Deep infection following paediatric spinal deformity surgery is a serious complication, which can also result in increased length of stay and significant cost implications. Our objective was to reduce deep infection rates following spinal deformity surgery. All paediatric patients undergoing spinal deformity procedures between 2008 and 2010 (group 1) were prospectively followed up and deep infection rates recorded. In 2010, a review of infection rates necessitated a change in pre-operative, peri-operative, and post-operative practice. A scoliosis wound care pathway was implemented, which involved insertion of drains to protect wounds, strict dressing management performed by a Spinal Nurse Practitioner, and a telephone helpline for concerns about wound care and general peri-operative scoliosis care. The use of betadine wash and local antibiotic application intra-operatively were other measures instigated later in this period. All paediatric patients undergoing surgery between 2011 and 2012 (group 2) were then followed up and differences in infection rates between the two groups were analysed.Aim:
Method:
Lumbar myelography was a commonly performed procedure but was superseded by MRI and CT which were low risk and provided cross-sectional information. The majority of MRI and CT evaluations are static and supine whereas myelography may be loaded and dynamic. This study evaluates the role of myelography in patients with degenerative scoliosis in a modern surgical practice. Patients with degenerative scoliosis and full imaging (plain radiographs, supine MRI, myelography, including CT myelography) were identified from our database between 2006-2009. Differences between findings of MRI and myelography/CT myelography were noted and whether this subsequently affected treatment. 21 patients fulfilled inclusion criteria. Mean age 68 (45-82), 17 females. 18/21(85.7%) myelograms revealed findings not seen on MRI. 15 patients had a single abnormality, 1 had two and in 2 patients there were 3 new abnormalities. These were facet/ligamentous bulging in 13, a single spondylolisthesis, retrolisthesis and lateral subluxation. On CT a foraminal osteophyte and a pars defect were seen. In 4 cases supine investigation revealed more than MRI. In 7 patients management changed as a result of myelography/CT. There have been no complications of myelography in our unit of the total 270 performed. Myelography is a safe and useful tool in the management of patients with degenerative scoliosis. MRI scan alone understates the true nature of central and lateral recess stenosis. Not only does myelography show more stenosis in the loaded spine, but static myelography and CT myelography are also an invaluable tool in these patients.
Post traumatic stress disorder (PTSD) is well recognised in children having repeated medical/surgical procedures. It has been suggested that it is common in young children undergoing growing rod treatment with ongoing lengthening and the inevitable accompanying complications. We present an index case history, review the literature in order to infer a correlation for the incidence of PTSD and discuss diagnosis and management. We present an index case history of PTSD in a young child undergoing growing rod treatment for scoliosis. The literature was reviewed for PTSD in paediatric surgery and pathologies requiring multiple treatments. Spinal surgery is compared with paediatric cancer, burns, organ failure/transplant, cardiopulmonary disease, inflammatory bowel disease, cystic fibrosis and limb lengthening. No published studies examine PTSD in children undergoing multiple spinal surgeries. One paper reports that children undergoing growing rod treatments show “behavioural alterations” and changes in psychosocial behaviour, including anxiety on entering the operating room and broken rod worries. A recent spine meeting presentation referred to this. Psychosocial problems occur in up to 30% of children with chronic or life-threatening illnesses which involve ongoing treatments. Factors such as age, parental anxiety and previous adverse medical experiences influence anxiety, depression and PTSD. Based on our index case and methodological correlation with similar pathologies, we fell that PTSD is a genuine concern in children who have repeated spinal operations. This paper is part of an ongoing study, but we believe that the spinal community should be aware of this diagnosis and its management. Ethics approval: Audit Interest Statement: None
Traditionally, spinal surgeons placed radiographs on viewing boxes in a manner (PA) to replicate the view they would have at surgery. The introduction of digital Picture Archiving and Communications System (PACS) appears to have had marked impact upon this convention. Some Units have the ability to lock digital radiographs such that they are always viewed in the same manner and cannot be reversed. Following ‘two near misses’ we carried out a survey to confirm the previous practice with radiographs; to ascertain the current practice with PACS and to find out whether the variation in practice could lead to clinical mishaps and harm to patients. Questionnaires were completed by practicing spinal surgeons. Previous and current practice of viewing radiographs. Either actual or potential wrong side surgery. Opinions as to whether a single convention was important were recorded. 78 % Spine surgeons used to flip radiographs over prior to introduction of PACS. With PACS, 56 % spine surgeons flip the radiographs over in clinic and 72 % in theatre so to resemble viewing spine from behind. 56% Surgeons had nearly operated on the wrong side of the spine while 94 % have seen or heard of a patient operated on the wrong side. 72 % Spine surgeons agree that the radiographs should be flipped over so as to resemble the spine as viewed intraoperatively. There is need for a single convention in spine surgery to view radiographs to avoid potential clinical mistakes.
The anterior-posterior (AP) dimension of the end plates. Amount of subsidence. The distance between the TDA and the posterior and anterior borders of the vertebra bodies (to represent the extent of uncoverage of the endplate by the TDA). The AP dimension of the TDA metal end-plate. The ratio between the actual and radiographic AP length of the metal endplate was calculated and utilized as the correction factor for the error of magnification on all other radiographic measurements.
The mean pre and post-operative lumbar lordosis was 34.58 and 53.48 respectively. The mean sagittal rotation was 6.5 degrees at 5 year follow-up, while the mean translation was 0.83 mm. The mean AVM, MVM and PVM were 0.59 mm, −3.96 mm and 3.69 mm respectively at 5 year follow-up.
The following measurements were performed on the replaced motion segment using a lateral radiograph:
The anterior-posterior (AP) dimension of the end plates. Amount of subsidence. The distance between the TDA and the posterior and anterior borders of the vertebra bodies (to represent the extent of uncoverage of the endplate by the TDA). The AP dimension of the TDA metal endplate. The ratio between the actual and radiographic AP length of the metal endplate was calculated and utilized as the correction factor for the error of magnification on all other radiographic measurements.
At L4–L5 the mean subsidence was 1.48 mm (L4) and 0.56 mm (L5). Posterior uncoverage of L4 and L5 vertebrae were 4.81 and 2.22 mm, respectively. Subsidence of more than 1 mm was present in all cases where the posterior uncoverage of the end plate with the TDA was more than 2 mm (odds ratio: 5.7). Subsidence was non – progressive in all cases. An anatomic mismatch exists between L5 and S1 endplates in the AP dimension; in more than half the patients S1 is shorter than L5.