Minimally invasive anterior approach for kyphoplasty of the first thoracic vertebra in a patient with multiple myeloma.

A vertebral body collapse of the first thoracic vertebra (T1) was diagnosed after radiological investigation in an adult male suffering for severe dorsal pain due to suspected multiple myeloma (MM). According to the principles of minimally invasive neurosurgery and the aesthetic needs of the patient, an open T1 kyphoplasty was performed by means of a right anterior approach through the inferior brow of the neck, generally utilized for the anterior approaches to the cervical spine. The histological examination confirmed the diagnosis of MM and the postoperative radiological investigation showed a good vertebral body (VB) restoration. No gross neurological deficit was noted and the patient was discharged within a few days after a good recovery. Kyphoplasty is a percutaneous technique utilized by means of a posterior approach for VB restoration from T4 to the fifth lumbar vertebra (L5) in patients with vertebral body compression fractures (VCFs) of osteoporotic, traumatic and neoplastic origin. Anatomic obstacles make the performance of posterior kyphoplasty from T1 to T4 very difficult. To the best of our knowledge no anterior approach for T1 kyphoplasty has been reported in the literature. Our experience gives us the opportunity to emphasize this approach and this technique for the minimally invasive treatment of the VCFs of this segment of the spine.     

Kyphoplastik im konventionellen und halboffenen Verfahren

Kyphoplasty is a young method which was developed for the minimally invasive augmentation of osteoporotic vertebral fractures. In contrast to vertebroplasty, the kyphoplasty technique allows an age-dependent fracture reduction through the inflation of a special balloon in the fractured cancellous bone of the vertebral body. The cancellous bone of the fracture zone is compressed by the balloon, so that a cavity remains in the vertebral body after removing the balloon, which is filled with highly viscous augmentation material. The reduced risk of serious complications, for example epidural leakage of augmentation material, justifies progressively expanding the indications for this technique to traumatic fractures with involvement of the posterior vertebral wall and neoplastic vertebral collapse due to osteolytic metastasis. Besides the indications for the conventional percutaneous approaches, the microsurgical interlaminary approach allows the use of kyphoplasty in more complex fractures involving compression of the neural structures. Kyphoplasty induces swift pain relief and allows rapid mobilisation of patients due to the immediate stabilisation of the affected vertebral bodies. Apart from the operative intervention, the medical treatment of the primary disease and the rehabilitation of the individual patient should be optimised through an interdisciplinary approach.     

Ballonkyphoplastie

Kyphoplasty is a reliable, minimally invasive method to stabilize fractured vertebral bodies. Under economic aspects kyphoplasty seems advantageous compared with conservative treatment in patients with osteoporotic fractures as well as in younger persons after traumatic spine fractures. Both groups show a better outcome after kyphoplasty regarding pain, function and recovery of height of the treated vertebral body. Specifically young trauma patients benefit from this technique with short hospitalization and early return to work.     

Refracture of osteoporotic vertebral body concurrent with cement fragmentation at the previously treated vertebral level after balloon kyphoplasty: a case report

Kyphoplasty has been shown to provide symptomatic relief of vertebral compression fractures refractory to medical therapy. However, few reports have focused on refracture of cemented vertebrae after kyphoplasty. The presence of cemented vertebrae refracture concurrent with cement fragmentation is an extremely rare condition. We reported an 86-year-old man with a T12 osteoporotic compression fracture undergoing the kyphoplasty treatment. The patient postoperatively continued to have back pain at the same level. The solid lumped polymethylmethacrylate (PMMA) mass and inadequate use and insufficient filling of PMMA cement were observed in postoperative radiographs and magnetic resonance image (MRI) examination. He refused to receive the surgical intervention, but had not strict compliance with oral anti-osteoporotic medications. Ten months postoperatively, refracture of osteoporotic vertebral body concurrent with cement fragmentation occurred at the previously kyphoplasty-treated vertebral level. Bone mineral analysis showed severe osteoporosis with a T-score of ?4.0. The patient finally obtained therapeutic benefit of pain relief and bony union of T12 vertebral body by consistently adhering to anti-osteoporotic medication treatment. This case illustrated that patients who underwent kyphoplasty to treat osteoporotic vertebral compression fractures with intravertebral fracture should be strictly followed up and supervised in their anti-osteoporotic medication treatment. The interdigitation injection pattern of PMMA and sufficient PMMA filling with trabeculae in the kyphoplasty procedure also might prevent refracture of the cemented vertebrae concurrent with PMMA fragmentation.     

