Osteoporosis is thought to be influenced by genetics. This is evidenced by family and twin studies in which 46% to 92% of cases of bone mineral density (BMD) loss are believed to be genetically linked.

Fractures are the main consequence and concern of osteoporosis. Research suggests that having a first-degree relative with osteoporosis, such as a parent,child, or sibling, increases your risk of an osteoporosis-related fracture by as much as 400%.

Even so, it is not entirely clear which genes or combination of genes give rise to osteoporosis or how. The available body of evidence suggests that genetics contributes to the incidence of osteoporosis, along with other factors such as older age, a person’s sex, and aging-related changes in hormone levels.

This article takes a closer look at the role that genetics plays in the onset and progression of osteoporosis. It also describes other risk factors associated with osteoporosis and some of the steps you can take to prevent a disease that affects roughly 10 million adults age 50 and over in the United States.

How Osteoporosis Develops

Osteoporosis is the most common cause of bone fractures in adults over 70. The disease is caused by an imbalance between bone resorption (the breakdown of bone minerals) and the formation of new bone in a process known as bone remodeling.

Gender Definitions

Verywell Health prefers to use inclusive terminology. For the purpose of this article, female and male refer to the sex assigned at birth, irrespective of how a person identifies their gender or genders. When an authoritative source is cited, the terms for sex or gender from that source are used.

Bone remodeling ensures that bone strength is maintained by constantly breaking down and rebuilding older bones a little at a time. Vitamin D and calcium play a central role by triggering bone resorption and formation, respectively. Vitamin D also aids in the absorption of calcium.

If any part of the remodeling process is imbalanced, bones can start to thin, become brittle, and break.

One cause for the disruption of the process is aging-related changes in hormone levels. This includes natural declines in the sex hormone estrogen after menopause in people who menstruate, which leads to more bone resorption than formation.

On the flip side, natural increases in parathyroid hormone (PTH) in both people of any sex cause calcium to leave the bones and go into the blood, leading to bone mineral loss.

It is for these and other reasons that osteoporosis tends to affect people over 50, most especially postmenopausal females.

Genetics is known to further predispose a person to osteoporosis, while various lifestyle factors (including nutritional deficiencies, physical inactivity, cigarette smoking, and alcohol use disorder) can amplify the risk.

The Role of Genetics in Osteoporosis

While older age and a low BMD are strong predictors of osteoporosis-related fractures, a family history of osteoporosis also greatly influences the risk. Studies have shown that having a sibling with a low BMD increases your risk of a low BMD by sixfold compared to the general population.

Yet, despite the strong statistical evidence for the heritability of osteoporosis, there remain large gaps in scientists’ understanding of how genetics factors into the development and risk of osteoporosis.

The Search for the “Osteoporosis Gene”

To better understand how genetics influences bone mineral loss, researchers in the early 2000s turned to the human genome—the complete map of genetic (DNA) instructions in humans—to search for gene variations common in people with osteoporosis.

Much of the early research was focused on twins in whom certain genes were abnormally positioned on the chromosomes of both people.

Based on these and other studies, scientists have identified genetic variants linked to osteoporosis and variants linked to osteoporosis in specific parts of the body (such as the hip or lower spine). Other variants still are able to predict a person’s risk of a fracture from osteoporosis based on the pattern of bone mineral loss.

Possible Mechanisms

Despite progress in genetic research, scientists have yet to establish a clear association between osteoporosis and the different genetic variants.

Osteoporosis Gene Variants

To date, no fewer than 71 genetic variants associated with osteoporosis have been found. Some of the associations are stronger than others, and it is possible that multiple genetic variants may contribute to the overall risk of the disease.

While certain variants may predispose you to osteoporosis, having one or even several variants doesn’t mean you will get osteoporosis. Other factors, such as a person’s age, weight, and sex, can ultimately determine how consequential (or inconsequential) a variant is.

Scientists today believe that the different genetic variants contribute to osteoporosis by interfering with specific, unique processes involved in bone remodeling.

These include:

  • Wnt signaling pathway: This is a process in which secreted proteins enable communication between cells in order to repair bones and regulate and maintain bone mass Variants that can interfere with this process include AXIN1, CTNNB1, DKK1, GPR177, JAG1, LRP4, LRP5, MEF2C, RSPO3, SFRP4, SNT16, SOST, WNT4, WNT5B, and WNT16.RANK-RANKL-OBG pathway: This is a process in which secreted proteins activate and differentiate the various types of bone cells (called osteoclasts) that make up bones. Variants that can interfere with this include mutations of the TNFRSF11, TNFRSF11A, and TNFRSF11B genes.Endochondral ossification: This is a process in which the cartilage scaffolding within bones is replaced by bone minerals during remodeling. Variants that can interfere with this include IBSP, PTHLH, RUNX2, SOX6, SOX9, SPP1, and SP7.

