In vivo glenohumeral contact forces--measurements in the first patient 7 months postoperatively

Knowledge of forces in the glenohumeral joint is essential for understanding normal and pathologic shoulder function. It forms the basis for performing fracture treatment or joint replacement surgery, for optimizing implant design and fixation and for improving and verifying analytical biomechanical models of the shoulder. An instrumented shoulder implant with telemetric data transmission was developed to measure six components of joint contact forces and moments. A patient with humeral head arthrosis achieved good joint function after its implantation. During the first 7 postoperative months, the contact force remained below 100% BW (percent body weight) for most activities of daily living. It ranged up to 130% BW for arm positions close to the limits of motion or when acting against external resistance. When the patient tried to turn a blocked steering wheel with maximum effort, the force rose to about 150% BW, the highest level observed thus far. Of great interest were the force directions relative to the humerus, especially those in the sagittal plane, which were not greatly influenced by the type of exercise, the arm position or the external resistance. The moments due to friction in the joint reached 5.2 Nm. The friction-induced shift of contact forces relative to the implant head centre ranged up to 6.3mm. These first worldwide in vivo measurements of glenohumeral contact forces are being continued in more patients and for longer postoperative times.     

Internal forces and moments in the femur of the rat during gait

The rat is of increasing importance for experimental studies on fracture healing. The healing outcome of long bone fractures is strongly influenced by mechanical factors, such as the interfragmentary movement. This movement depends on the stability of the fracture fixation and the musculoskeletal loads. However, little is known about these loads in rats.The musculoskeletal loads during gait were estimated using an inverse-dynamic musculoskeletal model of the right hindlimb of the rat. This model was based on a micro-CT scan of the lower extremities and an anatomical study using 15 rat cadavers. Kinematics were reconstructed from X-ray movies, taken simultaneously from two perpendicular directions during a gait cycle. The ground reaction forces were taken from the literature. The muscle forces were calculated using an optimization procedure.The internal forces and moments varied over the gait cycle and along the femoral axis. The greatest internal force (up to 7 times bodyweight) acted in the longitudinal direction. The greatest internal moment (up to 13.8 bodyweight times millimeter) acted in the sagittal plane of the femur. The validity of the model was corroborated by comparing the estimated strains caused by the calculated loads on the surface of the femoral mid-shaft with those from the literature.Knowledge of the internal loads in the femur of the rat allows adjustment of the biomechanical properties of fixation devices in fracture healing studies to the desired interfragmentary movement.     

A new technique for internal fixation of femoral fractures in mice: impact of stability on fracture healing

Mouse models are of increasing interest to study the molecular aspects of fracture healing. Because biomechanical factors greatly influence the healing process, stable fixation of the fracture is of interest also in mouse models. Unlike in large animals, however, there is a lack of mouse models which provide stable osteosynthesis. The purpose of this study was therefore to develop a technique for a more stable fixation of femoral fractures in mice and to analyze the impact of stability on the process of fracture healing. The new technique introduced herein includes an intramedullary pin and an extramedullary metallic clip. Ex vivo biomechanical analysis revealed a significantly higher implant stiffness of our pin-clip technique when compared with previously described intramedullary fixation techniques. In vivo, we studied the course of healing after the more stable fixation with our pin-clip technique and compared the results with that observed after unstable fixation with the pin-clip technique after cutting the clip. After 2 and 5 weeks of fracture healing radiological analysis demonstrated that the more stable fixation with the pin-clip technique results in a significantly higher union rate compared to the unstable fixation. Torsional stiffness at 5 weeks was almost 3-fold of that measured after unstable fixation. Histomorphological analysis further showed that fractures stabilized with the pin-clip technique healed with a smaller periosteal callus area, an increased fraction of bone and a reduced amount of fibrous tissue. Of interest, the pin-clip fixation showed reliable union after 5 weeks, whereas the unstable pin fixation did not regularly achieve adequate fracture healing. In conclusion, we introduce a novel, easily applicable internal osteosynthesis technique in mice, which provides rotational stability after femoral fracture fixation. We further show that a more stable osteosynthesis significantly improves the process of fracture healing also in mice.     

Biomechanical aspects of the repair of intertrochanteric fractures

A two-dimensional model of a repaired intertrochanteric fracture has been proposed in order to estimate the forces transmitted by a sliding screw implant and at the fracture site. These forces have been estimated from the radiographs of 55 repairs which were previously graded as satisfactory or unsatisfactory. The unsuccessful group was found to have significantly higher fracture angles as well as increased forces and moments transmitted by the implant. The results support the view that increased loading of implant and therefore high stresses in the surrounding cancellous bone contribute to the failure of repairs.     

