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Vertebroplasty heals fractures but may cause others, Mayo Clinic study finds
January 17, 2006Investigators still recommend procedure, although they want patients aware of risks
A new Mayo Clinic study finds that vertebroplasty, a procedure used to treat painful compression fractures in the spinal vertebrae due to osteoporosis, appears to increase the risk for new fractures in adjacent vertebrae. The study also found vertebrae adjacent to fractures treated with vertebroplasty fracture significantly sooner than more distant vertebrae. Findings will be published in the January issue of American Journal of Neuroradiology (http://www.ajnr.org).
"We found there is a relationship between vertebroplasty and the development of new fractures," says Andrew Trout, first author of the paper describing the study's findings. "People should be made aware of the fact that despite the positive benefits of vertebroplasty, there is a risk of new fractures with this procedure."
The researchers discovered that following vertebroplasty, which involves injecting bone cement into the vertebrae to stabilize fractures, patients' risk for new fractures in vertebrae adjacent to those treated was 4.62 times the risk for nonadjacent vertebral fractures. In addition, they found that new fractures occurred in adjacent vertebrae sooner than in nonadjacent vertebrae: a median of 55 days following vertebroplasty for adjacent fractures and 127 days for nonadjacent vertebral fractures. This is the largest study ever to address the risk of new fractures post-vertebroplasty and the first study to examine whether there is a difference in time course between the development of new fractures adjacent and nonadjacent to the original fracture after treatment with vertebroplasty.
"Previous studies of vertebroplasty in cadavers and using computer simulation suggested that inserting cement in one bone weakens adjacent bones," explains David Kallmes, M.D., Mayo Clinic neuroradiologist and senior study investigator. The weakening effect is possible due to the overall cushioning effect of the spine, where stiffening one part puts greater stress on another, he says.
"Everyone involved in vertebroplasty research is concerned about the possibility that placement of cement into fractures will actually increase the risk of fractures in other bones nearby," says Dr. Kallmes. "Of course we do not want to cause new fractures by treating existing fractures, so we are studying treated patients to see if their bones are fracturing sooner or more frequently than would otherwise be expected."
Dr. Kallmes explains that though this study points to a significant association between vertebroplasty and new fractures occurring in adjacent vertebrae, it is not absolute proof of cause and effect.
"We consider the findings of the current study provocative," he says. "Our findings suggest vertebroplasty speeds - and possibly facilitates - the fracture of adjacent vertebrae. This is not definitive evidence, but should be considered when discussing risks with patients before embarking on vertebroplasty."
At this point in the research, Dr. Kallmes still practices vertebroplasty and believes the potential advantages outweigh the risks.
"I still have an open mind about the true risk of new fracture after vertebroplasty," he says. "Vertebroplasty most likely is a good procedure, and it is still probably prudent to help relieve pain with vertebroplasty. We need to be aware of potential long-term risks, however."
Dr. Kallmes recommends that patients considering vertebroplasty for unhealed vertebral fractures consider all potential risks with their physicians, including risks of new fractures in adjacent vertebrae, prior to undergoing the treatment.
The increased risk of adjacent vertebral fractures post-vertebroplasty in some patients could be due to throwing off the biomechanics of the spine by introducing cement, or it could relate to the especially weakened nature of the bones in some patients or the type of cement used in the procedure, say the researchers.
"It may be prudent to develop new cements that may be friendlier to the spine," says Dr. Kallmes. He also cites the importance of optimizing other aspects of care for osteoporotic patients, especially regarding drug therapies aimed at overall bone health.
This study involved a retrospective analysis of the risk and timing of subsequent fractures in 432 Mayo Clinic patients previously treated with vertebroplasty. From this group, 186 new fractures occurred post-vertebroplasty in 86 patients; 77 of the fractures were located in vertebrae adjacent to the vertebroplasty-treated vertebrae.
Vertebroplasty is used to treat patients with osteoporosis or a similar condition who have suffered compression of their spines with no or minimal injury. Osteoporotic patients can fracture their vertebrae with simple, everyday movements such as bending over to tie their shoes or turning over in bed, because their bones are weakened. Each year, 700,000 people suffer this injury. For four out of five patients, the fracture heals and the accompanying pain goes away in approximately four weeks with bed rest and analgesics. However, for the other one out of five patients, the fracture does not heal and the pain persists, requiring treatment. Surgery is not an option for these patients, as their bones are too weak. Vertebroplasty is the only available treatment option for patients in this condition. Vertebroplasty is not appropriate for patients with back pain due to ligament injuries, joint disease or narrowing of the spinal canal, says Dr. Kallmes.
Mayo Clinic
The researchers discovered that following vertebroplasty, which involves injecting bone cement into the vertebrae to stabilize fractures, patients' risk for new fractures in vertebrae adjacent to those treated was 4.62 times the risk for nonadjacent vertebral fractures. In addition, they found that new fractures occurred in adjacent vertebrae sooner than in nonadjacent vertebrae: a median of 55 days following vertebroplasty for adjacent fractures and 127 days for nonadjacent vertebral fractures. This is the largest study ever to address the risk of new fractures post-vertebroplasty and the first study to examine whether there is a difference in time course between the development of new fractures adjacent and nonadjacent to the original fracture after treatment with vertebroplasty.
"Previous studies of vertebroplasty in cadavers and using computer simulation suggested that inserting cement in one bone weakens adjacent bones," explains David Kallmes, M.D., Mayo Clinic neuroradiologist and senior study investigator. The weakening effect is possible due to the overall cushioning effect of the spine, where stiffening one part puts greater stress on another, he says.
"Everyone involved in vertebroplasty research is concerned about the possibility that placement of cement into fractures will actually increase the risk of fractures in other bones nearby," says Dr. Kallmes. "Of course we do not want to cause new fractures by treating existing fractures, so we are studying treated patients to see if their bones are fracturing sooner or more frequently than would otherwise be expected."
