Implementing P-15/ABM Bone Graft as a Standardized Technique for Lumbar Fusion Approaches

Introduction: Lumbar fusion as low back pain treatment continues to be a challenge because of the multiple techniques and materials available, most popular techniques include Transforaminal lumbar interbody fusion (TLIF), Lateral lumbar interbody fusion (LLIF) and Anterior lumbar interbody fusion (ALIF). Successful lumbar fusion is associated with better clinical outcomes, and it is enhanced and targeted through the use of bone graft materials as an osteogenic cell binding peptide P-15, bound to an anorganic bone mineral (ABM). This peptide improves bone formation when used in fixation devices in a targeted and limited way to the implant surface by activating osteoblast precursor cells;by the osteogenic, osteoinductive and osteoconductive stimuli. The main objective of this study is to standardize the lumbar fusion process in the 3 techniques and achieve a more efficient and predictable lumbar fusion, evaluating results with radiological and clinical scales. Material and Methods: Patients underwent lumbar fusion with the use of P-15 Osteogenic Cell Binding Peptide, bound to an anorganic bone mineral (P-15/ABM) bone graft (5 cc) in three different techniques (TLIF, LLIF, ALIF), achieving a total of 100 lumbar levels. Radiological outcomes included fusion rates per Hounsfield Units at computed tomography (CT) scan and Lenke scale. Clinical outcomes were evaluated via the Oswestry Disability Index (ODI), Short Form Performance (SPF-36) and Visual Analog Scale (VAS and VASs) for pain and satisfaction. Results: 67 patients completed the 12 months follow-up, showing no differences in fusion rates between techniques. (Computed Tomography Hounsfield Units) CTHU reaches more than 200 UH at 3 months follow-up and continues fusion process till 12-month follow-up. Clinical scales showed no disability at ODI, improvement at VAS and VASs scales, absence of health restrictions at SPF-36 score since 6 months follow up. Conclusion: Bone graft volume of 5 cc is adequate for achieving successful lumbar fusion, regardless of the surgical technique employed.

Bone graft substitutes for spine fusion: A brief review

Bone graft substitutes are widely used in the field of orthopedics and are extensively used to promote vertebral fusion. Fusion is the most common technique in spine surgery and is used to treat morbidities and relieve discomfort. Allograft and autograft bone substitutes are currently the most commonly used bone grafts to promote fusion. These approaches pose limitations and present complications to the patient. Numerous alternative bone graft substitutes are on the market or have been developed and proposed for application. These options have attempted to promote spine fusion by enhancing osteogenic properties. In this review, we reviewed biology of spine fusion and the current advances in biomedical materials and biological strategies for application in surgical spine fusion. Our findings illustrate that, while many bone graft substitutes perform well as bone graft extenders, only osteoinductive proteins(recombinant bone morphogenetic proteins-2 and osteogenic protein-1) provide evidence for use as both bone enhancers and bone substitutes for specific types of spinal fusion. Tissue engineered hydrogels, synthetic polymer composites and viral based gene therapy also holds the potential to be used for spine fusion in future, though warrants further investigation to be used in clinical practice.

Use of demineralized bone matrix in spinal fusion

Spinal fusion remains the gold-standard treatment for several pathological spine conditions. Although, autologous Iliac Crest Bone Grafting is considered the goldstandard graft choice to promote spinal fusion; however, it is associated with significant donor site morbidity and a limited graft quantity. Therefore, several bone graft alternatives have been developed, to augment arthrodesis. The purpose of this review is to present the results of clinical studies concerning the use of demineralized bone matrix(DBM), alone or as a composite graft, in the spinal fusion. A critical review of the English-language literature was conducted on Pubmed, using key word "demineralized bone matrix", "DBM", "spinal fusion", and "scoliosis". Results had been restricted to clinical studies. The majority of clinical trials demonstrate satisfactory fusion rates when DBM is employed as a graft extender or a graft enhancer.Limited number of prospective randomized controlled trials(4 studies), have been performed comparing DBM to autologous iliac crest bone graft in spine fusion. The majority of the clinical trials demonstrate comparable efficacy of DBM when it used as a graft extender in combination with autograft, but there is no clinical evidence to support its use as a standalone graft material. Additionally, high level of evidence studies are required, in order to optimize and clarify the indications of its use and the appropriate patient population that will benefit from DBM in spine arthrodesis.