微创经皮LCP 接骨术治疗老年股骨近端粉碎骨折

目的:本研究通过观察微创锁定钢板接骨术治疗老年股骨近端粉碎骨折临床效果,旨在找出最佳治疗方式。方法:自2007年12月～2010年03月,应用股骨近端锁定加压钢板治疗老年股骨近端粉碎骨折23例。记录术中出血量、手术时间,术后并发症、骨折愈合时间及最后一次随访时功能恢复情况。结果:骨折临床愈合时间为12～28周,平均16周。除1例患者髋内翻畸形,1例锁定加压钢板断裂外,其他患者均达到骨性愈合。结论:股骨近端锁定钢板具有创伤小、固定可靠、骨折愈合快、功能恢复满意的特点,尤其适用于老年股骨近端粉碎骨折。     

两种不同内固定手术对髌骨骨折患者术后膝关节功能恢复的影响

目的:探讨两种不同的手术方式(钛制空心钉结合张力带内固定手术)对髌骨骨折患者的临床疗效和安全性比较。方法:选择2016年6月-2017年10月治疗的髌骨骨折患者72例作为对象,使用随机数字表,随机分为对照组(n=36)和观察组(n=36)。对照组给予常规的克氏针张力带内固定进行手术,观察组则使用空心钉张力带进行固定。治疗后对患者效果进行统计和评估,比较两组患者的术后骨折的愈合时间,功能恢复(最大屈曲角度),髌骨评分以及并发症等指标。结果:根据不同的治疗方式后,观察组(空心钉张力带固定组)在骨折的愈合时间,功能恢复,髌骨评分以及并发症等比较指标中较对照组均有显著优势,其结果具备统计学意义(P<0.05)。结论:将钛制空心钉结合张力带内固定手术用于髌骨骨折与传统的克氏针张力带固定方法相比较,具有操作简便,骨折愈合率高,功能恢复确实,并发症发生率低等诸多优点,值得在临床中进一步推广应用。     

Three-dimensional load measurements in an external fixator

On the basis of a six-degree-of-freedom adjustable fracture reduction hexapod external fixator, a system which can be used for measuring axial and shear forces as well as torsion and bending moments in the fixator in vivo was developed. In a pilot study on 9 patients (7 fresh fractures and 2 osteotomies of the tibia), the load in the fixator during the healing process was measured after 2, 4, 8 and 12 weeks and at fixator removal. The measured values enabled both the type of fracture to be determined as well as the monitoring of the healing process. In well-reduced type A3 fractures small axial (direction of the bone axis) forces were found in the fixator. A2, B2 and C3 fractures showed distinct axial forces, which decreased during the healing process, according to an increasing load transfer over the bone. Bending moments in the fixator showed good correspondence with the clinical healing process, except in the case of a C3 fracture. A combination of bending moment and axial force proved to be particularly suitable to assess fracture healing. In transverse fractures, the well-known resorption phenomenon of bone in the fracture gap at approximately 4 weeks was detected by the system. Compared with other external fixator load measurements in vivo, the hexapod offers the advantage of being able to measure all forces and moments in the fixator separately and with a relatively simple mechanical arrangement. In our opinion, it will be possible to control fracture healing using this system, thereby minimizing radiation exposure from radiographs. Furthermore, the measurement system is a step towards the development of external fixator systems that enable automatic adjustments of the callus mechanical situation ("automatic dynamization") and inform the patients about the optimal weight bearing of their extremity ("intelligent fixator").     

Biomechanical assessment and clinical analysis of different intramedullary nailing systems for oblique fractures

The aim of this study is to evaluate the fracture union or non-union for a specific patient that presented oblique fractures in tibia and fibula, using a mechanistic-based bone healing model. Normally, this kind of fractures can be treated through an intramedullary nail using two possible configurations that depends on the mechanical stabilisation: static and dynamic. Both cases are simulated under different fracture geometries in order to understand the effect of the mechanical stabilisation on the fracture healing outcome. The results of both simulations are in good agreement with previous clinical experience. From the results, it is demonstrated that the dynamization of the fracture improves healing in comparison with a static or rigid fixation of the fracture. This work shows the versatility and potential of a mechanistic-based bone healing model to predict the final outcome (union, non-union, delayed union) of realistic 3D fractures where even more than one bone is involved.     