Efficacy of percutaneous kyphoplasty in treating osteoporotic multithoracolumbar vertebral compression fractures

Percutaneous kyphoplasty is a minimally invasive technique that has become an effective and routine alternative for managing osteoporotic vertebral compression fractures. This article reports the clinical outcome of a series of 54 cases of osteoporotic thoracolumbar vertebrae compression fractures treated by percutaneous kyphoplasty. Fifty-four patients with confirmed osteoporosis and at least 1 level of thoracolumbar vertebrae compression fracture were retrospectively selected. Pre- and postoperative and last follow-up clinical evaluation and radiological data were analyzed, including change of visual analog scale (VAS), reduced use of painkillers, locomotor activity, Cobb's angle, and average vertebral body height. Mean follow-up was 20.4 months (range, 6-36 months). In all cases, percutaneous kyphoplasty treatment was successful, significantly increasing vertebral body height, diminishing kyphosis in the fractured vertebrae, and decreasing painkiller use. In all patients, percutaneous kyphoplasty partially or completely relieved back pain. No new deformity was found within the follow-up period, nor were any other complications. The cement leakage rate was 3.86% (8 of 207 vertebrae) with percutaneous kyphoplasty, but no neurological or other complaints were received. Percutaneous kyphoplasty is a simple and safe procedure in managing osteoporotic vertebrae compression fractures. It relieves pain quickly, restores vertebral height, prevents further fracture, and improves patient quality of life.     

老年骨质疏松椎体压缩骨折的经皮椎体后凸成形术

目的探讨椎体后凸成形术治疗老年骨质疏松椎体压缩骨折的手术技术及适应证等相关问题。方法用椎体后凸成形术治疗老年骨质疏松椎体压缩骨折20例,采用经皮穿刺双侧椎弓根入路,单枚球囊依次撑开压缩的椎体,每个椎体充填骨水泥平均5·2ml。结果20例患者腰背部疼痛在术后24h缓解并下床活动,椎体高度基本恢复,后凸畸形平均矫正18°。随访6~18个月,患者均恢复伤前生活状况,无脊髓神经损伤、骨水泥漏、肺栓塞等并发症。结论椎体后凸成形术能达到缓解疼痛、恢复椎体高度的目的,是治疗老年骨质疏松椎体压缩骨折的有效方法。但必须熟练掌握椎体后凸成形术的经皮穿刺技术、骨水泥灌注技术及掌握手术适应证,才能保证这一技术的安全性和有效性。     

Preliminary outcomes and efficacy of the first 360 consecutive kyphoplasties for the treatment of painful osteoporotic vertebral compression fractures.

BACKGROUND CONTEXT: Osteoporosis is a major cause of morbidity in worldwide elderly populations. Patients may become susceptible to vertebral compression fractures (VCFs) from low-impact situations. For patients who have failed conventional, palliative medical therapy, kyphoplasty not only reduces pain associated with vertebral fractures, but also offers a minimally invasive procedure with the potential to address fracture reduction and spinal sagittal alignment. Kyphoplasty involves expanding an inflatable balloon tamp to create a cavity within a vertebral body before cement deposition. PURPOSE: To evaluate the safety and efficacy of kyphoplasty to reduce and fix painful osteoporotic VCFs. STUDY DESIGN/SETTING: A retrospective, single-arm cohort study of consecutive kyphoplasty patients treated at a single center. PATIENT SAMPLE: Three hundred sixty VCFs were treated during 254 kyphoplasty procedures on 222 osteoporotic patients (mean age, 76 years [range, 28-98]; 28% male and 72% female). OUTCOME MEASURES: Patient-reported pain ratings were examined. Cement extravasation was monitored by intraoperative fluoroscopy and on postoperative radiographs. Anterior and midline vertebral height were assessed from standing, lateral radiographs obtained preoperatively and postoperatively. The number of patients who returned with symptomatic, new fractures was monitored. Perioperative complications were recorded. Mean follow-up occurred 21 months after kyphoplasty (range, 6 months through 36 months). RESULTS: Immediate pain relief was reported by 89% of patients by the first follow-up visit. One patient experienced postoperative pain as a result of radiculopathy related to bone filler leakage into the foramen. The remaining patients had persistent pain and were diagnosed with either a new fracture or underlying degenerative disc disease. Greater than or equal to 20% restoration of lost vertebral height (anterior) was observed in 63% of fractures with an overall mean restoration of 30%, and > or = 20% restoration of lost vertebral height (midline) was detected in 69% of fractures with an overall mean restoration of 50%. In this cohort, 12% (30/254) of the patients required additional kyphoplasty procedures to treat 36 symptomatic, new adjacent and remote fractures. No device-related complications occurred. CONCLUSIONS: Kyphoplasty is a safe and effective, minimally invasive procedure for relief of pain associated with VCF. In our series we also demonstrated some restoration of vertebral height and partial correction of sagittal alignment.     

