugar levels, according to a new study.
Fans of stevia and other sugar alternatives get a sprinkle of sweet news. Replacing sugar with sweeteners like stevia does not increase a person’s appetite and can even help reduce blood sugar levels, according to new randomized controlled trial results.
The study, published by the SWEET consortium in The Lancet’s eBioMedicine, was led by the University of Leeds in the United Kingdom and the Rhône-Alpes Research Center for Human Nutrition in France. The SWEET consortium comprises 29 Europe-based research, consumer, and industry partners collaborating to research whether switching from sugar to other sweeteners would benefit the public.
The first-of-its-kind study included 53 adult men and women between the ages of 18 and 60 who were considered overweight or obese. It is considered first-of-its-kind because it focused on sugary foods rather than beverages. Between 2021 and 2022, participants consumed cookies that contained either sugar, stevia, or an artificial sweetener called Neotame over three two-week periods. Neotame (sold as Newtame) is an artificial sweetener that is up to 13,000 times sweeter than regular sugar. Participants tried each type of cookie but in a different order. Their glucose levels, insulin, and appetite-related hormones were recorded on the first and last day of each two-week period.
The researchers found no difference in appetite levels between participants who ate cookies with sugar and those who ate cookies with stevia or artificial sweetener. Additionally, they found no difference between appetite-related hormones like ghrelin, glucagon-like peptide 1 (GLP-1), or pancreatic polypeptide.
However, participants who ate cookies made with stevia or artificial sweetener had lower blood sugar and insulin levels than those who ate cookies made with sugar. Participants who ate cookies made with stevia showed the most statistically significant difference in blood sugar.
Sugar and Obesity
While dietary fat was once suspected to cause weight gain and obesity, the finger has shifted to point to sugar in recent decades. Being overweight or obese increases a person’s risk of developing diabetes. Diabetics have too much glucose, or blood sugar, in the bloodstream, so they must watch how much sugar they consume. Additionally, obesity can worsen diabetes.
The unofficial term “diabesity” refers to someone who is both obese and has diabetes. Explains Dr. Jay Waddadar from the Cleveland Clinic: “Diabesity is a disease with enormous potential to cause ill effects on the body in the long run. … Diabesity is a silent disease that damages your body if it’s not controlled, even while you feel fine.”
In the end, sugar is a culprit for both obesity and diabetes, two conditions that feed off of one another.
A Safe Alternative to Sugar? Questions Remain
To reduce the burden of metabolic-related diseases like Type 2 diabetes, a safe alternative to sugar becomes more necessary to reduce sugar intake, lead author Catherine Gibbons, associate professor at the University of Leeds’ School of Psychology, said in a press release. However, the World Health Organization (WHO) has yet to get behind stevia or artificial sweeteners for weight control or reducing the risk of metabolic disorders.
“The rationale behind the recommendation appears to be founded on the lack of robust evidence,” the researchers wrote in the study.
The new research contradicts previous studies from 2023 linking artificial sweeteners to health concerns like impaired glycemic response, toxicological damage to DNA, and increased risk of heart attack or stroke. The authors suggest that this previous research was of lower quality and that the WHO’s stance was perhaps premature. However, although the SWEET consortium’s study was double-blinded, randomized, and highly controlled, with only 53 subjects, it was also small.
Nonetheless, the study offers evidence that nonsugar sweeteners could be a valuable tool in reducing the amount of sugar consumed globally. As more people look for ways to manage their weight and blood sugar levels, sweeteners like stevia and artificial sweeteners could help satisfy a sweet tooth without increasing appetite.
The use of acetaminophen in babies and in children would never have been approved if it had been tested using current safety standards, claims William Parker, Ph.D.
Parker, who is based in Durham, North Carolina, is an immunologist and biochemist. He conducted research and taught medical school students at Duke University for more than 25 years. He and his colleagues have been researching and writing about the effects of acetaminophen—which is the main ingredient in Tylenol—since 2015.
Acetaminophen Linked to Autism ‘With No Reasonable Doubt’
In one of his most recent studies, co-authored with six other Ph.D. scientists, Parker and his team concluded: “with no reasonable doubt” that acetaminophen causes autism in susceptible babies and children.
