A spectroscopic approach to imaging and quantification of cartilage lesions in human knee joints

We have previously described a technology based on diffuse reflectance of broadband light for measuring joint articular cartilage thickness, utilizing that optical absorption is different in cartilage and subchondral bone. This study is the first evaluation of the technology in human material. We also investigated the prospects of cartilage lesion imaging, with the specific aim of arthroscopic integration. Cartilage thickness was studied ex vivo in a number of sites (n = 87) on human knee joint condyles, removed from nine patients during total knee replacement surgery. A reflectance spectrum was taken at each site and the cartilage thickness was estimated using the blue, green, red and near-infrared regions of the spectrum, respectively. Estimated values were compared with reference cartilage thickness values (taken after sample slicing) using an exponential model. Two-dimensional Monte Carlo simulations were performed in a theoretical analysis of the experimental results. The reference cartilage thickness of the investigated sites was 1.60 ± 1.30 mm (mean ± SD) in the range 0-4.2 mm. Highest correlation coefficients were seen for the calculations based on the near-infrared region after normalization to the red region (r = 0.86) and for the green region (r = 0.80).     

兔膝关节神经支选择性切断后对关节软骨的影响

目的观察兔膝关节神经支选择性切断后关节软骨形态学变化。方法在外科显微镜下选择性切断兔膝关节神经支,术后4、8、16周取材,肉眼观察兔膝关节大体结构,组织切片HE染色,光镜下观察关节软骨组织结构,应用显微电脑测量软件测量关节软骨厚度。结果对照组兔膝关节软骨表面光滑,软骨细胞呈四层结构排列,软骨细胞为圆形或椭圆形,表层呈梭形。实验组兔膝关节软骨组织结构未见明显改变,软骨厚度与对照组比较差异无统计学意义(P0.05)。结论选择性切断兔膝关节神经支对关节软骨组织结构无明显影响,膝关节局部去神经化术治疗具有可行性。     

Knee cartilage segmentation and thickness computation from ultrasound images

Quantitative thickness computation of knee cartilage in ultrasound images requires segmentation of a monotonous hypoechoic band between the soft tissue-cartilage interface and the cartilage-bone interface. Speckle noise and intensity bias captured in the ultrasound images often complicates the segmentation task. This paper presents knee cartilage segmentation using locally statistical level set method (LSLSM) and thickness computation using normal distance. Comparison on several level set methods in the attempt of segmenting the knee cartilage shows that LSLSM yields a more satisfactory result. When LSLSM was applied to 80 datasets, the qualitative segmentation assessment indicates a substantial agreement with Cohen’s κ coefficient of 0.73. The quantitative validation metrics of Dice similarity coefficient and Hausdorff distance have average values of 0.91 ± 0.01 and 6.21 ± 0.59 pixels, respectively. These satisfactory segmentation results are making the true thickness between two interfaces of the cartilage possible to be computed based on the segmented images. The measured cartilage thickness ranged from 1.35 to 2.42 mm with an average value of 1.97 ± 0.11 mm, reflecting the robustness of the segmentation algorithm to various cartilage thickness. These results indicate a potential application of the methods described for assessment of cartilage degeneration where changes in the cartilage thickness can be quantified over time by comparing the true thickness at a certain time interval.     

Topographical variations in articular cartilage and subchondral bone of the normal rat knee are age-related

