| RSNA
RSNA Press Release

Weight-Loss Surgery Weakens Bones of Teens and Young Adults

Share: Share on Facebook PDF

Released: June 13, 2023

At A Glance

  • Sleeve gastrectomy, the most common weight-loss surgery for adolescents and young adults, decreases bone strength.
  • Compared to the controls, sleeve gastrectomy patients had a significant increase in bone marrow fat and a decrease in bone density and strength in the lumbar spine.
  • Deficits in bone accrual during adolescence could have a long-term impact on bone health and fracture risk later in life.

OAK BROOK, Ill. — A common weight-loss surgery for obese adolescents and young adults is found to have harmful effects on bones, according to a study published in Radiology, a journal of the Radiological Society of North America (RSNA).

"Childhood obesity is on the rise and weight-loss surgery is the most effective way to reduce weight and improve cardiometabolic comorbidities," said the study's lead investigator, Miriam A. Bredella, M.D., professor of radiology at Harvard Medical School in Boston, Massachusetts, and vice chair for Faculty Affairs and Clinical Operations, Department of Radiology Massachusetts General Hospital in Boston. "This is the first study in adolescents and young adults that examined the long-term effects of sleeve gastrectomy, the most common type of weight-loss surgery, on bone strength and bone marrow fat."

Sleeve gastrectomy removes approximately 75% to 80% of the stomach to restrict food intake and induce weight loss. It results in a typically round stomach taking on the shape of a tube or sleeve. The estimated number of sleeve gastrectomy procedures performed each year increased from over 28,000 surgeries in 2011 to over 122,000 in 2020, according to the American Society for Metabolic and Bariatric Surgery. Sleeve gastrectomy has overtaken gastric bypass as the primary weight-loss operation.

Miriam A. Bredella, M.D.

Miriam A. Bredella, M.D.

For the study, participants between the age of 13 and 24 years were enrolled from 2015 to 2020. The adolescents and young adults had moderate to severe obesity. The young adults had a body max index (BMI) of 35 or above. A BMI of 30 or above is considered obese. Adolescent participants were at 120% of the 95th age- and sex-specific percentile.

There were 54 participants, 25 who underwent sleeve gastrectomy and 29 who were in the control group. Forty-one study participants were female. The surgical group included participants with at least one obesity-related co-morbidity, or a BMI at or above 40. The control group had obesity but did not plan to undergo sleeve gastrectomy but received dietary and exercise counseling.

Before and 24 months after sleeve gastrectomy, participants underwent a physical examination, blood tests and quantitative CT of the lumbar spine, to quantify volumetric bone mineral density and to perform finite element analysis, a technique that can estimate bone strength. Quantitative CT is a highly accurate technique for detecting changes in volumetric bone mineral density after extreme weight loss.

Studies have shown that bone marrow fat responds to changes in nutrition and may serve as a biomarker for bone quality. Therefore, patients underwent proton MR spectroscopy to quantify bone marrow fat of the lumbar spine.

Two years following surgery, BMI in the adolescents and young adults dropped (-11.9, on average), while there was a slight rise in BMI in the control group (+1.5, on average). Compared to the controls, sleeve gastrectomy patients had a significant increase in bone marrow fat and a decrease in bone density and strength estimates in the lumbar spine.

"We found that bone strength was lower two years after weight-loss surgery, while bone marrow fat, a marker of bone weakening, was increased, suggesting that weight-loss surgery has negative effects on bone health," Dr. Bredella said.

Dr. Bredella points out that the adolescent years are a critical time for building up bone mass, and deficits in bone accrual during these years could have a long-term impact on bone health and fracture risk in this younger population later in life.

"As bariatric surgery is increasingly performed in adolescents, its effect on bone health needs to be emphasized, especially to the physicians who will continue to provide routine medical care for these patients," Dr. Bredella said. "We hope that our study will raise awareness on the effects of weight-loss surgery on bones in adolescents with obesity."

Raising awareness of the importance of bone health will allow for monitoring and management of low bone mass, optimal dietary supplementation with vitamin D and calcium, and the initiation of appropriate therapy, if necessary, Dr. Bredella noted.

"Our observed effects of weight-loss surgery on bone strength and bone marrow fat might also identify new targets for novel therapies," she said.

In 2023, Radiology is celebrating its 100th anniversary with 12 centennial issues, highlighting Radiology's legacy of publishing exceptional and practical science to improve patient care.

Radiology is edited by Linda Moy, M.D., New York University, New York, N.Y., and owned and published by the Radiological Society of North America, Inc. (https://pubs.rsna.org/journal/radiology)

RSNA is an association of radiologists, radiation oncologists, medical physicists and related scientists promoting excellence in patient care and health care delivery through education, research and technologic innovation. The Society is based in Oak Brook, Illinois. (RSNA.org)

For patient-friendly information on bone scans, visit RadiologyInfo.org.

Thumbnail
Figure 1. Study flow diagram.
High-res (TIF) version
(Right-click and Save As)
Thumbnail
Figure 2. Biomechanical noncontrast CT analysis of the L1 vertebra in an 18-year-old woman with severe obesity (body mass index [BMI], 48.4 kg/m2) prior to sleeve gastrectomy (SG) and 24 months after surgery (BMI, 26.6 kg/m2). L1 vertebra was loaded to 9820 N at both visits for comparison purposes. Breaking strength was (A) 11 920 N at baseline prior to SG and (B) 9820 N at 24 months after surgery. Cutout views of the finite element models under compressive load depict the distribution of bone mineral density (black and white areas) and bone failure (colored areas). Red indicates tissue that failed earlier during the compressive load (weaker bone). Shades of gray indicate different bone densities, with white being dense bone and black being little or no bone mineral.
High-res (TIF) version
(Right-click and Save As)
Thumbnail
Figure 3. Proton MR spectroscopy of the L1 vertebra to assess bone marrow adipose tissue (BMAT) in an 18-year-old woman with severe obesity (body mass index [BMI], 42.1 kg/m2) (A) prior to sleeve gastrectomy and (B) 24 months after surgery (BMI, 28.5 kg/m2) show an increase in BMAT content (0.86 lipid-to-water ratio before surgery vs 1.40 lipid-to-water ratio after surgery).
High-res (TIF) version
(Right-click and Save As)
Thumbnail
Figure 4. Regression analyses between 24-month changes in vertebral bone strength and body mass index (BMI) and vertebral bone marrow adipose tissue (BMAT). Analyses show (A) a positive correlation between change in bone strength and change in BMI and (B) an inverse correlation between change in bone strength and change in BMAT.
High-res (TIF) version
(Right-click and Save As)