We identified a series of 128 patients who had unilateral open reconstruction of the anterior cruciate ligament (ACL) by a single surgeon between 1993 and 2000. In all, 79 patients were reviewed clinically and radiologically eight to 15 years after surgery. Assessment included measurement of the Lysholm and Tegner scores, the ACL quality-of-life score and the Short Form-12 score, as well as the International Knee Documentation Committee clinical assessment, measurement of laxity by the KT-1000 arthrometer, a single-leg hop test and standardised radiography of both knees using the uninjured knee as a control. Of the injured knees, 46 (57%) had definite radiological evidence of osteoarthritis (Kellgren-Lawrence grade 2 or 3), with a mean difference between the injured and non-injured knees of 1.2 grades. The median ACL quality-of-life score was 80 (interquartile range (IQR) 60 to 90), the Lysholm score 84 (IQR 74 to 95), the Short Form-12 physical component score 54 (IQR 49 to 56) and the mean Hop Index 0.94 (0.52 to 1.52). In total 58 patients were graded as normal, 20 as nearly normal and one as abnormal on the KT-1000 assessment and pivot-shift testing. Taking the worst-case scenario of assuming all non-attenders (n = 48), two septic failures and one identified unstable knee found at review to be failures, the failure rate was 40%. Only two of the patients reviewed stated that they would not have similar surgery again. Open reconstruction of the ACL gives good, durable functional results, but with a high rate of radiologically evident osteoarthritis.
Surgery was done with the patient in the kneeling, seated prone position which leaves the abdomen free and avoids venous kinking in the legs.
The patients were divided into two groups, A and B. The first, Group A, in which only Dynesys was used and the second, Group B, in which Dynesys was used adjacent to one or more fused segments.
The ROM of the end plate angle at the instrumented segments in Group A reduced from 5.72o to 1.44o{difference 4.28o(p=0.005)} and in Group B reduced from 6.00o to 2.17o,{difference 3.83o(p=0.001)}. The ROM of the end plate angle at the level above instrumentation in Group A reduced from 8.2o to 5.1o {reduction 3.1o(p=0.085)}, while in group-B increased from 7.3o to 7.5o, a difference of 0.2o (p=0.877). The mean anterior disc height in Group A reduced by 2.1mm (p<
0.001) from 9.59mm to 7.44mm. The posterior disc height also reduced from 6.56mm to 6.26mm, a difference of 0.3mm, (p=0.434). In Group B, the anterior disc height reduced by 1.98mm (pre-op=9.04mm, post-op= 7.06mm, p=0.001) and the posterior height by 0.35mm (pre-op 6.14mm to post op 5.79mm, p=0.443)
At 6 months, there was a significant increase in the spinal canal and foraminal dimension. However at 2 years there was a reduction in these dimensions such that there was no significant difference from the preop-erative measurements.
Mean IL-6 levels were higher in groups of patients with more distress measured by the DRAM and HADS depression component but were lower in patients with more anxiety. IL-6 receptor levels were higher in patients with raised DRAM and HADS anxiety scores. No significant correlation between questionnaire responses and cytokine levels was found. A correlation exists between IL-6 and CRP levels even at normal levels of CRP.
The patients were divided into two groups, A and B. The first, Group A, in which only Dynesys was used and the second, Group B, in which Dynesys was used adjacent to one or more fused segments.
The ROM of the end plate angle at the instrumented segments in Group A reduced from 5.72o to 1.44o{difference 4.28o(p=0.005)} and in Group B reduced from 6.00o to 2.17o,{difference 3.83o(p=0.001)}. The ROM of the end plate angle at the level above instrumentation in Group A reduced from 8.2o to 5.1o {reduction 3.1o(p=0.085)}, while in group-B increased from 7.3o to 7.5o, a difference of 0.2o (p=0.877). The mean anterior disc height in Group A reduced by 2.1mm (p<
0.001) from 9.59mm to 7.44mm. The posterior disc height also reduced from 6.56mm to 6.26mm, a difference of 0.3mm, (p=0.434). In Group B, the anterior disc height reduced by 1.98mm (pre-op=9.04mm, post-op= 7.06mm, p=0.001) and the posterior height by 0.35mm (pre-op 6.14mm to post op 5.79mm, p=0.443)
The ZCQ, ODI, SF-36 and VAS were completed preoperatively and at 12 months by 54, 50, 52, 52 respectively. Thirty-nine patients completed all questionnaires at all time points and the maximal clinical efficacy was evident 3 months post-operatively. Clinical significant improvement was maintained at the 6- and 12 month post-operative follow-ups despite a minimal loss of clinical efficacy in absolute mean values. Overall, clinically significant response was achieved in 65%. Seventy-one per cent of double level patients and 61% of single level patients as determined by the ZCQ, had a clinically significant response. Corresponding changes were seen in VAS and ODI and SF-36. Ten patients (18%) required caudal epidural for recurrence of symptoms and 1 patient required perifacet injections for back pain.