Fusion of bone marrow-derived cells with cancer cells: metastasis as a secondary disease in cancer

This perspective article highlights the leukocyte-cancer cell hybrid theory as a mechanism for cancer metastasis. Beginning from the first proposal of the theory more than a century ago and continuing today with the first proof for this theory in a human cancer, the hybrid theory offers a unifying explanation for metastasis. In this scenario, leukocyte fusion with a cancer cell is a secondary disease superimposed upon the early tumor, giving birth to a new, malignant cell with a leukocyte-cancer cell hybrid epigenome.

Anterior Lumbar Intervertebral Fusion with Artificial Bone in Place of Autologous Bone

The feasibility of anterior lumbar intervertebral fusion with artificial bone in place of autogenous bone was investigated Porous hydroxyapatite(HA)/ZrO 2 ceramics loading bone morphogenetic protein (BMP) were implanted after removal of lumbar vertebral disc in rabbits The adjacent intervertebral discs were also removed by the same way and autogenous illic bone was implanted SEM observation and biomechanical test were carried out Compound bone had a bit lower osteoinductive activity than autogenous bone by SEM(Osteoindutive activity of artificial bone in 12 weeks was the same as that of autogenous bone in 9 weeks) Biomechanical test revealed that compound bone had lower anti-pull strength than autogenous bone ( P< 0 001), but there was no significant difference in anti-pull strength between compound bone at 12th week and autogenous bone at 9th week (P>0 05) It was concluded that compound bone could be applied for anterior spinal fusion, especially for those patients who can't use autogenous bone

Animal Modelling of Lumbar Corpectomy and Fusion and in vivo Growth of Spine Supporting Bone by Titanium Cage Implants: An Experimental Study

In this study a lumbar spinal fusion animal model is established to assess the effect of spinal fusion cage,and explore theminimum area ratio of titanium cage section to vertebral section that ensures bone healing and biomechanical property.Lumbarcorpectomy was conducted by posterolateral approach with titanium cage implantation combined with plate fixation.Titaniumcages with the same length but different diameters were used.After implantation of titanium cages,the progress of bone healingwas observed and the bone biomechanical properties were measured,including deformation and displacement in axial compression,flexion,extension,and lateral bending motion.The factors affecting the in vivo growth of spine supporting body wereanalyzed.The results show that the area ratio of titanium cage section to vertebral section should reach 1/2 to ensure the bonehealing,sufficient bone intensity and biomechanical properties.Some bone healing indicators,such as BMP,suggest that there isa relationship between the peak time and the peak value of bone formation and metabolism markers and the bone healing strength.

Comparison of Clinical Outcomes of Cortical Bone Trajectory and Traditional Pedicle Screw Fixation in Posterior Lumbar Interbody Fusion

Posterior lumbar interbody fusion (PLIF) is a common surgical procedure and widely used in the treatment of lumbar degenerative disc disorders. Traditionally, posterior lumbar interbody fusion is done by using the traditional pedicle screw (PS) which offers great advantages, but at the same time it has some disadvantages which include the risk of superior facet joint violation and muscle damage. Recently, an alternative method of screw insertion via cortical bone trajectory (CBT) has been invented which has less invasive process and can be placed without the drawbacks associated with the traditional pedicle screw. However, it has to remain an interest whether CBT will provide similar or greater clinical outcomes compared to PS in PLIF. So the main aim of this review is to compare the clinical outcomes of cortical bone trajectory and traditional pedicle screw fixation in posterior lumbar interbody fusion based on the articles published on this topic. Compared to the traditional pedicle screw fixation, PLIF with CBT has similar clinical outcome based on pain intensity, ODI status and JOA score, as well as similar fusion rate and radiological evaluated complication such as loosening of screw. In addition PLIF with CBT has advantages of less facet joint violation, less blood loss, less intraoperative muscle damage and perioperative pain. On the basis of this study, we can suggest that PLIF with CBT can be considered as a reasonable alternative to PS in PLIF.

