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Anemia afflicts nearly 1 in 4 people worldwide, but there are practical strategies for reducing it

Anemia is a major health problem, with nearly 2 billion people affected globally. It afflicts more people worldwide than low back pain or diabetes – or even anxiety and depression combined.

Despite this, investments in reducing anemia have failed to substantially reduce the massive burden of anemia globally over the last few decades.

People become anemic when their blood lacks enough healthy red blood cells to carry oxygen throughout the body. This decreased oxygen delivery causes many of the most common symptoms of anemia, including fatigue, shortness of breath, lightheadedness, difficulty concentrating and challenges with work and daily life tasks.

In addition to its direct health effects, anemia can inhibit brain development and fine motor skills in children and heighten the risk of stroke, cardiovascular disease, dementia and other chronic illnesses in older adults. Anemia during pregnancy can lead to increased rates of anxiety and depression, early labor, postpartum hemorrhage, stillbirth and low birth weight. Infections for both mother and baby are also more likely when the mother is anemic.

We are global health researchers with expertise in epidemiological modeling of anemia alongside other maternal, neonatal and nutritional disorders.

Our work is part of the Global Burden of Disease Study, a large research study comprehensively estimating health loss due to hundreds of diseases, injuries and risk factors around the globe. Through our analysis, we have produced annual estimates of anemia prevalence by underlying cause for 204 countries and territories, by age and sex, from 1990 to the present. We have collected thousands of data points across hundreds of sources to produce the most comprehensive picture of anemia burden.

Anemia is diagnosed by a simple blood test and can be caused by a number of underlying conditions.

Decreases in healthy red blood cells can occur due to excessive loss of existing red blood cells, such as through bleeding or destruction by the body’s immune system. Anemia can also occur due to decreased production of new red blood cells or changes in the normal structure or lifespan of red blood cells that make them less effective.

Globally, anemia is the third-largest cause of disability: Our recent study found that nearly 1 in 4 people has anemia. This burden is concentrated among children younger than 5 years and adolescent girls and women, one-third of whom are anemic. Anemia rates are particularly high in sub-Saharan Africa and South Asia, where we estimated that 40% – or two out of every five people – have anemia.

Reductions in anemia rates have been slow and uneven, dropping from 28% to 24% globally from 1990 to 2021. Adult males have fared better, with young children and adolescent girls and women – who bear the highest burden of anemia – showing the least progress. On the positive side, there has been a shift toward milder forms of anemia, which result in much less disability compared to severe anemia.

Substantially reducing anemia globally is complicated by its many underlying causes. Dietary iron deficiency is the most common cause across the globe. But other important drivers of anemia include blood disorders such as sickle cell disease or thalassemias, infectious diseases like malaria and hookworm, gynecologic and obstetric conditions, inflammation and chronic diseases.

Anemia in adolescent and adult women often occurs due to loss of blood from menstruation and increased needs for blood for the developing baby during pregnancy. Much of the anemia burden in this group is likely related to lack of menstrual education, inadequate options for effectively managing menstrual problems in those who have them, and unmet needs for family planning services. These are also important drivers among transgender men and nonbinary people who menstruate.

Young children have increased requirements for iron as their bodies grow, and malnutrition is a common cause of anemia in this group globally.

Iron supplementation has historically been the primary form of treatment and prevention of anemia. This includes large-scale addition of iron to foods such as flour, rice or milk, as well as providing oral iron tablets and intravenous iron, depending on the context and severity.

Some research has suggested that less than half of people with anemia will fully respond to supplemental iron if the underlying causes of iron deficiency remain untreated. For example, cells in our bodies sequester iron as part of the immune response to some infections. Supplementing with iron without treating the underlying infection will do little to solve the iron deficiency in the long run, and it may even be harmful.

Additional interventions include HIV treatment and prevention, with pre-exposure prophylaxis and anti-retroviral therapy. Preventing initial infection with HIV or suppressing the effects of the virus once infected will reduce the anemia burden related to HIV/AIDS.

Other strategies include malaria control methods, such as insecticide-treated bed nets and vaccination, and monitoring and prevention of chronic illnesses such as chronic kidney disease and inflammatory conditions. In combination with a robust supplementation program, these interventions could meaningfully reduce the global burden of anemia.

Anemia makes it hard for nearly 2 billion people worldwide to learn in school, perform at work and take care of their families. We hope our findings will allow for more comprehensive intervention and treatment plans, especially for the most vulnerable – adolescent and adult women, children and the elderly.

This article is republished from The Conversation, an independent nonprofit news site dedicated to sharing ideas from academic experts. If you found it interesting, you could subscribe to our weekly newsletter.

Read more: Vitamin B12 deficiency is a common health problem that can have serious consequences – but doctors often overlook it How do blood tests work? Medical laboratory scientists explain the pathway from blood draw to diagnosis and treatment

Nicholas Kassebaum receives funding from the Bill & Melinda Gates Foundation.

Theresa A McHugh and William Gardner do not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and have disclosed no relevant affiliations beyond their academic appointment.

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