In osteoarthritis animal models the rat knee is one of the most frequently investigated joint. However, it is unknown whether topographical variations in articular cartilage and subchondral bone of the normal rat knee exist and how they are linked or influenced by growth and maturation. Detailed knowledge is needed in order to allow interpretation and facilitate comparability of published osteoarthritis studies. For the first time, the present study maps topographical variations in cartilage thickness, cartilage compressive properties and subchondral bone microarchitecture between the medial and lateral tibial compartment of normal growing rat knees (7 vs. 13 weeks). Thickness and compressive properties (aggregate modulus) of cartilage were determined and the subchondral bone was analyzed by micro-computed tomography. We found that articular cartilage thickness is initially homogenous in both compartments, but then differentiates during growth and maturation resulting in greater cartilage thickness in the medial compartment in the 13-week-old animals. Cartilage compressive properties did not vary between the two sites independently of age. In both age-groups, subchondral plate thickness as well as trabecular bone volume ratio and trabecular thickness were greater in the medial compartment. While a high porosity of subchondral bone plate with a high topographical variation (medial/lateral) could be observed in the 7-week-old animals, the porosity was reduced and was accompanied by a reversion in topographical variation when reaching maturity. Our findings highlight that there is a considerable topographical variation in articular cartilage and subchondral bone within the normal rat knee in relation to the developmental status.     

Comparison of medial and lateral posterior femoral condyle articular cartilage wear patterns

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.

The distribution of cartilage thickness within the joints of the lower limb of elderly individuals

The objective of this study was to investigate the normal distribution of cartilage thickness in the major joints of the lower limb in elderly individuals. A 12.5 MHz ultrasound transducer was used to measure the cartilage thickness in the right and left hip, knee and ankle joint of 10 individuals aged between 62 and 99 y. Distribution patterns of cartilage thickness were derived by b-spline interpolation and the average distribution computed in each surface. The maximum cartilage thickness in the hip joint was 2.6 (±0.36) mm and the mean thickness 1.3 (±0.17) mm. The CV% (a measure of thickness inhomogeneity within the joint surface) was 32%. In the knee, the maximal and mean values were 3.8 (±0.46) mm and 1.9 mm (±0.24) mm, respectively (CV%=34%), and in the ankle 1.7 (±0.25) mm and 1.0 (±0.16) mm (CV%=32%). Systematic differences existed between both sides in the knee, the distal femur showing a significantly greater thickness on the right. While the mean and maximal thicknesses were systematically higher in the knee than in the hip, and in the hip higher than in the ankle ( P <0.05), there were no systematic differences in the thickness inhomogeneity of the 3 joints. Only the malleolus showed a somewhat more uniform thickness than the other joint surfaces. The variablity between individuals was similar for all joints for mean thickness, but the interindividual variability of the maximal thickness values was highest in the knee and lowest in the ankle. Whereas the cartilage thickness distributions in the joints of the lower limb have been suggested to reflect the pressure distribution within the articular surface, the absolute thickness is proposed to be a function of dynamic loading (range of motion) during gait, rather than being a reflection of the static articular pressure.     

Thickening of the knee joint cartilage in elite weightlifters as a potential adaptation mechanism

Thickening and increase of area of cartilage have been proposed as two alternative mechanisms of cartilage functional adaptation. The latter has been reported in endurance sportsmen. In weightlifters, extreme strain applied to the articular surfaces can result in other forms of adaptation. The aim of this research is to determine whether cartilage thickness is greater in elite weightlifters than in physically inactive men. Weightlifters (13) and 20 controls [age and body mass index (BMI) matched] underwent knee Magnetic Resonance Imaging (MRI). A single sagittal slice of the knee was taken and cartilage thickness was measured in five and six regions of the medial and lateral femoral condyles, respectively. The analyzed segments represented weight‐bearing and nonweight‐bearing regions. The tibia cartilage in the weight‐bearing area was also measured. The time of training onset and its duration in the weightlifter group were recorded. The cartilage was found to be significantly thicker in weightlifters in most of the analyzed regions. The distribution of cartilage thickness on the medial and lateral femoral condyles was similar in both groups. The duration of training was not associated with cartilage thickness, but the time of training onset correlated inversely with cartilage thickness. It is possible that in high‐strain sports, joint cartilage can undergo functional adaptation by thickening. Thus, mechanical loading history could exert a postnatal influence on cartilage morphology. Clin. Anat. 27:920–928, 2014. © 2014 Wiley Periodicals, Inc.     