Evaluation of the mechanical properties and clinical application of nickel–titanium shape memory alloy scaphoid arc nail

To investigate the mechanical and biomechanical properties of nickel–titanium (Ni–Ti) shape memory alloy scaphoid arc nail (NT‐SAN) fixator as well as study the surgical method of treating carpal scaphoid fractures and evaluate its clinical efficacy. (1) Static and dynamic bending tests with embedded axial bending fixture were conducted to study the mechanical properties. (2) To evaluate biomechanical strength and fatigue, 32 scaphoid samples were classified into four groups to perform the fixation rigidity test: intramedullary Kirschner fixation (group A), Kirschner straddle nail fixation (group B), screw nail fixation (group C), and NT‐SAN fixation (group D). Next, 24 scaphoid waist fracture models were classified to conduct fatigue experiments as follows: Kirschner straddle nail fixation (group E), screw nail fixation (group F), and NT‐SAN fixation (group G). (3) The Krimmer score chart was used for clinical evaluations. (1) NT‐SAN showed excellent mechanical performance and a long lifespan. (2) NT‐SAN was fixated with a strong intensity and an anti‐fatigue outcome. (3) Ninety‐eight interviewed patients were satisfied with the therapeutic effects of the arc nail (satisfaction rate: 95.92%). The designed strength and hardness of NT‐SAN corresponded with the anatomical characteristics of the scaphoid, and the designed mechanical properties met the biomechanical requirements of a scaphoid fracture. The fatigue strength can meet the requirements of bone healing after the scaphoid fracture. Clinical trials on NT‐SAN scaphoid fracture treatment have shown that the surgery is simple and the clinical results are satisfactory. The therapeutic level of NT‐SAN is III; thus, it is worth promoting.     

Experimental and probabilistic analysis of distal femoral periprosthetic fracture: a comparison of locking plate and intramedullary nail fixation. Part A: experimental investigation

The following is a two-part study. Part A evaluates biomechanically intramedullary (IM) nails vs. locking plates for fixation of femoral fractures in osteoporotic bone. Part B of this study introduces a deterministic finite element model of each construct type and investigates the probability of periprosthetic fracture of the locking plate compared with the retrograde IM nail using Monte Carlo simulation. For Part A, an extra-articular, metaphyseal wedge fracture pattern was created in 11 osteoporotic fourth-generation composite femurs. Fixation was performed with a locking plate or a retrograde IM nail. Axial, torsion and bending cyclic loading to simulate post-operative damage accumulation were performed followed by ramped load to failure. Locking plates proved to be more stable (using stiffness as the determining factor) in osteoporotic bone as observed under low load cycle conditions. However, some of these advantages were offset by a greater incidence of sudden periprosthetic fracture observed under ramped loading conditions. Cadaveric, osteoporotic femurs included as a case study also exhibited periprosthetic fracture, but failure was accompanied by catastrophic comminution of the cortex. Periprosthetic failure at the implant end including bone comminution is difficult to salvage with revision fixation. The weakened trabecular matrix and thinned cortex of osteoporotic bone may increase the incidence of periprosthetic fracture. It is, therefore, essential for the surgeon to consider all possible loading scenarios when recommending an ideal implant for the osteoporotic patient.     

Four-channel telemetry system for in vivo measurement of hip joint forces

The long-term loosening of artificial hip joints remains a serious clinical problem. Optimization of implant design and material will improve the fixation, but it requires a detailed knowledge of the forces which act on the implant. A four-channel telemetric transmitter was developed and arranged completely inside a hermetically closed artificial hip joint. This permits long term in vivo measurements of the three-dimensional forces without endangering the patient. The external telemetry system consists of an inductive power supply, an RF receiver, a microcomputer with hardware extension and a VHS video system. The personal computer offers real-time data processing of three orthogonal force components as well as slow motion analysis of recorded measurements. After several years of animal tests, two instrumented prostheses were implanted in the first patient (male) in May and August of 1988. In March 1990 a third prosthesis was implanted in a second patient (female). Joint force measurements have regularly been performed from the first post-operative day until now for several kinds of activity.     

A method for in vivo measurements of implants used in the reconstruction of spinal fractures]

Little is known about the forces and moments acting on the spinal column during various movements and activities, and thus about the loading of implants used in the treatment of spinal fractures. A measuring method using an external fixation device was developed to determine the in vivo loading of spinal implants. On the basis of these data the forces acting on the spine can be calculated. The present paper describes this measuring method as applied to the fixation device, and initial experience with this device in a first application is presented.     

