Percutaneous Screw Research Articles

Use of a percutaneous bone fiducial screw for elevating simple closed depressed skull fractures: illustrative cases.

Depressed skull fractures in infants often present as "ping-pong ball" fractures with inward buckling of the calvarium, secondary to trauma. Management varies widely, and few concrete guidelines exist in the literature to guide decision-making when choosing a methodology for fracture elevation. The authors present two cases of attempted depressed skull fracture elevation with traction on a percutaneously placed bone fiducial screw, followed by a review of the literature, in order to further investigate the factors considered when selecting an intervention. An 8-month-old female and a 10-month-old male presented with a right parietal depressed skull fracture. Both underwent attempted fracture elevation with a self-tapping screw anchored into the skull. The authors directly elevated the fracture with the screw technique in the 8-month-old female patient. The 10-month-old male had persistent depressed skull deformity; thus, the authors extended the incision for a standard craniotomy for depressed skull fracture elevation. Percutaneous screw placement may be considered an option in the spectrum of treatment strategies for select patients with depressed skull fractures. Consideration of patient age, skull thickness, and depth of skull fracture can assist with the choice of treatment strategy and the preoperative prediction of the likelihood of fracture elevation success with this technique. https://thejns.org/doi/10.3171/CASE23742.

Percutaneous Screw Fixation for the Management of Delayed Unions in Pediatric Lateral Humeral Condylar Fractures.

The use of in situ screw fixation for the treatment of pediatric lateral humeral condyle (LCH) delayed unions has recently been reported. While attractive, the currently available literature consists of small retrospective studies with mixed results. As such, the present study aims to describe the outcome of a group of children with delayed unions of LCH fractures treated with in situ fixation using a single, percutaneously placed cannulated screw in compression. A retrospective review of all pediatric patients (below 18y) with lateral condyle fractures of the humerus treated surgically for delayed union between 2013 and 2023 at a single, tertiary referral center was completed. Clinical and radiologic variables related to the initial injury and delayed union were abstracted from the medical record, as were surgical variables. Radiographs were evaluated for union postoperatively; time to union was determined by the senior authors. Descriptive statistics were used to summarize demographic and outcome variables. A total of 12 consecutive patients met the inclusion criteria. The mean age at the time of initial injury was 5.6 years; subjects were followed for a mean of 3.0 years following initial presentation. All were treated with a single, percutaneously placed screw in compression at a mean of 10.5 months after the original injury. Radiographic union was achieved in 11 (91.7%) patients. At the latest follow-up, all patients were pain free and demonstrated a functional arc of motion without evidence of avascular necrosis. A total of 2 patients required revision for loss of fixation. In one patient, a persistent lucent line was observed, and 1 patient was found to have a cubitus valgus deformity, both of which were not clinically relevant. Our results suggest that with the use of proper technique (a 4.5 cannulated screw inserted through the metaphyseal portion of the lateral condyle fragment, engaging the most medial/distal aspect of the humeral shaft), radiographic union and clinical healing can be achieved in the majority of patients. Percutaneous screw fixation should be considered as an option for cases of noninfected pediatric lateral condyle delayed unions. Level IV-evidence therapeutic studies.

Three-dimensional-printed guide plate for direct percutaneous pedicle screw implantation in minimally invasive transforaminal lumbar interbody fusion surgery: a retrospective study of 162 patients

BackgroundThis study aimed to investigate the impact of three-dimensional (3D)-printed guide plate-assisted percutaneous pedicle screw implantation on minimally invasive transforaminal lumbar interbody fusion (MIS-TLIF) surgery.MethodsOverall, 162 patients who underwent MIS-TLIF at Tai’an City Central Hospital were retrospectively reviewed. The studied variables included operative time, volume of intraoperative blood loss, fluoroscopy time, postoperative drainage volume, visual analogue scale (VAS) score, Oswestry disability Index (ODI) score (preoperatively and at 2 weeks, 3 months, 6 months, and 12 months after surgery), and intervertebral fusion rate at 6 months after surgery.ResultsThe conventional group included 99 patients who underwent a conventional procedure, while the 3D printing group included 63 patients who underwent 3D-printed guide plate-assisted percutaneous pedicle screw implantation. The conventional group required more times of positioning needle punctures than the 3D printing group (22.2 ± 5.9 vs. 16.1 ± 4.9). The operation and fluoroscopy time were also longer in the former group (183.5 ± 51.1 min vs. 148.8 ± 40.3 min and 30.2 ± 5.9 s vs. 24.1 ± 4.9 s, respectively). In 3D printing group, lower back pain VAS scores and ODI scores at 2 weeks and 3 months after surgery were observed. There were no significant differences in terms of the volumes of intraoperative blood loss; postoperative lower limb pain VAS scores; and interbody fusion rate (P > 0.05).ConclusionThe novel 3D-printed guide plate-assisted percutaneous pedicle screw implantation can achieve better amelioration of back pain and recovery of function. It also reduced the times of positioning needle puncture and fluoroscopy time during percutaneous screw placement surgery and reduced the duration of surgery.