Progression of articular cartilage degeneration after application of muscle stretch

The aim of study was to evaluate the progression of the ankle articular cartilage alterations after a post-immobilization muscle stretching. Twenty-nine Wistar rats were separated into five groups: C--control, S--stretched, SR--stretch recovery, IS--immobilized and stretched, and ISR--immobilized stretched recovery. The immobilization was maintained for 4 weeks and the left ankle was then stretched manually through a full dorsal flexion for 10 times for 60 s with a 30 s interval between each 60 s period, 7 days/week for 3 weeks. The recovery period was of 7 weeks. At the end of the experiment, the left ankles were removed, processed in paraffin, and stained in hematoxylin-eosin and safranin O. Two blinded observers evaluated the articular cartilage using the Mankin grading system (cellularity, chondrocyte cloning, and proteoglycan content) through light microscopy, and performed the morphometry (cellularity, total thickness, non-calcified thickness, and calcified thickness measures). Both the Mankin grading system and the morphometric analysis showed that the ISR group presented the most increased cellularity among the groups. The IS and SR groups showed the highest proteoglycan loss, and the ISR group showed the same content of proteoglycan observed in the C group. No significant differences were found in the chondrocyte cloning, the total cartilage thickness, the non-calcified cartilage thickness, and the calcified cartilage thickness among the groups. The results suggest that the cartilage can recover the proteoglycan loss caused by immobilization and stretching, probably because of the increased chondrocyte density. Therefore, the ankle articular cartilage responded as to repair the metabolic deficits.     

Influence of platelet time activation on articular cartilage growth in the rabbit knee: preliminary study

PURPOSE: The aim of the present article was to study the influence of platelets and different time activation on cartilage growth in articular defects in the rabbit knee. METHODS: Twelve male New Zealand rabbits (12 weeks) were divided in two groups. Under general anaesthesia, a 4 mm diameter and 2 mm deep defect was performed in medial condyles in both knees. The right knee defect was filled with platelet concentrate 5 min after being activated with ClCa in group A, and 2 min afterwards in group B. Platelets were obtained by centrifuging 10 ml arterial blood from the rabbit prior to the surgical procedure. The left knee defect was not filled. Rabbits were sacrificed 6 weeks after surgery. Macroscopic and microscopic studies were performed. RESULTS: In group A, hyaline cartilage was observed in the right knee defect at the end of the experiment in five rabbits. None of the defects of the left knees showed hyaline cartilage growth. In group B, hyaline cartilage was observed in the right knee defect in only one rabbit. Nevertheless, in group B, all rabbits presented better chondral cellularity and regeneration and lower fibrosis in defects treated with platelets than in non-treated ones. CONCLUSIONS: This technique for articular defect reconstruction with platelets is simple and easy, and has shown satisfactory results in our study. Platelets may be useful as an autologous source of multiple growth factors for articular defect reconstruction. Nevertheless, this is a preliminary study and further research is required.     

Nocturnal changes in knee cartilage thickness in young healthy adults

Magnetic resonance imaging (MRI) allows one to analyze cartilage physiology in vivo. Cartilage deforms during loading, but little is known about its recovery after deformation. Here we study 'nocturnal' changes in knee cartilage thickness and whether postexercise deformation differs between morning and evening. Axial magnetic resonance (MR) images were acquired in the right knees of 17 healthy volunteers (age 23.5 ± 3.0 years) after a normal day, and then after 30 deep knee bends. Coronal images were additionally acquired in 8 of these volunteers after a normal day and then after 2 min of static loading of the leg with 150% body weight. The volunteers then remained unloaded overnight and the same protocol was repeated in the morning. A significant increase (p < 0.01) in cartilage thickness was observed between evening (preexercise) and morning (preexercise): +2.4% in the patella, +8.4% in the medial tibia and +6.2% in the lateral tibia. Deformation in the morning (-6.8/ -4.6/-5.1%) was generally greater than that in the evening (-5.4/-3.2/-3.7%), but this difference did not reach statistical significance. No significant difference in the nocturnal thickness increase (or postexercise deformation) was observed between men and women. We conclude that knee cartilage (thickness) recovers overnight by approximately 2-8%, independent of sex. Given the lack of 'predeformation' after nocturnal periods of unloading, morning postexercise deformation of the cartilage may have a greater magnitude than evening postexercise deformation.     