Application of the cortical bone trajectory technique in posterior lumbar fixation

The cortical bone trajectory(CBT) is a novel technique in lumbar fixation and fusion.The unique caudocephalad and medial-lateral screw trajectories endow it with excellent screw purchase for vertebral fixation via a minimally invasive method.The combined use of CBT screws with transforaminal or posterior lumbar interbody fusion can treat a variety of lumbar diseases,including spondylolisthesis or stenosis,and can also be used as a remedy for revision surgery when the pedicle screw fails.CBT has obvious advantages in terms of surgical trauma,postoperative recovery,prevention and treatment of adjacent vertebral disease,and the surgical treatment of obese and osteoporosis patients.However,the concept of CBT internal fixation technology appeared relatively recently;consequently,there are few relevant clinical studies,and the long-term clinical efficacy and related complications have not been reported.Therefore,large sample and prospective studies are needed to further reveal the long-term complications and fusion rate.As a supplement to the traditional pedicle trajectory fixation technique,the CBT technique is a good choice for the treatment of lumbar diseases with accurate screw placement and strict indications and is thus deserving of clinical recommendation.

Comparison of Fusion Rates between Autologous Iliac Bone Graft and Calcium Sulfate with Laminectomy Bone Chips in Multilevel Posterolateral Spine Fusion

Multilevel lumbar fusion usually requires a large quantity of iliac crest bone graft but the supply is usually insufficient, so an alternative bone graft substitute for autograft is needed. This prospective study investigated the efficacy of calcium sulfate by comparing the fusion rates between the experimental material (calcium sulfate pellets with bone chips from laminectomy) and autologous iliac bone graft in long segment (three-or four-level) lumbar and lumbosacral posterolateral fusion. Forty-five patients with degenerative scoliosis or spondylolisthesis received multilevel spine fusion and decompression. The experimental material of calcium sulfate pellets with decompression bone chips was placed on the experimental side and the iliac crest bone graft was placed on the control side. The fusion status was assessed radiographically at three-month intervals, and solid fusion was defined as a clear continuous intertransverse bony bridge at all levels. The average follow-up period was 34.4 months. Twenty-nine (64.4%) patients showed solid fusion on the experimental side and 39 (86.7%) patients on the control side. The overall fusion rate was 86.7%. A statistically significant relation was found between the two sides with the Kappa coefficient of agreement of 0.436. Compared to the control side, the fusion rate of experimental side is significantly reduced (p = 0.014). The fusion ability of autograft is higher than the experimental material in multilevel lumbar posterolateral fusion. However, the overall fusion rate of calcium sulfate pellets is improved, compared with previously reported rates, which suggested that such material may be considered as an acceptable bone graft extender.

Can bone mineral density affect intra-operative blood loss of mini-invasive posterior lumbar interbody fusion?

Objective:Many factors affect intraoperative blood loss(BL)in mini-invasive posterior lumbar interbody fusion(PLIF)procedures,but only few has examined.Specifically,the impact of bone mineral density(BMD)levels on intraoperative BL.This study aims to examine the correlation between these two factors.Methods:Retrospective review of 120 patients with low back disorders who were scheduled to undergo mini-invasive PLIF from October 2018 to October 2019 was performed.Patients were divided into two groups based on BMD of the lumbar spine:normal group and abnormal group(osteoporosis and osteopenia).Comparison of age,gender,BMD,BL,BMI,prothrombin time,activated partial thromboplastin time,haemoglobin concentration,intraoperative mean arterial pressure,platelet count,and operative time(OT)between the two groups,and correlation analysis of BMD and BL were conducted.Results:The mean BL of patients in the abnormal group was remarkably higher than that in the normal group:357.22±152.55 ml and 259.37±125.90 ml respectively(p<0.001).The partial correlation coefficient between BL and BMD was0.45(p<0.001).The results of univariate regression analysis demonstrated that only BMD,gender,and OT were related to BL(BMD,r=0.427,p<0.001;gender,r=0.211,p=0.024;OT,r=0.318,p=0.001).While multivariate linear regression analysis demonstrated that patients with lower BMD and longer OT had a higher amount of intraoperative BL(p<0.001).Conclusions:BMD is an important factor influencing intraoperative BL in mini-invasive PLIF.It should be assessed routinely as a part of the preoperative examination to improve preoperative assessment and ensure patient safety.