Study of clinical and functional outcome of malleoli fracture

Background: Ankle fractures are a common orthopedic injury, accounting for 9% of all fractures, with an increasing incidence among both young and elderly populations. These fractures often result from road traffic accidents, falls, and sports injuries. Malleolar fractures, involving the bony prominences of the ankle, are particularly prevalent and necessitate accurate reduction and stable internal fixation to prevent complications such as post-traumatic arthritis and restricted motion. This study aims to assess the functional outcomes and results of surgical treatment of malleolar fractures. Methods: The study utilized Lauge-Hansen’s classification to analyze the mechanism of injury in 32 patients with ankle fractures. Surgical techniques included the fixation of syndesmotic injuries with anatomical fibular plates, (AFP) posterior malleolus fractures with percutaneous screws or Ellis plates, and medial malleolus fractures with tension band wiring (TBW). The outcomes were measured in terms of union time, range of motion, and stability. Results: The most common injury mechanism was supination external rotation (SER) in 14 patients, followed by pronation external rotation (PER) in 7 patients, pronation abduction (PAB) in 6 patients, and supination adduction (SAD) in 5 patients. Syndesmotic injuries were found in 7 patients, all treated surgically except one. Posterior malleolus fractures were present in 3 patients and treated with screws or plates. Fixation of medial malleolus fractures with TBW showed better union rates and improved range of motion compared to screw fixation. Lateral malleolar fractures treated with AFP provided additional stability. The average union time was 6 to 8 weeks. Conclusions: Anatomical reduction and stable internal fixation are crucial for the successful treatment of malleolar fractures. TBW for medial malleolus fractures and AFP for lateral malleolar fractures provide favorable outcomes. However, a larger sample size and longer follow-up duration are required to further evaluate the outcomes of ankle injuries, particularly in older patients with osteoporosis and comorbidities.

Short term efficacy of subtalar arthroscopy combined with medial calcaneal-talar joint distraction in minimally invasive treatment of diabetic patients with calcaneal fractures: a retrospective study

BackgroundThe surgical treatment and management of postoperative soft tissue complications in diabetic patients with displaced calcaneal fractures are still controversial. We aimed to evaluate the short-term efficacy of percutaneous minimally invasive screw fixation in treatment of diabetic patients with Sanders II and III calcaneal fractures under subtalar arthroscopy assisted by preoperative musculoskeletal ultrasonic locating lateral calcaneal branch (LCB) of the sural nerve and calcaneal-talar joint distraction device.MethodsThe clinical data of 52 diabetic patients diagnosed with Sanders II or III calcaneal fractures from March 2016 to August 2020 were followed up and analyzed. There were 23 patients of type II and 29 patients of type III, 34 males and 18 females, with a mean age of 61.7 ± 14.5 years (range: 45–72 years). Preoperative musculoskeletal ultrasonography was routinely examined to locate LCB of the sural nerve. During surgery, we performed arthroscopic percutaneous prying reduction screw fixation assisted by medial calcaneal-talar joint distraction. Incision healing, local skin paraesthesia and other conditions were observed regularly at 3 days, 6, 12 months, and the last follow-up after surgery. Also, we measured the length, width, height, Böhler angle, and Gissane angle of the calcaneus on lateral and axial x-rays. Visual analogue pain scale (VAS), American Orthopedic Foot and Ankle Society (AOFAS) score and Maryland score were used to evaluate the efficacy.Results52 patients were followed up for 23.7 ± 3.2 months (range: 20–28 months) without incision-related complications. Calcaneal radiographic parameters (length, width, height, Böhler/Gissane angle) were improved after surgery, and the differences were all statistically significant (P<0.05). There was no difference between calcaneal radiographic parameters at 6,12 months and the last follow-up compared with 3 days after surgery without significant loss in overall morphology (P>0.05). Postoperative VAS, AOFAS scores, and Maryland scores were significantly improved compared with those before surgery (P<0.05).ConclusionsPreoperative ultrasonic locating LCB of the sural nerve and arthroscopic percutaneous minimally invasive screw fixation of Sanders II and III calcaneal fractures with the assistance of calcaneal-talar joint distraction have good short-term efficacy and clinical feasibility in diabetic patients.

