This study is getting a lot of media time.  It’s nice if you drink black tea – it reinforces that it’s “good for you”.  The reality is that the results are modest (about an 11% overall mortality benefit – that’s good) for those drinking 2 -3 cups a day.  But when you delve into the details, there’s some crazy stuff that runs contrary.  So it depends on where you want the benefit – 2-3 cups helps your heart, but a bit more doesn’t help.  But, if you drink 8 or more cups, you again decrease your heart attack risk.  Of course, if you want to decrease your risk of stroke, you’ve got to drink 10+ cups.  2-3 cups helps with lung disease and cancer.  

Take away?  If you like tea, drink it.  I’d suggest you get a quality tea – toxins abound in many of the mass produced products, so organic wouldn’t be a bad idea!

FROM MEDPAGE TODAY / BY KRISTEN MONACO

Prospective study found modest mortality benefit to drinking 2-plus cups per day

A few cups of tea a day might help to stave off an early death, a U.K. Biobank prospective cohort study showed.

Among nearly half a million middle-age adults, those who consumed two or more cups of tea a day saw a modest but lower risk for all-cause mortality over a median 11.2-year follow-up, reported Maki Inoue-Choi, PhD, of the National Cancer Institute in Bethesda, Maryland and colleagues in the Annals of Internal Medicine.

While those who only drank one or fewer cups per day didn't see this protective benefit (HR 0.95, 95% CI 0.91-1.00), moderate and heavy tea drinkers did see a significantly lower mortality risk:

• Two to three cups per day: HR 0.87 (95% CI 0.84-0.91)

• Four to five cups: HR 0.88 (95% CI 0.84-0.91)

• Six to seven cups: HR 0.88 (95% CI 0.84-0.92)

• Eight to nine cups: HR 0.91 (95% CI 0.86-0.97)

• 10 or more cups: HR 0.89 (95% CI 0.84-0.95)

"Almost 90% drank black tea, making black tea the predominant tea type in this population," Inoue-Choi pointed out during a press conference. She added that most previous research quantifying the benefits of tea drinking have focused on green, not black, tea.

"These results suggest that black tea, even at higher levels of intake, can be part of a healthy diet," she said. "While these findings offer reassurance to tea drinkers, they do not indicate that people should start drinking tea or change their tea consumption for health benefits."

Inoue-Choi's group also found that drinking tea was linked with a lower risk for cardiovascular-specific causes of death.

In fully adjusted models for sociodemographic and lifestyle factors, drinking more than two cups of tea per day was associated with a 14% to 24% lower risk for death from all cardiovascular diseases, with the heaviest tea drinkers seeing the most risk reductions.

Likewise, consuming two to three cups per day was linked with a 17% lower risk for death due to ischemic heart disease, although those who drank anywhere from four to seven cups on average didn't see a significant risk reduction. However, drinking eight or more cups on average was associated with a 26% lower risk for ischemic heart disease-related mortality.

As for stroke-related deaths, only those who drank 10 or more cups per day saw a significant risk reduction (HR 0.48, 95% CI 0.28-0.85).

Drinking an average of two to three cups of tea per day was also linked with a modestly reduced risk for respiratory disease-related death and cancer-related death.

Inoue-Choi added that these associations were seen regardless of tea temperature and whether people took their tea black or if they added milk and/or sugar. The associations were also adjusted for genetic variations in caffeine metabolism.

"Tea is very rich in bioactive compounds, such as polyphenols," she told MedPage Today. "These compounds have the potential to decrease oxidative stress and inflammation, so these mechanisms can protect against cancer, cardiovascular disease, and other health conditions."

For this analysis, the researchers assessed data on 498,043 men and women from the U.K. Biobank, ranging in ages from 40 to 69, who completed the baseline touchscreen questionnaire from 2006 to 2010. More than 90% of respondents were white.

Of this cohort, 85% said they consumed tea daily, with 11.5% drinking one cup or less, 29.4% drinking two to three cups, 25.5% drinking four to five cups, 11.8% drinking six to seven cups, 3.7% drinking eight to nine cups, and 3.4% drinking 10 or more cups.

Men were a bit more likely to be the heaviest tea drinkers. Those drinking 10 or more cups of tea per day were also most likely to be current smokers.

"Although the associations were assessed carefully and comprehensively, these results need to be replicated in future studies and extended in other diverse populations," Inoue-Choi suggested.

If you worry that you're having to many "Senior Moments" - do some exercise!!

While the exercise involved required 4 sessions of 30-40 minutes a week, the stretching/balance group did just as well as the aerobic group. So, if you don't like getting sweaty and raising your heart rate high, that could really work for you. Still, you HAVE TO GET UP AND GO! And then you'll remember where you're going!

FROM MEDPAGE TODAY / BY JUDY GEORGE

Trial shows promise for people with mild cognitive impairment

Sedentary older adults with amnestic mild cognitive impairment who engaged in regular exercise for a year maintained their cognition without decline, topline data from the EXERT trial showed.

Older adults who engaged in either moderate intensity aerobic training or stretching, balance, and range-of-motion exercises for 12 months showed no change from baseline in ADAS-Cog-Exec scores, a measure of global cognitive function, reported Laura Baker, PhD, of Wake Forest University School of Medicine in Winston-Salem, North Carolina, at the 2022 Alzheimer's Association International Conference.

A comparison group of similar older adults with mild cognitive impairment in an observational study -- the Alzheimer's Disease Neuroimaging Initiative (ADNI) -- who did not have the EXERT interventions showed significant cognitive decline over 12 months, Baker noted.

"An increased amount of supported exercise of at least 120 to 150 minutes a week for 12 months may slow or stall cognitive decline in previously sedentary older adults with mild cognitive impairment," she said.

EXERT is the longest-ever phase III study of exercise in older adults with mild cognitive impairment, noted Maria Carrillo, PhD, chief science officer of the Alzheimer's Association.

These topline findings are "remarkable and encouraging," Carrillo said. "They suggest that regular physical activity, even modest or low exertion activity such as stretching, may protect brain cells against damage."