软骨下骨量变化与软骨退变的相关性

背景：关节软骨与软骨下骨在骨关节炎病变进程中的相互作用机制目前尚未完全阐明。软骨下骨量改变在骨关节炎病理进程中亦发挥重要作用。 目的：分析2种手术方式及2种蛋白酶诱导建立兔膝关节骨关节炎动物模型的效果,以及软骨下骨量变化与关节软骨退变的相关性。 方法：32只新西兰大白兔随机分为4组：Hulth模型组、前交叉韧带切断模型组、Ⅱ型胶原蛋白酶组及木瓜蛋白酶组,每组8只,右膝关节造模,左膝关节作为自身对照。造模后0,4,8周行DXA扫描,8周行MRI扫描后处死实验动物,取双侧膝关节制作病理组织学切片,比较各组膝关节影像学表现、大体形态及病理变化,并采用Mankin评分进行定量分析。 结果与结论：造模后0,4,8周实验侧膝关节骨密度进行性降低,骨量降低程度Hulth模型组>前交叉韧带切断模型组>Ⅱ型胶原蛋白酶组>木瓜蛋白酶组。MRI显示实验侧股骨内外髁关节软骨厚度变薄,厚度Hulth模型组<前交叉韧带切断模型组<Ⅱ型胶原蛋白酶组<木瓜蛋白酶组。大体标本、组织切片观察及Mankin评分显示手术建模组骨关节炎程度较药物组重,Hulth模型组病变最重,木瓜蛋白酶组最轻。结果说明关节内手术及关节腔内注射蛋白酶均能建立骨关节炎动物模型;手术造模可复制出中晚期骨关节炎,药物诱导可产生骨关节炎早期改变。骨关节炎病变严重程度与软骨下骨骨密度呈负相关;关节软骨退变和软骨下骨改变相互关联,病变进行性发展。     

Assessment of articular cartilage of the lateral tibial plateau in varus osteoarthritis of the knee

This study describes the soft X-ray examinations of 24 lateral tibial plateaus obtained during total knee arthroplasty for varus osteoarthritis. The average thickness of the articular cartilage was 3.5 min and ranged from 2.1 to 5.0. We considered that 21 out of the 24 lateral tibial plateaus had well preserved articular cartilage. Within the well preserved articular cartilage, bony protuberances of various sizes were found in five cases. All lateral tibial plateaus except one showed osteophyte formation. We considered that 12 of the 24 lateral tibial plateaus had large osteophytes. Ten of these 12 lateral tibial plateaus had well preserved articular cartilage. Large osteophyte formation may not necessarily be a contra-indication of high tibial osteotomy (HTO) or unicompartmental knee arthroplasty (UKA). Cases with a bony protuberance may not be suitable for HTO or UKA, because the overlying articular cartilage is thin and inadequate for supporting load.     

