Subject-specific planning of femoroplasty: A combined evolutionary optimization and particle diffusion model approach

A potential effective treatment for prevention of osteoporotic hip fractures is augmentation of the mechanical properties of the femur by injecting it with agents such as (PMMA) bone cement – femoroplasty. The operation, however, is only in research stage and can benefit substantially from computer planning and optimization. We report the results of computational planning and optimization of the procedure for biomechanical evaluation. An evolutionary optimization method was used to optimally place the cement in finite element (FE) models of seven osteoporotic bone specimens. The optimization, with some inter-specimen variations, suggested that areas close to the cortex in the superior and inferior of the neck and supero-lateral aspect of the greater trochanter will benefit from augmentation. We then used a particle-based model for bone cement diffusion simulation to match the optimized pattern, taking into account the limitations of the actual surgery, including limited volume of injection to prevent thermal necrosis. Simulations showed that the yield load can be significantly increased by more than 30%, using only 9 ml of bone cement. This increase is comparable to previous literature reports where gross filling of the bone was employed instead, using more than 40 ml of cement. These findings, along with the differences in the optimized plans between specimens, emphasize the need for subject-specific models for effective planning of femoral augmentation.     

Significance of preoperative planning for prophylactic augmentation of osteoporotic hip: A computational modeling study

A potential effective treatment for prevention of osteoporotic hip fractures is augmentation of the mechanical properties of the femur by injecting it with bone cement. This therapy, however, is only in research stage and can benefit substantially from computational simulations to optimize the pattern of cement injection. Some studies have considered a patient-specific planning paradigm for Osteoporotic Hip Augmentation (OHA). Despite their biomechanical advantages, customized plans require advanced surgical systems for implementation. Other studies, therefore, have suggested a more generalized injection strategy. The goal of this study is to investigate as to whether the additional computational overhead of the patient-specific planning can significantly improve the bone strength as compared to the generalized injection strategies attempted in the literature. For this purpose, numerical models were developed from high resolution CT images (n = 4). Through finite element analysis and hydrodynamic simulations, we compared the biomechanical efficiency of the customized cement-based augmentation along with three generalized injection strategies developed previously. Two series of simulations were studied, one with homogeneous and one with inhomogeneous material properties for the osteoporotic bone. The customized cement-based augmentation inhomogeneous models showed that injection of only 10 ml of bone cement can significantly increase the yield load (79.6%, P < 0.01) and yield energy (199%, P < 0.01) of an osteoporotic femur. This increase is significantly higher than those of the generalized injections proposed previously (23.8% on average). Our findings suggest that OHA can significantly benefit from a patient-specific plan that determines the pattern and volume of the injected cement.     

Calcium phosphate cement augmentation of cancellous bone screws can compensate for the absence of cortical fixation

An obvious means to improve the fixation of a cancellous bone screw is to augment the surrounding bone with cement. Previous studies have shown that bone augmentation with Calcium Phosphate (CaP) cement significantly improves screw fixation. Nevertheless, quantitative data about the optimal distribution of CaP cement is not available. The present study aims to show the effect of cement distribution on the screw fixation strength for various cortical thicknesses and to determine the conditions at which cement augmentation can compensate for the absence of cortical fixation in osteoporotic bone. In this study, artificial bone materials were used to mimic osteoporotic cancellous bone and cortical bone of varying thickness. These bone constructs were used to test the fixation strength of cancellous bone screws in different cortical thicknesses and different cement augmentation depths. The cement distribution was measured with microCT. The maximum pullout force was measured experimentally. The microCT analysis revealed a pseudo-conic shape distribution of the cement around the screws. While the maximum pullout strength of the screws in the artificial bone only was 30±7 N, it could increase up to approximately 1000 N under optimal conditions. Cement augmentation significantly increased pullout force in all cases. The effect of cortical thickness on pullout force was reduced with increased cement augmentation depth. Indeed, cement augmentation without cortical fixation increased pullout forces over that of screws without cement augmentation but with cortical fixation. Since cement augmentation significantly increased pullout force in all cases, we conclude that the loss of cortical fixation can be compensated by cement augmentation.     