By better understanding how genes contribute to the onset or progression of osteoporosis, scientists may one day be able to develop drugs that can block these and other processes that contribute to bone mineral loss.

Other Risk Factors

Even beyond a person’s age and genetic predisposition for osteoporosis, there are numerous other factors that can contribute to the overall risk of bone mineral loss. Some factors are modifiable (changeable), while others are unmodifiable (unchangeable).

The most common risk factors for osteoporosis include:

Female Sex

Females 50 and over have a fourfold greater risk of osteoporosis compared to their male counterparts. This is not only due to declines in estrogen during menopause but also because females tend to have smaller frames and have less bone mass to draw upon as they age.

Nutritional Deficiencies

Malnutrition plays a major role in osteoporosis by depriving the body of the nutrients needed to maintain bone health, most notably calcium and vitamin D. In the United States, malnutrition is common, affecting no less than 50% of older adults, according to the Department of Health and Human Services.

But calcium and vitamin D are only part of the picture. The inadequate intake of protein contributes to osteoporosis-related fractures by reducing BMD and the muscle strength needed to support weakened bones.

Cigarette Smoking

Studies suggest that osteoporosis is more common among smokers than non-smokers (75% versus 52.7%, respectively). Researchers have found that cigarette smoke causes bone mineral loss both directly and indirectly:

  • Smoking directly affects BMD by reducing blood circulation needed for bone resorption and formation. This, in turn, leads to imperfect bone formation.Smoking indirectly affects BMD by impairing the absorption of calcium. It also alters estrogen and PTH levels.

Alcohol Use Disorder

Chronic, heavy alcohol use decreases bone density and destabilizes the matrix of osteoclasts that give bones their strength and resistance to impact. It does so by interfering with the production of vitamin D, which calcium needs to be absorbed. Without ample calcium, bone formation is weakened.

Medical Conditions

Any chronic medical condition that interferes with the process of bone remodeling can contribute to osteoporosis. It can do so by causing nutritional deficiencies, impeding the absorption of calcium or vitamin D, altering hormone levels, or provoking a chronic inflammatory response that disrupts the normal production of osteoclasts.

Alcohol and Hormone Levels

Chronic, heavy alcohol use can also reduce estrogen levels in females and testosterone levels in males, both of which contribute to bone mineral loss and impaired bone remodeling.

These include medical conditions such as:

  • Anorexia nervosa
  • Cancer
  • Celiac disease
  • Chronic kidney disease (CKD)
  • Diabetes
  • Gastric bypass surgery
  • Inflammatory bowel disease (IBD, including Crohn’s disease and ulcerative colitis)
  • Liver disease
  • Lupus
  • Multiple sclerosis (MS)
  • Rheumatoid arthritis
  • Thyroid disease

Medications

Many drugs can affect bone metabolism. Some affect hormone levels, inhibit calcium absorption, disrupt the balance of vitamin D and calcium, or interfere with bone resorption.

Substances affecting the bones include:

  • Antidepressants, including selective serotonin reuptake inhibitors (SSRIs)
  • Chemotherapy drugs, especially aromatase Inhibitors
  • Corticosteroids (steroids) like prednisone
  • Depo-Provera (medroxyprogesterone acetate; an injectable contraceptive)
  • Immunosuppressants like cyclosporine or calcineurin Inhibitors
  • Proton pump inhibitors (PPIs)
  • Thiazolidinediones
  • Thyroid hormones like Synthroid (levothyroxine)
  • Coumadin (warfarin)

Race/Ethnicity

Data from the ongoing National Health and Nutrition Examination Survey (NHANES) has shown that osteoporosis generally is diagnosed more often in White people (50.8%) compared to Latinx people (44%) or Black people (23.7%).

It is unclear what role genetics may play in this, but researchers have identified several factors that may contribute to the disparity:

  • Among White people, a family history of osteoporosis, vitamin D deficiency, or the daily use of corticosteroids is associated with greater BMD loss.
  • Among Black people, type 2 diabetes (a disease that is four times more common in Blacks than Whites) is linked to an increased risk of low BMD.
  • Among all racial/ethnic groups, older age, female sex, and a history of fractures are linked to a higher risk of osteoporosis.

Getting Screened for Osteoporosis

Osteoporosis is diagnosed when a person’s BMD falls below 2.5 standard deviations (SDs) of the BMD of the average healthy, young adult. (A standard deviation is a statistical value used to describe the amount of variation from the norm.)