气囊扩张椎体后凸成形术的初步报告

目的:初步评价气囊扩张后突成形术治疗骨质疏松性椎体压缩骨折的手术操作、安全性、及疗效。方法:观察21例骨质疏松患者,30节椎体,新鲜骨折24椎节,陈旧性骨折6椎节,均有局部腰背疼痛,无神经症状。C-arm透视下,两侧同时经皮穿刺,气囊扩张骨折复位后,骨水泥灌注入椎体。随访4～7月。记录患者局部止痛的疗效,骨折的复位,及并发症等情况。结果:完全止痛14例,部分止痛7例,24节新鲜骨折气囊扩张的复位率是28.2％,6节陈旧性骨折复位率是2.1％。并发症2例,骨水泥外漏到椎间隙。其他椎体再次骨折2例,余无疼痛复发及椎体高度丢失。结论:气囊扩张后突成形术能恢复脊柱的稳定性,部分矫正脊柱后突,止痛疗效好,创伤小,并发症少,值得推广。     

椎体后凸成形术治疗多发性老年骨质疏松脊柱骨折

目的 探讨应用球囊扩张椎体后凸成形术(Kyphoplasty)治疗多发性老年骨质疏松性脊柱骨折的疗效和安全性。方法 治疗8例17椎多发性老年骨质疏松性脊柱骨折,患者均不伴神经损伤,术前X线及MRI检查证实多发性脊柱骨折,手术在C型臂X线机透视下进行,经皮穿刺,置入可扩张球囊于伤椎塌陷终板前下方,扩张球囊提升终板以恢复椎体高度,在持续X线监视下注入骨水泥强化椎体,同法完成各伤椎的操作。结果 8例17椎均顺利完成手术,术后无脊髓神经根受损表现,48h内疼痛均缓解。X线片复查示伤椎高度基本恢复,后凸畸形大部矫正,未发现并发症。结论 球囊扩张椎体后凸成形术治疗多发性老年骨质疏松脊柱骨折安全有效。     

Minimally invasive treatment of osteoporotic vertebral body compression fractures.

BACKGROUND CONTEXT: Seven hundred thousand osteoporotic compression fractures occur yearly. Approximately 260,000 lead to severe pain, and 150,000 require hospital admissions. Associated with the fractures are increased loss of pulmonary function (90% decreased forced vital capacity per fracture level) and an increase in gastrointestinal complications (early satiety, and therefore malnutrition) and increased mortality (greater than that associated with osteoporotic hip fractures). New treatments available for these painful disorders include kyphoplasty and vertebroplasty. The injections of polymethylmethacrylate into the vertebrae (vertebroplasty technique) decrease pain and improve function. Kyphoplasty (percutaneous placement of a balloon tamp to improve height and create a void, and then the filling of this void with cement) improves function, decreases pain and helps realign the spine. PURPOSE: To compare kyphoplasty and vertebroplasty, and assess their various merits, treatment indications, and outcomes. STUDY DESIGN/SETTING: Literature review with presentation of early results of a national, clinical study. METHODS: Literature review for overview. Retrospective chart/patient review for clinical data presented on kyphoplasty. RESULTS: Ninety-five percent of individuals treated for painful osteoporotic compression fractures have significant improvement in symptoms and function after kyphoplasty or vertebroplasty. Kyphoplasty improves vertebral body height and kyphotic alignment by 50%, if performed within 3 months of the onset of the fracture collapse. CONCLUSIONS: Vertebroplasty and kyphoplasty both have roles in the treatment of painful osteoporotic compression fractures. Only kyphoplasty helps improve height and kyphosis, which should help prevent pulmonary and gastrointestinal complications.     