The EXERT trial aimed to test whether 12 months of exercise would improve or protect cognition in sedentary people with amnestic mild cognitive impairment. Participants with a mean Mini‐Mental State Examination (MMSE) score of 28 and a mean Clinical Dementia Rating scale Sum of Boxes (CDR-SB) score of 1.5 were randomized to either aerobic or stretching, balance, and range-of-motion exercise.

Both the aerobic and stretching/balance groups exercised four times a week for about 30 to 40 minutes. The aerobic group exercised at a moderate intensity, achieving 70% to 85% heart rate reserve. The stretching/balance group exercised at a low intensity, maintaining heart rate reserve below 35%.

In the first 12 months of the trial, participants were supervised by a trainer at the YMCA. For the next 6 months, they continued exercising independently.

A total of 296 participants enrolled in the study. Most (57%) were women; about 87% were white and 10% were Black. Mean age was about 74, and 25% were APOE4 carriers.

More than 31,000 exercise sessions were completed in the first 12 months. Attendance remained high throughout the study, at 81% in the aerobic exercise group and 87% in the stretching/balance group.

Neither the aerobic group nor the stretching/balance group showed decline from baseline on the ADAS-Cog-Exec at 6 or 12 months. There were no significant treatment differences between the aerobic and stretching/balance groups on these outcomes (P=0.29).

In a usual-care analysis, the researchers compared EXERT participants with those from ADNI matched on demographics, baseline cognitive function, and APOE4 status. ADNI participants showed an expected 12-month decline in ADAS-Cog-Exec scores, but the EXERT aerobic group (P=0.012) and EXERT stretching/balance group (P=0.0005) did not.

All EXERT participants received weekly socialization from the program, which may have contributed to the findings, Baker noted. What's critical is that regular exercise must be supported for people with mild cognitive impairment: it must be supervised and have a social component, she added.

Go hungry, live longer!  Huh?

Well, maybe. 

Lots of studies show that a 10% calorie restriction (think no candy bar snack, or glass of sweetened beverage instead of having one every day) yields reasonable gain in longevity (and, it turns out health, as well).  Of note, calorie restrictions up to 30% can yield increased longevity in mice as well, but they end up getting sick along the way.

Now, adding to that research, we find that time-restricted eating (sometimes inappropriately called intermittent fasting) yields even more benefits to that mild restriction.  By limiting eating to the hours when you are actually active, and keeping the feeding window to under 12 hours, the mice got an extra 35% longer life when combined with the 10% calorie restriction.

What does this mean for humans?  Likely there is crossover – there will be benefits that parallel these findings in mice with those in people.  I personally follow a time-restricted eating pattern without really worrying about it – dinner/snack done by 8:30, breakfast maybe at 10:30 or after.  A bigger bang for the buck is exercising before breakfast, but that’s a discussion for another day.  By the way – I do have that occasional candy bar, but only VERY rarely have that sugar sweetened beverage (lemonade is an exception 😊 ).

FROM THE AMERICAN ACADEMY OF ANTI AGING MEDICINE / BY ZUZANNA WALTER

Plant-based diets have long been the focal point of longevity research as they have proven to stave off chronic disease, improve biological markers of aging, and aid in weight management, among many other benefits. Current dietary interventions primarily encourage the consumption of plant-based foods and the elimination of processed ingredients. However, emerging research suggests that it is not only the type of food consumed but also the timing of meals that can profoundly affect life- and healthspan. A new study published in the journal Science reveals the promising potential of strategic meal timing to promote anti-aging effects.

Time-Restricted, Calorie-Restricted Feeding

In modern dietary culture, intermittent fasting continues to grow in popularity along with the body of scientific evidence behind it. Variations of the method are also under investigation, including time-restricted feeding (TRF), which involves a longer daily fasting period. Preliminary studies have found that TRF can improve cardiometabolic health in rodents and humans, while caloric restriction (CR) has been associated with elongated lifespan.

Evidence supporting these findings is scarce, yet the timing of calorie restriction may contribute to life-extending effects due to the circadian system and its control of physiology, metabolism, and biological aging cycles.

To investigate this hypothesis, a team of researchers at the University of Texas Southwestern Medical Center in Dallas, TX, conducted a study on mice controlling both their caloric intake and the timing of their meals. The subjects were split into six groups to determine whether meal timing had an independent effect on lifespan. One group served as the control cohort, while the remaining five consumed meals on varying feeding schedules.

Impact on Lifespan

As anticipated, caloric restriction extended the lifespan by an estimated 10% – irrespective of meal timing. The control mice that ate when and as they pleased had a median lifespan of 800 days, compared with 875 days for mice on a calorie-restricted diet.

Mice on the calorie-restricted diet that only ate during the day or the inactive phase of their circadian cycle and spent the remaining 12 hours fasting overnight had a median lifespan of 959 days – nearly 20% longer than the controls.

Calorie-restricted mice that only ate during their active phase and fasted during their inactive phase lived the longest. This group averaged a lifespan of 1,068 days which was almost 35% longer than the control mice.

Anti-Aging Benefits of Calorie-Restricted Meal Timing 

The study also revealed that calorie-restricted diets could improve the animals’ regulation of glucose levels and insulin sensitivity – important healthy aging markers – with the greatest improvements reported in mice that only ate during their active phase.

In all mice, aging increased inflammatory activity and decreased gene activity in metabolism and circadian rhythms. While caloric restriction slowed age-related changes, mice that only ate during their active phase showed the most significant improvements.

Limitations and Future Implications

Sleep disruption in mice that ate during their inactive phase may have been a study limitation and could have contributed to their shorter lifespan. Additionally, all studied mice were male, and thus the findings do not account for possible ovarian hormone protection against circadian disruptions. Finally, the animal model of the study may not translate to humans.