No difference in early outcomes comparing intramedullary versus extramedullary fibular fixation in operative ankle fractures

IntroductionThe purpose of this study was to compare postoperative complications and outcomes of minimally invasive intramedullary fixation (IMF) versus plate fixation (PF) in the treatment of distal fibular fractures. Materials and methodsA retrospective review was performed from identifying all consecutive ankle fracture patients aged ≥18-years-old surgically managed between August 2017 to September 2022 at a tertiary care center with minimum 6 months clinical follow-up. Patients were grouped into those receiving intramedullary versus extramedullary fibular fixation. The primary outcomes were relevant demographic factors (diabetes, osteoporosis, charlson comorbidity index [CCI]), surgical time, complication rates, reoperation rates. Secondary outcomes included time to definitive fracture fixation, fracture characteristics (AO/OTA and Lauge-Hansen classification), syndesmotic instability requiring fixation and discharge disposition. ResultsForty-one IMF patients (average age 55.3 ± 18.1yrs) and 162 PF patients (47.7 ± 17.4yrs) were identified and included in this study. Within the IMF group, 25 patients received IM nailing and 16 patients received percutaneous screw fixation. A greater proportion of IMF patients had diabetes (39 % vs 22 %, p < 0.001), osteoporosis (22 % vs 3 %, p < 0.001), and moderate or severe CCI (41 % vs 23 %, p = 0.017). Surgical time was significantly reduced when using IMF technique (80.4 ± 43.1 min vs 99.1 ± 43.1 min, p = 0.012). Overall complication rates or time to complication did not differ significantly between groups (p = 0.578 and p = 0.082, respectively); however, when sub-stratified, IMF patients trended towards experiencing fewer wound related complications versus PF patients (5 % vs 9 %, p = 0.291). No IMF patients experienced deep or superficial infections and only 2 (5 %) patients experienced wound dehiscence. Reoperation rates(15 % vs 10 %, p = 0.267) and time to fracture union (2.7 ± 2.2 mos vs 3.1 ± 2.0 mos, p = 0.301) did not differ significantly. At final follow-up (IMF: 15.0 ± 12.2 mos vs PF: 28.5 ± 19.5 mos), Olerud and Molander ankle score was significantly higher in IMF compared to PF (87.1 ± 14.2 vs 76.2 ± 22.6, p = 0.002). ConclusionPatients in the IMF group at baseline had several comorbid medical conditions that put them at high risk for wound related complications, however, postoperatively they demonstrated higher functional scores and similar complication rates compared to the PF group. It is important to note, however, while we expected a higher rate of wound issues with the PF group, there were no significant differences in infection rates. Either IMF and PF is reliable for fixation and outcomes, and thus with proper soft tissue, biologically friendly technique, either IMF or PF is a reliable choice in the fixation of fibula fractures. Level of evidenceIII, retrospective cohort comparison study.

Radiological evaluation of fusion patterns after Lateral Lumbar Interbody fusion with 3D-printed porous titanium cages vs. conventional titanium cages.

The assessment of segmental fusion after Lateral Lumbar Interbody fusion (LLIF) using 3D-printed porous titanium cage is still not well studied. Various criteria, such as the presence of bone bridges (BB) between adjacent vertebrae, serve as indicators for anterior fusion. However, limited radiological studies have investigated zygapophyseal joints (ZJ) status following LLIF with porous titanium cages vs. conventional titanium threaded cages. The porous design of the latest titanium intervertebral cages is thought to enhance the bone-to-implant fusion rate. This radiological study aimed to compare the fusion patterns post-LLIF using 3D-printed porous titanium cages against those using threaded titanium cages. This radiological study aimed to compare the fusion patterns after LLIF using 3D-printed porous titanium cages against those using threaded titanium cages. This retrospective, single-center radiological study involved 135 patients who underwent LLIF and posterior percutaneous screw fixation for degenerative spondylolisthesis. The study included 51 patients (Group A) with the novel porous titanium cages and 84 patients (Group B) with conventional threaded titanium cages. Inclusion criteria mandated complete radiological data and a minimum follow-up period of 24 months. The study evaluated intervertebral bone bridges (BB) for anterior fusion and zygapophyseal joints (ZJ) ankylotic degeneration, based on Pathria et al., as evidence of posterior fusion and segmental immobilization. Two years after surgery, intervertebral BB were identified in 83 segments (94.31%) in Group A and in 87 segments (88.77%) in Group B. ZJ Pathria grade I was observed in 2 segments (2.27%) of Group A and in 4 segments (4.08%) of Group B. Grade II was seen in 5 segments (5.68%) of Group A and in 6 segments (6.12%) of Group B. Posterior fusion, classified as grade III, was found in 81 segments (92.04%) of Group A and 88 segments (89.79%) of Group B. Subsidence incidence was 5.88% (3 segments) for the novel cage and 9.88% (8 segments) for the conventional cage. The architecture of porous titanium cages offers a promising solution for increasing bone ingrowth and bridging space, supporting successful spinal fusion while minimizing the risk of subsidence.

