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How well do you score on brain health?

illustration of a human brain shown in colorful triangular prisms against a gray background; concept is brain health

Need another jolt of motivation to shore up a resolution to shed weight, sleep more soundly, boost nutrition or exercise levels, or cut back on alcohol? Then you'll be pleased to learn that any (and all) of these efforts can also add up to better brain health.

An international study led by researchers at the McCance Center for Brain Health at Massachusetts General Hospital devised and validated a Brain Care Score (BCS) card that makes it easy to total up what you're doing well and where you might do better. The prize is a healthier brain — specifically a lower risk for dementia and strokes.

Designed to predict how current habits might impact future brain health, the user-friendly scorecard is apparently the first of its kind, says Dr. Andrew Budson, a lecturer in neurology at Harvard Medical School.

"It's a real service that the researchers have developed a scale like this and completed the first study to determine if scoring worse on this scale raises your risk for dementia and stroke," says Dr. Budson, who wasn't involved in the analysis. "On one hand, no one's done something quite like this before. On the other, however, it's really wrapping together health factors everyone has known for a number of years in new packaging."

What's included on the scorecard?

Called the McCance Brain Care Score, the card tallies points from 12 physical, lifestyle, and social-emotional domains.

Physical components relate to

  • blood pressure
  • blood sugar
  • cholesterol
  • body mass index (BMI).

Lifestyle components include

  • nutrition
  • alcohol intake
  • smoking
  • aerobic activities
  • sleep.

Social-emotional factors inquire about

  • stress management
  • social relationships
  • meaning in life.

Each response is given a score of 0, 1, or 2, with the highest possible score totaling 21. Higher scores suggest better brain care.

"All these physical and lifestyle factors can contribute to the risk of dementia to some extent through strokes," Dr. Budson says. "Those that aren't a risk through strokes are usually related to the fact that a healthy brain is a brain that's using all of its parts. Engaging in healthy relationships and meaningful activities helps us maintain good brain structure and function."

What did the analysis involve?

The study was published online in Frontiers of Neurology in December 2023. It involved nearly 399,000 adults ages 40 through 69 (average age 57; 54% women) who contributed personal health information to the UK Biobank.

During an average follow-up period of 12.5 years, participants recorded 5,354 new cases of dementia and 7,259 strokes. Researchers found that participants with higher Brain Care Scores at the study's start had lower risks of developing dementia or strokes over time.

These threats to health and independence take a stunning — and growing — toll on people in the US. Dementia affects one in seven Americans, a rate expected to triple by 2050. Meanwhile, more than 795,000 people in the United States suffer a stroke each year, according to the CDC.

What did the study find?

Each five-point step higher in the BCS rating assigned when the study began was linked to significantly lower risks of dementia and stroke, with those odds varying by age group:

  • Participants younger than 50 at the study's start were 59% less likely to develop dementia and 48% less likely to have a stroke with each five-point higher score on BCS.
  • Participants 50 through 59 at the study's start were 32% less likely to develop dementia and 52% less likely to have a stroke with each five-point higher score on BCS.

But those brain disease benefits appeared to diminish for those older than 59 at the study's start. This group experienced only 8% lower odds of dementia and a 33% lower risk of stroke with each five-point higher score on BCS. Study authors theorized that some of these participants may have already been experiencing early dementia, which is difficult to detect until it progresses.

"I feel very comfortable that the study's conclusions are entirely correct, because all the factors that go into its BCS are well-known things people can do to reduce their risk of stroke and dementia," Dr. Budson says.

What are the study's limitations?

However, Dr. Budson notes that the study did have a couple of limitations,. The UK Biobank fell just short of collecting all the components of the BCS in its dataset, lacking meaning-of-life questions. So its scores ranged from 0 to 19, not up to 21. "It's a practical limitation, but it should be acknowledged that so far, there have been no studies to validate the actual 21-point scale they're recommending we use," he says.

The analysis also evaluated participants' scores at just one point in time instead of several, Dr. Budson says. Future research should determine whether people can lower their stroke and dementia risk by improving their BCS over time with behavior and lifestyle changes.

How can you play this game at home?

While better brain health may be the clear prize of a higher score, it's far from the only benefit. That's because improving any health component of the BCS also benefits our overall well-being.

"By improving these factors, not only will people help their brain, but they'll also help their heart and reduce their risk of cancer," Dr. Budson adds. "These factors will absolutely also improve your psychological health, which is certainly an important part of brain health."

The scale's simple breakdown of health factors also makes it easy to focus on tweaking one or two without getting overwhelmed.

"Let's say someone's nutrition isn't perfect — and they know it — but they're not willing to change their diet. Fine. They can then decide to do more aerobic exercise, for example, or to stop drinking, or to get the sleep their body needs," he says.

What one change could put you on a path to better brain health?

If he had to choose just one factor to improve brain health, Dr. Budson would focus on meaning of life, "which means you generally feel your life has meaning or purpose," he says. To do that, he suggests giving deep, quiet thought to what you wish your life's purpose to be, whether you expect to live a long time or just a few years.

"Once you have a purpose, then you have a reason to follow through with assessing all the other items on the BCS scale and seeing what you can do so you'll be around longer, and be competent and capable longer, to help fulfill the meaning and purpose of your life," he says.

About the Author

photo of Maureen Salamon

Maureen Salamon, Executive Editor, Harvard Women's Health Watch

Maureen Salamon is executive editor of Harvard Women’s Health Watch. She began her career as a newspaper reporter and later covered health and medicine for a wide variety of websites, magazines, and hospitals. Her work has … See Full Bio View all posts by Maureen Salamon

About the Reviewer

photo of Howard E. LeWine, MD

Howard E. LeWine, MD, Chief Medical Editor, Harvard Health Publishing

Dr. Howard LeWine is a practicing internist at Brigham and Women’s Hospital in Boston, Chief Medical Editor at Harvard Health Publishing, and editor in chief of Harvard Men’s Health Watch. See Full Bio View all posts by Howard E. LeWine, MD

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Discrimination at work is linked to high blood pressure

A dictionary with the word "discrimination" magnified and part of the definition shown in black and white

Experiencing discrimination in the workplace — where many adults spend one-third of their time, on average — may be harmful to your heart health.

A 2023 study in the Journal of the American Heart Association found that people who reported high levels of discrimination on the job were more likely to develop high blood pressure than those who reported low levels of workplace discrimination.