The researchers also discussed the possible development of drugs that could target circadian genes to mimic the anti-aging effects of calorie-restricted, strategically-timed dietary patterns. If the latest findings were replicated in large-scale, well-designed human studies, this knowledge could introduce a new aspect for consideration in longevity-oriented nutrition and transform current approaches to anti-aging dietary interventions.

There are decades of data showing that poor balance impacts all sorts of increased risks of all sorts of disease, including Alzheimer’s. Turns out that being unable to stand on one leg for 10 seconds carries with it an increased mortality risk. So, can you stand on one leg? For how long?

A great device to build your balance is the Slackblock (SlackBow Balance Training). It’s inexpensive and very effective. Training balance requires a few minutes a day (watching TV commercials would be plenty of Zme). The benefits of balance training are explained very well on the SlackBow website – it’s total body exercise and improves brain function! And don’t be discouraged if you don’t do well to start. I thought I had pretty good balance, but I could only manage 20 seconds on the Block. Now I’m better (over a minute most of the time), but still room to improve.

If you have other questions or ideas you want to share – give me a ring!

FROM MEDPAGE TODAY / BY JUDY GEORGE

One-legged standing test during routine checkups may add useful information about risk of death

The ability to complete a 10-second one-legged stance in mid- to late life was associated with all-cause mortality, longitudinal data showed.

People who could not hold a one-legged stance for 10 seconds had nearly twice the risk of death over the next 7 years (HR 1.84, 95% CI 1.23-2.78, P<0.001), after adjusting for age, sex, BMI, and comorbidities, reported Claudio Gil Araujo, MD, PhD, of Clinimex Medicina do Exercicio in Rio de Janeiro, Brazil, and co-authors in the British Journal of Sports Medicine.

Previous research has linked one-legged standing time, a measure of postural instability, with cognitive decline and asymptomatic cerebrovascular damage.

But overall, there's little research linking one-legged stance to clinical outcomes other than falls, Araujo and colleagues pointed out.

"The advantages of the 10-second one-legged stance test include that it is simple and it provides rapid, safe, and objective feedback for the patient and healthcare providers regarding static balance," Araujo told MedPage Today.

"It can be easily incorporated into the routine of the most clinical consultations, especially for older adults," he added. "Importantly, the 10-second one-legged stance results add useful information regarding mortality risk in middle-age and older men and women beyond ordinary clinical data."

The researchers included 1,702 participants ages 51 to 75 in the Clinimex Exercise cohort study, which was started in 1994 to evaluate fitness, health, and cardiovascular risk factors.

Participants had a mean age of 61.7 at their first checkup from February 2009 to December 2020, and most (68%) were men.

Only people with stable gait were included in the study. As part of the checkup, participants were asked to stand on one leg for 10 seconds without additional support.

Barefoot participants were asked to place the front of their free foot on the back of the opposite lower leg, keeping their arms down by their sides while looking straight ahead. Up to three attempts on either foot were permitted.

Overall, 20.4% of participants failed the 10-second test. Failure rate rose with age: it was 4.7% in 51- to 55-year-olds, 8.1% in 56- to 60-year-olds, 17.8% in 61- to 65-year-olds, and 36.8% in 66- to 70-year-olds. Over half of those ages 71-75 (53.6%) could not successfully complete the test.

During a median follow-up of 7 years, 7.2% of participants died, including 4.6% of people who could complete the test and 17.5% of those who could not.

Adjusting only for age, the HR for all-cause mortality was 2.18 (95% CI 1.48-3.22, P<0.001). "It is quite amazing that the magnitude of the difference in HR between age-adjusted and multivariable-adjusted mortality was so small," Araujo said.

Those who failed the test generally had poorer health: a higher proportion were obese or had heart disease, hypertension, or dyslipidemia. Type 2 diabetes was three times as common in this group.

The study was observational and can't establish cause, Araujo and colleagues acknowledged. All participants were white Brazilians, and results may not apply to other populations. In addition, potential confounders such as recent history of falls, physical activity levels, diet, smoking, and medication use may have influenced results.

…As much as guys who sit on their butt all week. And, interestingly, it seems that, as long as they get their 150 minutes a week of real activity (the general recommendation for the population – usually 30 mins 5 x/wk) on the weekend, there isn’t much difference in mortality rate. That’s some good news for folks who can’t get it together to do any exercise during the week.

FROM JAMA / Mauricio dos Santos, MS; Gerson Ferrari, PhD; Dong Hoon Lee, ScD

Key Points

Question  Does performing the recommended levels of weekly physical activity in 1 to 2 sessions (weekend warrior) vs 3 or more sessions (regularly active) influence mortality?

Findings  This large prospective cohort study of 350 978 adults in the US did not find any significant difference in mortality rates between weekend warriors and regularly active participants. Compared with physically inactive participants, active participants (both weekend warrior and regularly active) had lower all-cause and cause-specific mortality rates.

Meaning  Adults who perform 150 minutes or more of moderate to vigorous physical activity (or 75 minutes of vigorous activity) per week may experience similar health benefits whether the sessions are spread throughout the week or concentrated in a weekend.

Abstract

Importance  It is unclear whether the weekly recommended amount of moderate to vigorous physical activity (MVPA) has the same benefits for mortality risk when activity sessions are spread throughout the week vs concentrated in fewer days.

Objective  To examine the association of weekend warrior and other patterns of leisure-time physical activity with all-cause and cause-specific mortality.

Design, Setting, and Participants  This large nationwide prospective cohort study included 350 978 adults who self-reported physical activity to the US National Health Interview Survey from 1997 to 2013. Participant data were linked to the National Death Index through December 31, 2015.

Exposures  Participants were grouped by self-reported activity level: physically inactive (<150 minutes per week [min/wk] of MVPA) or physically active (≥150 min/wk of moderate or ≥75 min/wk of vigorous activity). The active group was further classified by pattern: weekend warrior (1-2 sessions/wk) or regularly active (≥3 session/wk); and then, by frequency, duration/session, and intensity of activity.

Main Outcomes and Measures  All-cause, cardiovascular disease (CVD), and cancer mortality. Statistical analyses were performed in April 2022.