动力髋螺钉与股骨近端髓内钉治疗老年股骨近端骨折的临床疗效比较

目的:比较动力髋螺钉与股骨近端髓内钉治疗老年股骨近端骨折的临床疗效和安全性。方法:收集我院收治的老年股骨近端骨折患者64例,随机分为DHS组和PFN组,每组各32例。DHS组患者给予动力髋螺钉的固定方式,PFN组给予股骨近端髓内钉的固定方式。手术后对患者的手术切口长度、术中出血量、手术时间、骨折愈合时间、术后并发症以及患者临床疗效进行检测并比较。结果:与治疗前相比,两组患者治疗后的Harris评分均显著下降(P0.05);与DHS组相比,PFN组患者的手术切口长度、术中出血量、手术时间、骨折愈合时间、术后并发症的发生率以及Harris评分均较低(P0.05)。结论:股骨近端髓内钉的固定治疗老年股骨近端骨折的临床疗效较好,安全性更高。     

Atypical Femoral Fracture in an Osteogenesis Imperfecta Patient Successfully Treated with Teriparatide

ObjectiveWe report a case of a successfully healed atypical femoral fracture (AFF) following treatment with teriparatide in a patient with osteogenesis imperfecta (OI). To our knowledge, no successful treatment of AFFs with teriparatide in this subpopulation has ever been described.MethodsThis is a case report of an AFF treated with teriparatide.ResultsThe patient was treated with hormone replacement therapy for 18 years and bisphosphonates for 9 years before suffering a spontaneous AFF in the form of a dislocated noncomminute transverse fracture of the right femoral shaft, and an open reduction and internal fixation (ORIF) with a T2 Femoral Nail was done. Due to nonunion and another fracture distal to the nail, the patient was reoperated on with exchange ORIF and off-label treatment with teriparatide 20 μg/day was started. An X-ray 1 month later showed early signs of fracture healing. A subsequent X-ray 6 months after the last operation showed a solid healing of both right femoral fractures.ConclusionThis is a rare case that highly suggests a potential fracture healing effect of teriparatide treatment and highlights a potential significant practical therapeutic consideration in relation to the management of AFF with delayed healing. (Endocr Pract. 2014;20:e187-e190)     

逆行可膨胀髓内钉与锁定钢板治疗股骨远端骨折的疗效比较

目的:探讨比较运用逆行可膨胀髓内钉与股骨远端锁定钢板治疗股骨远端33A、33C1型骨折的疗效。方法:对2013年3月至2015年6月收治并符合纳入标准的43例股骨远端33A、33C1型骨折患者进行回顾性研究。按照不同的手术固定方式分为逆行可膨胀髓内钉组(n=18)和锁定钢板组(n=25),记录并比较两组手术时间、失血量、愈合时间及功能结果、术中及术后并发症。结果:所有骨折最终都获得愈合;逆行可膨胀髓内钉组在手术时间及失血量上都显著低于锁定钢板组,两组在愈合时间及功能评定方面无明显差异;5例开放性骨折的患者中1例出现浅表伤口感染,1例患者延迟愈合。结论:股骨远端逆行可膨胀髓内钉在获得与锁定钢板相当的骨折愈合时间及患肢功能的情况下,具有操作简单、手术时间短、失血量少等特点,对于股骨远端33A、33C1型骨折来说是一个较好的选择。     

近端防旋髓内钉与近端锁定钢板治疗老年股骨转子间不稳定骨折的疗效对比分析

目的:分析对比股骨近端防旋髓内钉(PFNA)与股骨近端锁定钢板(PFLP)治疗老年股骨转子间不稳定骨折的临床疗效。方法:回顾性分析我院骨外科2009年4月至2013年4月收治的老年股骨转子间不稳定骨折患者90例,根据患者手术方式的不同,将其分为PFNA组及PFLP组,各45例。对比分析两组患者术中出血量、手术持续时间及骨折愈合时间术后髋关节功能及内固定并发症情况。结果:PFNA组髋关节功能Harris评分优良率91.11%明显高于PFLP组的71.11%(P0.05);PFNA组比PFLP组骨折愈合时间短、内固定并发症少,比较差异有统计学意义(P0.05)。结论:应用PFNA治疗老年股骨转子间不稳定骨折患者具有骨折愈合时间短、髋关节功能恢复好、术后内固定并发症少的特点,治疗效果较PFLP更满意。     