Workplace discrimination refers to unfair conditions or unpleasant treatment because of personal characteristics — particularly race, sex, or age.

How can discrimination affect our health?

“The daily hassles and indignities people experience from discrimination are a specific type of stress that is not always included in traditional measures of stress and adversity,” says sociologist David R. Williams, professor of public health at the Harvard T.H. Chan School of Public Health.

Yet multiple studies have documented that experiencing discrimination increases risk for developing a broad range of factors linked to heart disease. Along with high blood pressure, this can also include chronic low-grade inflammation, obesity, and type 2 diabetes.

More than 25 years ago, Williams created the Everyday Discrimination Scale. This is the most widely used measure of discrimination’s effects on health.

Who participated in the study of workplace discrimination?

The study followed a nationwide sample of 1,246 adults across a broad range of occupations and education levels, with roughly equal numbers of men and women.

Most were middle-aged, white, and married. They were mostly nonsmokers, drank low to moderate amounts of alcohol, and did moderate to high levels of exercise. None had high blood pressure at the baseline measurements.

How was discrimination measured and what did the study find?

The study is the first to show that discrimination in the workplace can raise blood pressure.

To measure discrimination levels, researchers used a test that included these six questions:

  • How often do you think you are unfairly given tasks that no one else wanted to do?
  • How often are you watched more closely than other workers?
  • How often does your supervisor or boss use ethnic, racial, or sexual slurs or jokes?
  • How often do your coworkers use ethnic, racial, or sexual slurs or jokes?
  • How often do you feel that you are ignored or not taken seriously by your boss?
  • How often has a coworker with less experience and qualifications gotten promoted before you?

Based on the responses, researchers calculated discrimination scores and divided participants into groups with low, intermediate, and high scores.

  • After a follow-up of roughly eight years, about 26% of all participants reported developing high blood pressure.
  • Compared to people who scored low on workplace discrimination at the start of the study, those with intermediate or high scores were 22% and 54% more likely, respectively, to report high blood pressure during the follow-up.

How could discrimination affect blood pressure?

Discrimination can cause emotional stress, which activates the body’s fight-or-flight response. The resulting surge of hormones makes the heart beat faster and blood vessels narrow, which causes blood pressure to rise temporarily. But if the stress response is triggered repeatedly, blood pressure may remain consistently high.

Discrimination may arise from unfair treatment based on a range of factors, including race, gender, religious affiliation, or sexual orientation. The specific attribution doesn’t seem to matter, says Williams. “Broadly speaking, the effects of discrimination on health are similar, regardless of the attribution,” he says, noting that the Everyday Discrimination Scale was specifically designed to capture a range of different forms of discrimination.

What are the limitations of this study?

One limitation of this recent study is that only 6% of the participants were nonwhite, and these individuals were less likely to take part in the follow-up session of the study. As a result, the study may not have fully or accurately captured workplace discrimination among people from different racial groups. In addition, blood pressure was self-reported, which may be less reliable than measurements directly documented by medical professionals.

What may limit the health impact of workplace discrimination?

At the organizational level, no studies have directly addressed this issue. Preliminary evidence suggests that improving working conditions, such as decreasing job demands and increasing job control, may help lower blood pressure, according to the study authors. In addition, the American Heart Association recently released a report, Driving Health Equity in the Workplace, that aims to address drivers of health inequities in the workplace.

Encouraging greater awareness of implicit bias may be one way to help reduce discrimination in the workplace. Implicit bias refers to the unconscious assumptions and prejudgments people have about groups of people that may underlie some discriminatory behaviors. You can explore implicit biases with these tests, which were developed at Harvard and other universities.

On an individual level, stress management training can reduce blood pressure. A range of stress-relieving strategies may offer similar benefits. Regularly practicing relaxation techniques or brief mindfulness reflections, learning ways to cope with negative thoughts, and getting sufficient exercise can help.

About the Author

photo of Julie Corliss

Julie Corliss, Executive Editor, Harvard Heart Letter

Julie Corliss is the executive editor of the Harvard Heart Letter. Before working at Harvard, she was a medical writer and editor at HealthNews, a consumer newsletter affiliated with The New England Journal of Medicine. She … See Full Bio View all posts by Julie Corliss

About the Reviewer

photo of Howard E. LeWine, MD

Howard E. LeWine, MD, Chief Medical Editor, Harvard Health Publishing

Dr. Howard LeWine is a practicing internist at Brigham and Women’s Hospital in Boston, Chief Medical Editor at Harvard Health Publishing, and editor in chief of Harvard Men’s Health Watch. See Full Bio View all posts by Howard E. LeWine, MD

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Flowers, chocolates, organ donation — are you in?

photo illustration of a heart shape in dark red with the words organ donors save lives on it in white

Chocolates and flowers are great gifts for Valentine’s Day. But what if the gifts we give then or throughout the year could be truly life-changing? A gift that could save a life or free someone from dialysis?

You can do this. For people in need of an organ, tissue, or blood donation, a donor can give them a gift that exceeds the value of anything that you can buy. Fittingly, Valentine’s Day is also known as National Donor Day, a time for blood drives and sign-ups for organ and tissue donation. Have you ever wondered what can be donated? Had reservations about donating after death or concerns about risks for live donors? Read on.

The enormous impact of organ, tissue, or cell donation

Imagine you have kidney failure requiring dialysis 12 or more hours each week just to stay alive. Even with this, you know you’re still likely to die a premature death. Or, if your liver is failing, you may experience severe nausea, itching, and confusion; death may only be a matter of weeks or months away. For those with cancer in need of a bone marrow transplant, or someone who’s lost their vision due to corneal disease, finding a donor may be their only good option.

Organ or tissue donation can turn these problems around, giving recipients a chance at a long life, a better quality of life, or both. And yet, the number of people who need organ donation far exceeds compatible donors. While national surveys have found about 90% of Americans support organ donation, only 40% have signed up. More than 103,000 women, men, and children are awaiting an organ transplant in the US. About 6,200 die each year, still waiting.

What can you donate?

The list of ways to help has grown dramatically. Some organs, tissues, or cells can be donated while you’re alive; other donations are only possible after death. A single donor can help more than 80 people!

After death, people can donate:

  • bone, cartilage, and tendons
  • corneas
  • face and hands (though uncommon, they are among the newest additions to this list)
  • kidneys
  • liver
  • lungs
  • heart and heart valves
  • stomach and intestine
  • nerves
  • pancreas
  • skin
  • arteries and veins.

