共查询到20条相似文献,搜索用时 328 毫秒
1.
Alberto Grassi Cecilia Signorelli Francisco Urrizola Federico Raggi Luca Macchiarola Tommaso Bonanzinga Stefano Zaffagnini 《The Knee》2018,25(4):577-587
Background
Until now, there has been a lack of in vivo analysis of the correlation between bony morphological features and laxity values after an anterior cruciate ligament (ACL) injury.Methods
Forty-two patients who underwent ACL-reconstruction were enrolled. Static laxity was evaluated as: antero-posterior displacement and internal–external rotation at 30° and 90° of flexion (AP30, AP90, IE30, IE90) and varus–valgus rotation at 0° and 30° of flexion (VV0, VV30). The pivot-shift (PS) test defined the dynamic laxity. Using magnetic resonance imaging, we evaluated the transepicondylar distance (TE), the width of the lateral and medial femoral condyles (LFCw and MFCw) and tibial plateau (LTPw and MTPw), the notch width index (NWI) and the ratio of width and height of the femoral notch (N-ratio), the ratio between the height and depth of the lateral and medial femoral condyle (LFC-ratio and MFC-ratio), the lateral and medial posterior tibial slopes (LTPs and MTPs) and the anterior subluxation of the lateral and medial tibial plateau with respect to the femoral condyle (LTPsublx and MTPsublx).Results
Concerning the AP30, LTPs (P = 0.047) and MTPsublx (P = 0.039) were shown to be independent predictors while for the AP90 only LTPs (P = 0.049) was an independent predictor. The LTPs (P = 0.039) was shown to be an independent predictor for IE90 laxity, while for the VV0 test it was identified as the LFCw (P = 0.007).Conclusions
A higher antero-posterior laxity at 30° and 90° of flexion was found in those with a lateral tibial slope < 5.5°. 相似文献2.
Casey A. Slattery Christopher Y. Kweon Mia S. Hagen Albert O. Gee Richard V. Williamson 《The Knee》2018,25(6):1165-1170
Background
While degenerative changes to the articular cartilage of the anterior and distal portions of the femoral condyles have been well studied in the literature, the changes that occur on the posterior femoral condyle are not as clear. The purpose of this study was to assess the difference in articular cartilage thickness between the medial and lateral posterior femoral condyles in knees undergoing unicompartmental knee arthroplasty.Methods
A retrospective review of prospectively gathered data on 107 consecutive patients undergoing unicompartmental knee arthroplasty performed by a single surgeon was performed. The remaining articular cartilage thickness after resection of the posterior femoral condyle was measured and simple analysis conducted to compare cartilage thickness between medial and lateral posterior femoral condyles.Results
Ninety-two medial unicompartmental arthroplasties and 15 lateral unicompartmental arthroplasties were performed during the 16?month study period. The majority of lateral UKA patients were female and had lower BMI than medial UKA patients. The articular cartilage thickness on the medial posterior femoral condyle was 3?mm?±?1?mm (mean?±?standard deviation) and 1?mm?±?1?mm on the lateral side (p-value < 0.001).Conclusions
There is a significant difference in articular cartilage thickness between the medial and lateral posterior femoral condyles in patients undergoing unicompartmental knee arthroplasty. This coincides with a potentially inherently different pattern of articular cartilage degeneration between the medial and lateral compartments of the knee and has implications on implant designs and resurfacing techniques about the knee. 相似文献3.
