Hideki Yajima scite author profile

et al. 2012

SPI

Object External supports serve as a traditional treatment option for osteoporotic vertebral fractures (OVFs). However, the role of external supports in the treatment of OVF remains inconclusive. The purpose of this study was to determine the role of a rigid external support in the healing of OVFs by prospectively evaluating union (fracture settling) rates and prognostic variables for patients suffering from an incident OVF. Methods Fifty-five patients with acute back pain were enrolled in this study after being diagnosed with an OVF based on MRI findings. Patients were treated using a plastic thoracolumbosacral orthosis (TLSO) and underwent follow-up at 2, 3, and 6 months. Vertebrae were referred to as “settled” when there was no dynamic mobility on sitting lateral and supine lateral radiographs. At the time of the 3- and 6-month follow-up visits, the patients were divided into 2 groups, the “settled group” and the “unsettled group.” Patients in these groups were compared with regard to clinical and radiographic features. Results Of the 55 patients enrolled, 53 patients were followed up for 6 months. There were 14 men and 39 women with an average age of 75.3 years. Fracture settling of the affected vertebra was defined in 54.7% of the patients at 2 months, in 79.2% at 3 months, and in 88.7% at 6 months. All 5 components of the Japanese Orthopaedic Association Back Pain Evaluation Questionnaire improved significantly both at 3 months and 6 months. Patients in the unsettled group exhibited a statistically greater likelihood of having fractures at the thoracolumbar junction, Type A3 fractures, and fractures with a diffuse low-intensity area on T2-weighted MRI studies at 3 months. In contrast, at 6 months, the only statistically significant difference between the groups was patient age. Conclusions The biomechanical disadvantages of OVFs (location, type, and size) adversely influencing the fracture healing were overcome by the treatment using a TLSO within 6 months. The authors' findings show that a TLSO plays a biomechanical role in the healing of OVFs.

Symptomatic relevance of intravertebral cleft in patients with osteoporotic vertebral fracture

Horigome

Yajima

et al. 2010

SPI

Object The present study was designed to determine clinical and radiographic characteristics of unhealed osteoporotic vertebral fractures (OVFs) and the role of fracture mobility and an intravertebral cleft in the regulation of pain symptoms in patients with an OVF. Methods Patients who had persistent low-back pain for 3 months or longer and a collapsed thoracic or lumbar vertebra that had an intervertebral cleft and abnormal mobility were referred to as having unhealed OVFs. Twenty-four patients with an unhealed OVF and 30 patients with an acute OVF were compared with regard to several clinical and radiographic features including the presence of an intravertebral fluid sign. Subsequently, the extent of dynamic mobility of the fractured vertebra was analyzed for correlation with the patients' age, duration of symptoms, back pain visual analog scale (VAS) score, and performance status. Finally, in cases of unhealed OVFs, the subgroup of patients with positive fluid signs was compared with the subgroup of patients with negative fluid signs. Results Patients with an unhealed OVF were more likely to have a crush-type fracture, shorter vertebral height of the fractured vertebra, and a fracture with a positive fluid sign than those with an acute OVF. The extent of dynamic mobility of the vertebra correlated significantly with the VAS score in patients with an unhealed OVF. In addition, a significant correlation with the extent of dynamic vertebral mobility with performance status was seen in patients with an unhealed OVF and those with an acute OVF. Of the 24 patients with an unhealed OVF, 14 had a positive fluid sign in the affected vertebra. Patients with a positive fluid sign exhibited a statistically significantly greater extent of dynamic vertebral mobility, a higher VAS score, a higher performance status grade, and a greater likelihood of having a crush-type fracture than those with a negative fluid sign. All but 1 patient with an unhealed OVF and a positive fluid sign had an Eastern Cooperative Oncology Group Performance Status Grade 3 or 4 (bedridden most or all of the time). In sharp contrast, all 10 patients with an unhealed OVF and a negative fluid sign were Grade 1 or 2. Conclusions Unhealed OVFs form a group of fractures that are distinct from acute OVFs regarding radiographic morphometry and contents of the intravertebral cleft. Dynamic vertebral mobility serves as a primal pain determinant in patients with an unhealed OVF and potentially in those with an acute OVF. Fluid accumulation in the intravertebral cleft of unhealed OVFs likely reflects long-term bedridden positioning of the patients in daily activity.