Live donations may include:

  • birth tissue, such as the placenta, umbilical cord, and amniotic fluid, which can be used to help heal skin wounds or ulcers and prevent infection
  • blood cells, serum, or bone marrow
  • a kidney
  • part of a lung
  • part of the intestine, liver, or pancreas.

To learn more about different types of organ donations, visit Donate Life America.

Becoming a donor after death: Questions and misconceptions

Common misconceptions about becoming an organ donor limit the number of people who are willing to sign up. For example, many people mistakenly believe that

  • doctors won’t work as hard to save your life if you’re known to be an organ donor — or worse, doctors will harvest organs before death
  • their religion forbids organ donation
  • you cannot have an open-casket funeral if you donate your organs.

None of these is true, and none should discourage you from becoming an organ donor. Legitimate medical professionals always keep the patient’s interests front and center. Care would never be jeopardized due to a person’s choices around organ donation. Most major religions allow and support organ donation. If organ donation occurs after death, the clothed body will show no outward signs of organ donation, so an open-casket funeral is an option for organ donors.

Live donors: Blood, bone marrow, and organs

Have you ever donated blood? Congratulations, you’re a live donor! The risk for live donors varies depending on the intended donation, such as:

  • Blood, platelets, or plasma: If you’re donating blood or blood products, there is little or no risk involved.
  • Bone marrow: Donating bone marrow requires a minor surgical procedure. If general anesthesia is used, there is a chance of a reaction to the anesthesia. Bone marrow is removed through needles inserted into the back of the pelvis bones on each side. Back or hip pain is common, but can be controlled with pain relievers. The body quickly replaces the bone marrow removed, so no long-term problems are expected.
  • Stem cells: Stem cells are found in bone marrow or umbilical cord blood. They also appear in small numbers in our blood and can be donated through a process similar to blood donation. This takes about seven or eight hours. Filgrastim, a medication that increases stem cell production, is given for a number of days beforehand. It can cause side effects such as flulike symptoms, bone pain, and fatigue, but these tend to resolve soon after the procedure.
  • Kidney, lung, or liver: Surgery to donate a kidney or a portion of a lung or liver comes with a risk of complications, reactions to anesthesia, and significant recovery time. It’s no small matter to give a kidney, or part of a lung or liver.

The vast number of live organ donations occur without complications, and donors typically feel quite positive about the experience.

Who can donate?

Almost anyone can donate blood cells –– including stem cells –– or be a bone marrow, tissue, or organ donor. Exceptions include anyone with active cancer, widespread infection, or organs that aren’t healthy.

What about age? By itself, your age does not disqualify you from organ donation. In 2023, two out of five people donating organs were over 50. People in their 90s have donated organs upon their deaths and saved the lives of others.

However, bone marrow transplants may fail more often when the donor is older, so bone marrow donations by people over age 55 or 60 are usually avoided.

Finding a good match: Immune compatibility

For many transplants, the best results occur when there is immune compatibility between the donor and recipient. Compatibility is based largely on HLA typing, which analyzes genetically-determined proteins on the surface of most cells. These proteins help the immune system identify which cells qualify as foreign or self. Foreign cells trigger an immune attack; cells identified as self should not.

HLA typing can be done by a blood test or cheek swab. Close relatives tend to have the best HLA matches, but complete strangers may be a good match as well.

Fewer donors among people with certain HLA types make finding a match more challenging. Already existing health disparities, such as higher rates of kidney disease among Black Americans and communities of color, are worsened by lower numbers of donors from these communities, an inequity partly driven by a lack of trust in the medical system.

The bottom line

You can make an enormous impact by becoming a donor during your life or after death. In the US, you must opt in to be a donor after death. (Research suggests the opt-out approach many other countries use could significantly increase rates of organ donation in this country.)

I’m hopeful that organ donation in the US and throughout the world will increase over time. While you can still go with chocolates for Valentine’s Day, maybe this year you can also go bigger and become a donor.

About the Author

photo of Robert H. Shmerling, MD

Robert H. Shmerling, MD, Senior Faculty Editor, Harvard Health Publishing; Editorial Advisory Board Member, Harvard Health Publishing

Dr. Robert H. Shmerling is the former clinical chief of the division of rheumatology at Beth Israel Deaconess Medical Center (BIDMC), and is a current member of the corresponding faculty in medicine at Harvard Medical School. … See Full Bio View all posts by Robert H. Shmerling, MD

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Shining light on night blindness

A dangerously blurry view of cars, streetlights, headlights through a car window at night; concept is night blindness

Animals renowned for their outstanding night vision include owls, cats, tarsiers (a tiny primate in Southeast Asia) — and even the dung beetle.

But humans? Not so much.

Over time, many people suffer from night blindness, also known as nyctalopia. This condition makes seeing in dim or dark settings difficult because your eyes cannot adjust to changes in brightness or detect light.

What are the dangers for those experiencing night blindness?

Night blindness is especially problematic and dangerous when driving. Your eyes cannot adjust between darkness and the headlights of oncoming vehicles, other cars may appear out of focus, and your depth perception becomes impaired, which makes it difficult to judge distances.

Night blindness also may affect your sight at home by making it hard for your vision to quickly adjust to a dark room after turning off the lights. “This can cause people to bump into furniture or trip and suffer an injury,” says Dr. Isabel Deakins, an optometrist with Harvard-affiliated Massachusetts Eye and Ear.

What happens in the eye to create night blindness?

The ability to see in low-light conditions involves two structures in the eye: the retina and the iris.

The retina, located in the back of the eye, contains two types of light-detecting cells called cones and rods. The cones handle color vision and fine details while the rods manage vision in dim light.

The iris is the colored part of your eye. It contains muscles that widen or narrow the opening of your pupil to adjust how much light can enter your eyes.

If your irises don’t properly react, the pupils can dilate and let in too much light, which causes light sensitivity and makes it hard to see in bright light. Or your pupils may remain too small and not allow in enough light, making it tough to see in low light.

What causes night blindness?

Night blindness is not a disease but a symptom of other conditions. “It’s like having a bruise on your body. Something else causes it,” says Dr. Deakins.

Several conditions can cause night blindness. For instance, medications, such as antidepressants, antihistamines, and antipsychotics, can affect pupil size and how much light enters the eye.

Eye conditions that can cause night blindness include:

  • glaucoma, a disease that damages the eye’s optic nerves and blood vessels
  • cataracts, cloudy areas in the lens that distort or block the passage of light through the lens
  • dry eye syndrome.