CT-Based Evaluation of Volumetric Posterior Pelvic Bone Density with Implications for the Percutaneous Screw Fixation of the Sacroiliac Joint.

Background: Operative treatment of fragility fractures of the pelvis has become a gold standard. Preoperative planning, including the assessment of the pathway for iliosacral screws, is crucial. The anchorage of the screw depends on the bone quality. Some recent studies have concentrated on assessing bone mineral density (BMD) with the use of Hounsfield unit (HU) values obtained from CT scans. The aim of the present study is to determine the best sacral levels of S1-S3 on the pathway of iliosacral screws for sacroiliac joint fixation. Methods: Patients admitted to the Independent Public Healthcare Center in Rypin between 1 of September and 1 of December in 2023, who had CT scans of the pelvis performed on them for different reasons, were included in this study. In total, 103 patients-56 men and 47 women-were enrolled in the study and consecutively separated into two groups of different ages: 18-60 years old (group A) and above 60 years old (group B). The volumetric bone density expressed in HU values was measured with sacral levels of S1, S2 and S3. Apart from the bodies of sacral vertebrae S1-S3, our measurements involved the ala of the ilium in the vicinity of the sacroiliac joint and the wing of the sacrum. All the measurements were performed on the pathway of presumptive iliosacral screws to stabilize the sacroiliac joint. Results: In group A (58 patients) the highest bone density in sacral bodies was found in S1 that gradually decreased to S3, while the opposite tendency was demonstrated in the ala of ilium. The HU values in the wing of the sacrum did not display statistical significance. In group B (45 patients), the highest bone density was also found in the sacral body S1 that decreased toward S3 but in the ala of ilium, the highest bone density was found with level S1 and lowest with level S2. In both groups, the highest bone density referred to the wing of the sacrum. Conclusion: While the perfect construct for posterior pelvic ring fixation remains unclear, our findings may imply that sacroiliac joint screws inserted into the wing of the sacrum of greater bone density could provide much more successful fixation in comparison to those anchored in the body of sacral vertebra of lesser bone density.

Stabilometry in Relation to Hip and Knee Muscle Force in Children with Surgically Treated Unilateral Slipped Capital Femoral Epiphysis.

The main aim of our study was to analyze the stabilometric parameters in relation to hip and knee muscle force in children with unilateral slipped capital femoral epiphysis (SCFE) who had undergone surgical treatment. Another objective was to compare the stabilometry in three testing situations (eyes open, eyes closed, and head retroflexed). In total, 26 patients with unilateral right SCFE treated via in situ fixation with one percutaneous screw performed stabilometry assessments under three different situations (with their eyes open, with their eyes closed, and with their head retroflexed) and isometric muscle force assessment of the bilateral hip flexors, extensors, abductors and adductors and bilateral knee flexors and extensors. No significant differences between the right side (affected hip) and left side (non-affected hip) were recorded for all of the tested muscle groups. We found significant negative correlations between the 90% confidence ellipse area (eyes open condition) and left knee extensors (p = 0.028), right knee flexors (p = 0.041), and left knee flexors (p = 0.02), respectively. When performing the comparison between the eyes open and eyes closed situations, there were significant differences in CoP path length (p < 0.0001) and maximum CoP speed (p = 0.048); the parameters increased in the eyes closed situation. Better postural stability is acquired when assessed with eyes open or with the head retroflexed in contrast with eyes closed testing.

Improving surgical technical skills for emergency fixation of unstable pelvic ring fractures: an experimental study using a pelvic ring fracture simulator

BackgroundThe management of hemodynamically unstable pelvic ring injuries necessitates surgical intervention, often involving procedures such as external fixation and percutaneous screw placement. Given the infrequent performance of these procedures, regular training is imperative to ensure readiness for emergencies. Our pre- post simulation study aimed to adapt and validate a realistic simulation model for stabilizing unstable pelvic ring injuries, facilitating participants’ knowledge retention and procedural confidence enhancement.MethodsA standardized simulator of an unstable pelvic ring utilizing synthetic pelvic bones featuring complete disruption of the symphysis and sacroiliac joint was developed. Trauma surgeons of a level one academic hospital were invited to perform external fixation and emergency sacroiliac screw application under C-arm guidance. Prior to and following the simulation session, participants completed a subjective questionnaire assessing their confidence in emergency interventions on a 10-point Likert scale (10-LS). Objective parameters, such as intraoperative imaging quality, reduction accuracy, and the positioning of screws, wires, and external fixators, were also evaluated as secondary outcome measures.ResultsFifteen trauma surgeons (10 residents, 5 consultants) participated in the simulation over the course of one day. The mean total operation time was 20.34 ± 6.06 min, without significant differences between consultants and residents (p = 0.604). The confidence for emergency SI-Screw placement increased significantly after the simulator (10-LS: Before = 3.8 ± 3.08 vs. After = 5.67 ± 2.35; p = 0.002) as well as after external fixation (10-LS: Before = 3.93 ± 2.79 vs. After = 6.07 ± 2.52; p = 0.002). In addition, confidence in (intraoperative) pelvic imaging increased significantly (10-LS: Before = 4.60 ± 3.0 vs. After = 6.53 ± 2.39; p = 0.011). Overall, the model was rated as a realistic simulation of clinical practice (10-LS = 7.87 ± 1.13).ConclusionsOur unstable pelvis fracture model is a tool to practice emergency interventions such as external fixation and percutaneous techniques. Participants benefitted from this in terms of technical instrumentation as well as intraoperative imaging. Further studies are required to validate the objective benefits and improvements that participants undergo through frequent training.