丝素蛋白/羟基磷灰石材料复合骨髓间充质干细胞构建组织工程化软骨

背景：随着组织工程的兴起,软骨损伤的修复可能性显著地提高,但单一的支架材料均不能符合理想支架,有一定的局限性。 目的：观察骨髓间充质干细胞复合丝素蛋白/羟基磷灰石构建组织工程化软骨的可行性。 方法：体外分离培养骨髓间充质干细胞,并定向诱导成软骨细胞,与丝素蛋白/羟基磷灰石复合培养,构建膝关节胫骨平台全层关节软骨缺损。54只大白兔单侧膝关节全层软骨缺损模型后随机抽签法分为3组,复合组植入细胞-丝素蛋白/羟基磷灰石复合物;材料组植入单纯丝素蛋白/羟基磷灰石,对照组不行任何植入。植入后8,12周CT检查及组织学检查观察软骨缺损修复情况。 结果与结论：植入后8周,复合组关节面不平整,关节间隙增大,形成新生类软骨细胞,基质丰富。材料组关节面塌陷,软骨细胞少量增殖。植入后12周,复合组关节面平整,关节间隙如常。大量软骨细胞出现,与周边软骨色泽一样,支架材料完全降解。材料组关节面不平整,软骨细胞不完全充填,支架材料部分降解。对照组未见修复。提示用骨髓间充质干细胞复合丝素蛋白/羟基磷灰石可形成透明软骨修复动物膝关节全层软骨缺损,显示了丝素蛋白/羟基磷灰石材料作为关节软骨组织工程支架材料的良好生物相容性。     

The effects of joint immobilization on articular cartilage of the knee in previously exercised rats

Studies have determined the effects of joint immobilization on the articular cartilage of sedentary animals, but we are not aware of any studies reporting the effects of joint immobilization in previously trained animals. The objective of the present study was to determine whether exercise could prevent degeneration of the articular cartilage that accompanies joint immobilization. We used light microscopy to study the thickness, cell density, nuclear size, and collagen density of articular cartilage of the femoral condyle of Wistar rats subjected to aerobic physical activity on an adapted treadmill five times per week. Four groups of Wistar rats were used: a control group (C), an immobilized group (I), an exercised group (E), and an exercised and then immobilized group (EI). The right knee joints from rats in groups I and EI were immobilized at 90 °C of flexion using a plastic cast for 8 weeks. Cartilage thickness decreased significantly in group I (mean, 120.14 ± 15.6 μm, P < 0.05), but not in group EI (mean, 174 ± 2.25), and increased significantly in group E (mean, 289.49 ± 9.15) compared with group C (mean, 239.20 ± 6.25). The same results were obtained for cell density, nuclear size, and collagen density (in all cases, P < 0.05). We concluded that exercise can prevent degenerative changes in femoral articular cartilage caused by immobilization of the knee joint.     

Occupational activity is associated with knee cartilage morphology in females

Introduction

Knee osteoarthritis (OA) is a major cause of pain and disability in women, becoming a major health problem in mid to later life. A better understanding of factors contributing to deleterious structural knee changes may be important for preventing OA. In men, occupations associated with frequent knee bending have been shown to be associated with damage to knee cartilage. This has not been examined in women. The aim of this study was to examine the effect of occupational specific knee activities on tibial and patella cartilage morphology among healthy females.

Methods

96 females aged 26–62 years with no history of knee injury or symptoms were recruited as part of a study of community-based study of lifestyle factors on knee health. Occupational activity data examining the frequency of tasks such as heavy lifting, knee bending, stair climbing, walking and standing were obtained by questionnaire. Tibial and patella cartilage volumes and defects were measured from magnetic resonance imaging using validated methods.

Results

Heavy lifting/bending/squatting, knee bending, stair climbing and walking were all associated with an increased risk of patella, but not tibial, cartilage defects (odds ratio 1.8–2.9; p ≤ 0.05) after adjustment for potential confounders, including knee alignment and radiographic joint space narrowing. There was a trend towards knee bending being associated with a reduction in patella cartilage volume (p = 0.07).

Conclusion

Our results demonstrate that asymptomatic adult females with occupations requiring frequent knee bending have patella, but not tibial cartilage damage. These findings suggest that vocational tasks requiring knee bending are detrimental to the structure of cartilage in females and may be an area to consider in the prevention of knee OA.     