Background
This work aimed to evaluate the changes in the femoral posterior condylar offset (PCO) and tibial slope after posterior cruciate ligament (PCL)-substituting total knee arthroplasty (TKA), and to address the presence of any interactive effect between the two on knee flexion.Methods
Fifty-two PCL-substituting TKAs were performed using a posterior referencing system. Three-dimensional reconstructed computed tomographic (CT) images were used to evaluate PCO and tibial slope before and after arthroplasty. Range of motion and clinical scores were evaluated at a mean of 3.1 years postoperatively. Multivariate linear model with interaction terms was used to evaluate and compare the relationships among changes in PCO, tibial slope, and postoperative knee flexion angles.Results
The degree of change in PCO was greater in the lateral condyle than in the medial condyle (3.1 ± 2.5 mm and ? 0.5 ± 2.8 mm, respectively). Postoperative medial and lateral tibial slopes were 1.4° ± 1.8 and 1.4° ± 2.0, respectively. The mean degree of postoperative knee flexion was 125°. Analysis with interaction terms and covariate adjustment demonstrated that medial PCO and tibial slope were significantly related to knee flexion with interactive effect (P = 0.011). In cases with < 3° posterior tibial slope, the postoperative PCO was positively correlated to the degree of knee flexion angle. However, in cases with > 3° tibial slope, PCO was negatively correlated to knee flexion.Conclusion
Medial femoral PCO and tibial slope showed interactive effect on knee flexion after PCL-substituting TKAs. Reconstitution of the proper PCO and avoiding excessive tibial slope may be necessary. 相似文献4.
Mai Katakura Masafumi Horie Toshifumi Watanabe Hiroki Katagiri Koji Otabe Toshiyuki Ohara Kaori Nakamura Kenta Katagiri Hiroko Ueki Stefano Zaffagnini Ichiro Sekiya Takeshi Muneta Hideyuki Koga 《The Knee》2019,26(1):124-131
Background
Some types of meniscus tear, especially lateral meniscus tear, have been reported to be associated with rotatory knee laxity. However, precise information regarding the effect of meniscus repair on rotatory laxity is limited. The purpose of this study was to investigate the effects of lateral and medial meniscus repair on rotatory laxity in anterior cruciate ligament (ACL) injured knees.Methods
Forty-one patients who underwent ACL reconstruction were included in the study. The tibial acceleration during the pivot shift test was measured using a triaxial accelerometer preoperatively under anesthesia and intraoperatively before and after medial and lateral meniscus repair and ACL reconstruction during surgery. Effects of meniscus tear and its repair on rotatory laxity were analyzed.Results
Preoperative measurements revealed that patients with lateral meniscus tear showed significantly higher tibial acceleration compared to the patients without meniscus tear (P?=?0.006). Intraoperative measurements revealed that medial and lateral meniscus repair significantly reduced tibial acceleration by 1.46?m/s2 (P?=?0.002) and 1.91?m/s2 (P?<?0.001), respectively.Conclusion
In ACL injured knees, knees with lateral meniscus tear showed greater rotatory laxity compared to the knees without meniscus tear. In addition, lateral meniscus repair, and to a lesser degree medial meniscus repair, reduced rotatory laxity during ACL reconstruction surgery. Therefore, the meniscus should be repaired as much as possible for its role as a secondary stabilizer of rotatory laxity. Besides, the effect of meniscus repair on rotatory laxity should be considered when the indication of anterolateral augmentation is determined. 相似文献5.
《The Knee》2022
PurposeSpontaneous osteonecrosis of the knee (SONK) causes acute atraumatic knee pain, and meniscus tears may be associated with the pathogenesis of SONK. The purpose of this study was to investigate the relationship of the type of meniscus tear and medial meniscus extrusion with SONK on the medial femoral condyle in patients who underwent surgical treatment with high tibial osteotomy due to severe knee pain.MethodsWe enrolled 98 patients with 102 knees who underwent medial opening wedge high tibial osteotomy (OWHTO) under the diagnosis of medial femoral condyle osteonecrosis at our hospital from December 2003 to January 2020. Based on the Koshino classification, cases of SONK were classified as stage 1–4. The relationships of demographic data, X-rays and MRI images, including femorotibial angle (FTA), meniscus tear type, and medial meniscus extrusion (MME), with the stage and volume of SONK were investigated.ResultsNinety-eight patients (29 males and 69 females), with an average age at surgery of 69.2 ± 9.6 years and Body mass index(BMI) of 61.0 ± 17.6 kg/m2. In 102 cases of SONK, 11 knees, 18 knees, 46 knees, and 27 knees were classified as stage 1–4, respectively. The mean SONK volume was 2161.61 µm (range 95.67–7484.68 µm) on preoperative MRI. The preoperative FTA (mean 180.86°, range 172–187°) was not associated with the stage or volume of SONK. Meniscus tears were found in all cases of SONK and consisted of 2 degenerations, 2 horizontal tears, 0 vertical tears, 40 radial tears, 4 complex tears, and 54 medial meniscus posterior root tears (MMPRTs). In addition, 99% (101/102) of knees showed more than 3 mm of meniscus extrusion. Although the meniscus tear type was not associated with SONK stage, there was a high rate of tears that caused disruption of the hoop strain, such as MMPRTs (52.9%) or radial tears (39.2%). MME was significantly related to SONK volume (r = 0.387, p < 0.001).ConclusionAll patients with SONK had coexisting meniscus tears, most menisci had medial extrusion, and a positive correlation was observed between MME and SONK volume. 相似文献
6.