Lateral Anterior Column Release in Short Lumbar Fusion… Is It Worth It?

Radiographic adjacent segment disease (ASD) ranges from 10% to 84%, depending on technique. Occurrence of symptomatic ASD is lower, with a range of 1.9% to 13%. ASD can be very debilitating and necessitate further procedures, leading to high morbidity. Herein, we explore the occurrence of adjacent segment disease when performing anterior column release in lateral interbody fusion. After institutional review board approval, 120 total patients who underwent lateral lumbar interbody fusion (LLIF) at our facility from 2013 to 2020 were retrospectively reviewed, allowing for a minimum of 3years for follow-up time. Surgical variables and spinopelvic parameters were measured and collected by our team. Statistical measures of significance were calculated using IBM SPSS Statistics Version29. One hundred twenty total patients were included. 73.3% of patients had percutaneous screws, and 11.7% had open. Thirteen patients underwent LLIF with anterior column release (ACR). The mean lumbar lordosis (LL) was 50.1±12.9, pelvic incidence (PI) was 52.8±11.2, sacral slope was 33.6±9.2, pelvic tilt was 18.1±6.8, and sagittal vertical axis was 6.8mm±30.5.Twenty four total patients had ASD after LLIF. In univariable analysis, ACR (P < 0.001) and PI-LL Mismatch (P < 0.035) were risk factors for developing ASD. In multivariable analysis, greater PI-LL mismatch was predictive of ASD (P < 0.005, OR=1.097, and 95% confidence interval=1.029-1.171), as was ACR (P < 0.001, OR=9.667, and 95% confidence interval=2.669-35.09). Higher PI-LL mismatch after lumbar interbody fusion, and performance of an ACR during LLIF increased the likelihood of developing symptomatic ASD in our patients. Considering ACR to achieve the goal of correcting spinopelvic parameters should be carefully evaluated when undertaking a lateral approach.

Robot-assisted internal fixation of calcaneal fractures versus conventional open reduction internal fixation: a systematic review and meta-analysis.

The aim of the study was to compare the efficacy and safety of robot-assisted (RA) percutaneous hollow screw fixation with traditional open reduction internal fixation (ORIF) for the treatment of calcaneal fractures through a systematic review and meta-analysis. An extensive search was conducted in the following databases-PubMed, CNKI, Embase, and the Cochrane Library-to gather research on patients with calcaneal fractures published up to July 2024. This search focuses on studies comparing the effectiveness of robot-assisted percutaneous cannulated screw fixation versus ORIF. We will include studies published in both English and Chinese. Our screening process adhered strictly to predefined inclusion and exclusion criteria, emphasizing randomized controlled trials (RCTs) and cohort studies. The ROBINS-I tool was utilized to evaluate the risk of bias in non-randomized studies. Meta-analysis was conducted using Review Manager 5.4.1. The final analysis incorporated six retrospective cohort studies comprising 247 patients-122 treated with robotic-assisted percutaneous cannulated screw fixation and 125 with conventional open reduction and internal fixation. The findings indicated that patients undergoing robotic-assisted percutaneous cannulated screw fixation experienced advantages over those receiving conventional treatment in terms of reduced hospital stay, lower estimated blood loss, and higher AOFAS scores at both 3 and 6months. No statistically significant differences were observed between the two methods concerning operative time, fracture healing duration, or the frequency of intraoperative fluoroscopies. Robotic-assisted percutaneous cannulated screw fixation is a safe and viable treatment approach for patients with calcaneal fractures. When compared to ORIF methods, this robotic-assisted technique demonstrated significant benefits, including reduced hospital stay, lower estimated blood loss, and improved AOFAS scores at both 3 and 6months.

Surgical fixation methods for tibial plateau fractures.