Osteoporosis is currently defined as follows:

  • Normal bone mass: BMD is within 1 SD of the BMD of the average healthy young adult.Low bone mass: BMD is 1 and 2.5 SD below the BMD of the average healthy young adult.Osteoporosis: BMD is 2.5 SD or more below the BMD of the average healthy young adult.Severe osteoporosis: BMD is 2.5 SD or more below the BMD of the average healthy young adult., plus the person has at least one osteoporosis-related fracture.

BMD is typically measured with an imaging tool called a dual-energy X-ray absorptiometry (DEXA) scan. A DEXA scan works by using two different X-ray beams to differentiate bone from other tissues. It is a simple, noninvasive imaging tool that delivers a low radiation dose and does not involve drugs or contrast agents.

Prevention Tips for Those at Increased Risk

While some risk factors for osteoporosis are unmodifiable, there are others you can change, despite your genetic predisposition for the disease.

Who Should Be Screened?

The U.S. Preventive Services Task Force (USPTF) recommends osteoporosis screening for all females 65 years of age and older as well as postmenopausal females under 65 with risk factors for osteoporosis.

According to the National Institute on Aging, the five key measures you can take to prevent osteoporosis or the risk of fractures from osteoporosis are:

  • Eat foods that support bone health: This includes ensuring you meet the recommended daily intake of calcium, vitamin D, and protein. Good sources include low-fat dairy, grains, fish, and leafy green vegetables.
  • Take a supplement: If your vitamin D levels are low, speak with your healthcare provider about taking a vitamin D supplement.
  • Exercise routinely: Weight-bearing exercises can help build and strengthen your bones. Examples include strength training, walking, jogging, hiking, tennis, and dancing.
  • Limits your alcohol intake: Dietary guidelines recommend no more than two alcoholic beverages per day for males and one alcoholic beverage per day for females. If you have trouble with your drinking, speak with your healthcare provider about alcohol treatment.
  • Quit cigarettes: Ask your healthcare provider about smoking cessation aids, many of which are fully covered under the Affordable Care Act.

Summary

Genetics is thought to predispose certain people to osteoporosis, particularly those with a family history of the disease. Even so, there remain questions as to how genes influence the risk of osteoporosis and which genes (or combination of genes) are most likely to cause bone mineral loss.

In the end, genes only play a part in a person’s overall risk of osteoporosis in tandem with other risk factors such as older age, smoking, alcohol abuse, malnutrition, and co-occurring medical conditions.

A Word From Verywell

Having a genetic predisposition for osteoporosis does not mean you will get osteoporosis. Even if you have a family history of the disease, you shouldn’t assume that osteoporosis is “in your genes.” Unlike some aging-related conditions, there are numerous things you can do to prevent or slow the progression of osteoporosis.

Many of these “fixes” are the same healthy choices you would make if you were trying to prevent heart disease, diabetes, or other common chronic diseases. If you need help, speak with your healthcare provider, who can also refer you to a nutritionist, personal trainer, or other health professionals.

Frequently Asked Questions

  • At what age does osteoporosis typically start?
  • The risk of osteoporosis increases with age and differs in females and males. The general age of onset among females is 55, while the age of onset in males is 60. Among females, the risk of osteoporosis steadily increases from around 37% at age 60 to 86% by age 80. Among males, the risk increases from roughly 7% at age 60 to 27% by age 80.
  • Learn More:
  • Juvenile Osteoporosis
  • How quickly does osteoporosis progress?
  • The rate of progression can vary based on numerous risk factors like sex, genetics, smoking, alcohol use, and nutritional status. With that said, around 25% of postmenopausal females with osteoporosis will be rapid progressors who will experience a fracture within 10 to 15 years of their diagnosis.
  • Learn More:
  • Stages of Osteoporosis
  • What does osteoporosis feel like?
  • Osteoporosis often has no signs in the early stages and will only cause symptoms when bone mineral loss is severe.Symptoms may include:Lower back pain due to collapsing vertebraShooting leg pains due to a pinched spinal nerveHip pain due to a weakened hip jointA stooped postureBone fracture
  • Learn More:
  • 9 Early Warning Signs of Osteoporosis

The risk of osteoporosis increases with age and differs in females and males. The general age of onset among females is 55, while the age of onset in males is 60. Among females, the risk of osteoporosis steadily increases from around 37% at age 60 to 86% by age 80. Among males, the risk increases from roughly 7% at age 60 to 27% by age 80.

The rate of progression can vary based on numerous risk factors like sex, genetics, smoking, alcohol use, and nutritional status. With that said, around 25% of postmenopausal females with osteoporosis will be rapid progressors who will experience a fracture within 10 to 15 years of their diagnosis.

Osteoporosis often has no signs in the early stages and will only cause symptoms when bone mineral loss is severe.