Lee Weidauer Maggie Minett Charles Negus Teresa Binkley Matt Vukovich Howard Wey Bonny Specker 《European journal of applied physiology》2014,114(7):1429-1438
Purpose
The purpose of this study was to investigate tibial changes in volumetric bone mineral density and geometry that take place in athletes from pre- to post-season.Methods
Female college athletes (n = 36) and ten controls recruited from the student population were included in the study. Participants had their left tibia scanned by pQCT at 4, 20, and 66 % of the overall length from the distal end before and after their competitive seasons. Subjects were divided into four groups: non-athlete (controls, n = 10), moderate-impact (cross-country runners, n = 13), high-impact (volleyball and basketball, n = 11), and odd-impact (soccer, n = 12).Results
Anterior–posterior and medial–lateral diameter increased at the 4 % site in control subjects. In the moderate-impact group, medial–lateral moment of inertia (MOI) increased by 1.2 ± 1.8 (mean ± SD) percent at the 20 % site. In high-impact group, anterior–posterior MOI increased by 1.6 ± 2.0 percent at the 66 % site. In odd-impact group, cortical area (1.4 ± 2.3 %) and cortical thickness (1.8 ± 2.8 %) increased at the 20 % site increased, as did the polar MOI (1.8 ± 2.2 %) at the 66 % site.Conclusions
Load-specific changes resulting in improved measures of bone strength take place in athletes during a competitive season. These changes may result in improved resistance to fractures and stress fractures. 相似文献7.
Ravi Gupta Anil Kapoor Naveen Mittal Ashwani Soni Sourabh Khatri Gladson David Masih 《The Knee》2018,25(6):1051-1056
Background
The role of an intact meniscus in providing mechanical stability to the knee of anterior cruciate ligament (ACL) deficient and ACL reconstructed patients has not been well studied.Methods
This was a prospective cohort study. A total of 205 patients undergoing ACL reconstruction were enrolled, of which 61 had normal menisci, 49 had a tear in the posterior horn of the medial meniscus (PHMM) (tear < 40% of width?=?19; > 40% of width?=?30), 35 had a tear in the lateral meniscus (< 40% of width?=?15; > 40%?=?20), 13 had a tear in the body and/or anterior horn of the medial meniscus (< 40% of width?=?6; > 40%?=?7) and 47 patients had a tear in both menisci. Patients with a tear in both menisci were excluded. The anterior translation of the tibia (ATT) was calculated preoperatively and postoperatively at three months and six months using KT-1000. Partial meniscectomy was performed in all unstable meniscal tears.Results
The mean age at the time of surgery was 25.2?±?5.1?years. Patients with a normal meniscus showed side to side difference in KT-1000 of 4.8?±?2.5?mm whereas those with a < 40% tear and > 40% tear in PHMM had a difference of 5.36?±?3.07?mm (P?=?0.46) and 7.08?±?2.78?mm (P?=?0.0002), respectively. Patients with a lateral meniscus < 40% and > 40% tear had a mean difference of 5.68?±?2.96?mm (P?=?0.22) and 5.95?±?2.39?mm (P?=?0.09), respectively. Patients with body and/or anterior horn of medial meniscus < 40% and > 40% had a difference of 5.41?±?1.11?mm (P?=?0.59) and 5.78?±?2.38?mm (P?=?0.35), respectively. At three months and six months KT-1000 differences of 2.3?±?1.2?mm and 2.1?±?1.2?mm were seen in patients with normal meniscus; 2.26?±?1.51?mm and 2.16?±?0.9?mm with partial meniscectomy of the PHMM < 40%; 2.65?±?1.53?mm and 2.4?±?1.35?mm with partial meniscectomy of the PHMM > 40%; 2.27?±?1.19?mm and 2.07?±?1.52?mm with partial meniscectomy of the lateral meniscus < 40%; and 2.27?±?1.44?mm and 2.07?±?1.14?mm with partial meniscectomy of the lateral meniscus > 40%; 2.55?±?1.56?mm and 1.91?±?1.09?mm with partial meniscectomy in body and/or anterior horn of medial meniscus < 40% and 2.07?±?1.81 and 2.14?±?1.10?mm with partial meniscectomy in body and/or anterior horn of medial meniscus > 40% (P?>?0.05).Conclusion
