Isolated U-shaped sacral fractures are rare entities, mostly seen in polytraumatized patients, and hence, they are difficult to diagnose. While the pelvic ring remains intact across S2/S3, the U-shaped fracture around S1 leads to marked instability between the base of the spine and the pelvis. As severe neurological deficits can occur, timely treatment of these fractures is crucial. We present a novel technique of percutaneous reduction and trans-sacral screw fixation in U-shaped fractures. 3 multiply injured patients with u-shaped sacral fractures (female, age 21.7±7.23). Two underwent immediate fracture fixation. In the third case delayed reduction and fixation was performed after referral 6 weeks following open decompression. In prone position, a pair of Schanz pins was inserted into pelvis at the PSIS. A second pair of Schanz pins was inserted into S1 or L5. All pins were inserted percutaneously. The fracture was reduced indirectly, using the Schanz pins as levers. After image intensifier control of the reduction result, two trans-sacral screws were inserted for finite fixation.Introduction
Material and Methods
A prospective study was performed to evaluate the efficacy and safety of percutaneous kyphoplasty in patients with osteolytic tumours of thoracic and lumbar spine. To our knowledge this is the only study so far that has followed a cohort of patients prospectively until death. Prospective study of patients with lytic tumours of spine treated with kyphoplasty. A total of 13 patients with osteolytic tumours of spine were treated with kyhpoplasty. There were 8 female and 5 male patients. The age range was 52-81 years with average age of 65 years. A total of 25 vertebrae, from T2 to L3, were treated. The types of tumours included; non-Hodgkin lymphoma (2), myeloma (2), gastric-carcinoma (1), cervix-carcinoma (1), breast-carcinoma (3), prostate-carcinoma (2), small cell lung-carcinoma (1), bladder-carcinoma (1). Outcome was assessed prospectively by visual analogue scale (VAS) for pain, ECOG performance status, walking distance, standing and sitting time. The preoperative average VAS was 7.5 (range: 2.6 – 10). This dropped to 3.0 five days postoperatively and remained below 5 for the duration of follow-up. Average walking distance, standing and sitting time and ECOG performance score showed improvement. The survival time ranged from 2 to 293 weeks. The average survival time was 82 weeks. All patients were able to return home following the procedure. No patient required reoperation or readmission for spinal metastasis. Kyphoplasty is a suitable palliative treatment option for patients with advanced metastatic disease of the spine.
Competency levels of AOSpine members (Europe) based on whether or not they had undertaken a full 12 month fellowship in spinal surgery Self-assessment questionnaire distributed to members (60 questions relating to: previous surgical training, fellowships and their nature, and both theoretical and practical competency amongst basic and advanced spinal conditions) 289 completed responses Competency levels with(out) fellowship; differences in fellowship training; overall competence in spinal surgery as neurosurgeons versus those trained as orthopaedic surgeons. Competency defined as those able to deal with complications or able to perform without supervision. 28% (n=80) undertook a full 12 month fellowship Notable differences between groups were identified (fellowship vs no fellowship): spinal deformity (58% vs 26%), cervical trauma (83% vs 59%), cervical stabilisation (78% vs 53%), lumbar and thoracic trauma (85% vs 57%) and anterior surgery (66% vs 41%) and its complications (46% vs 23%). Interestingly of the whole group only 43% were competent in the actual practice of conservative management of spinal conditions. There was no significant difference in theoretical knowledge or practical skills between orthopaedics surgeons and neurosurgeons. Fellowship training is effective, but there are deficiencies in areas. In order to provide a routine and emergency service as a spinal surgeon, competency at relatively common procedures must be reached. Our data demonstrates a lack of uniformity in such competencies, and we believe efforts towards a formal curriculum for spinal training should be embarked upon.
Literature review about the current management strategies for U-shape sacral fractures A thorough literature search was carried out to find out the current concepts in the management of U-shaped sacral fractures. Meta-analysis of 30 cases of U-Shaped sacral fractures Radiological assessment for bone healing, and clinical examination for neurological recovery. 7 papers were published in the English literature between 2001 and 2009 about the management of U-shaped sacral fractures. In total 30 cases were included. The most common mechanism of injury was fall or jump from height (63%), followed by road traffic accidents and industrial injuries. Pre-operative neurological deficit was noted in 73% of patients. The average follow up time ranged from 2-12 months. 18 (60%) of patients were treated with sacroiliac screws. In this group pre-operative neurological deficit was found in 12(66%) patients. All of these patients had satisfactory radiological healing at follow up but 5(27%) patients had residual neurological deficit. No immediate complication was reported in this group. Incomplete sacroiliac screw disengagement was reported in one patient without fixation failure. Other procedures performed were lumbopelvic fixation, triangular osteosynthesis and transsacral plating. The most common cause of U-shaped sacral fractures is a fall or jump from height. There is a high association of neurological damage with U-shaped sacral fractures. From the current available evidence sacroiliac screw fixation is the most commonly performed procedure, it is however not possible to deduce which procedure is better in terms of neurological recovery.
To determine if there is a safe osseous corridor for trans-sacroiliac screw fixation of U-type sacral fractures using fluoroscopic landmarks. We reviewed the sacral anatomy of patients who underwent Computed Tomography (CT) investigations between October and December 2009. Agfa-IPMAX Version 5.2 software was used to determine if there was a trans-sacroiliac osseous corridor in the S1 and S2 vertebrae from one ilium to the other. 76 patients were in the study, 38 male and 38 female. Exclusion criteria were patients under 18 years old; patients with degenerate lumbar spine and lumbo-sacral junction; CT imaging slices greater than 2.5mm. We measured various parameters including the dimensions of the S1 and S2 mid-sagittal vertebral body; cross-sectional areas of the S1 and S2 corridor; location of the centre of the S1 and S2 corridor. The mean cross-sectional area for S1 and S2 corridors in males and females are 21mm2 and 15mm2 respectively. The mean cross-sectional area for the S2 corridor in males and females were 15mm2 and 11mm2 respectively. The centre of the S1 and S2 corridor is located in the centre of both S1 and S2 vertebrae. Two-thirds of males and females have a complete osseous corridor to pass a trans-sacroiliac S1 screw. The S2 corridor was present in all males but only in 87% of females. Before placement of trans-sacroiliac screws, the surgeon should review the CT sacral anatomy to determine if the trans-sacroiliac osseous corridor is present. Ethics Approval: None – Audit Interest Statement: None