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Bisphosphonate drugs are a go-to treatment for osteoporosis, but they come with a significant risk of triggering an atypical femoral fracture, especially if you use them for more than five years. Their use is controversial, particularly because bone mineral density is not an accurate measure of bone strength and fracture risk
For conventional medicine, bisphosphonate drugs are the first-line therapy for the prevention and treatment of osteoporosis, with 14.7 million prescriptions written annually in the U.S.[i]
The drugs, which include alendronate (Binosto, Fosamax), ibandronate (Boniva), risedronate (Actonel, Atelvia) and zoledronic acid (Reclast, Zometa),[ii] work to inhibit bone resorption by blocking the action of osteoclasts, which are cells that degrade bone.
Osteoclasts, however, have many functions beyond bone resorption, including affecting immune responses, and their role of bone degradation serves to initiate the normal bone remodeling process. Drugs that inhibit osteoclast activity therefore may have "unexpected negative … effects on bone homeostasis."[iii]
One risk that's been widely known for at least a decade is an increased risk of atypical femoral fractures -- an ironic side effect for drugs that are prescribed for "bone health." Bisphosphonates are typically taken for three to five years,[iv] although they may be taken longer -- a duration that may significantly increase your risk of suffering from a serious fracture as a result.
Risk of Serious Fracture Caused by Bone Drugs Highest After Five Years
In a study reported at the American Society for Bone and Mineral Research (ASBMR) 2020 virtual meeting, researchers analyzed data from the Danish National Healthcare database on 1.9 million people aged 50 and over.
The relative risk of atypical femoral fracture among those taking bisphosphonates was highest after five years of use. During years five to seven of taking the drugs, the relative risk of atypical femoral fracture was 35.57, which rose to 40 after seven years of use.[v]
Among the people who suffered an atypical fracture, 58% had used bisphosphonates, as had 19% of those who suffered a non-atypical fracture. For comparison, 9.9% of the healthy control group had used such drugs.[vi]
"Since first reported more than 10 years ago, it has become clear that atypical femoral fractures are a rare but serious complication of bisphosphonate therapy, and fear of these events discourages the use of osteoporosis medications," Dr. Douglas Bauer of the University of California San Francisco said in a news release.[vii]
The risk of atypical fracture dropped rapidly when bisphosphonate drugs were no longer used, leading the researchers to suggest that "drug holidays" -- during which the drugs are not taken -- may help lower the risk of atypical femoral fractures in some people taking the drugs.
Separate research revealed that women who took bisphosphonates for five years and then discontinued treatment had about the same risk of hip fracture as those who continued taking the drugs for another five years.[viii] This suggests taking the drugs for more than five years offers little benefit, yet may increase the risk of atypical fracture.
High Bone Mineral Density Does Not Equal Healthy Bones
Bisphosphonates are said to be good for bones because they increase bone mineral density, but using bone mineral density as a measure of bone health is controversial because it is not the same thing as bone quality and strength.
While bone mineral density is associated with bone strength, they are not equivalent. As noted in the book "Osteoporosis in Men":[ix]
"Bone strength is the bone's resistance to fracture. It is difficult to quantify exactly what makes up the 'strength' of bone. It is related to, but not equivalent with, bone mineral density (BMD). BMD is a strong predictor of fracture, but there are also other factors, such as bone structure, bone remodeling and the newly coined term 'bone quality' to consider."
BMD is easy to measure via an x-ray device known as dual energy x-ray absorptiometry (DXA or DEXA), but the other measures of bone strength are not so easily quantified.
What's more, even the World Health Organization's definitions of osteopenia and osteoporosis -- which are diagnosed at 1 and 2.5 standard deviations below the average peak bone mass of a Caucasian, young adult woman -- are highly suspect, as it turns the natural decrease in bone density that occurs with age into a disease that needs to be treated with drugs.
Simply put, knowing your BMD is not an accurate gauge of your future facture risk and that alone should not push you into using bisphosphonate drugs with serious side effects. In fact, there are risks associated with high bone mineral density, including breast cancer.
Writing in the journal Clinical Diabetes and Endocrinology, researchers stated "skeletal biomechanics, size, shape, and ultra-structural properties are the ultimate predictors of bone strength" and detailed just some of the limitations of DXA scans and the many complexities that go into evaluating your actual bone health:[x]
Bone size, shape, architecture and composition are the major determinants of bone strength |
Bone composition is difficult to measure non-invasively |
Collagen crosslinking and density contribute to bone matrix strength |
The number, thickness and connectivity of plates and rods determine trabecular bone strength |
Newly formed protein matrix and the arrangement of hydroxyapatite crystals within the matrix, along with the degree of mineralization, contribute to bone hardness and strength |
Your genetics play a role in your bone health and may determine up to 70% of their strength and structure |
Habitual loading, repetitive damage, diseases such as diabetes, biomechanical factors and rate of bone turnover also influence bone health and fracture risk |
Bone size is directly related to bone strength, but DXA does not account for bone size in assessing fracture risk; bone thickness is not measured either |
If you're interested in reducing your risk of bone fractures, there are many evidence-based natural approaches that can help. Several examples follow, and you can find more details in our bone health guide:
- Supplements like vitamin K and vitamin D
- Exercise such as whole body vibration and tai chi
Dietary modifications, including increasing carotenoids, fruits and vegetables
References
[i] Saudi Pharm J. 2018 Feb; 26(2): 238-243. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6111194/
[ii] Mayo Clinic, Osteoporosis https://www.mayoclinic.org/diseases-conditions/osteoporosis/expert-answers/osteoporosis-medications/faq-20057812
[iii] Crit Rev Eukaryot Gene Expr. 2009; 19(3): 171-180.
[iv] Mayo Clinic, Osteoporosis https://www.mayoclinic.org/diseases-conditions/osteoporosis/expert-answers/osteoporosis-medications/faq-20057812
[v] MedPage Today September 14, 2020 https://www.medpagetoday.com/meetingcoverage/asbmr/88606
[vi] MedPage Today September 14, 2020 https://www.medpagetoday.com/meetingcoverage/asbmr/88606
[vii] MedPage Today September 14, 2020 https://www.medpagetoday.com/meetingcoverage/asbmr/88606
[viii] JAMA Netw Open. 2020;3(12):e2025190. doi:10.1001/jamanetworkopen.2020.25190 https://jamanetwork.com/journals/jamanetworkopen/fullarticle/2773774
[ix] Osteoporosis in Men: The Effects of Gender on Skeletal Health 2010, Pages 235-241, Chapter 19 https://www.sciencedirect.com/topics/medicine-and-dentistry/bone-strength
[x] Clinical Diabetes and Endocrinology volume 4, Article number: 12 (2018) https://clindiabetesendo.biomedcentral.com/articles/10.1186/s40842-018-0062-7
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