Objective To evaluate the effectiveness of percutaneous vertebroplasty (PVP) in the treatment of osteoporotic vertebral compression fracture (OVCF) through unilateral puncture of extreme extrapedicular approach and bilateral injection of bone cement. Methods The clinical data of 156 patients with OVCF who met the selection criteria between January 2014 and January 2016 were retrospectively analyzed. All patients were treated with PVP through unilateral puncture. According to different puncture methods, the patients were divided into two groups. In group A, 72 cases were performed PVP through the unilateral puncture of extreme extrapedicular approach and bilateral injection of bone cement, while in group B, 84 cases were performed PVP through the unilateral puncture of transpedicular approach. There was no significant difference in general data of gender, age, weight, bone mineral density, lesion segment, and disease duration between the two groups (P>0.05). The radiation exposure time, operation time, volume of bone cement injection, rate of bone cement leakage, pre- and post-operative visual analogue scale (VAS) score and local Cobb angle were recorded and compared between the two groups. Results There was no significant difference in radiation exposure time and operation time between the two groups (P>0.05), but the volume of bone cement injection in group A was significantly more than that in group B (t=20.024, P=0.000). Patients in both groups were followed up 24-32 months (mean, 26.7 months). There were 9 cases (12.5%) and 10 cases (11.9%) of cement leakage in group A and B, respectively. There was no significant difference in the incidence (χ2=0.013, P=0.910). No neurological symptoms and discomfort was found in the two groups. The VAS scores of the two groups were significantly improved after operation (P<0.05). There was no significant difference in local Cobb angle between before and after operation in group A (P>0.05); but the significant difference was found in local Cobb angle between at 2 years after operation and other time points in group B (P<0.05). The VAS score and local Cobb angle in group A were significantly better than those in group B at 2 years after operation (P<0.05). Conclusion It is simple, safe, and feasible to use the unilateral puncture of extreme extrapedicular approach and bilateral injection of bone cement to treat OVCF. Compared with the transpedicular approach, the bone cement can be distributed bilaterally in the vertebral body without prolonging the operation time and radiation exposure time, and has an advantage of decreasing long-term local Cobb angle losing of the fractured vertebrae.
ObjectiveTo investigate the effectiveness of synchronous unilateral percutaneous kyphoplasty (PKP) in the treatment of double noncontiguous thoracolumbar osteoporotic vertebral compression fracture (OVCF). MethodsBetween December 2018 and September 2020, 27 patients with double noncontiguous thoracolumbar OVCF were treated by synchronous unilateral PKP. There were 11 males and 16 females, with an average age of 75.4 years (range, 66-92 years). The fractures were caused by falls in 22 cases and sprains in 5 cases. The time from injury to hospital admission was 0.5-7.0 days, with an average of 2.1 days. The fractured vertebrae located at T9 in 2 cases, T10 in 3 cases, T11 in 10 cases, T12 in 15 cases, L1 in 12 cases, L2 in 6 cases, L3 in 4 cases, and L4 in 2 cases. The volume of bone cement injected into each vertebral body, operation time, and intraoperative fluoroscopy times were recorded. Anteroposterior and lateral X-ray films of thoracolumbar spine were taken to observe the anterior height of the injured vertebra, the Cobb angle of kyphosis, and the diffusion and good distribution rate of bone cement in the thoracolumbar spine. Visual analogue scale (VAS) score and Oswestry disability index (ODI) were used to evaluate the pain and functional improvement. ResultsAll operations completed successfully. The operation time was 34-70 minutes, with an average of 45.4 minutes. The intraoperative fluoroscopy was 21- 60 times, with an average of 38.6 times. The volume of bone cement injected into each vertebral body was 2-9 mL, with an average of 4.3 mL. All patients were followed up 6-21 months, with an average of 11.3 months. X-ray film reexamination showed that the anterior height of the injured vertebra and Cobb angle at each time point after operation were significantly improved than those before operation (P<0.05), and there was no significant difference between different time points after operation (P>0.05). The distribution of bone cement was excellent in 40 vertebral bodies, good in 13 vertebral bodies, and poor in 1 vertebral body, and the excellent and good rate was 98.1% (53/54). The pain of all patients significantly relieved or disappeared, and the function improved. The VAS score and ODI at each time point after operation were significantly lower than those before operation (P<0.05), and there was no significant difference between different time points after operation (P>0.05).ConclusionFor the double noncontiguous thoracolumbar OVCF, the synchronous unilateral PKP has the advantages of simple puncture, less trauma, less intraoperative fluoroscopy, shorter operation time, satisfactory distribution of bone cement, etc. It can restore the height of the vertebral body, correct the kyphotic angle, significantly alleviate the pain, and improve the function.