PHMM acts as a secondary stabilizer of the knee joint in the absence of functional ACL. There is no effect of partial meniscectomy on mechanical stability of the knee in ACL reconstructed patients. Medial or lateral partial meniscectomy performed at the time of ACL reconstruction does not affect the stability of ACL reconstructed knee. However, the presence of a concomitant tear in PHMM is associated with increased instability in ACL deficient knee. 相似文献8.
Anthony Viste Florian Chatelet Romain Desmarchelier Michel-Henri Fessy 《Surgical and radiologic anatomy : SRA》2014,36(8):733-739
Purpose
The aim of this dissection study was to describe the anatomical insertions of the medial patello-femoral ligament (MPFL), and to assess its relationship with surrounding structures to improve its surgical reconstruction.Methods
Twelve knees (7 cadavers) were included for the study. Measurements and general features of the MPFL were assessed: lengths, widths and insertions.Results
The MPFL was found in all knees, presenting a triangular shape, and extending from the medial part of the patella to its femoral insertion (its length was of 59 ± 6.6 mm), distal to the adductor tubercle. The mean femoral insertion of the MPFL was 7.2 ± 2.7 mm proximal and 7.4 ± 4.0 mm posterior to the medial femoral epicondyle (MFE). It was also at a mean 11 ± 2.8 mm distal and 1.3 ± 2.1 mm posterior to the adductor tubercle, and 22 ± 6.4 mm anterior to the posterior condyle. We did not find any double-bundle organization on the patellar insertion. The width of the MPFL was 8.8 ± 2.9 mm at the femoral insertion, 27 ± 5.9 mm at the patellar insertion, and 12 ± 3.1 mm in the middle of the MPFL. The vastus medialis obliquus was found to be inserted on the superior part of the MPFL.Conclusion
The adductor tubercle appeared to be a better landmark than the MFE for the femoral tunnel positioning during surgical reconstructions of the MPFL because it was easier to identify and its relationship with the femoral insertion of the MPFL was constant (10 mm below). 相似文献9.
Background
Medial meniscus posterior root tear (MMPRT) has been reported to play a key role in the development of spontaneous osteonecrosis of the knee (SONK) and osteoarthritis (OA) of the knee. However, little is known about the differences in the development of SONK and OA after MMPRT. The purpose of this study was to investigate the factors contributing to the development of these conditions.Methods
We evaluated the existence of MMPRT and the extent of medial meniscal extrusion in preoperative magnetic resonance images and proximal tibial morphology in radiographs of 45 patients with SONK and 104 patients with OA who underwent knee surgery.Results
There were no significant differences in age, gender, height, weight, and body mass index between the two groups. The incidence of MMPRT and the mean posterior tibial slope (PTS) were significantly higher in SONK than in OA patients (62.2% versus 34.3%, P = 0.002, and 12.8° versus 10.5°, P < 0.001, respectively). The mean extent of meniscal extrusion was larger in OA than in SONK patients (7.5 mm versus 5.3 mm, P < 0.001). The mean tibial varus angle was 4.8° in SONK and 5.4° in OA, with no significant difference between the two (P = 0.088). Multivariable logistic regression analysis showed that compared with OA, SONK was more closely associated with the existence of MMPRT and had a smaller extent of medial meniscus extrusion and higher PTS.Conclusion
MMRPT and higher PTS were more closely associated with the development of SONK than with that of OA. 相似文献10.