椎体静脉稀疏区注入骨水泥对PVP术中骨水泥渗漏的影响

目的:探讨椎体静脉稀疏区注入骨水泥对骨质疏松椎体压缩性骨折患者行经皮穿刺椎体成形术(percutaneous vertebroplasty,PVP)术中骨水泥渗漏的影响。方法:选择西安交通大学第二附属医院2014年1月至2018年6月收治的61例骨质疏松椎体压缩性骨折患者,根据骨水泥注入区域的不同,将所有患者分为A组(30例)及B组(31例),A组骨水泥注入区域为椎体静脉密集区(椎体中1/3平面处),B组骨水泥注入区域为椎体静脉稀疏区(椎体上1/3及下1/3平面处),对比两组的骨水泥渗漏率,术前、术后6个月时的视觉模拟评分(Visual analogue scale,VAS),治疗中的骨水泥用量、椎体高度恢复率及cobb角恢复度数。结果:B组的骨水泥渗漏率及骨水泥用量均明显低于A组(P0.05)。两组的VAS评分、椎体高度恢复率、cobb角恢复情况对比差异无统计学意义(P0.05)。结论:与椎体静脉密集区相比,在椎体静脉稀疏区注入骨水泥可显著降低骨质疏松椎体压缩性骨折患者PVP术中骨水泥渗漏率,椎体静脉稀疏区可作为PVP术中骨水泥注射的一个相对安全区域。     

A Particle Model for Prediction of Cement Infiltration of Cancellous Bone in Osteoporotic Bone Augmentation

Femoroplasty is a potential preventive treatment for osteoporotic hip fractures. It involves augmenting mechanical properties of the femur by injecting Polymethylmethacrylate (PMMA) bone cement. To reduce the risks involved and maximize the outcome, however, the procedure needs to be carefully planned and executed. An important part of the planning system is predicting infiltration of cement into the porous medium of cancellous bone. We used the method of Smoothed Particle Hydrodynamics (SPH) to model the flow of PMMA inside porous media. We modified the standard formulation of SPH to incorporate the extreme viscosities associated with bone cement. Darcy creeping flow of fluids through isotropic porous media was simulated and the results were compared with those reported in the literature. Further validation involved injecting PMMA cement inside porous foam blocks — osteoporotic cancellous bone surrogates — and simulating the injections using our proposed SPH model. Millimeter accuracy was obtained in comparing the simulated and actual cement shapes. Also, strong correlations were found between the simulated and the experimental data of spreading distance (R² = 0.86) and normalized pressure (R² = 0.90). Results suggest that the proposed model is suitable for use in an osteoporotic femoral augmentation planning framework.     

Effect of vertebral body stiffness before and after vertebroplasty on intradiscal pressure]

Fractures of osteoporotic vertebral bodies are increasingly stabilized with bone cement. The effects of vertebral-body stiffness before and after augmentation with bone cement and of wedge-shaped vertebral body fractures on intradiscal pressure are insufficiently known. In a finite element model of the lumbar spine the elastic modulus of cancellous bone as well as the amount and the elastic modulus of bone cement were varied and the dependency of intradiscal pressure on these parameters was calculated. In addition, a wedge-shaped vertebral-body fracture was simulated. The bulge of the vertebral-body endplate and thus the intradiscal pressure depends strongly on the grade of osteoporosis in the vertebral body. The influence of amount and elastic modulus of bone cement on intradiscal pressure is small. A wedge-shaped vertebral-body fracture causes an anterior shift of upper-body centre of gravity. If this shift is not compensated, it leads to an increased flexion moment that has to be balanced by muscle forces. In addition, this shift leads to a stronger increase of intradiscal pressure than the augmentation of the vertebral body with bone cement.     