ObjectiveTo compare the effectiveness of robot assisted and C-arm assisted percutaneous kyphoplasty (PKP) in the treatment of single/double-segment osteoporotic vertebral compression fracture (OVCF).MethodsThe clinical data of 108 cases of single/double-segment OVCF who met the selection criteria between May 2018 and October 2019 were retrospectively analyzed. There were 65 cases of single-segment fractures, of which 38 cases underwent “TiRobot” orthopedic robot-assisted PKP (robot group), 27 cases underwent C-arm X-ray machine fluoroscopy-assisted PKP (C-arm group). There were 43 cases of double-segment fractures, including 21 cases in robot group and 22 cases in C-arm group. There was no significant difference in gender, age, T value of bone mineral density, fracture segment distribution, time from injury to operation, and preoperative visual analogue scale (VAS) score, vertebral kyphosis angle (VKA), and height of fractured vertebra (HFV) in the patients with single/double-segments fractures between robot group and C-arm group (P>0.05). The operation time, the fluoroscopy frequency of the surgeons and the patient, the fluoroscopy exposure time of the surgeons and the patient, the radiation dose of the C-arm; the VAS scores, VKA, HFV before operation, at 1 day and 6 months after operation; and the complications in the two groups were recorded and compared.ResultsAll patients underwent surgery successfully. The operation time of the single-segment robot group was significantly longer than that of the C-arm group (t=5.514, P=0.000), while the operation time of the double-segment robot group was not significantly different from that of the C-arm group (t=1.892, P=0.205). The single/double-segment robot group required three-dimensional scanning, so the fluoroscopy frequency, fluoroscopy exposure time, and radiation dose of C-arm received by the patient were significantly higher than those of the C-arm group (P<0.05); the fluoroscopy frequency and the fluoroscopy exposure time received by the surgeons were significantly less than those of the C-arm group (P<0.05). There was no infection, embolism, neurological injury, and adjacent segmental fractures. The single/double-segment robot group showed lower rate of cement leakage when compared with the C-arm group (P<0.05), all the cases of cement leakage happened outside the spinal canal. The VAS score, VKA, and HFV of the single/double-segment robot group and the C-arm group were significantly improved at 1 day and 6 months after operation (P<0.05), and the VAS score at 6 months after operation was further improved compared with that at 1 day after operation (P<0.05). At 1 day and 6 months after operation, there was no significant difference in VAS score between the single/double-segment robot group and the C-arm group (P>0.05). The VKA and HFV of robot group were significantly better than those of the C-arm group (P<0.05).ConclusionFor single/double-segment OVCF, robot assisted PKP has more advantages in correcting VKA and HFV, reducing fluoroscopy exposure of surgeons and bone cement leakage rate; C-arm assisted PKP has more advantages in reducing the operation time of single-segment OVCF and fluoroscopy exposure of patients during operation.
ObjectiveTo evaluate the effectiveness of pedicle subtraction osteotomy (PSO) assisted with anterior column reconstruction in the treatment of chronic osteoporotic vertebral compression fracture (OVCF). MethodsBetween January 2008 and October 2014, 11 cases of chronic OVCF were treated. There were 2 males and 9 females, aged 65-76 years (mean, 72.3 years). The vertebral compression fracture segment involved T11 in 2 cases, T12 in 2 cases, L1 in 4 cases, L2 in 2 cases, and L3 in 1 case. At preoperation, the Oswestry disability index (ODI) score was 31.1±10.2; kyphosis Cobb angle of fractured vertebrae was (36.5±10.2)° on the lateral X-ray films of the spine; and distance between C7 plumb vertical line (C7 PL) and sagittal vertical axis (SVA) of the S1 superior border was (5.2±2.5) cm. Six cases had spinal cord injury (SCI), including 4 cases of Frankel grade C and 2 cases of grade D. At last follow-up, ODI score, kyphosis Cobb angle of fractured vertebrae, and distance between C7 PL and SVA were recorded and compared with preoperative values. Postoperative Frankle scores were recorded in SCI cases. X-ray film and CT scan were taken to evaluate bone fusion at 12 months after operation. ResultsThe operation was completed successfully without serious complications. Nerve root radiation symptoms occurred in 2 cases undergoing lumbar PSO, which was relieved after conservative treatment. Cerebrospinal fluid leakage occurred in 1 case and was cured after 2 weeks. All cases were followed up 12-24 months (mean, 15.6 months). No internal fixation failure or pseudarthrosis was found postoperatively.Screw loosening was found in 1 case (2 screws of the upper level) and titanium Cage cutting vertebral body was found in 1 case. Bone fusion was obtained in all cases at 12 months after operation. At last follow-up, ODI score was significantly improved to 13.7±5.7(t=4.417, P=0.018), kyphosis Cobb angle of fractured vertebrae to (7.0±15.2)° (t=5.113, P=0.009), and the distance between C7 PL and SVA to (2.8±2.2) cm (t=3.285, P=0.032). In 6 SCI cases, Frankle grade was recovered to E (1 case), to D (1 case), and no improvement (2 cases) from C, and to E from D (2 cases). ConclusionPSO assisted anterior column reconstruction was an effective method in treatment of chronic OVCF.
