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Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XLIV | Pages 107 - 107
1 Oct 2012
Vrtovec T Janssen M Pernuš F Castelein R Viergever M
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Pelvic incidence is as a key factor for sagittal balance regulation that describes the anatomical configuration of the pelvis. The sagittal alignment of the pelvis is usually evaluated in two-dimensional (2D) sagittal radiographs in standing position by pelvic parameters of sacral slope, pelvic tilt and pelvic incidence (PI). However, the angle of PI remains constant for an arbitrary subject position and orientation, and can be therefore compared among subjects in standing, sitting or supine position. Such properties also enable the measurement of PI in three-dimensional (3D) images, commonly acquired in supine position. The purpose of this study is to analyse the sagittal alignment of the pelvis in terms of PI in 3D computed tomography (CT) images.

A computerised method based on image processing techniques was developed to determine the anatomical references, required to measure PI, i.e. the centre of the left femoral head, the centre of the right femoral, the centre of the sacral endplate, and the inclination of the sacral endplate. First, three initialisation points were manually selected in 3D at the approximate location of the left femoral head, right femoral head and L5 vertebral body. The computerised method then determined the exact centres of the femoral heads in 3D from the spheres that best fit to the 3D edges of the femoral heads. The exact centre of the sacral endplate in 3D was determined by locating the sacral endplate below the L5 vertebral body and finding the midpoint of the lines between the anterior and posterior edge, and between the left and right edge of the endplate. The exact inclination of the sacral endplate in 3D was determined from the plane that best fit to the endplate. Multiplanar 3D image reformation was applied to obtain the superposition of the femoral heads in the sagittal view, so that the hip axis was observed as a straight not inclined line and all anatomical structures were completely in line with the hip axis. Finally, PI was automatically measured as the angle between the line orthogonal to the inclination of the sacral endplate and the line connecting the centre of the sacral endplate with the hip axis.

The method was applied to axially reconstructed CT scans of 426 subjects (age 0–89 years, pixel size 0.4–1.0 mm, slice thickness 3.0–4.0 mm). Thirteen subjects were excluded due to lumbar spine trauma and presence of the sixth lumbar segment. For the remaining subjects, the computerised measurements were visually assessed for errors, which occurred due to low CT image quality, low image intensity of bone structures, or other factors affecting the determination of the anatomical references. The erroneous or ambiguous results were detected for 43 subjects, which were excluded from further analysis. For the final cohort of 370 subjects, statistical analysis was performed for the obtained PI. The resulting mean PI ± standard deviation was equal to 46.6 ± 9.2 degrees for males (N = 189, age 39.7 ± 20.3 years), 47.6 ± 10.7 degrees for females (N = 181, age 43.4 ± 19.9 years), and 47.1 ± 10.0 degrees for both genders (N = 370, age 41.5 ± 20.1 years). Correlation analysis yielded relatively low but statistically significant correlation between PI and age, with the correlation coefficient r = 0.20 (p < 0.005) for males, r = 0.32 (p < 0.0001) for females, and r = 0.27 (p < 0.0001) for both genders. No statistically significant differences (p = 0.357) were found between PI for male and female subjects.

This is the first study that evaluates the sagittal alignment of the pelvis in terms of PI completely in 3D. Studies that measured PI manually from 2D sagittal radiographs reported normative PI in adult population of 52 ± 10 degrees, 53 ± 8 degrees and 51 ± 9 degrees for 25 normal subjects aged 21–40, 41–60, and over 60 years, respectively [3], and 52 ± 5 degrees for a cohort of 160 normal subjects [4]. The PI of 47 ± 10 degrees obtained in our study is lower than the reported normative values, which indicates that radiographic measurements may overestimate the actual PI. Radiographic measurements are biased by the projective nature of X-ray image acquisition, as it is usually impossible to obtain the superposition of the two femoral heads. The midpoint of the line connecting the centres of femoral heads in 2D is therefore considered to be the reference point on the hip axis, moreover, the inclination of the sacral endplate in the sagittal plane is biased by its architecture and inclination in the coronal plane. On the other hand, the measurements in the present study were obtained by applying a computerized method to CT images that determined the exact anatomical references in 3D. Perfect sagittal views were generated by multiplanar reformation, which aligned the centres of the femoral heads in 3D. The measurement of PI was therefore not biased by acquisition projection or structure orientation, as all anatomical structures were completely in line with the hip axis. Moreover, the range of the PI obtained in every study (standard deviation of around 10 degrees) indicates that the span of PI is relatively large. It can be therefore concluded that an increased or decreased PI may not necessary relate to a spino-pelvic pathology.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_II | Pages 155 - 155
1 May 2011
Goosen J Kollen B Castelein R Kuijpers B Verheyen C
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Background: In order to achieve a minimized need for tissue dissection resulting in a faster rehabilitation, minimally invasive surgery (MIS) in Total Hip Arthroplasty (THA) was developed. In this small incision technique the skin and musle dissection has been reduced with respect to the classical approach. Literature shows ambiguous results comparing the posterolateral minimally incisive with the classical approach. As the anterolateral approach is also a routine procedure, and to test how minimally invasive MIS is, we hypothesized that patients treated with a THA using a posterolateral or anterolateral MIS would experience improved clinical results compared with a standard incision after six weeks and no clinical differences after one year. This was tested in a double-blind randomized controlled trial with the Harris Hip Score (HHS) as a primary endpoint.