However, one issue that raises the risk of night blindness that you can’t control is age. “Our eyes react more slowly to light changes as we age, and vision naturally declines over time,” says Dr. Deakins.  “The number of rods in our eyes diminish, pupils get smaller, and the muscles of the irises weaken.”

What helps if you have night blindness?

If you notice any signs of night blindness, avoid driving and get checked by an eye care specialist like an optometrist or ophthalmologist. An eye exam can determine if your eyeglass prescription needs to be updated.

“Often, a prescription change is enough to reduce glare when driving at night," says Dr. Deakins. “You may even need separate glasses with a stronger eye prescription that you wear only when driving at night.”

Adding an anti-reflective coating to your lens may help to cut down on the glare of the headlights of an oncoming car. However, skip the over-the-counter polarized driving glasses sold at many drug stores. "These may help cut down on glare, but they don't address the causes of night blindness," says Dr. Deakins.

An eye exam also will identify glaucoma or cataracts, which can be treated. Glaucoma treatments include eyedrops, laser treatment, or surgery. Cataracts are corrected with surgery to replace the clouded lens with an artificial one. Your eye care specialist can also help identify dry eye and recommend treatment.

Ask your primary care clinician or a pharmacist if any medications that you take may cause night blindness. If so, it may be possible to adjust the dose or switch to another drug.

Three more ways to make night driving safer

You also can take steps to make night driving safer. For example:

  • Wash the lenses of your glasses regularly. And take them to an optician to buff out minor scratches.
  • Keep both sides of your front and rear car windshields clean so that you can see as clearly as possible.
  • Dim your dashboard lights, which cause glare, and use the night setting on your rearview mirror.

About the Author

photo of Matthew Solan

Matthew Solan, Executive Editor, Harvard Men's Health Watch

Matthew Solan is the executive editor of Harvard Men’s Health Watch. He previously served as executive editor for UCLA Health’s Healthy Years and as a contributor to Duke Medicine’s Health News and Weill Cornell Medical College’s … See Full Bio View all posts by Matthew Solan

About the Reviewer

photo of Howard E. LeWine, MD

Howard E. LeWine, MD, Chief Medical Editor, Harvard Health Publishing

Dr. Howard LeWine is a practicing internist at Brigham and Women’s Hospital in Boston, Chief Medical Editor at Harvard Health Publishing, and editor in chief of Harvard Men’s Health Watch. See Full Bio View all posts by Howard E. LeWine, MD

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New guidelines aim to screen millions more for lung cancer

CT scan showing multiple crosss-sections of a lung in shades of red, blue, and yellow on a purple background

Lung cancer kills more Americans than any other malignancy. The latest American Cancer Society (ACS) updated guidelines aim to reduce deaths by considerably expanding the pool of people who seek annual, low-dose CT lung screening scans.

Advocates hope the new advice will prompt more people at risk for lung cancer to schedule yearly screening, says Dr. Carey Thomson, director of the Multidisciplinary Thoracic Oncology and Lung Cancer Screening Program at Harvard-affiliated Mount Auburn Hospital, and chair of the Early Detection Task Group for the ACS/National Lung Cancer Roundtable. Currently, fewer than one in 10 eligible people in the US follow through on recommended lung screenings.

What are the major changes in the new ACS lung cancer guidelines?

The updated ACS guidelines are aimed at high-risk individuals, all of whom have a smoking history. And unlike previous ACS recommendations, it doesn’t matter how long ago a person quit smoking. The updated guidelines also lower the bar on amount of smoking and widen the age window to seek screening, which aligns with 2021 recommendations issued by the US Preventive Services Task Force.

These changes combined may mean another six to eight million people will be eligible to have screening.

How many people get lung cancer?

Although lung cancer is the third most common malignancy in the United States, it’s the deadliest, killing more people than colorectal, breast, prostate, and cervical cancers combined. In 2023, about 238,000 Americans will be diagnosed with lung cancer and 127,000 will die of it, according to ACS estimates.

What is the major risk factor for lung cancer?

While people who have never smoked can get lung cancer, smoking and exposure to secondhand smoke is a major risk factor for this illness. Smoking is linked to as many as 80% to 90% of lung cancer deaths, according to the CDC.

Indeed, people who smoke are 15 to 30 times more likely to develop or die from lung cancer than those who don’t. The longer someone smokes and the more cigarettes they smoke each day, the higher their risks.

Is lung cancer easier to treat if found in early stages?

Yes. As with many cancers, detecting lung malignancies in their earliest stages is pivotal to improving survival.

Depending on the type of lung cancer diagnosed, up to 80% to 90% of people with a single, early-stage tumor that can be removed surgically can survive five years or longer, says the American Society of Clinical Oncology. The number of people who survive long-term becomes smaller as tumors grow larger, and if they spread to lymph nodes or other areas of the body.

Should you consider lung CT screening?

The updated ACS guidelines recommend screening if you:

  • Are 50 to 80 years old. This age range is expanded from the prior ACS recommended cutoff of 55 to 74.
  • Are a current or previous smoker. This includes anyone who smoked, not just smokers who quit within the past 15 years.
  • Smoked 20 or more pack-years. This means smoking an average of 20 cigarettes per day for 20 years or 40 cigarettes per day for 10 years. Previously, the eligibility cutoff was 30 or more pack-years.

“While an expansion in the number of people screened for lung cancer will find additional early tumors, it also means more false positives will be detected,” says Howard LeWine, MD, Chief Medical Editor at Harvard Health Publishing. False positives are worrisome spots on a CT scan that are not cancer. But they usually require additional testing, perhaps a biopsy and even surgery for something that was harmless.

Before scheduling a low-dose CT lung screening, you’ll need to talk to a health professional about the screening process, your risks, whether it will be covered by your health insurance. Previously, an in-person medical appointment was required.

Why did the ACS change the years-since-quitting screening requirement?

Much international research suggests that the number of years since someone stopped smoking has little or no bearing on their risk of developing lung cancer, says Dr. Thomson.

“You have an equal likelihood of developing lung cancer whether you quit more than 15 years ago or more recently,” she says. “The recommendations on the national scene say that we need to be screening more people and make it easier to be screened. One of the ways to do that is to drop the quit history requirement.”

If you’re eligible for screening, how often should you have it?

Every year, says the ACS.

But why not screen for lung cancer for several years and then take a break, as is done with a malignancy such as cervical cancer? Research hasn’t been done to demonstrate that this type of approach is safe, Dr. Thomson says.