Background
Types of mechanoreceptors may differ between the medial and lateral menisci, suggesting that postural stability may differ between patients with medial and lateral meniscus tears. However, to date, postural stability has not been compared in patients with medial and lateral meniscus tears. This study used stabilometry to compare postural stability in patients with medial and lateral meniscus tears.Methods
Postural stability and thigh muscle strength were assessed in 24 patients with medial and 18 patients with lateral meniscus tears. Postural stability was determined by measuring the anteroposterior (APSI), mediolateral (MLSI), and overall (OSI) stability indices using stabilometry. Maximal torque (60°/s) of the quadriceps and hamstring was evaluated using an isokinetic testing device.Results
The three stability indices, OSI, APSI, and MLSI, in both involved and uninvolved knees were all significantly greater in patients with lateral than with medial meniscus tears.(P < 0.001 for all OSI, APSI, and MLSI in both involved and uninvolved knees, except for P = 0.005 for MLSI of involved knees). In patients with medial meniscus tears, both OSI (1.4 ± 0.4 vs. 1.1 ± 0.4, P = 0.037) and MLSI (0.9 ± 0.3 vs. 0.8 ± 0.3, P = 0.041) were significantly higher on the injured than the uninjured side. In patients with lateral meniscus tears, none of the stability indices differed significantly between injured and uninjured knee joints.Conclusion
Postural stability of both the injured and uninjured knee joints was poorer in patients with lateral than with medial meniscus tears. 相似文献11.
Background
Anterior cruciate ligament (ACL) tears increase the risk of developing knee osteoarthritis. This risk increases further with concurrent meniscus injury. The role of bone changes during knee osteoarthritis development are not well-understood, but may be important to its etiology.Purpose
To explore the effects of ACL tears on bone mineral density (BMD) and bone microarchitecture at five years post-op and their relationship to meniscal pathology, using high-resolution peripheral quantitative computed tomography (HR-pQCT).Methods
Twenty-eight participants with unilateral ACL reconstructions five years prior and no evidence of clinical or radiographic osteoarthritis were recruited. All participants represented one of three meniscus statuses: meniscus intact, meniscus repair, or meniscectomy. BMD and bone microarchitecture of the subchondral bone plate and adjacent trabecular bone were assessed using HR-pQCT, and percent-differences between the injured and contralateral knee were determined.Results
Subchondral bone plate thickness in the lateral femoral condyle was higher in the reconstructed knee (9.0%, p?=?0.002), driven by the meniscus repair and meniscectomy groups (15.2% to 15.4%, p?<?0.05).Trabecular BMD was lower in the reconstructed knee in the medial femoral condyle (? 4.8% to ? 7.6%, p?<?0.05), driven by all meniscus statuses. In the lateral compartments, few differences in trabecular bone were found. However, accounting for meniscus status, the meniscus intact group had lower trabecular BMD throughout both femur and tibia.Conclusions
Five years post-op, reconstructed knees demonstrated detectable differences in BMD and bone microarchitecture, despite having normal radiographs. Meniscus damage affected primarily the lateral compartment, warranting further investigation to determine if these changes relate to osteoarthritis development. 相似文献12.