Evolution of bone mineral density after percutaneous kyphoplasty in fresh osteoporotic vertebral body fractures and adjacent vertebrae along with sagittal spine alignment

STUDY DESIGN: Prospective controlled cohort study of 27 adult osteoporotic patients who underwent kyphoplasty for fresh osteoporotic spinal fractures. OBJECTIVES: To define the evolution of vertebral bone mineral density (BMD) at kyphoplasty and adjacent levels along with sagittal spinal alignment to contribute to the etiology of adjacent vertebral fractures after augmentation. SUMMARY OF BACKGROUND DATA: Osteoporotic compression fractures can be effectively treated with methylmethacrylate vertebral augmentation. However, to the authors' knowledge the effect of vertebral augmentation on the vertebral endplate BMD of the augmented and adjacent nonaugmented levels has not as yet been described. METHODS: Twenty-seven consecutive selected patients (9 men, 18 women), with an average age of 72+/-9 years underwent 1, 2, or 3-level percutaneous kyphoplasty for painful fresh osteoporotic vertebral fractures at the thoracolumbar spine. All patients were radiologically examined with plain roentgenograms, computed tomography, and magnetic resonance imaging. Lateral dual energy x-ray absorptiometry in the augmented and on the adjacent vertebrae (1 level above and below kyphoplasty) was used to measure BMD preoperatively to the last postoperative observation in the subchondral bone of the vertebral endplates. Anthropometric data, sagittal global balance (plumbline), and segmental spine reconstruction (vertebral body height, Gardner kyphotic angle) were recorded and analyzed. The patients were followed for at least 2 years. RESULTS: Kyphoplasty was performed between T12 and L5. A total of 48 vertebral bodies were augmented. Thirteen patients received 1 level and the remaining 14 received 2 or 3-level kyphoplasty. No significant changes in the sagittal spinal balance were shown postoperatively. Gardner kyphotic angle and posterior vertebral body height improved postoperatively, however, insignificantly. Significant [analysis of variance (ANOVA), P=0.008] increase of anterior vertebral body height in the fractured vertebra was achieved postoperatively without subsequent loss of correction. BMD increased significantly in the lower endplate of the augmented vertebra (ANOVA, P=0.05). In 1-level augmentation, no BMD changes were shown at the adjacent vertebrae above and below kyphoplasty. On the contrary, in the multilevel augmentation, a statistically significant (ANOVA, P=0.05) decrease of the BMD was shown in the upper endplate of the adjacent level above kyphoplasty. During the 2-year follow-up, there were 5 (18%) new fractures at the T11-T12 area above the augmented vertebra. All of the fractures occurred in patients who received 2 and 3-level kyphoplasty. CONCLUSIONS: The observed 2-year evolution of vertebral endplate BMD, after kyphoplasty under stable global sagittal spinal balance, might contribute to the pathogenesis of new fractures in adjacent vertebra. However, other studies with control series and longer follow-up are necessary to show if these BMD changes are the result of vertebral augmentation or are merely natural history.     

Osteoporosebedingte Wirbelkörperfrakturen

Vertebral compression fractures are among the most common forms of manifestations of osteoporosis. Conservative treatment comprises adequate analgesia, osteoporosis medication and individualized physiotherapy or braces. Nevertheless, vertebral compression fractures frequently lead to persisting pain and decrease daily activity and quality of life. In these cases, kyphoplasty and vertebroplasty can be efficient treatment options. Vertebroplasty is a minimally invasive procedure, in which bone cement is filled into the vertebral body under fluoroscopic control. In most cases, this internal stabilization leads to a rapid reduction in pain. Kyphoplasty additionally aims to correct the kyphotic deformation of the broken vertebra via introducing and inflating a balloon catheter. There is broad clinical experience with both procedures. For kyphoplasty, randomized controlled trials showed significant improvements in pain and quality of life in patients undergoing kyphoplasty. However, cement leakages lead to rare but severe complications such as pulmonary embolism and nerve palsies.     

Die Wertigkeit der Ballonkyphoplastie bei der osteoporotischen Wirbelkörperfraktur

BACKGROUND DATA: Patients with osteoporotic vertebral compression fractures frequently complain of pain and a loss of function and mobility. Such fractures are associated with an increased mortality. The common treatment with bed rest, bracing or osteosynthesis does not lead to satisfying results. With two new surgical techniques, vertebroplasty and kyphoplasty, an internal stabilisation of osteoporotic vertebral fractures is possible. METHODS: All patients were treated by kyphoplasty. With a minimal invasive dorsal approach, an inflatable bone tamp is placed in the fractured vertebral body. This tamp can restore the vertebral body height and create a cavity, which is filled with bone cement under low pressure. The advantage of kyphoplasty compared to vertebroplasty is the restoration of the vertebral height and a decreased cement leakage rate. We performed a prospective, interdisciplinary study with a follow-up of 12 months. We treated 192 vertebral fractures in 102 patients. Augmentation was performed with polymethylmethacrylate in 138 cases and with a new injectable calcium phosphate-cement in 54 vertebral bodies. Outcome data were obtained with two different spine-scores and by the radiomorphometric evaluation of x-rays before and after treatment. RESULTS: We noticed a significant improvement in pain and function in 89% of the patients. All patients showed a regain of vertebral height of on average 17%. In 7% of all treated vertebral bodies, we noticed cement leakage, which was, however, far below the rates published for vertebroplasty (20-70%). There were two complications, bleeding due to an unknown coagulopathy and a violation of the myelon by malpunction. CONCLUSION: Kyphoplasty is a reliable and minimally invasive method for stabilizing fractured osteoporotic vertebral bodies. Improvement of pain and function and a regain in height of the treated vertebral body can be accomplished.     