Tibial plateau fractures, which are intra-articular injuries of the knee joint, are often difficult to treat and have a high complication rate, including early-onset osteoarthritis. The most common treatment for complex tibial plateau fractures is surgical fixation. Additionally, orthopaedic surgeons often use bone defect fillers to address bone defects caused by the injury. Currently, there is no consensus on the best method of fixation and on whether bone defect fillers are necessary. To assess the benefits and harms of different surgical interventions and bone defect fillers for treating tibial plateau fractures. We searched CENTRAL, MEDLINE, Embase, and trial registries up to March 2023. We also searched conference proceedings and the grey literature. We included randomised controlled trials (RCTs) and quasi-RCTs comparing surgical interventions for treating tibial plateau fractures and different types of filler for bone defects. Two review authors independently screened search results, selected studies, extracted data, and assessed risk of bias. We calculated risk ratios (RRs) for dichotomous outcomes and mean differences (MDs) or standardised mean differences (SMDs) for continuous outcomes, with 95% confidence intervals (CIs). Our primary outcomes (and the specific measures we considered most relevant) were generic quality of life (general health score in the 36-item Short-Form Health Survey (SF-36)), patient-reported lower limb function (Hospital for Special Surgery (HSS) score), and adverse events (frequency of unplanned reoperation). We used GRADE to assess the certainty of evidence. We included 15 trials in the review, with a total of 948 adult participants. Nine trials compared different types of fixation, and six trials evaluated different types of bone graft substitutes. All 15 trials were small and at high risk of bias. We considered most available evidence to be of very low certainty, meaning we have very little confidence in the results. Only limited pooling was possible. One trial compared circular fixation combined with insertion of percutaneous screws (hybrid fixation) versus standard open reduction and internal fixation (ORIF) in 82 people with open or closed Schatzker types V or VI tibial plateau fractures. At 24 months' follow-up, hybrid fixation compared with ORIF may have little or no effect on SF-36 general health score (MD 6 points higher, 95% CI 7.7 points lower to 19.7 points higher; 66 participants), patient-reported lower limb function according to the HSS score (MD 7 points higher, 95% CI 2.4 points lower to 16.4 points higher; 66 participants), or frequency of unplanned reoperation (RR 0.78, 95% CI 0.45 to 1.32; 83 fractures (82 participants)). However, the evidence for all three outcomes is very uncertain. Three trials (with 242 participants) compared single-plating ORIF versus double-plating ORIF. There may be little to know difference in patient-reported lower limb function (HSS score) at 24 months' follow-up in people who undergo single-plating ORIF compared with those who undergo double-plating ORIF (MD 0.2 points higher, 95% CI 2.12 points lower to 2.52 points higher; 1 study, 84 participants), but the evidence is very uncertain. There were no data for quality of life or unplanned reoperation at 24 months' follow-up. Six trials (including 368 participants) compared bone substitute versus autologous bone graft (autograft) for managing bone defects. No trials reported SF-36 general health score, HSS score, or frequency of unplanned reoperation at 24 months' follow-up. There is insufficient evidence to ascertain the best method of fixation or the best method of addressing bone defects during surgery in people with tibial plateau fractures. Further well-designed RCTs with larger sample sizes are warranted.

Simultaneous Single-Position Oblique Lumbar Interbody Fusion and Percutaneous Pedicle Screw Fixation under O-Arm Navigation for Modified MISDEF Type II Adult Degenerative Scoliosis: Case Series and Surgical Technique.

Oblique lumbar interbody fusion (OLIF) has become a popular technique for treating adult degenerative scoliosis (ADS), but traditional OLIF technology often requires repositioning for one-stage or staged posterior fixation. The objective of this pilot study was to describe the surgical technique of simultaneous single-position OLIF and percutaneous pedicle screw fixation (OLIF 360) under O-Arm navigation for modified MISDEF type II ADS. Between June 2022 and December 2023, six patients classified as having modified MISDEF type II ADS underwent OLIF 360 assisted by O-Arm navigation at our institution. Intraoperative blood loss, duration of operation, and complications related to the OLIF 360 procedure were recorded. The preoperative and postoperative spinal pelvic parameters were measured using X-rays. The accuracy of pedicel screws was recorded in accordance with the modified Gertzbein-Robbins classification on CT. Postoperative MRI was performed to evaluate the indirect decompressive effect. The Japanese Orthopedic Association score for low back pain was used to evaluate surgical outcomes. Navigated OLIF 360 were performed in six ADS patients with 44 percutaneous pedicel screws and 16 cages placement, including four women and two men. The mean operation time was 160.83 ± 33.23 min, and the mean blood loss was 111.67 ± 39.71 mL. Postoperative spinal pelvic parameters and spinal stenosis degree improved significantly on X-ray and MRI. All screws were clinically acceptable according to the Gertzbein-Robbins classification, with 92.7% grade A and 7.3% grade B. No serious intraoperative and postoperative adverse events were recorded in all patients. The JOA scores for low back pain of all patients were significantly improved at postoperative 1 month and the final follow-up. We report on a case series and describe navigated OLIF 360 in treating modified MISDEF type II ADS patients. Navigation-assisted OLIF 360 has shown encouraging surgical outcomes with good spinal imbalance correction and indirect decompression.