Results  A total of 350 978 participants (mean [SD] age, 41.4 [15.2] years; 192 432 [50.8%] women; 209 432 [67.8%] Non-Hispanic White) were followed during a median of 10.4 years (3.6 million person-years). There were 21 898 deaths documented, including 4130 from CVD and 6034 from cancer. Compared with physically inactive participants, hazard ratios (HR) for all-cause mortality were 0.92 (95% CI, 0.83-1.02) for weekend warrior and 0.85 (95% CI, 0.83-0.88) for regularly active participants; findings for cause-specific mortality were similar. Given the same amount of total MVPA, weekend warrior participants had similar all-cause and cause-specific mortality rates as regularly active participants. The HRs for weekend warrior vs regularly active participants were 1.08 (95% CI, 0.97-1.20) for all-cause mortality; 1.14 (95% CI, 0.85-1.53) for CVD mortality; and 1.07 (95% CI, 0.87-1.31) for cancer mortality.

Conclusions and Relevance  The findings of this large prospective cohort study suggest that individuals who engage in active patterns of physical activity, whether weekend warrior or regularly active, experience lower all-cause and cause-specific mortality rates than inactive individuals. Significant differences were not observed for all-cause or cause-specific mortality between weekend warriors and regularly active participants after accounting for total amount of MVPA; therefore, individuals who engage in the recommended levels of physical activity may experience the same benefit whether the sessions are performed throughout the week or concentrated into fewer days.

FROM THE NEW YORK TIMES / BY OLIVER WHANG

CRISPR is the technology that allows scientists to “play God” with genes. There are all kinds of challenges inherent in its use, but the article describes where the technology is being looked at and how it might affect us in the future. Beware the law of unintended consequences…

Over the past 7 or 8 years I’ve tried to use the latest gene technologies to get ahead of some of our more difficult health issues – before they become diseases, or to help bring people back from problems. Unfortunately, the availability of user-friendly, consumer useful information was variable. I moved away, but now after probably three separate forays, I’ve moved back, as there are several companies that can provide very useful information about people’s genetic makeup and how that effects their outcomes. Understand that it’s all yin and yang – we have genes that enhance certain processes, and they are balanced by genes that inhibit those processes. When they are out of balance, the system ultimately suffers. It might take decades for those out of balance processes to become evident, but if we can see the underlying story, we can anticipate the problem and avoid it. The test is a super-simple one-time cheek swab, and it’s a lifetime’s worth of information. Let’s talk about the possibilities!

What do infectious diseases, T-cells, tomatoes, heart failure, sickle cell anemia and sorghum harvests have in common?

Smartphones, superglue, electric cars, video chat. When does the wonder of a new technology wear off? When you get so used to its presence that you don’t think of it anymore? When something newer and better comes along? When you forget how things were before?

Whatever the answer, the gene-editing technology CRISPR has not reached that point yet. Ten years after Jennifer Doudna and Emmanuelle Charpentier first introduced their discovery of CRISPR, it has remained at the center of ambitious scientific projects and complicated ethical discussions. It continues to create new avenues for exploration and reinvigorate old studies. Biochemists use it, and so do other scientists: entomologists, cardiologists, oncologists, zoologists, botanists.

For these researchers, some of the wonder is still there. But the excitement of total novelty has been replaced by open possibilities and ongoing projects. Here are a few of them.

BOTANY: The Tomato Queen

Cathie Martin, a botanist at the John Innes Centre in Norwich, England, and Charles Xavier, founder of the X-Men superhero team: They both love mutants.

But while Professor X has an affinity for superpowered human mutants, Dr. Martin is partial to the red and juicy type. “We always craved mutants, because that allowed us to understand functionality,” Dr. Martin said of her research, which focuses on plant genomes in the hopes of finding ways to make foods — especially tomatoes in her case — healthier, more robust and longer lasting.

When CRISPR-Cas9 came along, one of Dr. Martin’s colleagues offered to make her a mutant tomato as a gift. She was somewhat skeptical, but, she told him, “I would quite like a tomato that produces no chlorogenic acid,” a substance thought to have health benefits; tomatoes without it had not been found before. Dr. Martin wanted to remove what she believed was the key gene sequence and see what happened. Soon a tomato without chlorogenic acid was in her lab.

Instead of looking for mutants, it was now possible to create them. “Getting those mutants, it was so efficient, and it was so wonderful, because it gave us confirmation of all these hypotheses we had,” Dr. Martin said.

Most recently, researchers at Dr. Martin’s lab used CRISPR to create a tomato plant that can accumulate vitamin D when exposed to sunlight. Just one gram of the leaves contained 60 times the recommended daily value for adults.

Dr. Martin explained that CRISPR could be used across a broad spectrum of food modifications. It could potentially remove allergens from nuts and create plants that use water more efficiently.

“I don’t claim that what we did with vitamin D will solve any food insecurity problems,” Dr. Martin said, “but it’s just a good example. People like to have something that they can hang on to, and this is there. It’s not a promise.”

INFECTIOUS DISEASE: Bringing Testing to Remote Parts of Africa

Christian Happi, a biologist who directs the African Centre of Excellence for Genomics of Infectious Diseases in Nigeria, has spent his career developing methods to detect and contain the spread of infectious diseases that spread to humans from animals. Many of the existing ways to do so are costly and inaccurate.

For instance, in order to perform a polymerase chain reaction, or PCR, test, you need “to go extract RNA, have a machine that’s $60,000 and hire someone who is specially trained,” Dr. Happi said. It’s both costly and logistically implausible to take this kind of testing to most remote villages.

Recently, Dr. Happi and his collaborators used CRISPR-Cas13a technology (a close relative of CRISPR-Cas9) to detect diseases in the body by targeting genetic sequences associated with pathogens. They were able to sequence the SARS-CoV-2 virus within a couple of weeks of the pandemic arriving in Nigeria and develop a test that required no on-site equipment or trained technicians — just a tube for spit.