Clinical observation of bone graft impaction on posterior intervertebral body fusion for lumbar spondylolisthesis

Objective To investigate the clinical effect of bone graft impaction on posterior intervertebral fusion for lumbar spondylolisthesis.Methods From January 2001 to July 2008,36 patients with lumbar spondylolisthesis were treated by

Atlantoaxial joint fusion using anterior transarticular screw fixation and bone grafting for atlantoaxial joint instability

Objective To evaluate the clinical application of atlantoaxial joint fusion using anterior transarticular screw fixation and bone grafting for atlantoaxial joint instability. Methods Twenty-three cases of atlantoaxial joint instability were

椎间植骨面积对单节段腰椎后路减压椎间植骨融合效果的影响

目的:研究椎间植骨面积对单节段腰椎后路减压植骨融合效果的影响。方法:回顾性分析2020年1月至2022年12月行单节段腰椎后路减压椎弓根内固定+植骨融合术52例患者临床资料。通过电子计算机断层扫描(computed tomography,CT)对术后1周椎间植骨面积进行测量,依据测量结果中椎间植骨面积/平均终板面积进而得到植骨面积占比分为3组:椎间植骨面积不超过一侧椎弓根区域为A组17例,男9例,女8例,年龄(56.0±11.5)岁;椎间植骨面积超过一侧椎弓根但未达到对侧椎弓根为B组15例,男10例,女5例,年龄(52.0±14.0)岁;椎间植骨面积超过对侧椎弓根为C组20例,男12例,女8例,年龄(49.5±12.8)岁。术后3、6、12个月及末次随访均行X线及CT检查,记录每次随访时椎间融合Brantigan评分、疼痛视觉模拟评分(visual analogue scale,VAS)与Oswestry功能障碍指数(Oswestry disability index,ODI)。结果:3组性别、年龄、手术节段比较差异均无统计学意义(P>0.05)。术前VAS与ODI,3组比较差异无统计学意义(P>0.05)。3组患者获得随访,时间12~36个月。与术前比较,3组术后1周、末次随访时VAS、ODI均显著改善(P<0.05)。与术前比较,3组术后1周椎间隙高度均有所恢复;末次随访时,B、C两组椎间隙高度丢失量较少,两组椎间隙高度明显高于A组(P<0.05)。术后3、6个月,C组改良Brantigan评分明显高于A、B组(P<0.05);术后12个月,B、C组改良Brantigan评分明显高于A组(P<0.05);末次随访时,3组改良Brantigan评分比较差异无统计学意义(P>0.05)。术后3个月,C组植骨融合率明显高于A、B两组(P<0.05);术后6、12个月,B、C组植骨融合率明显高于A组(P<0.05);末次随访时,差异无统计学意义(P>0.05)。结论:单节段后路腰椎减压椎间植骨融合手术可显著改善患有腰椎退行性相关疾病患者的临床症状,但随着植骨面积的占比增加,患者早期植骨融合率及融合评分均明显提高。

先天性胫骨假关节的临床治疗新进展

先天性胫骨假关节是罕见的先天性胫腓骨骨骼畸形,以骨不连、假关节形成、肢体成角短缩等畸形为主要表现,多合并神经纤维瘤病,治疗极其困难。近年来,随着对先天性胫骨假关节发病机制研究的深入,新型手术方法如胫腓骨“4合1融合术”、“Cross-union内固定法”(胫腓骨交叉融合术)的开展,结合新型药物如双膦酸盐、骨形态发生蛋白的综合使用,其骨愈合率逐渐提高,再骨折发生率降低。本文总结了近年来先天性胫骨假关节治疗的现状及进展,以期为临床治疗提供借鉴和思考。