Remobilization causes site‐specific cyst formation in immobilization‐induced knee cartilage degeneration in an immobilized rat model

An understanding of the articular cartilage degenerative process is necessary for the prevention and treatment of joint disease. The present study aimed to examine how long‐term immobilization‐induced cartilage degeneration is aggravated by remobilization. Sixty 8‐week‐old male Wistar rats were used in this study. The unilateral knee joint was immobilized using an external fixator for 8 weeks. The rats were killed at 0 and 3 days, and at 1, 2, 4 and 8 weeks after removing the fixator. After the rats were killed, the maximum knee extension angles were measured. Histological sections at the medial mid‐condylar region (non‐contact, transitional and contact regions of the femur and tibia) were prepared and scored. The cartilage thickness and number of chondrocytes were measured, and CD44 and Col2‐3/4c expression levels were assessed immunohistochemically. The histological assessment revealed progressive aggravation of cartilage degeneration in the transitional region, with a decreased number of chondrocytes and CD44‐positive chondrocytes as well as poor scoring over time, particularly in the tibia. Cyst formation was confirmed in the transitional region of the tibia at 8 weeks post‐remobilization. The cartilage thickness in the transitional region was thicker than that in the contact region, particularly in the tibia. Col2‐3/4c expression was observed in the non‐contact and transitional regions, and the knee extension angle was recovered. In conclusion, immobilization‐induced cartilage degeneration was aggravated by remobilization over time in the transitional region, followed by observations of a decreased number of chondrocytes and morphological disparity between different cartilage regions.     

Individual and cumulative measures of knee joint load associate with T2 relaxation times of knee cartilage in young,uninjured individuals: A pilot study

BackgroundArticular cartilage structure and chondrocyte health are sensitive and reliant on dynamic joint loading during activities. The purpose of this pilot study was to determine the association between measures of individual and cumulative knee joint loading with T2 relaxation times in the knee cartilage of young individuals without knee injury.MethodsTwelve participants (17–30 years old) without history of knee injury or surgery completed MRI, physical activity (PA), and biomechanical gait testing. T2 relaxation times were calculated in the cartilage within the patella and lateral and medial compartments. Accelerometry was used to measure mean daily step counts, minutes of PA, and % sedentary time over 7 days. Vertical ground reaction force, external knee joint moments and peak knee flexion angle were measured during stance phase of gait using three-dimensional motion capture. Cumulative knee joint loading was calculated as daily step count by external knee joint moment impulse. The relationship between measures of knee joint loading and T2 relaxation times was assessed using Pearson correlations.ResultsHigher T2 relaxation times in the femoral and tibial cartilage were consistently correlated to greater body mass, daily step counts, moderate and vigorous PA, and peak knee joint moments (r = 0.10–0.84). Greater cumulative knee flexion and adduction loading was associated with higher T2 relaxation times in the femoral and tibial cartilage (r = 0.16–0.65).ConclusionPreliminary findings suggest that individual loading factors and cumulative knee joint loading are associated with higher T2 relaxation times in the articular cartilage of young, healthy knees.     

骨髓间充质干细胞移植膝类风湿关节炎兔：关节滑膜体积和软骨厚度的MRI评价

背景：骨髓间充质干细胞具有显著的免疫调节功能和多向分化潜能,可抑制类风湿关节炎的炎症反应,促进软骨损伤的修复。 目的：用骨髓间充质干细胞治疗兔早期类风湿关节炎,运用MRI观察软骨厚度及滑膜体积的改变,评价治疗效果。 方法：选取42只新西兰大白兔,用卵蛋白制造类风湿关节炎模型,造模第4周(治疗前)取6只兔行MRI和病理检查以对照,余36只兔随机分模型组和骨髓间充质干细胞治疗组,两组于治疗后1,2,3个月分别选取6只兔行MRI和病理检查。对病变膝关节的滑膜体积和软骨厚度进行MRI测量及病理学评分。 结果与结论：治疗1,2,3个月,类风湿关节炎组滑膜进行性增厚,软骨厚度变薄,病理学评分增加;骨髓间充质干细胞治疗组滑膜增厚程度减轻,关节软骨厚度恢复,病理学评分减低。MRI测量数据和病理学评分有相关性。提示MRI可用于评价骨髓间充质干细胞对早期类风湿关节炎的疗效。     