“We know that a large percentage of lung cancers identified in people through low-dose CT scans are identified after their first year of screening,” she says. “And some forms of lung cancer can move quickly, which is part of the reason it’s as deadly as it is.”

Did all guidelines organizations drop the years-since-quitting requirement?

No. The Centers for Medicare & Medicaid Services (CMS) and the U.S. Preventive Services Task Force — which, along with the ACS and other groups, recommend national standards for screenings — haven’t yet signed on to the ACS approach. These two groups maintain that only smokers who quit 15 or fewer years ago should remain eligible for screening.

However, guidelines issued by the National Comprehensive Cancer Network mesh with the new ACS recommendations by not having a years-since-quitting threshold.

Because Medicare and other health insurers may have slightly different rules to determine payment for lung cancer CT screening, it’s best to confirm this with your health care provider or insurer before getting tested.

About the Author

photo of Maureen Salamon

Maureen Salamon, Executive Editor, Harvard Women's Health Watch

Maureen Salamon is executive editor of Harvard Women’s Health Watch. She began her career as a newspaper reporter and later covered health and medicine for a wide variety of websites, magazines, and hospitals. Her work has … See Full Bio View all posts by Maureen Salamon

About the Reviewer

photo of Howard E. LeWine, MD

Howard E. LeWine, MD, Chief Medical Editor, Harvard Health Publishing

Dr. Howard LeWine is a practicing internist at Brigham and Women’s Hospital in Boston, Chief Medical Editor at Harvard Health Publishing, and editor in chief of Harvard Men’s Health Watch. See Full Bio View all posts by Howard E. LeWine, MD

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What is a tongue-tie? What parents need to know

Baby with thick, dark hair lying on tummy looking at camera with hands touching, head raised, and tongue out slightly

The tongue is secured to the front of the mouth partly by a band of tissue called the lingual frenulum. If the frenulum is short, it can restrict the movement of the tongue. This is commonly called a tongue-tie.

Children with a tongue-tie can’t stick their tongue out past their lower lip, or touch their tongue to the top of their upper teeth when their mouth is open. When they stick out their tongue, it looks notched or heart-shaped. Since babies don’t routinely stick out their tongues, a baby’s tongue may be tied if you can’t get a finger underneath the tongue.

How common are tongue-ties?

Tongue-ties are common. It’s hard to say exactly how common, as people define this condition differently. About 8% of babies under age one may have at least a mild tongue-tie.

Is it a problem if the tongue is tied?

This is really important: tongue-ties are not necessarily a problem. Many babies, children, and adults have tongue-ties that cause them no difficulties whatsoever.

There are two main ways that tongue-ties can cause problems:

  • They can cause problems with breastfeeding by making it hard for some babies to latch on well to the mother’s nipple. This causes difficulty with feeding for the baby and sore nipples for the mother. It doesn’t happen to all babies with a tongue-tie; many of them can breastfeed successfully. Tongue-ties are not to blame for gassiness or fussiness in a breastfed baby who is gaining weight well. Babies with tongue-ties do not have problems with bottle-feeding.
  • They can cause problems with speech. Some children with tongue-ties may have difficulty pronouncing certain sounds, such as t, d, z, s, th, n, and l. Tongue-ties do not cause speech delay.

What should you do if think your baby or child has a tongue-tie?

If you think that your newborn is not latching well because of a tongue-tie, talk to your doctor. There are many, many reasons why a baby might not latch onto the breast well. Your doctor should take a careful history of what has been going on, and do a careful examination of your baby to better understand the situation.

You should also have a visit with a lactation specialist to get help with breastfeeding — both because there are lots of reasons why babies have trouble with latching on, and also because many babies with a tongue-tie can nurse successfully with the right techniques and support.

Talk to your doctor if you think that a tongue-tie could be causing problems with how your child pronounces words. Many children just take some time to learn to pronounce certain sounds. It is also a good idea to have an evaluation by a speech therapist before concluding that a tongue-tie is the problem.

What can be done about a tongue-tie?

When necessary, a doctor can release a tongue-tie using a procedure called a frenotomy. A frenotomy can be done by simply snipping the frenulum, or it can be done with a laser.

However, nothing should be done about a tongue-tie that isn’t causing problems. While a frenotomy is a relatively minor procedure, complications such as bleeding, infection, or feeding difficulty sometimes occur. So it’s never a good idea to do it just to prevent problems in the future. The procedure should only be considered if the tongue-tie is clearly causing trouble.

It’s also important to know that clipping a tongue-tie doesn’t always solve the problem, especially with breastfeeding. Studies do not show a clear benefit for all babies or mothers. That’s why it’s important to work with a lactation expert before even considering a frenotomy.

If a newborn with a tongue-tie isn’t latching well despite strong support from a lactation expert, then a frenotomy should be considered, especially if the baby is not gaining weight. If it is done, it should be done early on and by someone with training and experience in the procedure.

What else should parents know about tongue-tie procedures?

Despite the fact that the evidence for the benefits of frenotomy is murky, many providers are quick to recommend them. If one is being recommended for your child, ask questions:

  • Make sure you know exactly why it is being recommended.
  • Ask whether there are any other options, including waiting.
  • Talk to other health care providers on your child’s care team, or get a second opinion.

About the Author

photo of Claire McCarthy, MD

Claire McCarthy, MD, Senior Faculty Editor, Harvard Health Publishing

Claire McCarthy, MD, is a primary care pediatrician at Boston Children’s Hospital, and an assistant professor of pediatrics at Harvard Medical School. In addition to being a senior faculty editor for Harvard Health Publishing, Dr. McCarthy … See Full Bio View all posts by Claire McCarthy, MD

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Why do your prescription drugs cost so much?

Orange plastic prescription drug bottle tipped on its side with several rolled $100 bills tucked inside peeking out; a few white oval pills & glass marble globe lie next to it

I was in line at a pharmacy recently as the customer ahead of me was picking up her prescription. The pharmacist matter-of-factly said: “that’ll be $850.” All she could say was “really?” She left without her prescription, telling the pharmacist she’d have to call her doctor about a less costly alternative.

Many of us routinely experience sticker shock over drug costs. And ever more dramatic examples suggest there’s no limit. So, let’s talk about ways to minimize what we spend on prescription drugs; how we got to this juncture where some medicines cost more than a million dollars per dose; and what changes are needed in our pricey medication-industrial-complex.