ObjectiveTo review the latest progress in minimally invasive treatment of osteoporotic vertebral compression fracture (OVCF). MethodsRelevant literature on minimally invasive treatment of OVCF was reviewed, different minimally invasive technologies were analyzed, compared, and future prospected. ResultsThere are various minimally invasive technologies for treatment of OVCF to aim at analgesia, deformity correction, and vertebral stabilization, thus improving the patients' quality of life. Percutaneous vertebroplasty as the classical technology has a good effectiveness on analgesia, while percutaneous kyphoplasty has a better performance in vertebral height restoration and a lower complication of cement leakage. Obvious deformity correction can be achieved by skyphoplasty, with a risk of endplate damage and uncertain vertebral height maintenance. With OptiMesh vertebroplasty, physiological environment within the fractured vertebra is less likely to be disturbed, but paravertebral tissues are more vulnerable due to a bigger working cannal. Compared with traditional bone cement, Cortoss has advantages of less toxicity, less heat release, and proper stiffness. In addition, the combination use of different minimally invasive technologies has greatly extended the surgical indications of OVCF and improved the success rate. ConclusionMinimally invasive treatment of OVCF is becoming more safety and efficacy with the development of new material and technology, however, further studies are required for quality confirmation and better improvement.
Objective To summarize the research progress of secondary fracture of adjacent vertebral body after percutaneous vertebroplasty (PVP) and percutaneous kyphoplasty (PKP). Methods Recent literature concerning PVP and PKP was extensively reviewed and summarized. Results The main reasons of secondary fracture of adjacent vertebral body after PVP and PKP are the natural process of osteoporosis, the initial fracture type, the bone cement, the surgical approach, the bone mineral density, and other factors. Conclusion Secondary fracture of adjacent vertebral body after PVP and PKP is a challenge for the clinician, a variety of factors need to be suficiently considered and be confirmed by a lot of basic and clinical epidemiological studies.
ObjectiveTo investigate the risk factors of cement leakage in percutaneous vertebroplasty (PVP) for osteoporotic vertebral compression fracture (OVCF). MethodsBetween March 2011 and March 2012, 98 patients with single level OVCF were treated by PVP, and the cl inical data were analyzed retrospectively. There were 13 males and 85 females, with a mean age of 77.2 years (range, 54-95 years). The mean disease duration was 43 days (range, 15-120 days), and the mean T score of bone mineral density (BMD) was-3.8 (range, -6.7--2.5). Bilateral transpedicular approach was used in all the patients. The patients were divided into cement leakage group and no cement leakage group by occurrence of cement leakage based on postoperative CT. Single factor analysis was used to analyze the difference between 2 groups in T score of BMD, operative level, preoperative anterior compression degree of operative vertebrae, preoperative middle compression degree of operative vertebrae, preoperative sagittal Cobb angle of operative vertebrae, preoperative vertebral body wall incompetence, cement volume, and volume ratio of intravertebral bone cement to vertebral body. All relevant factors were introduced to logistic regression analysis to analyze the risk factors of cement leakage. ResultsAll procedures were performed successfully. The mean operation time was 40 minutes (range, 30-50 minutes), and the mean volume ratio of intravertebral bone cement to vertebral body was 24.88% (range, 7.84%-38.99%). Back pain was alleviated significantly in all the patients postoperatively. All patients were followed up with a mean time of 8 months (range, 6-12 months). Cement leakage occurred in 49 patients. Single factor analysis showed that there were significant differences in the volume ratio of intravertebral bone cement to vertebral body and preoperative vertebral body wall incompetence between 2 groups (P < 0.05), while no significant difference in T score of BMD, operative level, preoperative anterior compression degree of operative vertebrae, preoperative middle compression degree of operative vertebrae, preoperative sagittal Cobb angle of operative vertebrae, and cement volume (P > 0.05). The logistic regression analysis showed that the volume ratio of intravertebral bone cement to vertebral body (P < 0.05) and vertebral body wall incompetence (P < 0.05) were the risk factors for occurrence of cement leakage. ConclusionThe volume ratio of intravertebral bone cement to vertebral body and vertebral body wall incompetence are risk factors of cement leakage in PVP for OVCF. Cement leakage is easy to occur in operative level with vertebral body wall incompetence and high volume ratio of intravertebral bone cement to vertebral body.