Straining of the intact and fractured proximal humerus under physiological-like loading

Surgical treatment of proximal humeral fractures remains challenging in elderly patients, primarily due to insufficient implant fixation. Both bone quality and physiological-like loading conditions are commonly overlooked during pre-clinical in vitro evaluation. However, this knowledge is necessary in order to improve surgical treatment of the proximal humerus and the mechanical behavior of implants, particularly in patients with complex fractures and weak bone stock. We hypothesize that the bone quality has a high influence on the bone straining, independent of the arm position. The goal of this study was to determine the straining of the intact and fractured proximal humerus under physiological-like loading conditions. Furthermore, the impact of augmentation on tissue straining was evaluated.

Two representative humeri were selected for this study, one osteoporotic and one reference quality, and scanned using both QCT and DEXA (average DEXA VALUE=0.26 and 0.49 g/cm² respectively). Subcaptial defects were generated, then stabilized with a plate prior to mechanical stiffness testing. From the QCT data, finite element models were generated and the in vitro stiffness tests analytically simulated. Under physiological-like loading conditions, the straining of the bone and implant were analyzed for 0°, 90° forward flexion, and 90° abduction.

Maximal strain values were found for the intact and fractured bone at 90° abduction. This study demonstrates that the straining in a fractured bone of poor quality leads to considerably higher bone strains (up to +30%) than in a more healthy bone. Augmentation of a central void under physiological-like loading with commercial cement led to mechanical failure at the bone–cement interface.

New concepts for the surgical treatment of complex fractures of the proximal humerus should take bone distribution into account and thereby allow effective treatment of fractures in osteoporotic patients. The ultimate salvage procedure of augmentation has mechanical limitations as long as current cement materials are used in osteoporotic patients.     

Finite element analysis of Stryker Xia pedicle screw in artificial bone samples with and without supplemental cement augmentation

A validated, using in vitro biomechanical testing, finite element model was used to evaluate the affects of (1) cement augmentation and (2) an intact posterior cortex in osteoporotic bone. The presence of augmentation and/or a posterior cortical cortex increased the stabilization of the pedicle screw 2–5 fold. Placement of cement influenced failure load and toggle; with distal placement having the largest increase in failure load and decrease in cephalad–caudad toggle. The presence of posterior cortex caused a decrease in the amount of toggle, a proximal shift of the center of rotation and an increase in the maximum failure force.     

骨水泥强化椎弓根内固定治疗骨质疏松性脊柱骨折的效果

目的:探讨内固定与植骨融合术治疗骨质疏松性椎体骨折的临床疗效。方法:回顾性分析我院2011年7月至2012年7月收治的80例骨质疏松性椎体骨折患者的临床资料。根据固定方式,将37例采用PMMA骨水泥强化椎弓根内固定的患者作为研究组,其余43例单纯应用椎弓根内固定的患者作为对照组。收集两组患者的手术时间、术中出血量、术后疼痛程度、愈合时间等临床资料。评价患者手术前后侧位X线片椎体高度和内固定效果。术后随访24个月。结果:两组患者的手术时间、术中出血量、住院时间及骨折愈合时间等无显著性差异(P0.05);研究组患者术后疼痛程度、椎体高度、内固定物松动及断裂情况等显著优于对照组,差异具有统计学意义(P0.01)。结论:骨水泥强化椎弓根螺钉治疗骨质疏松性椎体骨折具有良好的临床效果,值得推广应用。     

Enhanced bone screw fixation with biodegradable bone cement in osteoporotic bone model

Purpose: The purpose of this study was to study the potential of novel biodegradable PCL bone cement to improve bone screw fixation strength in osteoporotic bone. Methods: The biomechanical properties of bone cement (ε-polycaprolactone, PCL) and fixation strength were studied using biomechanical tests and bone screws fixed in an osteoporotic bone model. Removal torques and pullout strengths were assessed for cortical, self-tapping, and cancellous screws inserted in the osteoporotic bone model (polyurethane foam blocks with polycarbonate plate) with and without PCL bone cement. Open cell and cellular rigid foam blocks with a density of 0.12 g/cm3 were used in this model. Results: Removal torques were significantly (more than six-fold) improved with bone cement for cancellous screws. Furthermore, the bone cement improved pullout strengths three to 12 times over depending on the screw and model material.?Conclusions: Biodegradable bone cement turned out to be a very potential material to stabilize screw fixation in osteoporotic bone. The results warrant further research before safe clinical use, especially to clarify clinically relevant factors using real osteoporotic bone under human body conditions and dynamic fatigue testing for long-term performance.     