7 ways to minimize your spending on prescription drugs

Consider these seven strategies to pare drug costs. Savings will vary depending on insurance, donut holes, deductibles, and cost-sharing.

  • Ask your healthcare provider three questions: Is every medicine you take truly necessary? Is it safe to reduce the dose of any medicines you take? Could a lower-cost or generic drug be substituted?
  • If you have health insurance, check the list of preferred medications (the formulary), which tend to cost less than other similar medicines.
  • Split pills: In some cases, a prescription will cost less if each pill contains more than your needed dose and can be divided. For example, if you usually take a 25-mg pill, taking half of a 50-mg pill may help you save on drug costs and copays. Ask your pharmacist if the math works for you.
  • Ask if a 90-day supply rather than a 30-day supply would reduce copays.
  • Look for prescription drug discount programs that offer savings. Restrictions apply and availability varies by location. Also, paying through a discount program might not count toward your insurance deductible or maximum out-of-pocket costs, so it isn’t always less expensive to use these programs.
  • Compare prices at different pharmacies and review your options with a pharmacist. Sometimes the price is lower if you don’t use your insurance.
  • Consider using an online mail-order service (such as Blink Health or Cost Plus Drug Company). However, spending through these sites may not count toward your insurance deductible. And the prices are not always lower online.

These measures will help some people more than others and can take up a lot of time. The sad truth is that even if you did everything you could, the impact on your wallet might be small.

Why are medicine costs so high in the US?

My top five contenders are:

Drug makers’ profit motive. Pharmaceutical companies routinely reject this idea. They say it’s expensive to develop new drugs and run the required clinical trials to prove safety and effectiveness. Many promising drugs fail, and the FDA drug approval process is difficult and costly.

Yet one recent study published in JAMA Network Open found no connection between how much a drug company spends on research and development (R&D) for a drug and the drug’s price. Even after accounting for R&D spending, most of the top 30 pharmaceutical companies make billions of dollars in profit. And in Europe, where drug prices are negotiated, the very same drugs made by the same companies for the same health problems typically cost far less than in the US.

Pharmacy benefit managers (PBMs) handle drug benefits for large employers, Medicare, and health insurance companies. PBMs negotiate prices with health insurers and pharmacies. They help decide which drugs to cover and how much patients pay. Their fees and incentives — often a share of total spending on medicines, which might encourage approval of higher-priced drugs — contribute to the costs health consumers wind up paying. A flurry of state and federal legislation is intended to limit what PBMs can do and the transparency of their operations.

Cost-sharing. In recent years, insurers have increasingly shifted costs to patients through higher copays, deductibles, and premiums. Sometimes this is justified by the notion that this incentivizes patients to seek care only when truly necessary; of course, it could also discourage people from seeking care even when warranted.

Legal maneuvers. Many drug makers file numerous patents and sue potential competitors to extend their time holding a monopoly on a particular drug (see example). Or they create “me too” drugs by slightly tweaking an existing drug so they can patent it as a brand-new drug. Some pharmaceutical companies acquire patents for older drugs and then jack up the price. Others have bought or merged with another drugmaker to avoid price competition.

Direct-to-consumer advertising. Drug companies spend billions on ads (nearly $8.1 billion in 2022). Marketing costs raise the price of drugs while boosting demand for newer, heavily promoted drugs. Advertised drugs tend to be far more expensive (and not always better) than older drugs. Perhaps this is why such advertising is banned in most other countries.

What might slow rising drug costs?

Although prescription drug prices are likely to remain high for the foreseeable future, three developments could help slow rising drug prices in the coming years:

  • The Inflation Reduction Act of 2022 allows the US government to negotiate drug prices for Medicare, which is expected to lower drug costs. The first 10 price-protected drugs — including the blood thinner apixaban (Eliquis) and the diabetes medicine sitagliptin (Januvia) — take effect in 2026. More drugs will be added to this list each year. If you’re on one of these drugs, the impact could be large. But with more than 20,000 approved drugs on the market, it’s not a solution that will help everyone.
  • Recent FDA action allowing Florida to import drugs from Canada, and other proposed federal and state legislation aiming to protect people from high prescription drug prices.
  • Organizations advocating for lower prescription drug prices, including AARP, Consumers Union, and Patients for Affordable Drugs, appear to have the attention of lawmakers as never before.

The bottom line

Let’s face it: our complex, broken healthcare system incentivizes those who develop and distribute drugs to set the prices well above what many can afford. And the amount you can chip away on your own is limited. What we really need is an overhaul to remove middlemen who contribute to added cost without always adding value.

Until we get there, do what you can, even if the impact is small. Trying your best to stay healthy could be the most important step you take. After all, the best way to limit how much you spend on prescription drugs is to have no reason to take them.

About the Author

photo of Robert H. Shmerling, MD

Robert H. Shmerling, MD, Senior Faculty Editor, Harvard Health Publishing; Editorial Advisory Board Member, Harvard Health Publishing

Dr. Robert H. Shmerling is the former clinical chief of the division of rheumatology at Beth Israel Deaconess Medical Center (BIDMC), and is a current member of the corresponding faculty in medicine at Harvard Medical School. … See Full Bio View all posts by Robert H. Shmerling, MD

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A mindful way to help manage type 2 diabetes?

A group of people doing a standing pose in a yoga class; a woman wearing a pink top and dark purple leggings in the foreground along with a blurred paire of hands

Lifestyle changes like regular exercise, a healthy diet, and sufficient sleep are cornerstones of self-care for people with type 2 diabetes.

But what about mind-body practices? Can they also help people manage or even treat type 2 diabetes? An analysis of multiple studies, published in the Journal of Integrative and Complementary Medicine, suggests they might.

Which mindfulness practices did the study look at?

Researchers analyzed 28 studies that explored the effect of mind-body practices on people with type 2 diabetes. Those participating in the studies did not need insulin to control their diabetes, or have certain health conditions such as heart or kidney disease. The mind-body activities used in the research were:

  • yoga
  • qigong, a slow-moving martial art similar to tai chi
  • mindfulness-based stress reduction, a training program designed to help people manage stress and anxiety
  • meditation
  • guided imagery, visualizing positive images to relax the mind.

How often and over what time period people engaged in the activities varied, ranging from daily to several times a week, and from four weeks to six months.

What did the study find about people with diabetes who practiced mindfulness?