“If you’re talking about the future of pandemic preparedness, that’s what you’re talking about,” Dr. Happi said. “I’d want my grandmother to use this in her village.”

The CRISPR-based diagnostic test functions well in the heat, is quite easy to use and costs one-tenth of a standard PCR test. Still, Dr. Happi’s lab is continually assessing the accuracy of the technology and trying to persuade leaders in the African public health systems to embrace it.

He called their proposal one that “is cheaper, faster, that doesn’t require equipment and can be pushed into the remotest corners of the continent. This would allow Africa to occupy what I call its natural space.”

HEREDITARY ILLNESS: Searching for a Cure for Sickle Cell Disease

In the beginning there was zinc finger nuclease.

That was the gene-editing tool that Gang Bao, a biochemical engineer at Rice University, first used to try to treat sickle cell disease, an inherited disorder marked by misshapen red blood cells. It took Dr. Bao’s lab more than two years of development, and then zinc finger nuclease would successfully cut the sickle cell sequence only around 10 percent of the time.

Another technique took another two years and was only slightly more effective. And then, in 2013, soon after CRISPR was used to successfully edit genes in living cells, Dr. Bao’s team changed tack again.

“From the beginning to having some initial results, CRISPR took us like a month,” Dr. Bao said. The method successfully cut the target sequence around 60 percent of the time. It was easier to make and more effective. “It was just amazing,” he said.

The next challenge was to determine the side effects of the process. That is, how did CRISPR affect genes that weren’t being purposefully targeted? After a series of experiments in animals, Dr. Bao was convinced that the method would work for humans. In 2020 the Food and Drug Administration approved a clinical trial, led by Dr. Matthew Porteus and his lab at Stanford University, that is ongoing. And there is also hope that with CRISPR’s versatility, it might be used to treat other hereditary diseases. At the same time, other treatments that have not relied on gene editing have had success for sickle cell.

Dr. Bao and his lab are still trying to determine all the secondary and tertiary effects of using CRISPR. But Dr. Bao is optimistic that a safe and effective gene-editing treatment for sickle cell will be available soon. How soon? “I think another three to five years,” he said, smiling.

CARDIOLOGY: Looking Into the Secrets of the Heart

It is hard to change someone’s heart. And that’s not just because we are often stubborn and stuck in our ways. The heart generates new cells at a much slower rate than many other organs. Treatments that are effective in other parts of the human anatomy are much more challenging with the heart.

It is also hard to know what is in someone’s heart. Even when you sequence an entire genome, there are often a number of segments that remain mysterious to scientists and doctors (called variants of uncertain significance). A patient might have a heart condition, but there’s no way to tie it definitively back to their genes. “You are stuck,” said Dr. Joseph Wu, director of the Stanford Cardiovascular Institute. “So traditionally we would just wait and tell the patient we don’t know what’s going on.”

But over the past couple of years, Dr. Wu has been using CRISPR to see what kind of effects the presence and absence of these befuddling sequences have on heart cells, simulated in his lab with induced pluripotent stem cells generated from the blood. By cutting out particular genes and observing the effects, Dr. Wu and his collaborators have been able to draw links between the DNA of individual patients and heart disease.

It will be a long time before these diseases can be treated with CRISPR, but diagnosis is a first step. “I think this is going to have a big impact in terms of personalized medicine,” said Dr. Wu, who mentioned that he found at least three variants of uncertain significance when he got his own genome sequenced. “What do these variants mean for me?”

BIOTECHNOLOGY: Reinventing Cereal

Sorghum is used in bread, alcohol and cereal all over the world. But it hasn’t been commercially engineered to the same degree as wheat or corn, and, when processed, it often isn’t as tasty.

Karen Massel, a biotechnologist at the University of Queensland in Australia, saw quite a bit of room for improvement when she first started studying the plant in 2015. And because millions of people eat sorghum worldwide, “if you make a small change you can have a huge impact,” she said.

She and her colleagues have used CRISPR to try to make sorghum frost tolerant, to make it heat tolerant, to lengthen its growth period, to change its root structure — “we use gene editing across the board,” she said.

Not only could this lead to more delicious and healthier cereal, but it could also make the plants more resistant to the changing climate, she said. But it is still no small task to accurately edit the genomes of crops with CRISPR.

“Half the genes that we knock out, we just have no idea what they do,” Dr. Massel said. “The second we try to get in there and play God, we realize we’re a bit out of our depth.” But, using CRISPR combined with more traditional breeding techniques, Dr. Massel is optimistic, despite being a self-described pessimist. And she hopes that further advances will lead to commercializing gene-edited foods, making them more accessible and more acceptable.

ONCOLOGY: A New Treatment for Cancers

Dr. Ed Stadtmauer, a hematologist-oncologist at Penn Medicine. “Even though it’s really sort of science fiction-y biochemistry and science, the reality is that the field has moved tremendously,” he said.Credit...Hannah Yoon for The New York Times

In 2012, a 6-year-old girl was suffering from acute lymphoblastic leukemia. Chemotherapy had been unsuccessful, and the case was too advanced for a bone-marrow transplant. There didn’t seem to be any other options, and the girl’s physicians told her parents to go back home.

Instead, they went to the Children’s Hospital of Philadelphia, where doctors used an experimental treatment called chimeric antigen receptor (CAR) T-cell therapy to turn the girl’s white blood cells against the cancer. Ten years later, the girl is cancer free.

Since then, Dr. Carl June, a medical professor at the University of Pennsylvania who helped develop CAR T-cell therapy, and his collaborators, including Dr. Ed Stadtmauer, a hematologist-oncologist at Penn Medicine, have been working to improve it. That includes using CRISPR, which is the simplest and most accurate tool to edit T-cells outside the body. Dr. Stadtmauer, who specializes in dealing with various types of blood and lymph system cancers, said that “the last decade or so has just seen a revolution of treatment of these diseases; it’s been rewarding and exciting.”

Over the past couple of years, Dr. Stadtmauer helped run a clinical trial in which T-cells that underwent significant CRISPR editing were inserted into patients with treatment-resistant cancers. The results were promising.

