In macroscopically-normal and early degenerate human articular cartilage, chondrocytes often exhibit increased volume and abnormal morphology with cytoplasmic processes. With further degeneration, chondrocyte clusters are a characteristic feature. These changes can influence matrix metabolism leading to matrix loss and predisposition to osteoarthritis (OA). Here, we report that articular chondrocytes cultured in a weak 3D agarose gel develop some of the morphological changes observed in degenerate cartilage. Cells were isolated from bovine metacarpal-phalangeal joints using collagenase. Gels were prepared with agarose (2% or 0.2% (v/v)) and cultured for 7 days (Dulbecco's modified Eagle's medium;37superscriptC;pH7.4;fetal calf serum (FCS; 1–10%)). Cells were fluorescently-labelled and volume/morphology examined by confocal microscopy. After one week of culture, chondrocytes in 2% gels (10% FCS) were mostly spheroidal; only 18.5±1% cells exhibited fine processes and 42.5±0.1% formed small clusters. However, in weak (0.2%) gels 66.9±1.3% (P=0.011) of chondrocytes had processes with lengths 7–63μm and 80.8±0.2% (P<.005) formed large clusters. In the weak gel after seven days, increasing FCS concentration markedly elevated the %age of chondrocytes in clusters from 31.1±0.2% in 1% FCS, to 87.3±0.27% in 10% FCS (P⊖.05). (Data from a minimum of three separate experiments at each condition with at least three replicates). These results suggest some similarities between the morphological changes to chondrocytes with OA development and those observed in weak agarose gels. The increased prevalence of abnormal chondrocytes with raised FCS concentration suggests that action of e.g. growth factors on chondrocytes is a more potent controller of cell shape than the strength of agarose.
The anterior approach to primary total hip arthroplasty is an unfamiliar approach to most surgeons that is considered to be minimally invasive based on the premise that there is less soft tissue damage and quicker post-operative recovery time. We present our experience of using the anterior approach exclusively by a single surgeon at multiple surgical centers for a period of 3.5 years. 709 consecutive patients undergoing primary hip arthroplasties from 8/2007 to 12/2010 through a direct anterior approach were performed by single surgeon with extensive training in the approach. The procedure was performed with the patient supine on a fracture table (Trumph arch table extension) through an anterior approach as described by Dr. Joel Matta through a Smith-Peterson interval. Intra-operative data and complications were collected prospectively and to avoid missing any complications, electronic medical records (Alteer) were retrospectively reviewed.Introduction
Method
The advantages of the direct anterior approach (DAA) for total hip arthroplasty include the preservation of external rotators and hip abductors thus leading to quicker recovery times. To our knowledge, there is no objective method in the literature to predict the level of difficulty for femoral exposure through the DAA. It would be beneficial to the surgeon learning the DAA to assess difficulty pre-operatively to avoid prolonged operative times. The purpose of this study was to develop a predictive model of femoral exposure difficulty in the DAA using a combination of demographic data and radiographic measurements. 305 post-operative radiographs of consecutive THA's in patients (184 female, 120 male) with primary or secondary osteoarthritis, mean age 64.6 (range 26–91, SD=11.43) performed through the DAA by one of the co-investigators from 12/2005 to 12/2009 were retrospectively reviewed by two separate observers. The observers were blinded to the difficulty level of femoral exposure. Standard post-operative AP pelvis films were assessed with TraumaCad software (TraumaCad 2.2, Voyant Health, Columbia, MD) to make radiographic measurements as shown in Figure 1–2. Each radiograph was calibrated using the size of the femoral head implant. Exclusion criteria included films that had inadequate coverage of the entire pelvis, mal-rotation, or poor exposure. Statistical analysis was performed using STAT 9.1 (StatCorp; College Station, Texas, USA). A two-sided Kruskal–Wallis test was utilized for non-parametric data. Chi-squared tests and Fisher's Exact Test were used to compare proportions. Statistically significant associations were then added to a multivariate model predicting an outcome of difficult exposure.Introduction
Methods
