ObjectiveTo discuss the safety and effectiveness of the improved technique by comparing the effects of low temperature bone cement infusion before and after the improvement in the percutaneous vertebroplasty (PVP).MethodsThe clinical data of 170 patients (184 vertebrae) with osteoporotic vertebral compression fracture who met the selection criteria between January 2016 and January 2018 were retrospectively analyzed. All patients were treated with PVP by low-temperature bone cement perfusion technology. According to the technical improvement or not, the patients were divided into two groups: the group before the technical improvement (group A, 95 cases) and the group after the technical improvement (group B, 75 cases). In group A, the patients were treated by keeping the temperature of bone cement at 0℃ and parallel puncture; in group B, the patients were treated by increasing the temperature of bone cement or reducing the time of bone cement in ice salt water and cross puncture. There was no significant difference in gender, age, disease duration, T value of bone mineral density, operative segment, and preoperative vertebral compression rate, visual analogue scale (VAS) score between the two groups (P>0.05). CT examination was performed immediately after operation, and the leakage rate of bone cement was calculated. The amount of bone cement perfusion and the proportion of bone cement in contact with the upper and lower endplates at the same time were compared between the two groups. The vertebral compression rate was calculated and the VAS score was used to evaluate the pain before operation, at immediate after operation, and last follow-up.ResultsThere was no complication such as incision infection, spinal nerve injury, or pulmonary embolism in both groups. There was no significant difference in the amount of bone cement perfusion between groups A and B (t=0.175, P=0.861). There were 38 vertebral bodies (36.89%) in group A and 49 vertebral bodies (60.49%) in group B exposed to bone cement contacting with the upper and lower endplates at the same time, showing significant difference (χ2=10.132, P=0.001). Bone cement leakage occurred in 19 vertebral bodies (18.45%) in group A and 6 vertebral bodies (7.41%) in group B, also showing significant difference (χ2=4.706, P=0.030). The patients in group A and group B were followed up (13.3±1.2) months and (11.5±1.1) months, respectively. The vertebral compression rates of the two groups at immediate after operation were significantly lower than those before operation (P<0.05), but the vertebral compression rate of group A at last follow-up was significantly higher than that at immediate after operation (P<0.05), and there was no significant difference in group B between at immediate after operation and at last follow-up (P>0.05). The VAS scores of the two groups at immediate after operation were significantly lower than those before operation (P<0.05); but the VAS scores of group A at last follow-up were significantly higher than those at immediate after operation (P<0.05) and there was no siginificant difference in group B (P>0.05). There was no significant difference in VAS scores between the two groups at immediate after operation (t=0.380, P=0.705); but at last follow-up, VAS score in group B was significantly lower than that in group A (t=3.627, P=0.000).ConclusionThe improved advanced low-temperature bone cement perfusion technology during PVP by increasing the viscosity of bone cement combined with cross-puncture technology, can reduce bone cement leakage, improve the distribution of bone cement in the vertebral body, and reduce the risk of vertebral collapse, and achieve better effectiveness.
ObjectiveTo investigate the effectiveness of Vesselplasty and percutaneous kyphoplasty (PKP) in treatment of Kümmell disease.MethodsBetween January 2015 and December 2018, 63 patients with Kümmell disease were treated. Among them, 28 cases were treated with Vesselplasty (Vesselplasty group) and 35 cases were treated with PKP (PKP group). There was no significant difference in gender, age, disease duration, bone mineral density (T value), fracture distribution, and preoperative pain visual analogue scale (VAS) score, Oswestry Disability Index (ODI), anterior height of injured vertebrae, and kyphosis Cobb angle between the two groups (P>0.05). The operation time, intraoperative fluoroscopy time, bone cement injection volume, the leakage rate of bone cement, the diffusion area ratio of bone cement, and the complications of the two groups were recorded. VAS score, ODI, anterior height of injured vertebrae, and kyphosis Cobb angle were compared between the two groups before operation and at 1 day after operation and last follow-up.ResultsAll patients of the two groups were followed up 12-36 months, with an average of 24.2 months. The operation time, intraoperative fluoroscopy time, bone cement injection volume, and diffusion area ratio of bone cement were significantly lower in the Vesselplasty group than in the PKP group (P<0.05). The leakage rate of bone cement was significantly lower in the Vesselplasty group (7.14%) than in the PKP group (34.29%) (χ2=5.153, P=0.023). At 1 day after operation and last follow-up, the VAS score, ODI, anterior height of injured vertebrae, and kyphosis Cobb angle of the two groups were superior to those before operation (P<0.05), and no significant difference between the two groups (P>0.05). During the follow-up, there was no re-collapse of vertebrae, and the adjacent vertebrae fracture occurred in 2 cases of the Vesselplasty group and 5 cases of PKP group. There was no significant difference in the incidence of adjacent vertebrae fracture between the Vesselplasty group (7.14%) and the PKP group (14.29%) (χ2=0.243, P=0.622).ConclusionVesselplasty and PKP have similar effectiveness in the treatment of Kümmell disease. They can effectively relieve the pain symptoms, improve the quality of life, partially restore the height of injured vertebrae, and correct kyphosis. But the Vesselplasty has the advantages of shorter operation time, less intraoperative fluoroscopy time, and less bone cement leakage.
ObjectiveTo analyze the correlation between bone cement cortical leakage and injury degree of osteoporotic vertebral compression fracture (OVCF) after percutaneous kyphoplasty (PKP), and to provide guidance for reducing clinical complications. Methods A clinical data of 125 patients with OVCF who received PKP between November 2019 and December 2021 and met the selection criteria was selected and analyzed. There were 20 males and 105 females. The median age was 72 years (range, 55-96 years). There were 108 single-segment fractures, 16 two-segment fractures, and 1 three-segment fracture. The disease duration ranged from 1 to 20 days (mean, 7.2 days). The amount of bone cement injected during operation was 2.5-8.0 mL, with an average of 6.04 mL. Based on the preoperative CT images, the standard S/H ratio of the injured vertebra was measured (S: the standard maximum rectangular area of the cross-section of the injured vertebral body, H: the standard minimum height of the sagittal position of the injured vertebral body). Based on postoperative X-ray films and CT images, the occurrence of bone cement leakage after operation and the cortical rupture at the cortical leakage site before operation were recorded. The correlation between the standard S/H ratio of the injured vertebra and the number of cortical leakage was analyzed. Results Vascular leakage occurred in 67 patients at 123 sites of injured vertebrae, and cortical leakage in 97 patients at 299 sites. Preoperative CT image analysis showed that there were 287 sites (95.99%, 287/299) of cortical leakage had cortical rupture before operation. Thirteen patients were excluded because of vertebral compression of adjacent vertebrae. The standard S/H ratio of 112 injured vertebrae was 1.12-3.17 (mean, 1.67), of which 87 cases (268 sites) had cortical leakage. The Spearman correlation analysis showed a positive correlation between the number of cortical leakage of injured vertebra and the standard S/H ratio of injured vertebra (r=0.493, P<0.001). ConclusionThe incidence of cortical leakage of bone cement after PKP in OVCF patients is high, and cortical rupture is the basis of cortical leakage. The more severe the vertebral injury, the greater the probability of cortical leakage.