Thirty patients with were treated with Dynesys system. All had discography and positional MRI preoperatively and nine months post-operatively. The patients were divided in to two groups. The first in which only Dynesys was used and the second in which Dynesys was used with fusion.
The ROM of the end plate angle at the instrumented segments in group-A reduced from 5.24o to 2.18o{difference 3.06o(p<
0.005)} and in group-B reduced from 6.69o to 2.46o,{difference 4.23o(p=0.008)}. The ROM of the end plate angle at adjacent level in group-A changed from 8.26o to 7.0o {reduction 1.26o(p=0.388)},while in group-B increased from 6.91o to 8.64o, {difference 1.73o(p=0.149)} The mean anterior disc height in-group A reduced by 1.43mm (p<
0.005) from 9.75mm to 8.32mm, and the posterior one was increased from 6.27mm to 6.77mm {difference of 0.5mm,(p=0.008)}. In group-B the anterior disc height reduced by 1.11mm (pre-op=10.44mm,post-op= 9.33mm,p=0.049) and the posterior one by 0.16mm (pre-op 6.98mm to post-op 6.82mm,p=0.714).
Images were taken in sitting flexed, extended, neutral, and standing. The total range of motion of the lumbar spine and of the individual segments were measured, along with changes in disc height, areas of the exit foramina, and dural sac. The mean area of the dural sac at the operated levels increased from 62.46mm2 to 77.69mm2 (p=0.004) in the standing posture and from 70.85mm2 to 94.62mm2 (p=0.019) in extension postoperatively. The area of the exit foramina in extension increased from 83.57mm2 to 107.88mm2 (p=0.002) on the left side and from 83.77mm2 to 108.69mm2 (p=0.012) on the right. The overall changes in the range of movement of the individual segments or of the lumbar spine were statistically insignificant.
The patients were divided into two groups. The Group-A with 14 patients in which only Dynesys was used and Group-B with 11 patients in which Dynesys was combined with fused levels. The operated levels were 51, 13 of which were fused. The results showed that the mean range of movement of the lumbosacral angle reduced by 10.28° (Preop=39.21°, Postop=28.93°) (p=0.016) in group-A. In group-B it reduced by 13.73° (Preop=36.18°, Postop=22.45°) (p=0.02). The range of movement of the end plate angle at the instrumented segments in group-A reduced by 2.96° (Preop=5.56°, Postop=2.60°) (p=0.016) while in group-Bit reduced by 4.23° (Preop=6.69°, Postop=2.46°)(p=0.008). The mean range of movement of the end plate angle at adjacent level in group-A reduced by 1.58° (Preop=8.7°, Postop=7.21°)(p=0.427) while in group-B it increased by 1.73° (Preop=6.91°, Postop=8.64°) (p=0.149) The mean anterior disc height in group-A reduced by 1.18mm (Preop=10.05mm, Postop=8.87mm) (p<
0.005), and the posterior one was increased by 0.6mm (Preop=6.51mm, Postop=8.87mm) (p=0.013). In group-B, the anterior disc height was reduced by 1.11mm (Preop= 10.44mm, Postop=9.33mm) (p=0.049) and the posterior one by 0.16mm (Preop=6.98mm Postop=6.82mm) (p=0.714)
Cement pressurisation is recognised as critical to achieving optimal results in cemented arthroplasty of the hip, but relatively little data exists on the pressures generated by different cement introduction systems. An Plastic femoral models (Sawbones Europe) were prepared as for hip arthroplasty, and had a series of three transducers attached to their medial wall. Pressure was recorded continuously during cement introduction and pressurisation, before implanting a hip prosthesis and allowing the cement to cure. The experiment was repeated on ten models for each of the three systems. After cement curing, the femora were split in the coronal plane and examined for air-bubble defects in 7 zones analogous to Gruen’s radiographic zones. Mean pressure was significantly higher for the syringe system (161.45 ± 28.9 kPa) than the Mark 1 (103.51 ± 22.0 kPa) or Cemvac (92.65 ± 30.7 kPa) systems ( These results have relevance for clinical practice and cement system design, and the various design features of the different systems are discussed.
This study measures the changes in the lumbar spine in different postures, pre- and after insertion of the device.