胸腰椎结核病灶清除植骨融合内固定术后内固定失败的危险因素分析

目的分析胸腰椎结核病灶清除植骨融合内固定术后内固定失败的危险因素,为预防胸腰椎结核手术失败提供理论依据。方法胸腰椎结核患者446例,均接受病灶清除植骨融合内固定术治疗并获得2年以上随访,随访期间发现内固定失败者48例。收集所有患者的基本资料、手术相关资料及术后随访资料,以是否发生胸腰椎结核病灶清除植骨融合内固定术后内固定失败为因变量,建立单因素Logistic回归分析模型,自变量包括性别、年龄、术前存在并发症、病灶范围、手术方式选择、术前及术后正规化疗、手术部位严格制动、合并脊柱外结核、术前合并后凸畸形、术前术后合并症、术后结核药物耐药,采用逐步筛选法进行单因素Logistic回归分析。将单因素分析有统计学意义的指标纳入多因素Logistic回归分析模型作为自变量,以胸腰椎结核病灶清除植骨融合内固定术后内固定失败为因变量,采用多因素Logistic回归分析法分析胸腰椎结核病灶清除植骨融合内固定术后内固定失败的危险因素。结果单因素Logistic回归分析结果显示,病灶范围、手术方式选择、术前及术后正规化疗、手术部位严格制动、术前合并后凸畸形、术后结核药物耐药是胸腰椎结核病灶清除植骨融合内固定术后内固定失败的相关因素(P均<0.05)。多因素Logistic回归分析结果显示,病灶范围(多椎体)、手术方式(前路)、术前及术后未正规化疗、手术部位未严格制动、术前合并后凸畸形、术后结核药物耐药是胸腰椎结核病灶清除植骨融合内固定术后内固定失败的独立危险因素(P均<0.05)。结论胸腰椎结核病灶清除植骨融合内固定术后有较高的内固定失败风险,病灶范围(多椎体)、手术方式(前路)、术前及术后未正规化疗、手术部位未严格制动、术前合并后凸畸形、术后结核药物耐药是胸腰椎结核病灶清除植骨融合内固定术后内固定失败的独立危险因素。

UBE-LIF与后路病灶清除植骨融合内固定术治疗腰椎布氏杆菌性脊柱炎的临床疗效比较

目的对比UBE-LIF(unilateral biportal endoscopic technique with transforaminal lumbar interbody fusion)技术行病灶清除联合经皮椎弓根螺钉内固定术与经典后路病灶清除植骨融合内固定术治疗腰椎布氏杆菌性脊柱炎(LBS)的安全性及临床疗效。方法回顾性分析甘肃省中医院脊柱骨科2020年1月至2022年1月收治的32例LBS患者的临床资料,按术式分为UBE-LIF组(n=15)和开放组(n=17)。记录并分析两组的一般资料、手术相关指标及术后病理HE染色;根据术前、术后1周及术后1、3、6个月和1年的红细胞沉降率(ESR)和C反应蛋白(CRP)变化,腰痛疼痛视觉模拟评分(VAS)、日本骨科协会评分(JOA)、Oswestry功能障碍指数(ODI)评估患者临床恢复情况;影像学方法测量术前及末次随访时腰椎前凸角(LL)和椎间隙高度(DH),并采用Suk分级标准评估椎间植骨融合情况。结果两组患者均顺利完成手术,且均未发生严重术后并发症。两组患者的性别、年龄、手术节段、手术时间、术前ESR和CRP水平、术前VAS、JOA评分及ODI指数、术前LL和DH等资料比较差异均无统计学意义(P>0.05);UBE-LIF组术中出血量、术后引流量、术后下床时间、术后住院时间明显少于开放组(P<0.001);术中取病变组织行病理学检查,均符合布氏杆菌病改变。两组患者均获随访,随访时间12~18个月,平均14.8个月。两组患者的术后各时间点VAS、JOA评分和ODI指数均较术前明显改善(P<0.05);其中两组在术后1周差异较为明显:UBE-LIF组VAS评分低于开放组(P<0.01),两组CRP均较术前升高且UBE-LIF组升高水平明显低于开放组(P<0.001),两组ESR较术前无明显差异(P>0.05);术后其余各时间点两组间VAS、JOA评分和ODI指数、CRP及ESR比较差异无统计学意义(P>0.05)。末次随访时影像学检查示,UBE-LIF组椎间植骨总体融合率为93.3%,开放组为94.1%,差异无统计学意义(χ^(2)=0.246,P=0.884);两组LL和DH均较术前显著改善(P<0.01),两组手术前后差值比较差异无统计学意义(P>0.05)。结论两种术式治疗LBS均安全有效;与后路病灶清除植骨融合内固定术相比,UBE-LIF技术联合经皮椎弓根螺钉内固定术具有术中视野清晰、出血量少、术后早期恢复更快、术后住院时间更短等优势,是一种可行的微创治疗LBS的手术方式。