Nine months into the trial the edited T-cells had not been rejected by the patients’ immune systems and were still present in the blood. The real benefit is that scientists now know that CRISPR-aided treatments are possible.

“Even though it’s really sort of science fiction-y biochemistry and science, the reality is that the field has moved tremendously,” Dr. Stadtmauer said. He added that he was less excited by the science than how useful CRISPR had become. “Every day I see maybe 15 patients who need me,” he said. “That’s what motivates me.”

Too much to do? You might be suffering from the FOMO, but more likely, you are saying “yes” to too many things that either don’t require your aRenSon, or don’t DESERVE your aRenSon. As my friend Jim Bunch would say “is it worth trading your life for?... because that’s what you’re doing.”

No 7’s is a great rule I live by. It’s not a 1980’s “Just Say No” – it’s a “No, I don’t need/want/care about that enough to go there”.

It’ll save you a lot of grief and stress. We all get enough of that – we don’t need to produce more on our own.

FROM MEDIUM.COM / BY SAM KILIC

Especially as a hyper-analytical thinker.

The simplest way to make decisions is to have a personal policy about recurring “crap.”

It’s a great way to say “no” without dealing with excess peer pressure or justifying your actions. The response to “Why don’t you want to stay out?” becomes “Oh sorry, it’s a policy of mine not to have more than two drinks on a weeknight.”—it’s one rule that removes a thousand decisions.

And that’s where the “No 7s” rule comes in for me.

Think about every time you’ve “kinda” wanted to do something.

If you’re a relaxed person, there are a lot of activities, options, decisions that you might feel indifferent towards. And this might have been okay when you had a lot of time, but as you get older, you have less of that. And to live your optimal lifestyle, you really want to be doing things that you genuinely enjoy.

Time’s not a renewable resource, and with the abundance of leisure, business, and career opportunities, we need to be on point with what we say yes to.

Because saying yes to something mediocre is an opportunity cost for something fulfilling.

And to make sure we say yes to fulfilling things and not waste an extraordinary amount of time analyzing a decision until we pass out from stress, we use the “No 7s” policy.

“No 7s” is just another way of saying, “If it’s not a f*ck yeah, it’s a no.”

When you’re faced with a decision, an opportunity, you could assess it in a hundred ways, or you could ask yourself, “What would I rate this opportunity out of 10?”

The catch is that you’re not allowed to give it a 7.

That’s the No 7s rule.

Because now, the decision is likely either a 6/10, barely a passing mark, so why would you do that? Or it’s an 8/10, a great opportunity that you really should consider.

With this one policy, I’ve been able to very practically be in tune with my gut — something I’ve always struggled to do as a very analytical person.

The policy forces you to decide based on one variable, and it’s practical enough where you actually will.

So next time you’re stuck with whether to accept a job offer, go on a particular vacation, or make an expensive purchase — think to yourself, out of 10, what do I rate this job, holiday, or purchase?

But of course, no 7s allowed.

You might be surprised with how effective it can be.

Lots of concerns/controversy swirl around artificial sweeteners, and has for years. The latest French study demonstrates a couple of ingredients, one of which – aspartame (Nutrasweet/Equal) -- is used in all kinds of sugar-free products in the US, and around 6000 products worldwide, raises the risk of cancer by 13% at levels that are above the equivalent of 2 oz of diet soda a day (a little less than 20 mg/day). Of course, the FDA says that the safe dose is the equivalent of 21 cans – 220 Lmes higher than the study suggests.

Sucralose (Splenda) was NOT associated with an increased cancer risk. Is it safe?? WELL – I’d go with safe-er....

FROM MEDPAGE TODAY / BY KRISTEN MONACO

— Consumption of certain sugar alternatives linked to a 13% higher risk of developing cancer

Artificial sweeteners in place of real sugar may not be such a healthy alternative, a French cohort study suggested.

Over a median follow-up of 7.8 years, adults deemed "high consumers" of artificial sweeteners faced a higher risk of developing cancer compared with non-consumers (HR 1.13, 95% CI 1.03-1.25), reported Charlotte Debras, a PhD candidate at the Sorbonne Paris Nord University in France, and colleagues in PLoS Medicine.

When looking at specific types of artificial sweeteners, aspartame and acesulfame potassium were the two culprits that seemed to drive this overall cancer risk:

• Aspartame: HR 1.15 (95% CI 1.03-1.28)

• Acesulfame potassium: HR 1.13 (95% CI 1.01-1.26)

Artificial sweeteners in general were linked with a 13% increased risk for developing obesity-related cancers, including colorectal, stomach, liver, mouth, pharynx, larynx, esophageal, breast (with opposite associations pre- and post-menopause), ovarian, endometrial, and prostate cancers (HR 1.13, 95% CI 1.00-1.28). Aspartame alone was linked with a 15% higher risk for obesity-related cancers (HR 1.15, 95% CI 1.01-1.32), and a 22% higher risk for developing breast cancer (HR 1.22, 95% CI 1.01-1.48).

In fully adjusted models, even low consumption of these artificial sweeteners -- including both aspartame and acesulfame potassium individually -- was tied to a significantly higher risk for all cancers (HR 1.14, 95% CI 1.05-1.25).

However, sucralose consumption at any level wasn't linked to cancer risk, including for site-specific cancers, the researchers noted.

"Findings from this study are very original since, to our knowledge, no previous cohort study had directly investigated the association between quantitative artificial sweetener intakes per se -- distinguishing the different types of sweeteners and cancer risk," Debras and co-author Mathilde Touvier, PhD, also of Sorbonne Paris Nord University, jointly told MedPage Today.

"But these results are in line with our initial hypothesis and with previous scientific literature," they added. "Indeed, some observational studies have investigated the associations between cancer risk and the consumption of artificially sweetened beverages (used as a proxy) and found increased risk of cancer, suggesting that artificial sweeteners present in these types of beverages might play a role in the development of cancer."