经皮骨水泥注入对老年骨质疏松性椎体压缩性骨折患者的治疗效果

目的:探讨经皮骨水泥注入治疗老年骨质疏松性椎体压缩性骨折的临床疗效。方法:选取我院收治的老年骨质疏松性椎体压缩性骨折患者90例,随机分为对照组及实验组,对照组以传统钉棒系统内固定术治疗,实验组以经皮骨水泥注入术治疗。观察并比较两组患者的手术时间、术中出血量、术后镇痛药量、创口面积、术后48 h及6个月椎体高度及Cobb角、骨水泥量、渗漏及不足的发生率等。结果:与对照组比较,实验组手术时间、出血量、创口面积、镇痛药量、骨水泥渗漏及不足率均低于对照组,差异具有统计学意义(P0.05)。与术前比较,术后两组患者椎体高度均提高,差异具有统计学意义(P0.05);实验组术后48 h及6个月椎体高度均高于对照组,差异具有统计学意义(P0.05);与术前比较,术后两组Cobb角均减小,差异具有统计学意义(P0.05);实验组术后48 h及6个月Cobb角均小于对照组,差异具有统计学意义(P0.05)。结论:经皮骨水泥注入术操作简便,测量精准,内固定支撑牢靠,术中止血效果理想,远期内固定支撑效果显著,值得临床推广应用。     

不同黏度骨水泥治疗骨质疏松性椎体压缩性骨折疗效比较

目的:探讨不同黏度骨水泥治疗骨质疏松性椎体压缩性骨折的临床疗效。方法:选择2016年1月～2018年6月滁州市第一人民医院收治的骨质疏松性椎体压缩性骨折患者90例,按照随机数字表法分为高黏度组42例和低黏度组48例,分别采用高黏度骨水泥经皮椎体后凸成形术和低黏度骨水泥经皮椎体后凸成形术治疗。比较两组单个椎体手术时间、骨水泥注入量、骨水泥渗漏发生情况。所有患者术后随访3个月,比较两组术前、术后3个月疼痛数字评分量表(NRS)评分、Oswestry功能(ODI)评分、椎体中间高度和Cobb角变化。结果:高黏度组单个椎体手术时间少于低黏度组(P0.05),两组骨水泥注入量、骨水泥弥散体积比较无统计学差异(P0.05)。高黏度组骨水泥总渗漏率低于低黏度组(P0.05)。两组患者术前NRS评分、ODI评分、椎体中间高度和Cobb角比较差异无统计学意义(P0.05);术后3个月两组NRS评分、ODI评分和Cobb角较术前降低,椎体中间高度较术前升高,且高黏度组NRS评分、ODI评分和Cobb角低于低黏度组,椎体中间高度高于低黏度组(P0.05)。结论:高黏度骨水泥经皮椎体后凸成形术治疗骨质疏松性椎体压缩性骨折的疗效较低黏度骨水泥更佳,术后总渗漏率更低,脊柱畸形矫正、脊柱功能恢复更佳,同时疼痛也明显降低,适于临床推广。     

A Biomechanical Comparison of Expansive Pedicle Screws for Severe Osteoporosis: The Effects of Screw Design and Cement Augmentation