99mTc-MDP全身骨断层融合显像半定量技术对前列腺癌骨转移病灶识别的价值研究

目的探讨99mTc-MDP全身骨断层融合显像半定量技术对前列腺癌骨转移病灶识别的价值。方法选择我院于2021年5月~2023年5月前列腺癌患者80例,术后病理显示前列腺癌骨转移患者54例,无骨转移患者26例。所有患者均行99mTc-MDP全身骨断层融合显像半定量技术检查。由1名主治医师和1名主任医师独立完成图像分析。经QMetrix分析即可获得平均标准化摄取值(SUV_(mean))和最大标准化摄取值(SUV_(max))。比较骨转移组与无骨转移组血清前列腺特异性抗原(PSA),SUV_(mean)和SUV_(max)变化;分析99mTc-MDP全身骨断层融合显像诊断骨转移准确率、灵敏度和特异度;Pearson分析PSA与SUV_(mean)和SUV_(max)相关性。结果骨转移组血清PSA水平高于无骨转移组(P<0.05)。骨转移组SUV_(mean)和SUV_(max)值大于无骨转移组(P<0.05)。99mTc-MDP全身骨断层融合显像诊断骨转移准确率为88.89%(48/54)。99mTc-MDP全身骨断层融合显像诊断骨转移灵敏度为79.63%,特异度为80.77%。经Pearson相关性分析显示,PSA与SUV_(mean)和SUV_(max)呈线性正相关(P<0.05)。结论99mTc-MDP全身骨断层融合显像半定量技术对前列腺癌骨转移病灶诊断准确率较高,且具有良好诊断灵敏度和特异度,值得临床借鉴。

后路病灶清除植骨融合内固定手术治疗跳跃性脊柱结核的疗效分析

目的:总结跳跃性脊柱结核的临床特点,探讨一期后路病灶清除植骨融合内固定手术治疗跳跃性脊柱结核的疗效。方法:回顾性分析2016年7月~2022年5月我院手术治疗的31例跳跃性脊柱结核患者的临床资料,其中患者男18例,女13例,年龄49.5±27.5岁。其中2处病灶24例,3处病灶7例。对每例患者明确责任椎,确定手术病灶、融合节段、内固定方式,以制定个体化手术方案,随访29.7±14.7个月(15~85个月)。记录患者手术时间、术中出血量,并记录术中及术后并发症情况;术前和术后1个月、3个月、1年及末次随访的红细胞沉降(ESR)和C-反应蛋白(CRP);术前及术后1周、1个月、3个月、1年及末次随访的疼痛视觉模拟评分(VAS);术前及术后1周、末次随访时病灶后凸Cobb角;记录术前及末次随访时美国脊髓损伤协会(ASIA)分级;末次随访时采用Bridwell骨愈合标准分级以评估术后结核活动性、症状改善、畸形矫正及骨愈合。结果:31例患者中20例(65.4%)只有1处病灶出现临床症状,23例(74.2%)以疼痛为主诉入院,15例(48.4%)在病程中只有疼痛症状,而11例(35.5%)只有1处病灶出现疼痛症状,18例(58.1%)患者初诊时至少有1处病灶漏诊。所有患者手术顺利,手术时间280.0±52.2min(165~330min),失血量567.7±332.0mL(150~1000mL)。术后出现脑脊液漏4例,切口感染3例,经对症处理后痊愈;所有结核病灶均治愈,未出现复发。术前及术后1个月、3个月、1年、末次随访时ESR为41.5±26.3mm/h、16.3±13.4mm/h、12.5±6.3mm/h、11.4±5.2mm/h、9.2±3.1mm/h;CRP为32.8±23.2mg/L、7.3±5.6mg/L、6.2±4.1mg/L、5.1±3.7mg/L、2.8±2.3mg/L;术前及术后1周、1个月、3个月、1年、末次随访时VAS评分为6.4±2.4分、2.4±1.7分、2.3±1.3分、1.6±0.9分、0.9±0.7分、0.4±0.3分。术后各个时间点CRP、ESR、VAS评分较术前均有显著改善(P<0.05)。术前Cobb角25.7°±4.9°,术后1周15.4°±2.1°,末次随访时17.1°±2.3°,术后均较术前有统计学差异(P<0.05);10例存在术前神经功能损伤患者,末次随访时1例术前A级患者恢复至C级;4例术前B级患者1例恢复至C级,3例恢复至D级;5例术前C级患者2例恢复至D级,3例恢复至E级;术后6~12个月42处植骨病灶均获得骨融合,末次随访时34处病灶BridwellⅠ级愈合,8处病灶BridwellⅡ级融合。结论:对跳跃性脊柱结核患者,明确责任椎及各处病灶病变特点,一期后路病灶清除植骨融合内固定手术治疗安全且高效,能得到满意的疗效。