The implications of these findings are far reaching, since artificial sweeteners are prevalent in foods and beverages consumed by millions daily, they pointed out.

While the findings need to be replicated in other larger-scale studies, they "provide important and novel information to address the controversies about the potential adverse health effects of these additives, in the context of the ongoing re-evaluation of food-additive sweeteners by the European Food Safety Authority and other health agencies globally," Debras and Touvier noted.

"In line with official recommendations from several public health agencies, these findings do not support the use of artificial sweeteners as safe alternatives for sugar in foods or beverages," they added.

Drawing on the population-based NutriNet-Santé cohort, the researchers assessed dietary intake data from French adults (mean age 42), including 24-hour dietary records that were collected every 6 months. Incident cancer cases during follow-up were also self-reported every 6 months.

A total of 3,358 incident cancer cases were diagnosed during follow-up. Mean age at diagnosis was 59.5, and the most common cancer types were obesity-related (2,023 cases), breast (982 cases), and prostate (403 cases).

Overall, artificial sweeteners were consumed by 36.9% of the cohort -- with aspartame the most common (58% of all consumption), followed by acesulfame potassium (29%), and sucralose (10%). The most popular foods that drove up artificial sweetener consumption were soft drinks with no added sugars, table-top sweeteners, yogurt, and cottage cheese.

The cutoffs between "high consumers" and "low consumers" were sex-specific: 17.44 mg/day in men and 19.00 mg/day in women for total artificial sweeteners, 14.45 mg/day in men and 15.39 mg/day in women for aspartame, 5.06 mg/day in men and 5.50 mg/day in women for acesulfame potassium and 3.46 mg/day in men and 3.43 mg/day in women for sucralose.

People who consumed artificial sweeteners tended to be women, younger, smokers, less physically active, more educated, and more likely to have prevalent diabetes compared with those who avoided artificial sweeteners.

Hey – this is horrifying.

If anyone doubts that the current healthcare system needs a major overhaul, this might go a long way to removing those doubts.  It has become more and more important to stay ahead of the game, maintain or improve your health to make absolutely sure you don’t have to go to the hospital!!

Years ago, I participated in a program where people working at a premier hospital were asked if they would be comfortable letting the system work for their family, or would they need to “chaperone” them through the system.  It was unanimous – NO WAY would anyone let their family brave the system on their own.  Do you need to know any more?

Please – let’s see what opportunities you might have to distance yourself further from the hospital!

FROM MEDPAGE TODAY / BY CHERYL CLARK

— CMS needs to do more to penalize facilities with avoidable adverse events, report says

Medicare patients continue to experience harm during hospital stays, even after a decade of intensive efforts to decrease provider-caused adverse events, according to a report from the HHS Office of Inspector General (OIG).

Among the roughly 1 million Medicare patients who were discharged from hospitals in October 2018, a total of 258,323 experienced an adverse or temporary harm event during their stay.

And 12% experienced events that led to longer stays, lifesaving interventions, permanent harm, or death. "This projects to 121,089 Medicare patients having experienced at least one adverse event during the 1-month study period," the report stated.

Of these adverse events, 45% were said to have been preventable. According to the report, such events were linked to substandard or inadequate care -- for example, using more aggressive pain management regimens after surgery than necessary, or unnecessary delays in scheduling surgeries.

In one of many case studies and patient stories included in the report, a patient required surgery to remove dead tissue from the small intestine. "However, providers unnecessarily delayed surgery for 5 days while the patient continued to deteriorate. This delay led to a cascade of harms that included worsening of the small intestine, contamination of the abdomen with pus, septic shock with an associated kidney injury, and delirium," the report noted.

Ten percent of adverse events contributed to patient deaths, translating to 1.4%, or 14,800 patients, during the 1-month study period.

Leah Binder, president and CEO of the Leapfrog Group, which routinely grades hospitals on various safety measures, called the report's findings "outrageous."

"None of us would drive a vehicle or check into a hotel if we thought we had a one in four chance of being harmed from the experience," she said.

The report also showed that 13% of patients experienced temporary harm, which required intervention but did not prolong their hospital stay or require life-sustaining measures, and over 40% were determined to be preventable. However, such events were sometimes serious and could have caused further harm had providers not noticed and quickly intervened, the OIG said.

Common adverse and temporary harm events included those related to medication use, involving delirium or other mental status changes; pressure ulcers or injuries; complications from procedures or surgeries such as intraoperative hypotension; and hospital-acquired infections (HAIs).

Of particular concern, the OIG found that patient harm events were almost as widespread as they were found to be in 2008 among a similar sample size. Back then, 27% of the patients sampled experienced a harmful event. However, the report noted that the 2018 population had a greater prevalence of comorbidities than the 2008 sample, with more "being treated for more clinically complex conditions and diagnoses than in the past."

Adverse events result in higher costs for beneficiaries who have to pay more in deductibles and co-payments because of additional care required. The report estimated that for some treated beneficiaries, additional expenses amounted to more than $40,000. "Combined, we estimated the cost for all events to be in the hundreds of millions of dollars for October 2018," the report stated.

The OIG noted that CMS has two policies designed to deter hospital-acquired conditions (HACs), including cuts in reimbursement to hospitals with higher rates of such conditions. However, "because the policies use narrowly scoped lists of HACs and employ specific criteria for counting harm events, they have limited effectiveness in broadly promoting patient safety," the report said. "Of the harm events we identified, only 5% were on CMS's HAC Reduction Program list and only 2% were on CMS's Deficit Reduction Act HAC list."

Furthermore, when CMS counts infections associated with a surgical procedure in its formula to penalize hospitals, it counts only those involving the colon or an abdominal hysterectomy, so many other infections go uncounted, such as those occurring after a laminectomy.

Additionally, the report found that hospitals often omit specific codes that CMS uses to monitor the occurrence of HACs, thereby limiting the agency's awareness of some events in Medicare-certified hospitals.