The infrapatellar fat pad (IFP) is an extrasynovial, intracapsular, adipose body occupying the space in the knee joint between the inferior border of the patella, the femoral condyles, tibial plateau and patellar tendon. Little is known about the anatomy and normal function of the IFP, but it has been suggested to play a role in the aetiology of Anterior knee pain syndrome, including that associated with osteoarthritis. Forty-three knees from 11 male and 15 female embalmed cadavers (mean age 84 years; range 55–97 years) were investigated. The cadavers were donated and the study performed in compliance with the provisions of the UK Human Tissue Act (2004). The quadriceps tendon and the medial and lateral patellar retinacula were dissected from the patella, which was then reflected antero-distally. The IFP was carefully excised and details of its morphology and attachments to components of the knee joint were recorded, together with the presence of articular surface pathology on the patella and femoral condyles. The principal novel findings of the current study were that 81% of IFPs were attached to the superior border of the patella by supero-medial extensions and 65% were attached by supero-lateral extensions; the supero-medial extensions were larger than the supero-lateral extensions. The superior extensions of the IFP were always attached anteriorly to the patellar retinacula and in four individuals the extensions formed a full loop around the superior border of the patella. The volume of IFPs with attachments to the superior border of the patella was significantly greater (p = .007) than those without, and the IFP was attached to the medial meniscus in significantly (p = .009) more knees with IFP attachment to the superior border of the patella than those without. All IFPs were attached to the medial anterior horn of the meniscus and the medial Kaplan’s ligament. Ninety-seven per cent were attached to the lateral anterior horn of the meniscus and 97% to the lateral Kaplan’s ligament. The length of IFP attachment to the lateral meniscus was significantly longer (p = .004) than that to the medial meniscus. Ninety-seven per cent of IFPs were attached to the superior portion of the patellar tendon with the mean tendon attachment being 60%. Ninety-one per cent of IFPs were attached to the inferior border of the patella. Significantly fewer knees with patellar (p = .001) and femoral (p = .002) articular surface osteophytes exhibited superior IFP extensions and these extensions were significantly shorter in knees with patellar (p = .000) and femoral (p = .006) osteophytes, compared with those without. The IFP was attached to the medial meniscus in significantly fewer knees with femoral (p = .050) and patellar (p = .023) osteophytes than those without. All IFPs not attached to the anterior horn of the lateral menisci, medial Kaplan’s ligament, superior patella or inferior border of the patella, were in knees with articular surface osteophytes. This relationship between IFP morphology and knee joint pathology suggests a functional role for the IFP that requires further investigation. 相似文献
13.
Atsushi Takahashi Toshimi Aizawa Takashi Aki Mitsuhiro Kashiwaba Masayuki Kamimura Shin Hitachi Eiji Itoi 《Surgical and radiologic anatomy : SRA》2013,35(3):205-210
Purpose
The fibular axis (FA) and anterior tibial cortex (ATC) are good determinants of the sagittal mechanical axis (MA) of lower legs during total knee arthroplasty (TKA).When compared with healthy subjects, a significant medial tibial torsion has been reported in patients with medial knee osteoarthritis; this should affect the alignment of lower legs. The purpose of this study was to clarify the effect of the medial torsion on relationship between sagittal MA and intraoperative references (FA and ATC).Methods
Fifty knees of 50 patients with medial knee osteoarthritis who underwent primary TKA were included in this study. Using preoperative computed tomographic data, the tibial torsion angle was measured in the axial plane. The angle between FA and MA, and the angle between ATC and MA were also measured in the sagittal plane.Results
The tibial torsion angle was 7.9° ± 7.2° (range ?11.3° to ?24.3°). The angle between MA and FA was ?1.8° ± 0.8° (range ?0.1° to ?4.3°), and the angle between MA and ATC was 4.6° ± 0.5° (range 3.1° to 5.5°). The population variance was significantly larger for the angle between MA and FA than that between MA and ATC (P = 0.0160). There was a significant positive correlation between the tibial torsion angle and the angle between MA and FA (R 2 = 0.5111, P < 0.0001).Conclusion
The angle between FA and MA in the sagittal plane increased in patients with large medial tibial torsion. 相似文献14.
Yasushi Oshima Norishige Iizawa Tatsunori Kataoka Tokifumi Majima Shinro Takai 《The Knee》2018,25(1):195-202
Background
Femoral rotational alignment is considered an essential factor for total knee arthroplasty because malrotation of femoral components results in poor outcomes. To obtain proper alignment, we developed a superimposable computed tomography (CT) scan-based template to intraoperatively determine the accurate surgical epicondylar axis (SEA), and evaluated the effectiveness of this CT template.Methods
In the experimental group (n = 55), three serial slices of CT images, including medial and lateral epicondyles, were merged into a single image, and SEA was overlaid. SEA was traced onto an image of an assumed distal femoral resection level; this combined image was then printed out onto a transparent film as a CT template. Following a distal femoral resection in TKA, SEA was duplicated onto the femoral surface. Thereafter, the posterior condyle was resected parallel to this SEA. In the control group (n = 53), posterior condyles were resected at three degrees of the external rotation from the posterior condylar line (PCL).A posterior condylar angle (PCA) between PCL of the femoral component and SEA was postoperatively evaluated. Positive values indicated external rotation of the femoral component from the SEA.Results
In the experimental group, PCA was 0.01° ± 1.61°, and three cases were considered as outliers (greater than three degrees or less than ?3 degrees). Conversely, in the control group, PCA was 0.10° ± 2.4°, and 12 cases were considered as outliers. Consequently, dispersion of PCA data was significantly smaller in the experimental group (P = 0.004).Conclusions
The CT template accurately determined intraoperative SEA. 相似文献15.