Expansive pedicle screws significantly improve fixation strength in osteoporotic spines. However, the previous literature does not adequately address the effects of the number of lengthwise slits and the extent of screw expansion on the strength of the bone/screw interface when expansive screws are used with or without cement augmentation. Herein, four designs for expansive pedicle screws with different numbers of lengthwise slits and different screw expansion levels were evaluated. Synthetic bones simulating severe osteoporosis were used to provide a comparative platform for each screw design. The prepared specimens were then tested for axial pullout failure. Regardless of screw design, screws with cement augmentation demonstrated significantly higher pullout strength than pedicle screws without cement augmentation (p < 0.001). For screws without cement augmentation, solid screws exhibited the lowest pullout strength compared to the four expansive groups (p < 0.01). No significant differences in pullout strength were observed between the expansive screws with different designs (p > 0.05). Taken together, our results show that pedicle screws combined with cement augmentation may greatly increase screw fixation regardless of screws with or without expansion. An increase in both the number of slits and the extent of screw expansion had little impact on the screw-anchoring strength. Cement augmentation is the most influential factor for improving screw pullout strength.     

Experimental and theoretical investigation of directional permeability of human vertebral cancellous bone for cement infiltration

The use of acrylic polymers in infiltrating the porous bone structure is an emerging procedure for the augmentation of osteoporotic vertebrae. Although this procedure is employed frequently, it is performed based on empirical knowledge, and therefore, does not take into consideration the porosity-dependent permeability of human vertebral cancellous bone. The purpose of this study was to: (a). experimentally and theoretically investigate interdependence of the vertebral cancellous bone permeability and porosity, and (b). examine if the bone permeability of spinal cancellous bone can be predicted using bone mineral density measurements. If these relations can be established, they can be useful in optimizing the injection conditions for predicable cement infiltration. To determine the porosity-dependent and directional permeability, 34 bone cores-20 samples in the superior-inferior (SI) direction and 14 in the anterior-posterior (AP) direction-were cut from 20 lumbar vertebrae and infiltrated with silicone oil with a viscosity matching that of PMMA. The permeability of the cores was determined based on Darcy's law. The mean permeability of SI and AP cores was 4.45+/-1.72 x 10(-8) and 3.44+/-1.26 x 10(-8)m(2), respectively. An interesting finding of this study was that the permeability of the AP cores was approximately 78% of that of SI cores, though the porosity of the SI and AP cores taken from the same vertebra was approximately equal. In addition, we provided a theoretical model for the porosity-dependent permeability that accurately described non-linear dependency of the bone permeability and porosity in both directions. Although the relation of the bone permeability and porosity was established, bone mineral density was a weak predictor of the bone permeability. The experimental and theoretical results of this study can be used to understand polymer flow in cement infiltration procedures.     

网袋强化椎体成形术在骨质疏松椎体骨折治疗中的经验教训

摘要 目的：探讨和总结使用网袋强化椎体成形术在骨质疏松椎体骨折围手术期的注意事项及相关对策。方法：回顾性分析2017年6月到2020年6月3年时间内,使用网袋强化椎体成形术治疗骨质疏松性椎体骨折患者共计112例。统计和比较患者在围手术期的各项指标,分析穿刺失败的原因及相关危险因素。结果：112例患者共涉及138个椎体。其中一期穿刺失败率（骨水泥分布不佳）为47个,占34.0%。骨水泥注入3 mL以下者为19个,占13.8%。骨水泥渗漏为36个,占26.1%。所有患者在术后3天及3月复查, VAS评分和ODI评分较前均有显著改善(P<0.05)。所有患者均未出现严重并发症(P>0.05)。结论：网袋强化椎体成形术在骨质疏松性椎体骨折的治疗中是一种理想的治疗方式,但在具体过程中仍有相关的经验和教训需要整理和总结。     