Non-traumatic compression fractures of the thoracic spine following a seizure -- treatment by percutaneous kyphoplasty.

A 26-year-old male presented with acute mid-thoracic back pain following a witnessed grand mal seizure. There was no trauma and the patient was on steroids for systemic lupus erythematosus. X-rays and CT scans of the thoracic spine revealed compression fractures at T5 and T6, with 50 % loss of vertebral height and kyphosis. He underwent percutaneous kyphoplasty of both vertebrae, with symptomatic improvement. Non-traumatic compression fractures of the thoracic spine following seizures are a rare injury. This may be related to the compressive forces exerted on the vertebral column by the contractions of the truncal muscles, during a seizure. These compression fractures are suitable for treatment by minimally invasive techniques, such as kyphoplasty.     

Extended kyphoplasty indications for stabilization of osteoporotic vertebral compression fractures

OBJECTIVES: Percutaneous vertebroplasty with polymethylmethacrylate allows minimally invasive stabilization of osteoporotic vertebral fractures. Fracture reduction is, however, not possible and the risk of uncontrolled epidural cement leakage with burst fractures is increased. Kyphoplasty, in contrast, allows a degree of fracture reduction and provides an extended spectrum of indications through open approaches, which enable spinal decompression and augmentation of incomplete burst fractures. METHODS. In kyphoplasty a contrast-filled balloon is inflated in the vertebra until a cavern is created. A degree of reposition may be achieved depending on fracture age. Augmentation is performed with high-viscosity polymethylmethacrylate under low pressure. In cases of neural compression, interlaminary spinal decompression and kyphoplasty through the posterior wall is performed. With anterior spinal procedures, kyphoplasty can be performed without extending the approach. RESULTS: Vertebral augmentation was performed by percutaneous, interlaminary, and anterior approaches for incomplete burst fractures. Four representative cases are presented from a collective of 120 augmentations. CONCLUSIONS: Percutaneous kyphoplasty, supplemented by open approaches, enables augmentation of osteoporotic incomplete burst fractures.     

Respective contributions of vertebroplasty and kyphoplasty to the management of osteoporotic vertebral fractures

Among individuals aged 50-80 years, 5-20% have one or more vertebral crush fractures. One-third of these patients require treatment for acute or chronic pain. Vertebroplasty and kyphoplasty were introduced over the last two decades as treatments for incapacitating pain from osteoporotic vertebral fractures. Both techniques proved effective and safe in numerous retrospective and prospective studies. They now deserve to be incorporated into the standard treatment strategy for painful and incapacitating vertebral fractures. Kyphoplasty seeks not only to stabilize the vertebra, but also to correct the kyphosis induced by the vertebral body collapse. However, the correction is often limited (less than 15 degrees ) and has not been shown to increase the benefits in terms of pain relief or quality-of-life improvement, compared to vertebroplasty. Kyphoplasty is more costly than vertebroplasty, which is therefore emerging as the treatment of choice. However, a randomized double-blind trial comparing vertebroplasty and kyphoplasty is needed. Furthermore, a randomized comparison of vertebroplasty or kyphoplasty versus noninterventional treatment is needed in patients admitted for pain immediately after a vertebral crush fracture.     