A 51-year-old male, sustained an injury to his left knee after being pinned between his motorcycle and a road barrier. In the ER, the patient complained of medial knee pain, and had a significant joint effusion. MRI demonstrated an ACL injury, medial meniscal tear, bone bruising and impaction at the lateral femoral condyle and tibial plateau, and a tear of the posterior horn of the lateral meniscus that was displaced behind the popliteus. Unfortunately, the patient also presented with a deep vein thrombosis and thus could not proceed to the operating room for two months. During this time, scar tissue developed around the lateral meniscus.The purpose of this report is to present an unusual variant of a common injury pattern previously unreported where the posterior horn of the lateral meniscus became incarcerated behind the popliteus tendon and was left in place. It is likely that our patient will develop osteoarthritis in the future, but considering the circumstances he received a favorable early clinical outcome. Early recognition and a mobile fragment are essential restoring a patient's original anatomical features and achieving an optimal clinical outcome. 相似文献
16.
Background
The anterior part of the distal femur in trochlear dysplasia has been well investigated; however, to date, posterior morphological characteristics have not been well studied. This study aimed to evaluate whether the posterior femoral condyle in patients with trochlear dysplasia differs from those without trochlear dysplasia.Methods
Computed tomography scans of 75 knees with trochlear dysplasia and 55 knees with normal anatomy of the patellofemoral joint were analyzed retrospectively. Three observers assessed the width, length, and height of the posterior condyle between the two groups. The intra-class correlation coefficient was used to evaluate inter-observer reliability. The independent Student's t-test was used to assess the statistical significance of the qualitative variables.Results
There was excellent inter-observer reliability (intra-class correlation coefficient 0.91–0.99) for all of the quantitative measurements. There were significant differences between trochlear dysplastic and normal knees. The trochlear dysplasia group had a larger medial posterior condyle and smaller lateral posterior condyle than the control group. Furthermore, proportion of the posterior condyle in the distal femur markedly differed between the two groups: in the trochlear dysplasia group, the medial posterior condyle accounted for a bigger proportion, while the lateral posterior condyle accounted for a smaller proportion.Conclusion
Patients with trochlear dysplasia have different posterior femoral condyles compared with those without trochlear dysplasia. Patients with this condition have bigger medial posterior condyles and smaller lateral posterior condyles. A greater amount of attention needs to be paid to this abnormality. 相似文献17.
Effect of femoral component position on biomechanical outcomes of unicompartmental knee arthroplasty
Kyoung-Tak Kang Juhyun Son Yong-Gon Koh Oh-Ryong Kwon Sae Kwang Kwon Yong Jun Lee Kwan Kyu Park 《The Knee》2018,25(3):491-498
Background
The positions of unicompartmental femoral components do not always follow the neutral center of the medial distal femoral condyle. The biomechanical effect of the center of the distal femoral condyle has not yet been evaluated, and the optimal femoral position in unicompartmental knee arthroplasty (UKA) is yet to be biomechanically justified. The purpose of this study was to evaluate, using finite element analysis, the effect of the center of the distal femoral component on the biomechanical outcomes of UKA with respect to the contact stresses in the polyethylene (PE) insert and articular cartilage.Methods
Five models in which the centers of the distal femoral components were translated by three millimeters and five millimeters to the medial and lateral sides, respectively, from the neutral position were modeled and analyzed in a gait loading condition.Results
The contact stresses on the PE insert increased as the center of the femoral component translated to the lateral side and, in contrast, the contact stresses decreased as it translated to the medial side. For the articular cartilage the contact stresses increased and decreased as the center of the femoral component translated to the medial and lateral sides.Conclusion
This study implied that the best position for the femoral component in UKA could be the center of the distal femoral condyle. Femoral component position could be one of the sensitive factors that influenced the contact stresses on the PE insert and articular cartilage, and the postoperative significance of the femoral component position in UKA. 相似文献18.