“Let me be clear,” Parker told us. “This is not a hypothesis. We have enough evidence for a conclusion on this issue.”
The peer-reviewed study was published in July 2022 in the Italian journal Minerva Pediatrics. The co-authors included two scientists in the pharmaceutical industry as well as Dr. Kate Reissner, a professor and neuroscientist at the University of North Carolina.
“Our published conclusion is based on 17 lines of evidence,” Parker explained. That evidence includes small but compelling studies in humans, numerous studies in animal models, and a series of clues that all point toward acetaminophen as a cause of autism.
“Under normal circumstances, if a drug causes permanent behavioral changes in laboratory animals, it will never be tested in humans,” Parker explained. “Those are called pre-clinical trials. If you fail in pre-clinical trials, then they would never try it in a baby human, if it’s hurting baby animals.”
Why Do Pediatricians Still Recommend Infant Tylenol?
Given the growing body of scientific evidence linking acetaminophen to autism, as well as the continued rise in autism rates in the United States and other countries in the industrialized world, why do most pediatricians think acetaminophen is safe for babies and children?
“There are several reasons,” Parker explained when we asked him this question. “It’s thought to be safe by almost everyone, that leads to a consensus bias. Moreover, most children don’t become autistic after taking acetaminophen, which leads to an antidote bias. That’s: ‘hey my grandma smoked all her life and never got lung cancer and lived to 102, so smoking isn’t bad for you.’”
But the real reason, Parker said, is that public health authorities report that it is safe.
“The bottom line is that we just can’t expect a typical pediatrician will know anything regarding the safety of drugs for children beyond what they are told by regulatory agencies,” Parker said. “People assume that the doctors know the latest research, but that’s not their job.”
Parker pointed out that pediatricians are busy seeing patients. So, they rely primarily on regulatory agencies, in particular the FDA and the CDC, to tell them what is safe.
Most pediatricians are not aware that boys who are circumcisedhave twice the prevalence of infantile autism as boys who are not. The connection between circumcision, a surgical procedure that often involves the administration of acetaminophen, and autism are one of the 17 lines of evidence compiled by Parker and his team that led them to conclude that acetaminophen causes autism in susceptible children. But that clue is not common knowledge among pediatricians because neither the FDA nor the American Academy of Pediatrics have issued any warnings about it.
At a pediatric conference in Medford, Oregon, that Jennifer attended several years ago, this question was put to a pediatrician, a tongue-tie specialist based in Portland, Oregon. In his talk, as well as on his website, he specifically stated that parents may use Tylenol post-frenotomy.
Though he admitted publicly that he was aware of the evidence linking Tylenol to autism spectrum disorders, the doctor told the audience of about a hundred Oregon healthcare professionals that there was no other painkiller to recommend, as ibuprofen is not approved for children under six months.
Wrongly Assumed Safe
A team of researchers from Duke University and the University of Montreal reviewed the history of how and why acetaminophen was approved for use in infants, given its very concerning safety record. That peer-reviewed study, published in May 2022 in the European Journal of Pediatrics, explained that acetaminophen was assumed to be safe for babies and children in the 1960s and 1970s because it was found to be safe for a baby’s liver.
The underlying assumption, now known to be false, was that babies and children process drugs the same as adults do. Since acetaminophen damage manifests as liver damage in adults, investigators decided to check for liver function in babies as their only measure of safety.
“In hindsight, the mistake is obvious,” Parker said. “Nobody ever checked to see if it was causing damage to the baby’s brain. But now we know it does if the child is susceptible.”
More Than a Decade of Research
Are Parker and the scientists working with him rushing to a premature conclusion? Are they overstating their concerns? Are they confusing correlation with causation?
In response to these questions, Parker laughed. Then he launched into a litany of facts:
The first paper that showed acetaminophen causes autism was published in 2008, well over a decade ago.
His first review on the topic, with scientists and clinicians at Duke and Harvard, was published more than five years ago.
Among other things, he points out that it took almost three years to complete and publish his study showing when, where, and how the tragedy happened.
“Scientists have been known to rush to a speedy conclusion on occasion,” Parker insisted. “This is not one of those occasions. This pile of evidence is so ripe that it will explode.”