Dr. Kallmes explains that though this study points to a significant association between vertebroplasty and new fractures occurring in adjacent vertebrae, it is not absolute proof of cause and effect.
"We consider the findings of the current study provocative," he says. "Our findings suggest vertebroplasty speeds - and possibly facilitates - the fracture of adjacent vertebrae. This is not definitive evidence, but should be considered when discussing risks with patients before embarking on vertebroplasty."
At this point in the research, Dr. Kallmes still practices vertebroplasty and believes the potential advantages outweigh the risks.
"I still have an open mind about the true risk of new fracture after vertebroplasty," he says. "Vertebroplasty most likely is a good procedure, and it is still probably prudent to help relieve pain with vertebroplasty. We need to be aware of potential long-term risks, however."
Dr. Kallmes recommends that patients considering vertebroplasty for unhealed vertebral fractures consider all potential risks with their physicians, including risks of new fractures in adjacent vertebrae, prior to undergoing the treatment.
The increased risk of adjacent vertebral fractures post-vertebroplasty in some patients could be due to throwing off the biomechanics of the spine by introducing cement, or it could relate to the especially weakened nature of the bones in some patients or the type of cement used in the procedure, say the researchers.
"It may be prudent to develop new cements that may be friendlier to the spine," says Dr. Kallmes. He also cites the importance of optimizing other aspects of care for osteoporotic patients, especially regarding drug therapies aimed at overall bone health.
This study involved a retrospective analysis of the risk and timing of subsequent fractures in 432 Mayo Clinic patients previously treated with vertebroplasty. From this group, 186 new fractures occurred post-vertebroplasty in 86 patients; 77 of the fractures were located in vertebrae adjacent to the vertebroplasty-treated vertebrae.
Vertebroplasty is used to treat patients with osteoporosis or a similar condition who have suffered compression of their spines with no or minimal injury. Osteoporotic patients can fracture their vertebrae with simple, everyday movements such as bending over to tie their shoes or turning over in bed, because their bones are weakened. Each year, 700,000 people suffer this injury. For four out of five patients, the fracture heals and the accompanying pain goes away in approximately four weeks with bed rest and analgesics. However, for the other one out of five patients, the fracture does not heal and the pain persists, requiring treatment. Surgery is not an option for these patients, as their bones are too weak. Vertebroplasty is the only available treatment option for patients in this condition. Vertebroplasty is not appropriate for patients with back pain due to ligament injuries, joint disease or narrowing of the spinal canal, says Dr. Kallmes.
Mayo Clinic
Vertebroplasty Current Events and Vertebroplasty News RSSNew expensive back procedure exposed as ineffective
A world-first study involving Monash University and the Cabrini Research Institute in Melbourne has revealed the injection of bone cement into broken vertebrae is not an effective treatment for patients suffering painful osteoporotic fractures.
Metastatic bone disease patients can walk in Lazarus' footsteps
Osteoplasty-a highly effective minimally invasive procedure to treat the painful effects of metastatic bone disease by injecting bone cement to support weakened bones-provides immediate and substantial pain relief, often presenting individuals who are suffering terribly with the miraculous so-called "Lazarus effect," according to researchers at the Society of Interventional Radiology's 34th Annual Scientific Meeting.
Cone-beam CT: Just as useful as MDCT before and after percutaneous vertebroplasty
Cone-beam CT which is believed to deliver less radiation than MDCT is just as useful when evaluating patients before and after percutaneous vertebroplasty according to a study performed at the Department of Clinical Radiology, Kyushu University, Fukoka, Japan.
Engineers developing new cements to heal spinal fractures
New research could offer hope for victims of the most devastating spinal injuries - typically those caused in car crashes.
Studies unclear whether spinal cement procedure improves back pain
A procedure that fills in fractured vertebrae with injected cement has not been shown to improve a person's back pain or quality of life, according to a new analysis of studies.
New technique offers relief for patients with spinal tumors
A radiologist at the University of California, San Diego (UCSD) School of Medicine has developed a new procedure to treat fractured vertebrae caused by spinal tumors, a procedure that may decrease the risk of complications, which are experienced by 5 to 10% of patients with malignant tumors of the spine.
Vertebroplasty improves back pain, activity level, Mayo Clinic study reports
A Mayo Clinic study has found patients report less back pain at rest and while active following vertebroplasty, a procedure in which medical cement is injected into painful compression fractures in the spinal vertebrae due to osteoporosis.
Hope for People with Severe Spine Fractures
LEEDS UNIVERSITY is at the forefront of research into implant technology and that research is just about to take a big leap forward in the spinal injuries sphere. A new laboratory, The Frank Parkinson Tissue Engineering Laboratory, has just opened. It contains what is believed to be the world's first simulator capable of replicating the conditions of the human body to allow researchers to analyse how the spine might react to spine surgery techniques - the Prosim Spinal Biomechanical Fatigue Simulator. The simulator was developed by Simulation Solutions, a company with several years experience in the design and manufacture of knee, hip and friction simulators used in the testing of prosthetic
Engineering to protect brittle bones
Leeds University engineer Dr Ruth Wilcox, 27, is on a mission - to help people with the brittle bone disease osteoporosis. She has just won a Post-Doctoral Research Fellowship from the Royal Academy of Engineering, starting 1 August, which will enable her to devote the next five years of her research to improving treatment of patients with osteoporosis and other painful bone disorders. Ruth's main focus is to optimise a technique called percutaneous vertebroplasty (PVP), which can be used to treat vertebral compression fractures, suffered by many elderly people with osteoporosis. PVP involves injecting special bone cement into the vertebrae of the spine to stabilise them - it is minimally in
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