All had a positional MRI preoperatively and nine months post-operatively in flexion-extension-lateral bending. The patients were divided in to two groups: Group(A) with 8 patients in which Dynesys was used with fusion (disc-height<
40 %) Group(B) with 12 patients was the Dynesys-only group (disc-height=40–90%).
The changes in the anterior disc height was (mean= −1.18)(p<
0.05) and to the posterior (mean=0.37)(p=0.134). In bending were (mean=−0.87°)(p=0.18) for left and (mean=−0.24°)(p=0.75) for the right
Cement pressurisation is recognised as critical to achieving optimal results in cemented arthroplasty of the hip, but relatively little data exists on the pressures generated by different cement introduction systems. An in vitro experiment was consequently undertaken to measure the mean pressures developed by three such systems: the Howmedica Mark 1 and DePuy Cemvac retrograde cementation systems, and a novel antegrade system consisting of a simple 60ml catheter-tipped syringe and a Miller proximal femoral seal (Zimmer Ltd). Plastic femoral models (Sawbones Europe) were prepared as for hip arthroplasty, and had a series of three transducers attached to their medial wall. Pressure was recorded continuously during cement introduction and pressurisation, before implanting a hip prosthesis and allowing the cement to cure. The experiment was repeated on ten models for each of the three systems. After cement curing, the femora were split in the coronal plane and examined for air-bubble defects in 7 zones analogous to Gruen’s radiographic zones. Mean pressure was significantly higher for the syringe system (161.45 28.9 kPa) than the Mark 1 (103.51 22.0 kPa) or Cemvac (92.65 30.7 kPa) systems (p=0.0001, ANOVA). The antegrade syringe system also generated a statistically different distribution of pressure in comparison to the two retrograde systems, with particularly high proximal pressurisation in the former. The median number of zones with defects was 1 (interquartile range 1,2) using the syringe system, 3 (IQR 2,4) with the Mark 1 system, and 3 (IQR1,3) using the Cemvac system. These differences were also statistically significant (p=0.0256, Kruskal-Wallis). These results have relevance for clinical practice and cement system design, and the various design features of the different systems are discussed.
21 patients (11 males; 10 females) were included in the study. Age ranged from 57 – 88 years. All had symptomatic lumbar spinal stenosis- single level- 13 (L2/3-1; L3/4-3; L4/5-9); double level 8(L3/4, L4/5 – 7; L4/5, L5/ S1 – 1).
This study measures the changes in the lumbar spine in different postures, pre- and after insertion of the device. Methods In our study 25 patients with dominant low back pain, with or without leg pain, were treated with Dynesys system, 14 females and 11 males with mean age 43.5 yrs. Discography was done to evaluate the symptomatic painful level. All patients had a positional magnetic resonance imaging (pMRI) scans preoperatively and nine months post-operatively in standing; sitting flexion and extension, and left and right bending postures. The patients were initially divided into two groups. The first (Group A) with 14 patients in which only Dynesys was used (disc height 40–90%) and the second (group B) with 11 patients in which Dynesys was used with fusion (disc height <
40 %).
The range of movement of the end plate angle at the instrumented segments in group A reduced from 5.6° preoperatively to 2.6° with a difference of 3.0° (p=0.016) while in group B it reduced from 6.7° to 2.5° postoperatively with a difference of 4.2°(p=0.008). The range of movement of the end plate angle at adjacent level in group A changed from 8.8° preop. to 7.2° with a reduction of 1.6° (p=0.427) while in group B it increased from 6.9° to 8.6°, difference of 1.7° (p=0.149) The mean anterior disc height in group A reduced by 1.2mm (p<
0.005) from 10.1mm to 8.9mm postoperatively, and the posterior one was increased from 6.5mm to 8.9mm with a difference of 0.6mm (p= 0.013). In group B the anterior disc height was reduced by 1.1mm (pre-op 10.4mm to post-op 9.3mm; p=0.049) and the posterior one by 0.16mm (pre-op 6.98mm to post-op 6.82mm; p=0.714)
Here we discuss the evaluation of two spinal devices: Dynesys, a spinal stabilisation system for back pain, and X STOP, an interspinous process distraction device for spinal stenosis.
For Dynesys, 30 patients with lower back pain were recruited. The first 20 patients have completed their 9 month scan, and the results show that the device reduces the range of movement at the operated segments, with a small increase in movement at adjacent segments and an overall reduction in the range of movement of the lumbar spine. For X STOP, the first 10 of 45 have reached their second scan at 6 months post surgery. The scans demonstrate a net increase in the cross-section of the spinal canal of 21% when flexed to 35% whilst standing, and an increase in the surface area of the exit foramen of 23% flexed and 51% standing at operated levels.