Wrong Focus
In 2020, Johnson & Johnson was ordered to pay $6.3 million for misleading advertising on the packaging of infant Tylenol. Since then, at least 20 lawsuits against Tylenol have been filed, many of them highly publicized.
While the media attention surrounding these lawsuits is bringing important issues to light, Parker said, he believes that the lawsuits may also mislead the public.
Here’s why: these lawsuits are focused on acetaminophen use during pregnancy. But Parker and his colleagues believe that acetaminophen use in babies and in children probably is much more dangerous than acetaminophen use during pregnancy.
“Post-natal use probably causes five or six times more cases of autism than use during pregnancy,” he said.
Could We Make Tylenol Safe?
Parker said it’s very difficult to know in advance what children are more susceptible to brain injury from acetaminophen. He said genetic factors play a role.
Other doctors, including Ben Lynch in Washington and Paul Thomas in Oregon, have said that children who are homozygous for MTHFR mutations are more likely to have difficulty detoxifying. But, Parker said, a variety of other factors—including a depleted microbiome and co-existing autoimmune dysfunction—can stress the immune system.
In December 2015, two medical scientists from the University of Miami found that letting a fever “ride” was supported by several randomized controlled studies. Five months later, a long review article published in Nature Reviews Immunology showed that most fevers are protective, and many should be allowed to run their course.
There are many natural alternatives to acetaminophen, some of which can be safely given to infants. But Parker also has another suggestion. He said that adding an antidote for the drug’s toxicity might be a way to make it safe.
One such antidote, acetylcysteine, Parker said, is usually well tolerated. “We shouldn’t assume it will work,” he said, “but we could test it easily enough.”
In the United States, acetaminophen is widely available and included in hundreds of cold and cough medicines. Unfortunately, it can also be easily misused and has been responsible for deaths by suicide and unintentional poisoning.
Because of its potential dangers, acetaminophen is one of the most frequently banned or restricted drugs (pdf). Countries that have limited or banned drug combinations using acetaminophen include the UK, Norway, India, Algeria, and Kyrgyzstan.
Acetaminophen overdose is the leading cause of liver transplantation in the United States, according to a recently updated report by the National Institutes of Health. About 500 Americans die yearly of complications from acetaminophen toxicity. It also causes approximately 56,000 emergency department visits and 2,600 hospitalizations annually.
Why Is Acetaminophen Toxicity Rate So High?
“Acetaminophen is by far the No. 1 cause of acute liver failure in the United States,” Dr. Nima Majlesi, director of medical toxicology at Staten Island University Hospital in New York, told The Epoch Times.
He noted that most cases result from unintentional chronic acetaminophen overdoses, often due to misuse of medications such as Percocet, Vicodin, and Tylenol PM or taking multiple acetaminophen-containing products without recognizing the danger of high daily doses.
Acetaminophen is sold under many brand names and is an ingredient in a broad range of over-the-counter and prescription medications.
“Medications such as Percocet, Tylenol PM, Robitusson, and Nyquil all can contain acetaminophen,” Majlesi said. “In fact, acetaminophen has been reported to be present in about 600 different products.”
Even though acetaminophen is effective in treating symptoms such as pain and fever, high doses of the medication can be dangerous and cause potentially irreversible liver damage. When acetaminophen is taken in high doses, the liver may be unable to keep up with the breakdown process, and toxic byproducts can accumulate, causing damage to liver cells.
People should take medications as directed, but even then, there’s concern that not all doctors prescribing combination opioid/acetaminophen drugs ensure that patients understand not to take any other acetaminophen medication, according to Dr. Kevin Zacharoff, a chronic pain and substance-use expert.
“What that means is that a significant percentage of people who need liver transplants in the United States need them not because of IV drug abuse or anything else other than the fact that they were ‘poisoned’ in some way by too much acetaminophen,” Zacharoff said.
Accidental Deaths and Suicide
Acetaminophen is often combined with opioid drugs, such as Percocet, and prescribed for pain management. However, many people taking this type of medication are unaware of the presence of acetaminophen, Zacharoff said.
“I think if I said to you, ‘Make sure if I’m prescribing Percocet to you, that you don’t take any other medicine that has acetaminophen in it,’ you may or may not know that Tylenol is another word for acetaminophen,” he said.