交锁髓内钉与锁定加压钢板内固定对股骨干骨折患者膝关节功能及创伤相关指标的影响

目的:探讨交锁髓内钉(IIN)与锁定加压钢板(LCP)两种内固定方法对股骨干骨折(FSF)患者膝关节功能及创伤相关指标的影响。方法:回顾性分析2015年1月-2018年3月我院收治的97例FSF患者的临床资料,依照内固定方式的不同分为IIN组(n=54)和LCP组(n=43),比较两组患者的术后骨折愈合情况,围术期指标、创伤相关指标、膝关节功能恢复及并发症情况。结果:术后IIN组骨折愈合优良率为92.59%,高于LCP组的76.74%(P0.05),IIN组患者手术时间、住院时间、术中出血量、术后引流量、骨折愈合时间少于LCP组(P0.05);IIN组浅表感染率、内固定物断裂率、骨折延迟愈合率、不愈合率及血清C反应蛋白(CRP)、去甲肾上腺素(NE)、肾上腺素(E)、超氧化物歧化酶(SOD)水平低于LCP组(P0.05);IIN组患者Fugl-Meyer下肢运动评分、美国膝关节协会(KSS)评分高于LCP组(P0.05)。结论:相较于LCP内固定,IIN内固定对FSF患者的创伤较轻,术后并发症较少,可更好地促进骨折愈合及膝关节功能恢复。     

Two decades of biomonitoring polar bear health in Greenland: a review

Background

Different animal models are used as fracture models in orthopaedic research prior to implant use in humans, although biomechanical forces can differ to a great extend between species due to variable anatomic conditions, particularly with regard to the gait. The rabbit is an often used fracture model, but biomechanical data are very rare. The objective of the present study was to measure axial forces, bending moments, and bending axis directly in the rabbit tibia in vivo. The following hypothesis was tested: Axial forces and bending moments in the mid-diaphysis of rabbit tibia differ from other experimental animals or indirectly calculated data.

Methods

A minifixateur system with 4 force sensors was developed and attached to rabbit tibia (n = 4), which were subsequently ostectomised. Axial forces, bending moments and bending angles were calculated telemetrically during weight bearing in motion between 6 and 42 days post operation.

Results

Highest single values were 201% body weight [% bw] for axial forces and 409% bw cm for bending moments. Whereas there was a continous decrease in axial forces over time after day 10 (P = 0.03 on day 15), a decrease in bending moments was inconsistent (P = 0.03 on day 27). High values for bending moments were frequently, but not consistently, associated with high values for axial forces.

Conclusion

Axial forces in rabbit tibia exceeded axial forces in sheep, and differed from indirectly calculated data. The rabbit is an appropriate fracture model because axial loads and bending moments in rabbit tibia were more closely to human conditions than in sheep tibia as an animal model.     

弹性髓内钉与接骨板内固定治疗儿童股骨干骨折的临床疗效对比研究

摘要 目的：对比弹性髓内钉与接骨板内固定治疗儿童股骨干骨折的临床疗效。方法：本研究为回顾性研究,选取我院于2018年3月~2019年8月期间收治的儿童股骨干骨折患者98例,根据固定方式的不同将患儿分为A组（n=50,接骨板内固定治疗）和B组（n=48,弹性髓内钉治疗）,观察两组优良率、术前/术后相关指标及并发症发生情况。结果：B组的优良率高于A组（P<0.05）。B组手术时间、切口长度短于A组,术中出血量少于A组（P<0.05）。B组骨折愈合时间、住院时间、手术至内固定拆除时间、取出内固定手术时间短于A组（P<0.05）。两组患儿并发症发生率对比,差异无统计学意义（P>0.05）。结论：相对于接骨板内固定治疗,弹性髓内钉治疗儿童股骨干骨折,疗效更好,可有效改善术中、术后指标,且不增加并发症的发生率。     

股骨近端抗旋髓内钉法治疗老年股骨转子下粉碎性骨折的效果分析

目的:探讨利用股骨近端抗旋髓内钉法治疗老年股骨转子下粉碎性骨折的临床效果,为临床提供参考。方法:对我院2009年6月-2013年1月收治的38例老年股骨转子下粉碎性骨折患者行股骨近端抗旋髓内钉法进行手术治疗,分析手术方法、效果及患者的预后效果。结果:28例行闭合复位,7例行骨折端切开复位,患者术后7-14d可下地活动,3 m内扶拐部分负重行走,31例(88.6%)获得随访,随访时间9-24个月,骨折愈合时间为3-6个月,平均3.7个月;Harris髋功能评分标准:优18例,良10例,中3例,优良率90.32%(28/31)。结论:PFNA是一种治疗老年股骨转子下粉碎性骨折的有效装置,能够减少骨折不愈合、髋内翻畸形愈合及内固定断裂、切割股骨头等并发症,在治疗老年股骨转子下粉碎性骨折时可达到较高的骨愈合率、较快的功能恢复。