Our aim was to determine the effects of tibial component malrotation and posterior slope on knee kinematics following Scorpio cruciate retaining total knee replacement in cadaver specimens. The movements of the hip, thigh and lower leg were monitored in 3D using a validated infra-red Computer Navigation System via bone implanted trackers. Ten normal comparable cadaver specimens were mounted in a custom rig allowing 3D assessment of kinematics under various loading conditions. The specimens then underwent Navigated TKR as per normal operating surgical protocols however an augmented tibial component was implanted. This allowed the researchers to precisely modify the rotation of the tibial component around its predetermined central axis, as well as to alter the posterior slope of the component. A pneumatic cylinder was used to provide a simulated quadriceps extension force while the knee was tested with a variety of applied loads including anterior and posterior draw, abduction and adduction, internal and external rotation. TKR kinematics are significantly different from those of the native knee (p<
0.05). Increasing tibial posterior slope resulted in an incremental posterior position of the femur (p<
0.05), deviation of the neutral path of motion (p<
0.05) and alteration of the normal AP envelope of laxity (p<
0.05). Tibial component malrotations over 10 degrees resulted in increasing deviations of the neutral movement path of motion (p<
0.05) without significantly affecting the envelope of laxity. Tibial component malrotations of more than 10 degrees, when combined with a posterior slope of six degrees or more, resulted in prosthetic subluxation under certain loading conditions. This study has demonstrated significant differences in knee kinematics before and after total knee implantation. Increasing values of internal and external rotation, as well as posterior slope of the tibial tray resulted in further deviations of total knee kinematics from normal by altering the neutral path of motion and the soft tissue envelope, with combined misalignments resulting in the greatest deviations from normal with prosthetic subluxation in some cases. Deviations from normal kinematics may result in increased ligament tension and incongruence or dysfunction of the component articulations, with the generation of sheer forces in the gait cycle. These may contribute to premature wear and loosening. Surgeons should be aware of this when considering the addition of posterior slope or assessing tibial component positioning in TKR.
Kinematics were different after TKR. Increasing posterior slope resulted in increasing posterior position of the femur, particularly at maximum flexion. Posterior slope also resulted in a deviation of the neutral path of motion and alteration of the normal envelope of laxity. Tibial component malrotations over 5 degrees resulted in deviations of the neutral path of motion without affecting the envelope of laxity. Combined malrotations over 10 degrees with posterior slopes over 6 degrees resulting in prosthetic subluxation under certain loading conditions.
Compression staples are a popular form of fixation for osteotomy and arthrodesis. “Mechanical Compression” or “Shape Memory” designs are commercially available. We performed a biomechanical study to assess suitability for their intended functions. Compression was measured using a load cell mounted within a simulated arthrodesis site. Two designs of mechanical compression and shape memory staples were tested and compared. The effect of altering the length of the staple limb was also assessed. Both designs of mechanical compression staple had divergence of their fixation limbs causing inconsistent compression or even distraction. The shape memory staples all achieved a consistent compressive force at the fusion site. Staple limb length did not appear to alter the compression force generated. The limbs of Mechanical Compression Staples splay open with a fulcrum at the intersection bridge. As a result, there is distraction of the far cortex and compression of the proximate cortex. Shape memory staples compress both the near and far cortices leading to stability and compression forces across the arthrodesis site.
We sought to determine whether smoking affected the outcome of reconstruction of the anterior cruciate ligament. We analysed the results of 66 smokers (group 1 with a mean follow-up of 5.67 years (1.1 to 12.7)) and 238 non-smokers (group 2 with a mean follow-up of 6.61 years (1.2 to 11.5)), who were statistically similar in age, gender, graft type, fixation and associated meniscal and chondral pathology. The assessment was performed using the International Knee Documentation Committee form and serial cruciometer readings. Poor outcomes were reported in group 1 for the mean subjective International Knee Documentation Committee score (p <
0.001), the frequency (p = 0.005) and intensity (p = 0.005) of pain, a side-to-side difference in knee laxity (p = 0.001) and the use of a four-strand hamstring graft (p = 0.015). Patients in group 1 were also less likely to return to their original level of pre-injury sport (p = 0.003) and had an overall worse final 7 International Knee Documentation Committee grade score (p = 0.007). Despite the well-known negative effects of smoking on tissue healing, the association with an inferior outcome after reconstruction of the anterior cruciate ligament has not previously been described and should be included in the pre-operative counselling of patients undergoing the procedure.