Effectiveness of reduction robot combined with navigation robot-assisted minimally invasive treatment for Tile type B pelvic fractures

To explore the effectiveness of reduction robot combined with navigation robot-assisted minimally invasive treatment for Tile type B pelvic fractures. Between January 2022 and February 2023, 10 patients with Tile type B pelvic fractures were admitted. There were 6 males and 4 females with an average age of 45.5 years (range, 30-71 years). The fractures were caused by traffic accident in 5 cases, bruising by heavy object in 3 cases, and falling from height in 2 cases. The interval between injury and operation ranged from 4-13 days (mean, 6.8 days). There were 2 cases of Tile type B1 fractures, 1 case of Tile type B2 fracture, and 7 cases of Tile type B3 fractures. After closed reduction under assistance of reduction robot, the anterior ring was fixed with percutaneous screws with or without internal fixator, and the posterior ring was fixed with sacroiliac joint screws under assistance of navigation robot. The time of fracture reduction assisted by the reduction robot was recorded and the quality of fracture reduction was evaluated according to the Matta scoring criteria. The operation time, intraoperative fluoroscopy frequency and time, intraoperative bleeding volume, and incidence of complications were also recorded. During follow-up, the X-ray film of pelvis was taken to review the fracture healing, and the Majeed score was used to evaluate hip joint function. The time of fracture reduction was 42-62 minutes (mean, 52.3 minutes). The quality of fracture reduction according to the Matta scoring criteria was rated as excellent in 4 cases, good in 5 cases, and poor in 1 case, with excellent and good rate of 90%. The operation time was 180-235 minutes (mean, 215.5 minutes). Intraoperative fluoroscopy was performed 18-66 times (mean, 31.8 times). Intraoperative fluoroscopy time was 16-59 seconds (mean, 28.6 seconds). The intraoperative bleeding volume was 50-200 mL (range, 110.0 mL). No significant vascular or nerve injury occurred during operation. All patients were followed up 13-18 months (mean, 16 months). X-ray films showed that all fractures healed with the healing time of 11-14 weeks (mean, 12.3 weeks). One case of ectopic ossification occurred during follow-up. At last follow-up, the Majeed score was 70-92 (mean, 72.7), and the hip joint function was rated as excellent in 2 cases and good in 8 cases, with the excellent and good rate of 100%. The reduction robot combined with navigation robot-assisted minimally invasive treatment for Tile type B pelvic fractures has the characteristics of intelligence, high safety, convenient operation, and minimally invasive treatment, which can achieve reliable effectiveness.

Combining Innovative Techniques: Total Extraperitoneal Approach in Orthopedic Surgery (O-TEP) and Percutaneous Both Column Screw (BCS) Fixation Technique in a Geriatric Acetabular Fracture Case.

The concepts of both column fixation corridor (BCFC) and both column screws (BCS) along with the orthopedic total extraperitoneal approach (O-TEP) are highly innovative approaches in orthopedic surgery. However, the orthopedic literature lacks sufficient studies on these topics, indicating a significant gap. This case report aims to highlight how combining these innovative techniques can facilitate the use of BCFC and BCS in the treatment of acetabular fractures with O-TEP, thereby enhancing the feasibility of endoscopic techniques. Furthermore, we aim to discuss the potential advantages of BCFC and BCS concepts when used in O-TEP.For this purpose, we present a case of a 74-year-old geriatric patient with a transverse acetabular fracture involving the posterior column. The quadrilateral surface was exposed using the O-TEP approach, and the fracture was reduced using a fully endoscopic approach. The fixation was achieved using BCS and a Magic screw through percutaneous screw placement.The patient's clinical condition was followed for at least 13 months. The clinical outcomes demonstrated the effectiveness of combining these innovative techniques in the treatment of acetabular fractures, with satisfactory healing and functional recovery observed.This case report illustrates that combining BCFC and BCS with the O-TEP approach can facilitate the treatment of acetabular fractures with minimally invasive techniques and enhance the feasibility of endoscopic procedures. These findings suggest potential advantages of using BCFC and BCS concepts in O-TEP, warranting further investigation and study.

Determination of the best point of entry of percutaneous insertion of sacroiliac screws depending on patient positioning for surgery: A cadaveric study.