Treatment of osteoporotic compression fracture of thoracic/lumbar vertebrae by kyphoplasty with SKY bone expander system

Objective： To investigate prospectively the effectiveness ofkyphoplasty with SKY bone expander system in treatment of compression fracture of thoracic/ lumbar vertebrae and correction of the deformity. Methods： Twenty-five patients with thoracic/lumbar vertebral osteoporotic compression fracture were admitted to our hospital between March 2007 and March 2008, and treated by kyphoplasty with SKY bone expander system. Patient＇s pain status was rated with Visual Analogue Scale （VAS） score system 1 day before and 1 hour, 48 hours, 6 months, 12 months after surgery. In addition, Rolland-Mor- ris and Oswestry disability questionnaires （RDQ and ODI） were used for survey 1 day before and 1, 6, 12 months after surgery. Pre- and post-operative vertebral heights and Cobb＇s angles were measured based on the X-ray films and statistically analyzed. Results： There were 27 fractured vertebrae in these 25 patients. After SKY kyphoplasty, the Cobb＇s angles （9.8°±9.76°） were significantly reduced compared with preoperative angles （17.18°±9.35°, P〈0.05）, and the average improve- ment rate was 39%. Patients＇ pain VAS scores were also greatly improved after operation （P〈0.05）. Moreover, postoperative RDQ and ODI scores were significantly smaller than preoperative values （P〈0.05）. Conclusions： Kyphoplasty with SKY bone expander system provides an effective method for treating thoracic/ lumbar vertebral osteoporotic compression fracture, with the advantages of small surgical wound and short duration. It can effectively recover the anterior and medial heights of fractured vertebrae （33% and 50%, respectively）, reduce the Cobb＇s angle, quickly alleviate pain and improve patients＇ quality of life in a relatively short time period.     

Biomechanical evaluation of kyphoplasty and vertebroplasty with calcium phosphate cement in a simulated osteoporotic compression fracture

 Kyphoplasty and vertebroplasty with polymethylmethacrylate (PMMA) have been used for the treatment of osteoporotic vertebral compression fractures. We performed kyphoplasty and vertebroplasty with α-tricalcium phosphate cement (CPC) and PMMA to compare the biomechanical properties. Thirty osteoporotic vertebrae were harvested from nine embalmed cadavers. We randomized the vertebrae into four treatment groups: (1) kyphoplasty with CPC; (2) kyphoplasty with PMMA; (3) vertebroplasty with CPC; and (4) vertebroplasty with PMMA. Prior to injecting the cement, all vertebrae were compressed to determine their initial strength and stiffness. They were then recompressed to determine their augmented strength and stiffness. Although the augmented strength was greater than the initial strength in all groups, there was no significant difference between the two bone cements for either kyphoplasty or vertebroplasty. The augmented stiffness was significantly less than the initial stiffness in the kyphoplasty groups, but the difference between the two cements did not reach significance. In the vertebroplasty groups, the augmented stiffness was not significantly different from the initial stiffness. There was no significant difference between the two bone cements for either procedure when cement volume and restoration of anterior height were assessed. We concluded that kyphoplasty and vertebroplasty with CPC were viable treatment alternatives to PMMA for osteoporotic vertebral compression fractures. Received: July 18, 2002 / Accepted: November 6, 2002 Offprint requests to: S. Tomita     

Reduction of pain and fracture incidence after kyphoplasty: 1-year outcomes of a prospective controlled trial of patients with primary osteoporosis

Previously, we reported significantly reduced pain and improved mobility persisting for 6 months after kyphoplasty of chronically painful osteoporotic vertebral fractures in the first prospective controlled trial. Since improvement of spinal biomechanics by restoration of vertebral morphology may affect the incidence of fracture, long-term clinical benefit and thereby cost-effectiveness, here we extend our previous work to assess occurrence of new vertebral fractures and clinical parameters 1 year after kyphoplasty compared with a conservatively treated control group. Sixty patients with osteoporotic vertebral fractures due to primary osteoporosis were included: 40 patients were treated with kyphoplasty, 20 served as controls. All patients received standard medical treatment. Morphological characteristics, new vertebral fractures, pain (visual analog scale), physical function [European Vertebral Osteoporosis Study (EVOS) score] (range 0–100 each) and back-pain-related doctors visits were re-assessed 12 months after kyphoplasty. There were significantly fewer patients with new vertebral fractures of the thoracic and lumbar spine, after 12-months, in the kyphoplasty group than in the control group (P=0.0084). Pain scores improved from 26.2 to 44.4 in the kyphoplasty group and changed from 33.6 to 34.3 in the control group (P=0.008). Kyphoplasty treated patients required a mean of 5.3 back-pain-related doctors visits per patient compared with 11.6 in the control group during 12 months follow-up (P=0.006). Kyphoplasty as an addition to medical treatment and when performed in appropriately selected patients by an interdisciplinary team persistently improves pain and reduces occurrence of new vertebral fractures and healthcare utilization for at least 12 months in individuals with primary osteoporosis.