We report decreased clinical VTE rates following increased use of mechanical prophylaxis in elective kip and knee arthroplasty. Usage of intermittent pneumatic compression (IPC) increased due to the increased availability of pump machinery. Timing of IPC use also changed with IPC used intraoperatively on the unoperated limb and for a longer period postoperatively Clinical VTE rates are assessed for two years prior to the change in practice (1140 procedures) and two years afterwards (1285 procedures). There was no other change in practice (chemical thromboprophylaxis, anesthetic technique, use of compression stockings, usage of tourniquet or usage of cement) or in patient profile. Overall clinical VTE rates during admission dropped from 2.98% to 0.62% (p<0.0001). This decrease was seen in both hips 1.77% to 0.2% (p=0.029) and knees 3.97% to 0.89% (p=0.0002). There was a decrease in both pulmonary emboli 1.14% to 0.16% (p=0.0043) and symptomatic DVT 1.84% TO 0.47% (p=0.0023). There was no change in the rate of post discharge VTE events recorded 1.07% (p=0.57), either for DVT or PE (P=0.74 for each). We conclude that IPC with non-sequential calf compression is effective in reducing the rates of clinical in-hospital VTE after elective hip and knee arthroplasty.
With an increasing number of primary total hip arthroplasties being carried out worldwide, and a lack or inadequate follow-up leading to delays in revision surgery, more complex problems including periprosthetic fracture have to be dealt with at revision surgery. Unawareness, that clinical results do not reflect the mechanical state of the arthroplasty, together with strain shielding in the femur, progressive endosteal cavitation and stem migration may result in deterioration of the periprosthetic bone stock and femoral fracture. Acute onset due to the fracture, severe symptoms and poor medical status of the patient usually demands immediate surgical intervention. We have developed a modular cemented femoral component for revisions where deficiency of the proximal femur, or the femoral fracture, demands a variable extra-femoral portion of the stem. The shaft of the stem is 200mm or longer allowing the extra-medullary position to vary up to 15cm. It has a double polished taper Between 1985 and 2007 the stem has been used in 79 revisions where there was a periprosthetic fracture. The mean age at surgery was 70 years (37–93) and the mean follow-up was 4 years (0–14 years 10 months). In 86% the primary surgery had been performed at another hospital. In 80% the fracture had united at one year. The main post-operative problem was dislocation in 10 cases between 7 days and 9 years after revision and was most common where the abductors were absent. 2 patients died in the post-operative period. Five hips have been re-revised, 3 for dislocation, 1 for Infection and 1 stem loosening. Overall revision for periprosthetic fracture using this implant has given good results. Although the results of this type of surgery are encouraging, this must not be considered as an alternative to regular follow-up and early intervention in cases where progressive loosening and deteriorating bone stock are likely to lead to a more demanding surgery.
We prospectively investigated a consecutive series of ten patients undergoing a cemented primary total hip replacement (THR) for osteoarthritis in order to establish the elution characteristics of Simplex-tobramycin bone cement (Howmedica, Limerick, Ireland). Specimens of blood, urine and drainage fluid were collected for 72 hours postoperatively. Very high concentrations of tobramycin were found in the drainage fluid, with mean levels at one hour of 103 mg/l, which steadily declined to 15.1 mg/l after 48 hours. The mean serum tobramycin levels reached a peak of 0.94 mg/l at three hours and declined rapidly to 0.2 mg/l by 48 hours. The mean urinary tobramycin levels peaked at 57.8 mg/l at 12 hours with a rapid decline to 12.6 mg/l by 24 hours. There was a direct correlation between the amount of tobramycin bone cement which was implanted and the amount of tobramycin systemically absorbed. Excellent local delivery was achieved with minimal systemic concentrations. Simplex-tobramycin bone cement is an efficient and safe method for the delivery of antibiotics after THR.
Introduction: It is commonly believed that markedly increased femoral anteversion is a primary abnormality and a consistent feature of hip dysplasia. It is also considered to be one of the main factors leading to redislocation. Apart from limited cadaveric studies, the true normal range of anteversion in infants is largely unknown. We measured femoral anteversion in infants using ultrasound. We are presenting our results measuring the femoral anteversion in both normal and DDH hips. Methods and materials: Anteversion measurements are taken at the time of routine ultrasound screening for Developmental Dysplacia of Hip. This method was previously validated. We measured femoral anteversion in 76 infants with normal hips. We measured femoral ante-version in 27 hips with DDH. The mean femoral ante-version in normal babies is compared to the value in the babies with hip dysplasia using unpaired t-test. Results: The mean value of femoral anteversion in normal babies in our series was 46.75° with 95% reference interval of 36.34° to 57.17°. The mean femoral anteversion in dysplastic hips was 50.39° with a 95% reference interval of 34.88° to 65.89°. The difference between normal and dysplastic hips was statistically significant (p value −0.0095 and 95% CI of 6.36° to 0.90°). This showed a small increase of femoral anteversion in the dysplastic hips. Conclusion: We established reference ranges of femoral anteversion in normal and dysplastic hips. Our series showed only a small increase of femoral anteversion in the dysplastic hips. We showed that the markedly increased femoral anteversion was not a primary abnormality in hip dysplasia.