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 compare the effectiveness of percutaneous kyphoplasty (PKP) between by unilateral approach and by bilateral approaches for treating mid-thoracic osteoporotic vertebral compression fracture (OVCF). MethodA prospective randomized controlled study was performed on 22 patients with mid-thoracic OVCF between September 2012 and June 2014. PKP was performed by unilateral approach in 11 cases (group A) and by bilateral approaches in 11 cases (group B). There was no significant difference in gender, age, causes of injury, disease duration, affected segment, preoperative bone mineral density, Cobb angle, compression rate of the anterior verterbral height, and Visual analogue scale (VAS) score between 2 groups (P>0.05) . The operation time, perspective times, hospitalization expenses, the leakage of cement, the sagittal Cobb angle, compression rate of the anterior vertebral height, and VAS scores were compared between 2 groups. ResultsThe operation time, perspective times, and hospitalization expenses of group A were significantly less than those of group B (P<0.05) . Twenty-two patients were followed up 13-34 months (mean, 15.3 months). Primary healing of incision was obtained in all patients, and no early complication of cement leakage, hypostatic pneumonia, or deep vein thrombosis occurred. At last follow-up, no new fracture occurred at the adjacent segments. The Cobb angle, compression rate of anterior verterbral height, and VAS score at 1 week and last follow-up were significantly improved when compared with preoperative ones in 2 groups (P<0.05) , but no significant difference was found between at 1 week and at last follow-up (P>0.05) . There was no significant difference in Cobb angle, compression rate of the anterior vertebral height, and VAS score between 2 groups at each time point (P>0.05) . ConclusionsPKP by both unilateral approach and bilateral approaches has the same effectiveness, but unilateral approach has shorter operation time, less perspective times, and less hospitalization expenses than bilateral approaches.
Objective To compare the effectiveness of different puncture methods of the flexible bone cement delivery device in unilateral percutaneous curved vertebroplasty for osteoporotic vertebral upper 1/3 compression fractures. Methods A retrospective analysis was conducted on the clinical data of 67 patients with osteoporotic vertebral upper 1/3 compression fractures who were admitted and met the selection criteria between January 2023 and April 2024. The patients were divided into two groups based on the puncture method of the flexible bone cement delivery device: the oblique puncture group (n=37) and the parallel puncture group (n=30). There was no significant difference (P>0.05) between the two groups in terms of gender, age, bone mineral density (T value), distribution of fractured vertebrae, time from injury to operation, and preoperative visual analogue scale (VAS) score for pain, Oswestry disability index (ODI), anterior vertebral height of the fractured vertebra, and Cobb angle of the fractured vertebra. The following parameters were compared between the two groups: operation time, incidence of secondary puncture, incidence of bone cement leakage, volume of injected bone cement, bone cement distribution score, as well as VAS score, ODI, anterior vertebral height of the fractured vertebra, and Cobb angle of the fractured vertebra at 1 day after operation and at last follow-up. Results Two cases in the oblique puncture group and 7 cases in the parallel puncture group underwent secondary puncture during operation, and the difference in the incidence of secondary puncture was significant (P<0.05). No complications such as bone cement hypersensitivity, bone cement embolism, nerve injury, or epidural hematoma occurred in both groups. There was no significant difference in operation time, volume of injected bone cement, incidence of bone cement leakage, distribution score and rating of bone cement between the two groups (P>0.05). All patients were followed up 6-18 months (mean, 12.0 months), and there was no significant difference in the follow-up time between the two groups (P>0.05). No further fracture collapse or compression occurred in the fractured vertebra during follow-up. Both groups exhibited significant improvements in VAS score, ODI, anterior vertebral height, and Cobb angle of the fractured vertebra after operation compared to baseline (P<0.05). There were also significant differences between the two time points after operation (P<0.05). However, there was no significant difference in the above indicators between the two groups (P>0.05). Conclusion For osteoporotic vertebral upper 1/3 compression fractures treated with unilateral percutaneous curved vertebroplasty, both oblique and parallel puncture methods of the flexible bone cement delivery device can effectively relieve pain, but the former is more conducive to reducing the incidence of secondary puncture.