Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
There are three types of arthritis(which often can be distinguished radiologically): 1- Degenerative joint disease Osteophytes, Subchondral sclerosis Uneven loss of articular space 2- Inflammatory arthritis Unrnarginated erosions Periarticular osteoporosis is common Soft tissue swelling Uniform loss of articular space 3- Metabolic arthritis Lumpy bumpy soft tissue swelling Marginated bony erosions with overhanging edges Degenerative joint disease (DJD) = osteoarthritis (OA). 80% of population > 50 years have radiological evidence of OA. types: --Primary OA * No underlying local etiological factors *Abnormally high mechanical forces on normal joint *Age related --Secondary OA Underlying etiological factors: * trauma, inflammatory arthritis, hemochromatosis, acromegaly, congenital hipdysplasia, osteonecrosis, loose bodies *Normal forces on abnormal joint Radiographic features Five hallmarks: * Narrowing of joint space, usually asymmetrical *Subchondral sclerosis * Subchondral cysts (true cysts or pseudocysts) * Osteophytes * Lack of osteoporosis * Lower cervical and low lumbar spine are most comonly affected. * Osteophytes may encroach on neural foramina (best seen on oblique views). *Vacuum phenomenon: gas (N2),is pathognomonic of the degenerative process. * OA of the spine occurs in the apophyseal joints . * Degenerative spondylolisthesis (pseudospondylolithesis) Lumbar spondylosis. There is distal narrowing and a vacuum phenomenon is present in the degenerative discs. Marginal osteophytes are present. Inferiorly the facet joints show features of degeneration and, with the increase in lordosis, the spinous processes are in contact Cervical spondylosis There are three types of inflammatory arthritis 1- Autoimmune arthritis RA Scleroderma Systemic lupus erythematosus (SLE) Dermatomyositis 2- Seronegative spondylarthropathies Ankylosing spondylitis Reiter's syndrome Psoriasis Enteropathic arthropathies 3- Erosive OA Early changes * Peri articular soft tissue swelling (edema, synovial congestion) *Peri articular osteoporosis in symmetrical distribution (hallmark) * Preferred sites of early involvement Hands: 2nd and 3rd MCP joint Feet: 4th and 5th MTP joint Late changes *Erosions (pannus formation, granulation tissue) first attack joint portions in which protective cartilage is absent (i.e., capsular insertion site). * Erosions of the ulnar styloid and triquetrum are characteristic. * Subchondral cysts formation results from synovial fluid, which is pressed into bone marrow through destroyed cartilage. Subluxations , Carpal instability and • ulnar deviation . * Fibrous ankylosis is a late finding.• Rheumatoid arthritis. (A) The initial radiograph shows a hint of early trabecular loss around the proximal interphalangeal joint of a finger with preservation of the joint space and early marginal cortical loss at the base of the middle phalanx. (B) The subsequent radiograph shows established erosive change in the area of ill-defined demineralisation in association with joint space narrowing . Rheumatoid arthritis. Bilateral changes are fairly symmetrical. Softtissue swelling is demonstrated, especially over the ulnar styloids. Erosions are demonstrated at the carpus, distal radius and ulna, with joint space narrowing and collapse of bone. Metacarpophalangeal erosions are also seen associated with joint space narrowing. There is a swan-neck deformity of the right fifth distal interphalangeal joint Gross rheumatoid arthritis at the carpus with ulnar deviation, subluxation and joint narrowing at the metacarpophalangeal joints. Boutonniere deformities are present at the index and little fingers. Seronegative spondyloarthropathy of the axial skeleton and proximal large joints. Clinical: males >> females. HLA-B27 in 95%. Insiduous onset of back pain and stiffness. Onset: 20 years. Radiographic features * SI joint is the initial site of involvement: bilateral, symmetrical Erosions: early ,Sclerosis: intermediate , ankylosis: late * Contiguous thoracolumbar involvement Vertebral body "squaring": early osteitis * Syndesmophytes * Bamboo spine: late fusion and Bamboo spine ligamentous ossification *ankylosed spine (fracture) * Enthesopathy is common(("whiskering of tuberosities ) * Arthritis of proximal joints (hip > shoulder) in 50% ,erosions and osteophytes Radiographic features *Flowing osteophytes of at least four contiguous vertebral bodies *Preserved disk height *No sacroiliitis or facet ankylosis *Calcification of ligaments and tendons *Associated with hypertrophic DJD OA with superimposed inflammatory, erosive changes. Characteristically affects middleaged women. Radiographic features * Erosive and productive changes of DIP and PIP * Gull-wing pattern: secondary to central erosions and Marginal proliferation osteophytes . Typical involvement of first CMC may help distinguish erosive OA from rheumatoid arthritis (RA), psoriatic arthritis, and adult Still's disease. * Interphalangeal fusion may occur. Heterogeneous group of entities characterized by recurrent attacks of arthritis secondary to