The standard starting point for percutaneous sacroiliac screw insertion was initially determined at the intersection of the line posterior to the anterior superior iliac spine and the line continuing the anatomical axis of the femur. The technique was pioneered in patients lying prone in surgery, although it has been used with patients in the supine position. The optimal starting point for patients in both prone and supine positions remains uncertain. This cadaveric study aimed to determine the best entry point for the percutaneous insertion of sacroiliac screws depending on the patient's positioning for surgery. Kirschner wires (K-wires) were percutaneously inserted into the sacral body of 8th human cadavers. In addition to the so-called standard sacroiliac screw entry point (point A), points located consecutively 1 cm (point B) and 2 cm (point C) cranially from the point along the line, prolonging the femoral axis were also studied. The K-wires were inserted into the studied entry points on the right side in a supine position and on the left side of the same cadaver in a prone position. The placement of the K-wires was assessed using radiographic imaging and cadaver dissection. An analysis of the K-wire placement in the supine position revealed incorrect positioning of 100% of the K-wires inserted at entry point A and 87% at entry point B. All the K-wires inserted in the supine position at entry point C were correctly placed. All K-wires inserted in the prone position were correctly positioned. All 3 studied entry points enabled the correct placement of orthopedic implants for prone position surgery. The best entry point for surgery performed in the supine position was located 2 cm cranially from the standard entry point, along the line prolonging the femoral axis.

Extra axial bone ablation with augmentation

Pelvic bone metastases frequently result in severe pain and disability. Open surgical reconstruction is associated with a high complication and mortality rate. Percutaneous screw fixation is a minimally invasive treatment that is safe and effective for the management of periacetabular metastases. This article details our technique for pelvic screw fixation, including (1) perioperative care, (2) navigation and needle guidance, (3) access, (4) biopsy and ablation, (5) screw placement, and (6) cement augmentation.

Conservative or operative therapy in patients with a fragility fracture of the pelvis: study protocol for a prospective, randomized controlled trial

BackgroundThe incidence of fragility fractures of the pelvis is rising. Whereas the treatment for FFP type I, III, and IV is clear, the optimal treatment for FFP type II remains a topic of discussion. Traditionally these fractures have been treated conservatively. However, there is a shift toward early surgical stabilization with percutaneous screw fixation to reduce pain and promote mobility in an already frail patient population. High-quality evidence, however, is lacking. Therefore, a randomized clinical trial was designed to compare conservative management to early percutaneous screw fixation in patients with type II fragility fractures.MethodsThis is a monocenter randomized controlled trial. All patients with a FFP type II are screened for inclusion. After obtaining informed consent, patients are randomized between conservative management and surgical stabilization. Conservative management consists of early mobilization under guidance of physiotherapy and analgesics. Patients randomized for surgical treatment are operated on within 72 h using percutaneous screw fixation. The primary endpoint is mobility measured by the DEMMI score. Secondary endpoints are other dimensions of mobility, pain levels, quality of life, mortality, and morbidity. The total follow-up is 1 year. The required sample size is 68.DiscussionThe present study aims to give certainty on the potential benefit of surgical treatment. Current literature on this topic remains unclear. According to the volume of FFP at the study hospital, we assume that the number of patients needed for this study is gathered within 2 years.Trial registrationClinicalTrials.gov NCT04744350. Registered on February 8, 2021.

A new technique for percutaneous screw fixation for treating FFP IIIa and IIIb fragility fractures of the pelvis

To determine the presence of a consistent osseous corridor from the lateral-posterior aspect of the anterior inferior iliac spine to the sacral wing that could be used for safe trans percutaneous screw fixation for pelvic fragility fractures of the iliac wing and fracture dislocations of the sacroiliac joint (FFP types IIIa and IIIb). Computed tomography (CT) scans were obtained from 100 patients and imported to Mimics software for 3D reconstruction. Then, a cylinder was drawn to imitate the modified LC-II screw and adjusted to a maximum radius and length to obtain the feasible region. Thirteen parameters of the osseous corridor of the modified LC-II screw were measured. Differences between sex groups were compared, and significant statistical correlations were carefully studied to determine potentially important clinical relationships. The records of patients with FFP type IIIa and IIIb fragility fractures of the pelvis were extracted from our hospital. Patients who underwent modified LC-II screw fixation, LC-II screw fixation or reconstruction plate fixation were included. Patients’ operative characteristics and complications were recorded at follow-up. Fracture reduction quality was assessed using the Matta standard. Functional outcomes were evaluated using the Majeed grading system. The mean maximum diameters of the osseous corridors of the modified LC-II screw in males and females were 12.73 and 10.83 mm, respectively. The mean maximum lengths of the osseous corridors of the modified LC-II screw in males and females were 96.37 and 93.37 mm, respectively. In the treatment of patients with FFP IIIa and FFP IIIb fractures, the group of treatment by the modified LC-II screws fixation was shown significantly shorter operative time and fewer intraoperative blood loss in comparison to that by the reconstruction plates. In the present study, all the males and females had a complete osseous corridor of the modified LC-II screw. The clinical results of the patients who were treated with modified LC-II screw fixation suggest that the novel method has a good preliminary outcome.