Those who participated in any of the mind-body activities for any length of time lowered their levels of hemoglobin A1C, a key marker for diabetes. On average, A1C levels dropped by 0.84%. This is similar to the effect of taking metformin (Glucophage), a first-line medication for treating type 2 diabetes, according to the researchers.

A1C levels are determined by a blood test that shows a person’s average blood sugar levels over the past two to three months. Levels below 5.7% are deemed normal, levels from 5.7% to less than 6.5% are considered prediabetes, and levels 6.5% and higher are in the diabetes range.

How can mind-body practices help control blood sugar?

Their ability to reduce stress may play a big part. “Yoga and other mindfulness practices elicit a relaxation response — the opposite of the stress response,” says Dr. Shalu Ramchandani, a health coach and internist at the Harvard-affiliated Benson-Henry Institute for Mind Body Medicine at Massachusetts General Hospital. “A relaxation response can lower levels of the stress hormone cortisol. This improves insulin resistance and keeps blood sugar levels in check, thus lowering A1C levels.”

A relaxation response can help people with diabetes in other ways, such as by improving blood flow and lowering blood pressure, which protects against heart attacks and strokes.

What else should you know about this study?

The results of studies like this suggest a link between various mind-body practices and lower A1C levels, but do not offer firm proof of it. Levels of participation varied widely. But because all mindfulness practices studied had a modest positive effect, the researchers suggested that these types of activities could become part of diabetes therapy along with standard lifestyle treatments.

Could mind-body practices protect people against developing type 2 diabetes, especially for those at high risk? While this study wasn’t designed to look at this, Dr. Ramchandani again points to the long-range benefits of the relaxation response.

“Reducing and managing stress leads to improved moods, and greater self-awareness and self-regulation,” she says. “This can lead to more mindful eating, such as fighting cravings for unhealthy foods, adhering to a good diet, and committing to regular exercise, all of which can help reduce one’s risk for type 2 diabetes.”

Trying mind-body practices

There are many ways to adopt mind-body practices that can create relaxation responses. Here are some suggestions from Dr. Ramchandani:

  • Do a daily 10-minute or longer meditation using an app like Insight Timer, Calm, or Headspace.
  • Attend a gentle yoga, qigong, or tai chi class at a local yoga studio or community center.
  • Try videos and exercises to help reduce stress and initiate relaxation responses.
  • Practice slow controlled breathing. Lie on your back with one or both of your hands on your abdomen. Inhale slowly and deeply, drawing air into the lowest part of your lungs so your hand rises. Your belly should expand and rise as you inhale, then contract and lower as you exhale. Repeat for several minutes.

About the Author

photo of Matthew Solan

Matthew Solan, Executive Editor, Harvard Men's Health Watch

Matthew Solan is the executive editor of Harvard Men’s Health Watch. He previously served as executive editor for UCLA Health’s Healthy Years and as a contributor to Duke Medicine’s Health News and Weill Cornell Medical College’s … See Full Bio View all posts by Matthew Solan

About the Reviewer

photo of Howard E. LeWine, MD

Howard E. LeWine, MD, Chief Medical Editor, Harvard Health Publishing

Dr. Howard LeWine is a practicing internist at Brigham and Women’s Hospital in Boston, Chief Medical Editor at Harvard Health Publishing, and editor in chief of Harvard Men’s Health Watch. See Full Bio View all posts by Howard E. LeWine, MD

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Plyometrics: Three explosive exercises even beginners can try

Woman jumps rope a few inches above gray bricks, wearing pink jacket and black leggings, pink rectangle background; concept plyometrics

As a kid, I spent many Saturdays romping around my Florida neighborhood imitating Colonel Steve Austin, better known as The Six Million Dollar Man to avid TV watchers in the 1970s.

The popular show featured a bionic man — half human and half machine — who could jump from three-story buildings, leap over six-foot-high walls, and bolt into a full 60-mile-per-hour sprint. Naturally, these actions occurred in slow motion with an iconic vibrating electronic sound effect.

My own bionic moves involved jumping to pluck oranges from tree branches, hopping over anthills, and leaping across narrow ditches while humming that distinctive sound. I didn’t realize it, but this imitation game taught me the foundations of plyometrics — the popular training routine now used by top athletes to boost strength, power, and agility.

What are plyometrics?

Plyometric training involves short, intense bursts of activity that target fast-twitch muscle fibers in the lower body. These fibers help generate explosive power that increases speed and jumping height.

“Plyometrics are used by competitive athletes who rely on quick, powerful movements, like those in basketball, volleyball, baseball, tennis, and track and field,” says Thomas Newman, lead performance specialist with Harvard-affiliated Mass General Brigham Center for Sports Performance and Research. Plyometrics also can help improve coordination, agility, and flexibility, and offer an excellent heart-pumping workout.

Who can safely try plyometrics?

There are many kinds of plyometric exercises. Most people are familiar with gym plyometrics where people jump onto the top of boxes or over hurdles.

But these are advanced moves and should only be attempted with the assistance of a trainer once you have developed some skills and muscle strength.

Keep in mind that even the beginner plyometrics described in this post can be challenging. If you have had any joint issues, especially in your knees, back, or hips, or any trouble with balance, check with your doctor before doing any plyometric training.

How to maximize effort while minimizing risk of injury

  • Choose a surface with some give. A thick, firm mat (not a thin yoga mat); well-padded, carpeted wood floor; or grass or dirt outside are good choices that absorb some of the impact as you land. Do not jump on tile, concrete, or asphalt surfaces.
  • Aim for just a few inches off the floor to start. The higher you jump, the greater your impact on landing.
  • Bend your legs when you land. Don’t lock your knees.
  • Land softly, and avoid landing only on your heels or the balls of your feet.

Three simple plyometric exercises

Here are three beginner-level exercises to jump-start your plyometric training. (Humming the bionic man sound is optional.)

Side jumps

Stand tall with your feet together. Shift your weight onto your right foot and leap as far as possible to your left, landing with your left foot followed by your right one. Repeat, hopping to your right. That’s one rep.

  • You can hold your arms in front of you or let them swing naturally.
  • Try not to hunch or round your shoulders forward as you jump.
  • To make this exercise easier, hop a shorter distance to the side and stay closer to the floor.

Do five to 15 reps to complete one set. Do one to three sets, resting between each set.

Jump rope

Jumping rope is an effective plyometric exercise because it emphasizes short, quick ground contact time. It also measures coordination and repeated jump height as you clear the rope.