Methods: One hundred and twenty consecutive primary uncemented THAs were randomized into one of four groups of 30 patients each. Either standard posterolateral or anterolateral approaches (PL- or AL-CLASS), or minimal invasive posterolateral or anterolateral approaches (PL- or AL-MIS) were performed. CLASS incisions were 18 cm. To avoid postoperative bias, MIS incisions were extended at skin level to 18 cm at the end of the procedure. The HHS as well as patient-centered questionnaires (SF-36, WOMAC and OHS) was obtained preoperatively, at six weeks and one year after the index operation. Preoperative data, blood loss, hemoglobin, muscle damage parameters and radiological parameters were analyzed. In order to detect a minimal clinically important difference of five points or more between the MIS or CLASS groups with respect to the Harris Hip Score at the 0.05 alpha level with 80% power, 120 patients were enrolled in the study.

Results: Mean incision length of the THAs performed by MIS was 7.8 (SD = 1.6). In the patients of the MIS group a significant increased mean HHS was observed compared with the CLASS (p = 0.03) after six weeks and one year. This difference was caused by the favorable results of the PL-MIS (p = 0.009). Of the three patient-centered questionnaires, the SF-36 results were also favourable in the PL-MIS group after six weeks (p = 0.04). In the MIS group operation time was longer (p < 0.001) and a learning curve was observed based on operation time and complication rate. Peri-operative complications rates were not significantly different between the groups. Blood loss, hemoglobin, muscle damage parameters and radiological parameters also showed no difference.

Conclusions: This double-blind, randomized study reveals an improved clinical outcome of the PL-MIS compared with the AL-MIS, PL-CLASS and AL-CLASS after six weeks and one year follow-up with the Harris Hip Score as primary endpoint.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_II | Pages 299 - 299
1 May 2009
Moojen D Everts P Schure R Overdevest E van Zundert A Knape J Castelein R Creemers L Dhert W
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The use of platelet-leukocyte gel (PLG), made from platelet rich plasma, to stimulate bone formation and wound healing has been investigated extensively. As leukocytes play an important role in the innate host-defence, we hypothesised that PLG might also have antimicrobial properties.

The purpose of this study was to investigate the antimicrobial activity of PLG against Staphylococcus aureus in an in vitro experiment. To determine the contribution of myeloperoxidase (MPO), present in leukocytes, in this process, MPO release was measured.

Platelet rich plasma (PRP) was prepared from whole blood of 6 donors. In this process platelet poor plasma (PPP) was obtained as well. PLG was prepared by mixing PRP with either autologous (PLG-AT) or bovine thrombin (PLG-BT). The antimicrobial activity of PLG-AT, PLG-BT, PRP and PPP was determined in a bacterial kill assay, containing 1x106 CFU/ml of Staphylococcus aureus, during a 24-hour period. MPO release was measured by ELISA.

Cultures showed a rapid decrease in the number of bacteria in the presence of both PLG-AT and PLG-BT, which was maximal between 4 and 8 hours, to approximately 1% of the bacteria in controls. Also PRP and PPP induced a statistically significant bacterial kill, but the effect of PLG-AT was the largest (p=0.093 vs. PLG-BT; p=0.004 vs. PRP and p< 0.001 vs. PPP). PLG-AT, PLG-BT and PRP showed a comparable, gradually increasing MPO release for 8 to 12 hours. Some MPO was also measured in the PPP samples. No correlation between MPO release and bacterial kill could be found.

PLG appears to have potent antimicrobial capacity, but the role of MPO in this activity is questionable. PLG might represent a useful strategy against postoperative infections. Further research should investigate its antimicrobial capacity in the in vivo situation.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_II | Pages 299 - 300
1 May 2009
Moojen D Roestenburg H Vogely H Fleer A Verbout A Castelein R Dhert W
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A new type of metallic silver bone cement was previously shown to be effective against both antibiotic sensitive and resistant bacteria.

In this study the efficacy of silver bone cement in preventing methicillin- sensitive Staphylococcal infections was compared with plain and tobramycin-containing bone cement, in a rabbit contaminated implant bed model.

In 48 rabbits 0.6%-silver, 1%-silver, plain or tobramycin-loaded (tobra) PMMA bone cement (Simplex®P; Howmedica, Ireland) was injected into the medullary canal of the right femur after contamination of the implant bed with 105, 106 or 107 colony forming units (CFU) of Staphylococcus aureus. After 14 days bone was collected, homogenised and plated on blood agar plates. After an overnight incubation the number of CFU’s was counted. Bone was also collected for pathological analysis.

The plain and silver cement rabbits were all infected, whereas with tobra cement only 2 rabbits (17%) were infected (p< 0.001). The number of bacteria cultured from bone adjacent to the cement, was 6.4±0.3 and 6.1±0.3 for the 0.6% and 1%-silver rabbits. For the rabbits with plain and tobra cement this was 6.2±0.2 (p> 0.95) and 0.0±0.0 (p< 0.001). Two tobra rabbits had a positive culture of a distal bone sample. Histological sections of plain, 0.6% and 1%-silver cement rabbits all showed signs of infection; these signs were absent in the tobra rabbits.

Silver cement was not effective in preventing infection. However, in the current model bacteria are present directly at and distant from the implant surface, whereas silver cement predominantly exhibits an antimicrobial effect at the direct cement surface. The non-eluting silver cement seems less useful in situations where there are also bacteria present in surrounding tissues, like revision surgery. Whether silver cement has relevance in preventing bacterial colonization of cement, for instance in late haematogenous infections, or not remains to be seen.