融合多特征的骨签释文实体识别

构建适用于汉长安城骨签释文的命名实体识别模型,用来解决由于汉长安城骨签释文关键内容缺失,而导致无法对部分骨签释文进行分类的问题.本文将汉长安城骨签释文原始文本作为数据集,采用BIOE(begin,inside,outside,end)标注方法对释文实体进行数据标注,并提出融合字结构特征、字词结构特征的多特征融合网络模型(multi-feature fusion network,MFFN).该模型不仅考虑了单个字符的结构特征,还融合了字与词的结构特征,以增强模型对骨签释文的理解能力.实验结果表明,MFFN模型能够更好地识别汉长安城骨签释文的命名实体,实现骨签释文分类,优于现有NER模型,为历史学家和研究人员提供更加丰富和准确的数据支持.

腰骶椎结核单纯后路手术联合局部置管早期持续化疗的临床疗效

目的 探讨单纯后路病灶清除植骨融合内固定联合局部置管早期持续病灶内化疗治疗腰骶椎结核的临床疗效。方法 回顾性分析2014年1月至2018年1月西安交通大学附属红会医院收治的32例腰骶椎结核患者的临床资料,患者均采用单纯后路病灶清除植骨融合内固定联合局部置管早期持续化疗(即术中局部置管、术后1个月内经导管向病灶内持续注入异烟肼)。所有患者腰、骶椎结核均以单节段椎体及椎间隙破坏为主;22例存在椎旁或椎管内少量脓肿,但脓肿范围局限在病变节段范围内,未发生远处流注及两侧腰大肌侵袭。记录手术时间、术中出血量、卧床时间、围手术期并发症、导管注入抗结核药物情况及药物不良反应,评估手术前后疼痛视觉模拟量表(VAS)评分和美国脊柱损伤协会(ASIA)分级,通过腰椎正侧位X线片或三维CT评估植骨融合情况,监测红细胞沉降率(ESR)、C-反应蛋白(CRP)变化。结果 手术时间(116.2±15.4)min,术中出血量(320.2±103.4)m L,卧床时间(4.7±1.2)d;无大血管或神经损伤、硬脊膜破裂病例,伤口均一期愈合,无深部感染发生。随访时间12~24个月(平均15个月)。患者术后4~10个月均获骨性融合;术后3个月ESR、CRP均恢复正常,末次随访VAS评分和后凸Cobb角较术前明显改善(P <0.05)。22例术前存在神经损伤的患者末次随访时均有不同程度恢复;末次随访未见结核复发,随访期间无结核药物严重不良反应发生。结论 对以椎体及椎间隙破坏为主、椎旁或椎管内脓肿范围局限、伴节段不稳及神经损伤的单节段腰骶椎结核,予以单纯后路手术联合局部置管早期持续病灶内化疗可获得满意疗效。