Brian Pietrosimone Daniel Nissman Darin A. Padua J. Troy Blackburn Matthew S. Harkey Robert A. Creighton Ganesh M. Kamath Kaitlin Healy Randy Schmitz Jeffrey B. Driban Steve W. Marshall Joanne M. Jordan Jeffrey T. Spang 《The Knee》2018,25(1):118-129
Background
Lower proteoglycan density (PGD) of the articular cartilage may be an early marker of osteoarthritis following anterior cruciate ligament (ACL) reconstruction (ACL-R). The purpose this study was to determine associations between the Knee Injury and Osteoarthritis Outcomes Score (KOOS) and PGD of the articular cartilage in the femur and tibia 12-months following ACL-R.Methods
We evaluated KOOS pain, symptoms, function in activities of daily living (ADL), function in sport and recreation (Sport), and quality of life (QOL), as well as PGD using T1rho magnetic resonance imaging in 18 individuals 12.50 ± 0.70 months (these are all mean ± standard deviation) following unilateral ACL-R (10 females, eight males; 22.39 ± 4.19 years; Marx Score = 10.93 ± 3.33). Medial and lateral load-bearing portions of the femoral and tibial condyles were sectioned into three (anterior, central and posterior) regions of interest (ROIs). T1rho relaxation times in the ACL-R knee were normalized to the same regions of interest in the non-surgical knees. Alpha levels were set at P ≤ 0.05.Results
Worse KOOS outcomes were significantly associated with greater T1rho relaxation time ratios in the posterior-lateral femoral condyle [pain (r = ? 0.54), ADL (r = ? 0.56), Sport (r = ? 0.62) and QOL (r = ? 0.59)] central-lateral femoral condyle [Sport (r = ? 0.48) and QOL (r = ? 0.42)], and the anterior-medial femoral condyle [Sport (r = ? 0.46) and QOL (r = ? 0.40)].There were no significant associations between the KOOS and T1rho outcomes for tibial ROI.Conclusions
Lower PGD of the femoral cartilage in the ACL-R knees was associated with worse patient-reported outcomes. 相似文献19.
Hyuksoo Han Sohee Oh Chong Bum Chang Seung-Baik Kang 《Surgical and radiologic anatomy : SRA》2016,38(2):203-211
The purpose of this study was to analyze the anthropometric data from MRI images that were obtained from the non-arthritic knees in Asian adults, and to identify the existence of morphologic differences between age groups. This cross-sectional study included knee MR images of 535 patients (273 males, 262 females) taken for the evaluation of soft-tissue injuries, excluding cases with cartilage defect and malalignment. The age, gender, height, and BMI were also assessed. The patients were grouped into three different 20-year age groups (20–39, 40–59, and 60–79). The MRI analysis was performed on the anthropometric parameters of distal femur and posterior tibial slope. Age-related differences were found in femoral width, distance from the distal and posterior cartilage surface to the medial/lateral epicondyle, medial posterior condylar offset (PCO), and posterior condylar angle (PCA) (all P < 0.001), but not in lateral PCO, and medial/lateral tibial slopes. In the analysis of covariance analyses, significant interaction between gender and age groups was found in most parameters, but not in PCA, distance from the posterior cartilage surface to the medial epicondyle, or medial tibial slope. We found anthropometric differences among age groups exist in most of distal femoral parameters, but not in posterior tibial slope. The results of this study can be used by manufacturers to modify prostheses to be suitable for the future Asian elderly population. 相似文献
20.
Yasushi Akamatsu Satoshi Ohno Hideo Kobayashi Yoshihiro Kusayama Ken Kumagai Tomoyuki Saito 《The Knee》2017,24(1):70-75