According to the OIG and Binder, CMS should include more types of harm events in its formula for penalizing hospitals. The current policy shift appears to be steering the agency away from that, Binder noted.

"Though in the report CMS concurred with this recommendation, the agency is moving rapidly in the opposite direction, not growing the number of measures, but removing all the HACs and HAIs from payment consideration. CMS's Proposed Rule calls for suppressing all HACs and HAIs from use ... and replacing them with nothing," she said.

The report noted that "only the worst 25% of performers receive the 1% reduction each year." Furthermore, "hospitals that routinely are in the top three quarters of performance do not have a financial incentive through the HACRP [HAC Reduction Program] to improve more."

The largest ongoing study of people in the community, the Framingham Study, has yielded some new associations worth thinking about. When looking at future Alzheimer’s risk, there is around a 15% increase for every 15 point increase in blood sugar, and around a 15% decrease for every 15 point increase in HDL (the good cholesterol) – starting from the age of 35! Elevated triglycerides also showed an increase risk of Alzheimer’s, if you had them high before you got to 51. So there might actually be reasons to take care of yourself BEFORE you get old! Who knew??!

FROM MEDPAGE TODAY / BY JUDY GEORGE

High-density lipoprotein (HDL) cholesterol and triglyceride levels in people as young as age 35 were linked with Alzheimer's dementia decades later in life, longitudinal data from the Framingham Heart Study showed.

Risk of Alzheimer's dementia fell by 15.4% during early adulthood (ages 35 to 50) and by 17.8% during middle adulthood (ages 51 to 60) for every 15 mg/dL increase in HDL cholesterol, reported Xiaoling Zhang, MD, PhD, of Boston University School of Medicine, and co-authors in Alzheimer's & Dementia.

A 15 mg/dL increase in blood glucose measured during middle adulthood was associated with a 14.5% increased Alzheimer's risk, they added. Triglyceride levels were associated with Alzheimer's only in the early adulthood group. Findings remained significant after adjusting for treatment.

"These findings show for the first time that cardiovascular risk factors, including HDL, which has not been consistently reported as a strong risk factor for Alzheimer's disease, contribute to future risk of Alzheimer's disease starting as early as age 35," Zhang said in a statement.

"While our findings confirm other studies that linked cholesterol and glucose levels measured in blood with future risk of Alzheimer's disease, we have shown for the first time that these associations extend much earlier in life than previously thought," added co-author Lindsay Farrer, PhD, also of Boston University.

The researchers looked at the influence of vascular risk factors on incident Alzheimer's dementia over time among Framingham Heart Study Offspring participants, a group that's been evaluated since 1971. Data on lipid fractions, glucose, blood pressure, BMI, and smoking were obtained prospectively from participants across nine quadrennial examinations.

Age-, sex-, and education-adjusted models were tested for each risk factor measured at each exam and within three adult age groups: early adults (ages 35 to 50, median 41), middle adults (ages 51 to 60, median 54), and late adults (ages 61 to 70, median 63.5).

A total of 271 participants (167 women, 104 men) diagnosed with Alzheimer's dementia were included in the analysis as cases. Of these, 225 people were without stroke, 24 people had Alzheimer's and stroke, and 24 people had mixed Alzheimer's and vascular dementia. People with a diagnosis of non-Alzheimer's dementia were excluded. Controls included 4,867 cognitively normal participants.

Mean follow-up periods for people in the early, middle, and late age groups were 35.2 years, 25.8 years, and 18.5 years, respectively. As participants grew older, they tended to have higher triglyceride and glucose levels, higher systolic and diastolic blood pressure, and lower HDL cholesterol levels. They also were more likely to be treated for diabetes, hypertension, and dyslipidemia.

Incident Alzheimer's dementia was negatively associated with HDL cholesterol for every 15 mg/dL increase in early adulthood (HR 0.85, 95% CI 0.72-0.99, P=0.041) and in middle adulthood (HR 0.82, 95% CI 0.70-0.96, P=0.014). This association remained significant with a similar effect size in the middle adulthood group when adjusted for dyslipidemia treatment (P=0.022).

Analyses also showed:

• Triglyceride levels were associated with Alzheimer's dementia only in the early adulthood group, before (HR 1.33, 95% CI 1.02-1.57, P=0.0013) and after (HR 1.30, 95% CI 1.10-1.54, P=0.0018) adjusting for dyslipidemia treatment

• Blood glucose in middle adulthood was associated with Alzheimer's dementia per 15 mg/dL increase, before (HR 1.15, 95% CI 1.06-1.23, P=0.00029) and after (HR 1.18, 95% CI 1.08-1.29, P=0.00036) adjusting for diabetes treatment

• Diastolic blood pressure in late adulthood was associated with Alzheimer's dementia per 10 mm increase, before (HR 1.14, 95% CI 1.01-1.29, P=0.041) and after (HR 1.14, 95% CI 1.00-1.29, P=0.044) adjusting for treatment

• Other vascular risk factors, including low-density lipoprotein (LDL) cholesterol, total cholesterol, BMI, smoking, and systolic blood pressure, were not associated with Alzheimer's dementia in any stage of adulthood (P>0.05)

Future development of Alzheimer's dementia was progressively higher and likely to occur earlier among people who had blood glucose in pre-diabetic (100 to 126 mg/dL) and diabetic (>126 mg/dL) ranges in early adulthood and middle adulthood.

"Intervention targeting cholesterol and glucose management starting in early adulthood can help maximize cognitive health in later life," Farrer suggested.

That idea is supported by previous studies of Framingham Offspring participants showing that elevated coronary heart disease risk and metabolic syndrome were associated with lower cognitive performance at age 55, Zhang and co-authors noted.

"However, our results do not distinguish whether the influences of these risk factors on the development of Alzheimer's disease may be particularly damaging during early adulthood and midlife or reflect longer accumulated risk exposure," they wrote.

The study had several limitations, the researchers acknowledged. All participants were white, and some early measurements of lipids and glucose were not under fasting conditions. In addition, the findings were based on analyses of one-time measurements.