单侧与双侧PVP治疗骨质疏松性椎体压缩骨折临床疗效比较及骨水泥渗漏的危险因素分析

摘要 目的：比较单侧与双侧经皮椎体成形术（PVP）治疗骨质疏松性椎体压缩骨折（OVCF）的临床疗效,并分析骨水泥渗漏的危险因素。方法：回顾性分析2019年5月~2020年12月期间本院收治的205例OVCF患者的临床资料,根据入路方式的不同分为单侧组和双侧组,例数分别为104例和101例。对比两组围术期指标、视觉模拟评分（VAS）、Oswestry功能障碍指数（ODI）、Cobb''s角和椎体前缘高度,记录两组骨水泥渗漏及其他并发症发生情况,采用单因素及多因素Logistic回归分析骨水泥渗漏的影响因素。结果：与双侧组相比,单侧组手术时间缩短,骨水泥注入量、术中透视次数减少（P<0.05）。两组术前、术后3个月、末次随访时VAS、ODI评分均呈下降趋势（P<0.05）。与术前相比,两组术后3个月及末次随访时的椎体前缘高度均升高,Cobb''s角均缩小（P<0.05）。两组并发症发生率组间对比无统计学差异（P>0.05）。PVP患者骨水泥渗漏与骨水泥黏度、皮质断裂、骨折严重程度、骨折位置、年龄、CT值、骨水泥注入量有关（P<0.05）。骨水泥渗漏的危险因素主要有骨水泥注入量>6 mL、骨折严重程度为重度、CT值>63HU、骨水泥黏度为低、皮质断裂（P<0.05）。结论：单侧与双侧PVP治疗OVCF效果相当。其中单侧可减少骨水泥注入量,缩短手术时间,减轻术后疼痛,促进术后功能恢复。而PVP手术最常见的并发症为骨水泥渗漏,受到骨折严重程度、皮质断裂、骨水泥黏度等因素的影响。     

骨水泥填充治疗桡骨远端骨质疏松骨折

目的:探讨骨水泥填充治疗桡骨远端骨质疏松骨折的方法。方法:对本科2000以来对8例桡骨远端骨质疏松骨行有限切开、关节面撬拨复位后注入骨水泥填充关节软骨下缺损治疗。结果:全部病例获得随访10-68月,平均22月。所有患者术后1周内肿胀消失,3～4周功能恢复接近正常。X线检查显示骨折愈合良好,无延迟愈合或不愈合。患者自我感觉5例表示满意,2例表示基本满意,1例表示不满意,满意率87.5%。结论:有限切开、关节面撬拨复位后注入骨水泥填充关节软骨下缺损是治疗桡骨远端骨质疏松骨折的有效方法。     

骨质疏松椎体压缩性骨折患者经皮椎体成形术后再次骨折的危险因素分析

目的:探讨骨质疏松椎体压缩骨折患者接受椎体成形术后再次新发骨折的危险因素。方法:选取2009年1月到2015年1月就诊于我院诊断为骨质疏松椎体压缩性骨折且行经皮椎体成形术的患者,收集患者的诊疗信息及影像学资料。收集患者的年龄、性别等基本资料及基于定量CT测量的骨矿物含量、骨水泥注射占椎体体积的比、骨水泥的分布及骨水泥的渗漏情况。将单椎体骨折且在随访时间内再次新发椎体骨折的患者分为A组,未骨折的患者分为B组,对比分析两组之间的参数的差异,并利用二项Logistic回归分析分析再次骨折的危险因素。结果:共有287例患者纳入研究,平均随访时间为34.7±17.8个月,压缩性骨折最常见的椎体依次为L1(29.1%)、T12(20.8%)及L2(13.5%)。在随访时间内共有32例患者再次发生椎体骨折。252例单椎体骨折患者中,26例(A组)再次发生骨折,226例(B组)未发生骨折。A组骨矿物含量低于B组(P0.001),骨水泥分布较B组差(P0.001),年龄高于B组(P0.001)且骨水泥渗漏发生率(34.6%)高于B组(13.7%)(P=0.006),两组在骨水泥占椎体的比、后凸程度、性别比例没有统计学差异。回归分析显示骨矿物含量(OR=1.092,P0.001)、年龄(OR=1.091,P0.001)及骨水泥渗漏(OR=1.200,P=0.002)均是再次骨折的危险因素,骨水泥的均匀分布是保护因素(OR=0.922,P0.001)。结论:年龄较大且骨质较差的患者容易再次发生椎体骨折,在行椎体成形术过程中应尽量使骨水泥均匀分布并避免骨水泥的渗漏。     