deposition of sodium urate crystals in and around joints. *90% of patients are male *Causes due to either Uric acid overproduction, 10% or underexcretion, 90%. Radiographic features *Lower extremity > upper extremity; small joints > large joints * First MTP is most common site * Marginal, peri articular erosions: overhanging edge * Erosions may have sclerotic borders * Joint space is preserved * Soft tissue and bursa deposition Tophi: juxtaarticular, helix of ear Bursitis: olecranon, prepatellar * Erosions and tophi only seen in longstanding disease * Tophi calcification, 50% *Chondrocalcinosis Infectious arthritis usually results from hematogenous spread to synovium and subsequent spread into the joint. Direct spread of osteomyelitis into the joint is much less common. The diagnosis is made by joint aspiration. Organism , Staphylococcus aureus (most common) ,B-Streptococcus in infants , Salmonella is seen in sickle cell patients ; however, the most common infection in sickle cell patients is Staphylococcus. Radiographic features Plain film * Joint effusion * Juxtaarticular osteoporosis * Destruction of subchondral bone on both sides of the joint Primary loss of sensation in a joint leads to arthropathy. Distribution helps determine etiology. Causes Diabetes neuropathy: usually foot Tertiary syphilis : usually knee Syringomyelia: usually shoulder Radiographic features Common to all types *Joint instability: subluxation or dislocation *Prominent joint effusion --- Hypertrophic type, 20% Marked fragmentation of articular bone Much reactive bone --- Atrophic type, 40°/0 Bone resorption of articular portion --- Combined type, 40% Osteonecrosis (avascular necrosis, ischemic necrosis, aseptic necrosis) may be caused by two mechanisms: * Interruption of arterial supply * Intra/extraosseous venous insufficiency. The pathophysiology of all osteonecrosis is the same: Ischemia > revascularization >repair > deformity> osteoarthrosis Plain films Findings lag several months behind time of injury. These findings include areas of radiolucency, fissuring , fragmentation , bone collapse and condensation , end with dense and flat bone with loss of bone contour and secondary osteoarthritis MRI Most sensitive imaging modality: 95%-100% sensitivity Legg-Calve-Perthes disease : osteochodrosis of the femur head Usually affects 5-10 years , started as hip pain , if not treated it will ends with mushroom deformity due to neglected and untreated perthis seen later on and is liable for early OA chnges . Perthes' disease. A series of radiographs showing the stages of healing. (A) The initial radiograph shows a flattened, sclerotic femoral head The left femoral neck is broadened, the metaphysis sclerotic with focal areas of lucency, the growth plate irregular and the femoral head flattened and sclerotic. It is uncovered laterally. The joint space appears widened Scheuermann's disease : (adolecent Kyphosis). osteochodrosis of the vertebral end plates . Usually affects 8- 10 years , characterized by erosion of anterior superior and inferior vertebral margin resulting in decrease in the height of anterior part of the vertebra (vertebral wedging ) ending with kyphosis. Osgood-Schlatter : 12-16 y,osteochodrosis of the tibial tuberocle. Blount's disease: tibial epiphysis Kohler's : 4-8 y ,osteochodrosis of the Navicular bone . Kienbock's: adults , osteochodrosis of the lunate bone . Osgood-Schlatter disease. Fragmentation of the tibial tuberosity Scheuemann's disease Osteochondritis of lumbar vertebral bodies (advanced case). Adolescent kyphosis Osteochondritis dissecans : affects the large articular surface , commomnly medial femural condylee ,talus and trochlea . Ends by separation of the affected part in to the joint space resulting in intra-articular loose body . Osteochondritis dissecans of the medial femoral condyle Osteochondritis dissecans of the medial part of the articular surface An abnormally lax joint capsule allows the femoral head to fall out of the acetabulum, leading to deformation. Predisposing factors for the development of CDH are: * Abnormal ligamentous laxity (effect of estrogen; fema1e:male = 6:l) * Acetabular dysplasia . CDH occurs most commonly (70%) in the left hip. Bilateral involvement is seen in 5%. Radiographic features US (commonly used today) at 1-3 months * Normal femoral head is covered at least 50% by acetabulum , In CDH < 50% of femoral head is covered by acetabulum . Plain film At 3-6 months : By doing special veiw (Von Rosen veiw )by abduction of the thigh 45 degree and internal rotation . In DDH the lines that drown through the femura will meet in higher level than the normally should at lumbosacral joint . 6 months and later * AP veiw ( femural epiphysis are visualized ): * Superolateral displacement of proximal femur (disturbed shenton’s line ) * Increase in acetabular angle * Small capital femoral epiphysis Femoral head is located lateral to Perkin's line • • * Other features that are sometimes present Abnormal sclerosis of the acetabulum Shallow acetabulum Formation of a false acetabulurn Delayed ossification of femoral head