People may also be unaware that Robitussin, a common cough medicine, often contains acetaminophen or that common allergy, sinus, and migraine medications may also contain acetaminophen.
“That sets the stage … for people to unintentionally be exposed to too much of it,” Zacharoff said.
The accessibility of the drug also makes it a potential means to commit suicide.
A recent study by the U.S. Centers for Disease Control and Prevention found a 30 percent increase in suicide attempts by poisoning among children in the United States aged 10 to 19 years between 2019 and 2021. The data reveal an even more alarming trend among younger children: Those aged 10 to 12 had a 73 percent increase, and adolescents aged 13 to 15 had a nearly 49 percent increase over that time.
In 2011, Johnson & Johnson, the manufacturer of Tylenol, announced a voluntary reduction of the maximum daily dose for their single-ingredient Extra Strength Tylenol products sold in the United States from eight pills per day (4,000 milligrams) to six pills per day (3,000 milligrams) to decrease the risk of unintentional overdose.
FDA Stance on Acetaminophen
In 2009, a U.S. Food and Drug Administration (FDA) advisory panel voted to recommend banning the combination of acetaminophen and opioid drugs under the brands Percocet and Vicodin and reducing the maximum daily dose of acetaminophen. However, the drug combination is still prescribed in the United States but with generic labels such as hydrocodone and acetaminophen or hydrocodone/APAP.
In 2022, the FDA took steps to address the dangers associated with acetaminophen, including limiting prescription acetaminophen products to 325 milligrams per dose and adding a box warning highlighting the drug’s potential to cause severe liver damage.
“If the FDA truly wanted to reduce the risk of chronic acetaminophen poisoning, it would eliminate all combination preparations and force people to take a pill for each individual medication they needed,” Majlesi said.
This would mean that patients take a single pill for every ingredient contained in their medication.
“This would eliminate much of the confusion that occurs and make medications much safer,” he said.
Acetaminophen May Not Even Help Treat Acute Pain
Acetaminophen has been used since 1878 and might have been assumed to be harmless, like aspirin, another old drug. Unfortunately, some research suggests that acetaminophen use is linked to increased rates of heart attack and kidney failure.
And in addition to the elevated risks of taking it in high amounts, the drug can cause liver failure, even in standard doses, according to research published in Drug Safety in 2013.
“Nobody really knows exactly how acetaminophen works in the treatment of pain,” Zacharoff said. “There is a fairly well-substantiated basis for acetaminophen being used to treat someone with a fever, as an antipyretic, similar to that of nonsteroidal anti-inflammatories (NSAIDs), but acetaminophen does not have any anti-inflammatory activity in and of itself.”
Growing evidence suggests that acetaminophen may not even work very well for people with chronic pain. In a review of two large clinical trials, researchers found that 4,000 milligrams per day were no better than a placebo for relieving short- or long-term acute lower back pain. The study also shows that acetaminophen was ineffective compared with a placebo in improving sleep quality.
Acetaminophen is often mistakenly considered a conventional NSAID, such as ibuprofen, naproxen, and diclofenac, but it isn’t.
“The pharmacology is very different,” Majlesi said.
He explained that while NSAIDs can cause gastrointestinal irritation, bleeding, and kidney issues when used excessively, acetaminophen can lead to liver failure with chronic overuse. In contrast to NSAIDs, the symptoms of toxicity from acetaminophen aren’t easily recognizable until severe damage has already occurred.
“It is much easier to overdose on acetaminophen because it is very well tolerated in higher doses and exists in combination preps much more frequently than NSAIDs,” Majlesi said.
How to Prevent Acetaminophen Overdose
“As a consumer, you should be aware of every medication that is going into your body,” Majlesi said. “If you are taking combination preparations, then know what each drug in the prep is and why you are taking it.”
He recommended that people stop using brand names when discussing their medications and focus on the generic names of each drug in their daily regimen.
“There is almost no reason anyone should be chronically using a combination preparation containing acetaminophen on a daily basis for more than one week,” Majlesi said.
For individuals in that situation, he recommended having an open conversation with their doctor to question the effectiveness of such a treatment regimen.
“I cannot think of any combination preparation containing acetaminophen that should be used chronically,” Majlesi said.
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