Material changes in osteoporotic human cancellous bone following infiltration with acrylic bone cement for a vertebral cement augmentation

Bone cement infiltration can be effective at mechanically augmenting osteoporotic vertebrae. While most published literature describes the gain in mechanical strength of augmented vertebrae, we report the first measurements of viscoelastic material changes of cancellous bone due to cement infiltration. We infiltrated cancellous core specimen harvested from osteoporotic cadaveric spines with acrylic bone cement. Bone specimen before and after cement infiltration were subjected to identical quasi-static and relaxation loading in confined and free compression. Testing data were fitted to a linear viscoelastic model of compressible material and the model parameters for cement, native cancellous bone, and cancellous bone infiltrated (composite) with cement were identified. The fitting demonstrated that the linear viscoelastic model presented in this paper accurately describes the mechanical behaviour of cement and bone, before and after infiltration. Although the composite specimen did not completely adopt the properties of bulk bone cement, the stiffening of cancellous bone due to cement infiltration is considerable. The composite was, for example, 8.5 times stiffer than native bone. The local stiffening of cancellous bone in patients may alter the load transfer of the augmented motion segment and may be the cause of subsequent fractures in the vertebrae adjacent to the ones infiltrated with cement. The material model and parameters in this paper, together with an adequate finite-element model, can be helpful to investigate the load shift, the mechanism for subsequent fractures, and filling patterns for ideal cement infiltration.     

PKP治疗骨质疏松性椎体压缩骨折的预后评价及继发危险因素分析

目的:分析椎弓根入路行椎体后凸成形术(PKP)治疗骨质疏松性椎体压缩骨折的预后评价及继发危险因素分析。方法:选择2016年2月-2018年2月我院收治的骨质疏松性椎体压缩骨折患者85例纳入本次研究,采用随机数表法分为观察组(n=43)和对照组(n=42)。对照组使用经皮椎体成形术进行治疗,观察组采用PKP进行治疗。比较两组患者手术情况、术后情况、椎体前缘高度丢失率、Cobb角、继发性骨折发生情况及分析骨质疏松性椎体压缩骨折患者术后继发骨折的危险因素。结果:观察组手术时间、透视次数、骨水泥注入量、术中出血量均显著低于对照组,差异显著(P0.05);观察组疼痛缓解时间、下地时间及住院时间均显著低于对照组,差异显著(P0.05);治疗前,两组椎体前缘高度丢失率、Cobb角比较,无显著差异;治疗后,两组患者的椎体高度丢失率明显下降,但两组术后7 d、术后6月两组椎体前缘高度丢失率、Cobb角比较无显著差异;观察组术后12月椎体前缘高度丢失率、Cobb角低于对照组,差异显著(P0.05);所有患者均随访12月,其中22例(25.88%)发生继发性椎体骨折,进行单因素分析,结果发现,两组患者性别、骨折部位、局部矢状面后凸角度、骨水泥量、椎体高度恢复、术后抗骨质疏松治疗差异无统计学意义(P0.05);骨质疏松原因、骨水泥椎间隙渗漏、术后支具佩戴、原发骨折类型与骨质疏松性椎体压缩骨折患者术后发生继发骨折相关(P0.05)。多因素Logistic分析显示,骨质疏松原因、骨水泥椎间隙渗漏、术后支具佩戴、原发骨折类型均是骨质疏松性椎体压缩骨折患者术后发生继发骨折的独立危险因素(P0.05)。结论:在骨质疏松性椎体压缩骨折患者中应用PKP可有效改善手术情况,随着时间的延长,PKP更有利于维持患者椎体高度;骨质疏松原因、骨水泥椎间隙渗漏、术后支具佩戴、原发骨折类型是骨质疏松性椎体压缩骨折患者术后发生继发骨折的危险因素,临床上对于具有危险因素的患者引起重视,并采取干预措施。