Morphological MRI and T2 mapping of cartilage repair tissue after mosaicplasty with tissue-engineered cartilage in a pig model

The aim of this study was to evaluate the efficacy of mosaicplasty with tissue-engineered cartilage for the treatment of osteochondral defects in a pig model with advanced MR technique. Eight adolescent miniature pigs were used. The right knee underwent mosaicplasty with tissue-engineered cartilage for treatment of focal osteochondral defects, while the left knee was repaired via single mosaicplasty as controls. At 6, 12, 18 and 26 weeks after surgery, repair tissue was evaluated by magnetic resonance imaging （MRI） with the cartilage repair tissue （MOCART） scoring system and T2 mapping. Then, the results of MRI for 26 weeks were compared with findings of macroscopic and histologic studies. The MOCART scores showed that the repaired tissue of the tissue-engineered cartilage group was statistically better than that of controls （P 〈 0.001）. A significant correlation was found between macroscopic and MOCART scores （P 〈 0.001）. Comparable mean T2 values were found between adjacent cartilage and repair tissue in the experimental group （P 〉 0.05）. For zonal T2 value evaluation, there were no significant zonal T2 differences for repair tissue in controls （P 〉 0.05）. For the experimental group, zonal T2 variation was found in repair tissue （P 〈 0.05）. MRI, macroscopy and histology showed better repair results and bony incorporation in mosaicplasty with the tissue-engi- neered cartilage group than those of the single mosaicplasty group. Mosaicplasty with the tissue-engineered cartilage is a promising approach to repair osteochodndral defects. Morphological MRI and T2 mapping provide a non-invasive method for monitoring the maturation and integration of cartilage repair tissue in vivo.     

Articular cartilage changes in experimental osteoarthritis in rabbits: MRI and morphological findings

The objective of the present study was to determine the magnetic resonance imaging (MRI) and gross pathological findings of articular cartilage in osteoarthritis experimentally induced in rabbit as an animal model. Ten adult Dutch male rabbits were randomly divided into two equal groups. In group one, in the left knee (stifle), the cranial (anterior) cruciate ligament (CCL) was sectioned [transected group (TG)], and in the second group, only arthrotomy was performed through the same approach, but the CCL was left intact [arthrotomy group (AG)]. In both groups, the right knees were considered as controls. Thirty days after operation, MRI was performed under general anesthesia, and then the animals were sacrificed for gross pathological study. MRI was performed by a 1.5-T scanner with a wrist coil to evaluate the coronal and sagittal gradient echo T2-weighted proton density and T1- and T2-weighted sequences. A magnification loupe was used to inspect the menisci, femoral and tibial cartilages, and synovium. The results revealed that the measured mean articular cartilage thickness by MRI was less in TG in comparison to AG and control groups (p < 0.05), whereas the difference between AG and control was not significant. Statistical analysis of the results revealed that the measured mean articular cartilage thickness by MRI was less in TG than those of AG and control groups, whereas the difference between AG and control was not significant. There were no significant differences in meniscal degeneration, joint effusion, and MRI overall grades between AG and the control groups. The difference was significant between TG with AG and the controls in relation to MRI findings. The gross examination revealed that there were no gross abnormalities in AG but there were also significant differences between the TG and AG, and between TG and the controls. Changes were localized primarily to the distal aspect of the medial femoral condylar cartilage. It was concluded that the MRI findings in early osteoarthritis process consisted of articular cartilage loss and meniscal degeneration. The quantitative alterations in articular cartilage thickness measured by MRI can be a noninvasive way to predict osteoarthritis. The MRI findings were also well correlated with the results of pathological study.