Conversion to hypertrophic vertebral pseudarthrosis following percutaneous vertebroplasty

et al. 2010

To determine the role of percutaneous vertebroplasty (PVP) in bone formation and the union of vertebral pseudarthrosis, we analyzed 14 patients with an average follow-up duration of 21 months. Evaluation methods included back pain (visual analog scale: VAS), wedge angle, dynamic mobility, radiographic remodeling including callus and spur formation, and union status. The Student's t test was used for statistical analysis and a probability of less than 0.05 was determined as a significant difference. Back pain improved in all 14 patients with a VAS score of 57.8 ± 23.5 mm (average ± standard deviation) preoperatively and 14.7 ± 16.4 mm at the final follow-up (P \ 0.001). The wedge angle decreased from 21.6°± 8.3°(average ± standard deviation) preoperatively to 13.2°± 6.9°at the final follow-up (P \ 0.001). Callus formation was seen in four patients. Bony spurs were seen in the affected vertebra in preoperative radiographs in all patients, and were further developed to a solidified form during follow up after PVP. Dynamic mobility of the affected vertebrae was 6.9 ± 2.9 mm preoperatively, which decreased to 1.1°± 0.7°at the final follow-up (P \ 0.001). Notably, all patients showed the dynamic vertebral mobility of 2 mm or less. Nevertheless, only two patients exhibited the dynamic vertebral mobility of 0 mm at the final follow-up, which is referred to as bone union. These findings indicate that PVP serves as a mechanical stabilizer for vertebral pseudarthrosis, which leads to immediate pain relief and segmental bony responses.

Repetitive Vertebral Fractures in Patients with Ankylosing Spinal Disorders: A Report of Two Cases

Fukushi

Watanabe

et al. 2019

Spine Surg Relat Res

Introduction: Vertebral fractures associated with ankylosing spinal disorders pose significant diagnostic and therapeutic challenges. Notably, the ankylosed spine remains in ankylosis after fracture treatment, and the underlying susceptibility to further fractures still remains. Nevertheless, information is scarce in the literature concerning patients with ankylosing spinal disorders who have multiple episodes of vertebral fractures. Case Report: Case 1 involves an 83-year-old male patient with diffuse idiopathic skeletal hyperostosis (ankylosis from C2 to L4) who had three episodes of vertebral fractures. The first episode involved a C5-C6 extension-type fracture, which was treated with posterior segmental screw instrumentation. Five years later, the patient sustained a three-column fracture at the L1 vertebra following another fall. The fracture was managed with percutaneous segmental screw instrumentation. One year and two months postoperatively, the patient fell again and had a refracture of the healed L1 fracture. The patient was treated with a hard brace, and the fracture healed. Case 2 involves a 76-year-old female patient with ankylosing spondylitis (ankylosis from C7 to L2) who had two episodes. At the first episode, she suffered paraplegia due to a T8 vertebra fracture. The patient was treated with laminectomy and posterior segmental screw instrumentation. The patient recovered well and had all the hardware removed at 10 months postoperatively. Five years later, she had another fall and suffered a threecolumn fracture at L1. The patient underwent percutaneous segmental screw instrumentation. The patient required revision surgery with L1 laminectomy and L1 right pediclectomy for persistent right inguinal pain. At one-year follow-up, the patient recovered well, and the fracture healed. Conclusions: The abovementioned cases show that an age older than 75 years and a long spinal ankylosis from the cervical spine to the lumbar spine may serve as risk factors for the repetition of vertebral fractures associated with ankylosed spinal disorders.

Comparative supine-sitting lateral radiographs identifying incident osteoporotic vertebral fractures

Horigome

Yajima

et al. 2011

Eur Orthop Traumatol

Objective To determine the diagnostic efficacy of comparative supine and sitting lateral radiographs in the diagnosis of incident osteoporotic vertebral fracture (OVF), 41 incident OVF in 38 patients, which had been diagnosed by magnetic resonance imaging, were evaluated. Methods There were 27 female and 11 male patients with the average age of 78 years (range, 54-94 years). Using lateral decubitus-position radiographs, fractures were classified into normal, wedge, biconcave, and crush types, and graded from 0 to 3. Vertebrae showing any measurable changes in the vertebral body height between supine and sitting radiographs were referred to as mobile fractures. Mobile fractures and fixed (nonmobile) fractures were compared with regard to gender and age of patients, location, fracture grade, and the presence of prevalent OVF. The Mann-Whitney U test and the Fisher's exact probability test were used for statistical analysis. Results Of 41 incident OVF, 33 vertebrae (80.5%) showed dynamic mobility in supine and sitting lateral radiographs. Of nine OVF with small deformities (grade 0 or 0.5) and 19 OVF with prevalent OVF, dynamic mobility was seen in six (66.7%) and 15 (78.9%), respectively. Age was significantly higher in patients with mobile fractures than those with fixed fractures. Mobile fractures included a significantly lower percentage of thoracic vertebrae (6%) than of fixed fractures (37.5%). Seven out of eight fixed fractures (87.5%) were grade 1 or less. Conclusions These findings indicate that comparative supine and sitting lateral radiographs are a simple diagnostic procedure for incident OVF available in daily clinics.