  • Begin with two minutes of jumping rope, then increase the time or add extra sets.
  • Break it up into 10- to 30-second segments if two minutes is too difficult.
  • If your feet get tangled, pause until you regain your balance and then continue.

An easier option is to go through the motions of jumping rope but without the rope.

Forward hops

Stand tall with your feet together. Bend your knees and jump forward one to two feet. Turn your body around and jump back to the starting position to complete one rep.

  • Let your arms swing naturally during the hop.
  • To make this exercise easier, hop a shorter distance and stay closer to the floor.
  • If you want more of a challenge, hop farther and higher. As this becomes easier to do, try hopping over small hurdles. Begin with something like a stick and then increase the height, such as with books of various thicknesses.

Do five to 10 hops to complete one set. Do one to three sets, resting between each set.

About the Author

photo of Matthew Solan

Matthew Solan, Executive Editor, Harvard Men's Health Watch

Matthew Solan is the executive editor of Harvard Men’s Health Watch. He previously served as executive editor for UCLA Health’s Healthy Years and as a contributor to Duke Medicine’s Health News and Weill Cornell Medical College’s … See Full Bio View all posts by Matthew Solan

About the Reviewer

photo of Howard E. LeWine, MD

Howard E. LeWine, MD, Chief Medical Editor, Harvard Health Publishing

Dr. Howard LeWine is a practicing internist at Brigham and Women’s Hospital in Boston, Chief Medical Editor at Harvard Health Publishing, and editor in chief of Harvard Men’s Health Watch. See Full Bio View all posts by Howard E. LeWine, MD

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New research shows little risk of infection from prostate biopsies

close-up photo of a vial of blood marked PSA test alongside a pen; both are resting on a document showing the test results

Infections after a prostate biopsy are rare, but they do occur. Now research shows that fewer than 2% of men develop confirmed infections after prostate biopsy, regardless of the technique used.

In the United States, doctors usually thread a biopsy needle through the rectum and then into the prostate gland while watching their progress on an ultrasound machine. This is called a transrectal ultrasound-guided biopsy (TRUS). Since the biopsy needle passes through the rectum, there's a chance that fecal bacteria will be introduced into the prostate or escape into the bloodstream. For that reason, doctors typically treat a patient with antibiotics before initiating the procedure.

Alternatively, the biopsy needle can be passed through the peritoneum, which is a patch of skin between the anus and the base of the scrotum. These transperitoneal prostate (TP) biopsies, as they are called, are also performed with ultrasound guidance, and since they bypass the rectum, antibiotics typically aren't required. In that way, TP biopsies help to keep antibiotic resistance at bay, and European medical guidelines strongly favor this approach, citing a lower risk of infection.

Study goals and methodology

TP biopsies aren't widely adopted in the United States, in part because doctors lack familiarity with the method and need further training to perform it. The technology is steadily improving, and TP biopsies are increasingly being conducted in office settings around the country. But questions remain about how TRUS and TP biopsies compare in terms of their infectious complications.

To investigate, researchers at Albany Medical Center in New York conducted the first-ever randomized clinical trial comparing infection risks associated with either method. The results were published in February in the Journal of Urology.

The Albany team randomized 718 men to either a TRUS or TP biopsy. Nearly all the men who got a TRUS biopsy (and with few exceptions, none of the TP-treated men) first received a single-day course of antibiotics. All the biopsies were administered between 2019 and 2022 by three urologists working at the Medical Center's affiliated and nonaffiliated hospitals.

The men were then monitored for fever, genitourinary infections, antibiotic prescriptions for suspected or confirmed infections, sepsis, and infection-related contacts with caregivers. Researchers collected data during a visit conducted two weeks after a biopsy procedure, and then by phone over an additional 30-day period following this initial meeting.

What the researchers found

According to the results, 1.1% of men in the TRUS group and 1.4% of men in the transperineal group wound up with confirmed infections. The difference was not statistically significant. If "possible" infections were counted (for example, antibiotic prescriptions for fever), then the rates increased to 2.6% and 2.7% of men in the TRUS and TP groups, respectively.

Fever was the most frequent complication, reported by six participants in each group. One participant from each group also developed noninfectious urinary retention, requiring the temporary use of a catheter. None of the men developed sepsis or required post-biopsy treatments for bleeding.

The study had some limitations: Nearly all the participants were white, and so the results may not be applicable to men from other racial and ethnic groups. Furthermore, since all the men were biopsied by a single institution, it's unclear if the findings are generalizable in other settings. Still, the study provides reassuring evidence that both types of biopsies "appear safe and viable options for clinical practice," the authors concluded.

Commentary from experts

"The paper provides needed evidence that TP biopsies without antibiotics are about as safe and efficacious as TRUS biopsies with antibiotics," said Dr. Marc Garnick, the Gorman Brothers Professor of Medicine at Harvard Medical School and Beth Israel Deaconess Medical Center. The findings also help to dispel a growing view that transperineal biopsies are superior, Dr. Garnick pointed out.

"Recent years have witnessed a marked interest and surge in the transperineal approach, primarily driven by early studies suggesting a lower risk of infectious complications compared with transrectal biopsy," said Dr. Boris Gershman, a urologist at Harvard-affiliated Beth Israel Deaconess Medical Center in Boston, and a member of Harvard Health Publishing's Annual Report on Prostate Diseases advisory board.

"Interestingly, the investigators find no difference in infectious complications, and it will be important to see if other ongoing studies report similar results," Dr. Gershman continued. "In addition to safety, we also need to confirm whether there are any meaningful differences between the two approaches with respect to cancer detection rates."

About the Author

photo of Charlie Schmidt

Charlie Schmidt, Editor, Harvard Medical School Annual Report on Prostate Diseases

Charlie Schmidt is an award-winning freelance science writer based in Portland, Maine. In addition to writing for Harvard Health Publishing, Charlie has written for Science magazine, the Journal of the National Cancer Institute, Environmental Health Perspectives, … See Full Bio View all posts by Charlie Schmidt

About the Reviewer

photo of Marc B. Garnick, MD

Marc B. Garnick, MD, Editor in Chief, Harvard Medical School Annual Report on Prostate Diseases; Editorial Advisory Board Member, Harvard Health Publishing

Dr. Marc B. Garnick is an internationally renowned expert in medical oncology and urologic cancer. A clinical professor of medicine at Harvard Medical School, he also maintains an active clinical practice at Beth Israel Deaconess Medical … See Full Bio View all posts by Marc B. Garnick, MD

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