ŠĻą”±į>ž’ ž’’’‰Š‹Œ’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’’ģ„Į` šæ7 bjbję‡ę‡ 4¤„ķ„ķ7ß’’’’’’¤ØØØØØØØ(”S@@@@\ļZ‡*2,,,,,ā)ä)ä)ä)ä)ä)ä)$¹+h!.’*9Ø   *ØØ,,ŪA*ų ų ų  Ø,Ø,ā)ų  ā)ų ų āā!¤Øز",  ° GÆćłĒ@ ^†"Ö" W*0‡*œ"³.r |³.,²"³.ز"$v}Tų ŃD ’**ī  ‡*    ¼Z¼Z¼Z„©@¼Z¼Z¼Z@¼ä „$ØØØØØØ’’’’ BONES AND JOINTS PATHOLOGY The long bone is divided into three main regions: the epiphysis, the metaphysis, and diaphysis (the shaft) The surface of the long bone’s end is covered by articular cartilage and there is a secondary ossification center (subarticular bone) that forms early in life The growth plate is where all the growth in the length of a long-bone occurs If the growth plate is somehow lost, the bone will be abnormally short There is medullary bone in the medulla (also called trabecular bone or endoesteal bone – these are all the same tissue at the center of the bone and contain the marrow) The cortex is the hard outer portion of the shaft and on the outside is the periosteum – it has haversian systems with blood vessels The growth plate is a very fast growing, self-replicating tissue – especially in the young. It is arranged such that the function of cells in this tissue can be determined by their location in layers, each of which has specific functions First zone at the top is the resting zone where not much goes on, but the chondrocytes are alive Toward the bottom of the proliferative zone the cells undergo maturation and then hypertrophy. They become much bigger as they are displaced toward the base of the growth plate or metaphysis. Typically, in a fast growing animal, such as a rat, the entire lifecycle of a cell is about 2-3 days Mineralization (cartilage undergoes calcification) occurs at the base of the growth plate in the longitudinal septum Levels of growth plate Resting zone: area of lesser metabolic activity but it is the home to the stem cells that give rise to proliferating cartilage cells in the proliferating zone. The proliferation of this zone is evident by the coin-like stacking of the stone. This is an area of lesser metabolic activity Proliferative zone – cell division, columnation Hypertrophic zone Calcifying zone – chondrocytes die, calcification of longitudinal septum Metaphysis Cells and traverse septa resorbed Calcified cartilage persists as lattice The trip from PZ to M takes about 2 days Three major components of cartilage matrix Water Collagen – mostly type II proteoglycan – metachromatic and composed of 500 A granules, add elastic properties, fill space between collagen fibrils growth plate cartilage-thin randomly arranged collagen fibril separated by leaf like proteoglycans The first deposits of mineral in growth plate are discrete spherules which fuse Mineral is restricted to LS. (Therefore there is something special about LS which allows its preferential calcification). Mineral deposits mainly on vertical bars of matrix. It spares the transverse bars b/c matrix vesicles bud from lateral edges of proliferating cells like viruses. Matrix vesicles are Extracellular, 100-200 nm Double layer membrane-invested Distribution: restricted to cartilage matrix which will calcify The first mineral deposits occur inside MVs Matrix vesicles bud from lateral edges of proliferative cells which are polarized cells First evidence of mineralization is seen inside the Mvs and it is by deposition of needle-like crystals of calcium phosphate: hydroxyapatite Mineral crystals in extracellular fluid serve as nuclei for formation of new crystals- self propagating once initiated in matrix vesicles Calcium concentrated by lipids and Ca-binding proteins Phosphate is released by phosphatases at the vesicle membrane (the “trigger”) High calcium + high PO4 locally allows the deposition of the first crystalline CaPO4 (apatite); precipitation occurs at inner leaflet of matrix vesicle membrane (area of highest Ca binding ability and phosphate deposition by phosphatases) Mineralization is biphasic: Phase I and Phase II Phase I: formation of 1st crystal inside matrix Vesicles are high in enzymes, proteins, and lipids Therefore, binding of Ca and liberation phosphate inside vesicle Over time, Ca and phosphate exceed solubility and precipitate out, usually along inner leaflet of matrix vesicle membrane because it is the highest Ca binding ability and site of phosphate deposition by phosphatases (alk phos) Phase II: exposure of crystal to EC fluid( brush fire extending beyond matrix vesicles into surrounding matrix When apatite crystals are exposed to the Ca+2 and PO4-3 of cartilage fluid they multiply Except in rickets where there isn’t enough Ca+2 and PO4-3 to allow crystal growth MV’s are present in many calcifying tissues including cartilage, bone and teeth Intramembranous Bone Growth Bone also forms in the absence of cartilage During development of “membrane” bone of the skull At growing surfaces of the cortex and endosteal trabeculae Osteoblasts at bone surfaces secrete osteoid and become enveloped in matrix Matrix vesicles initiate calcification in newly-formed matrix The mature bone matrix is composed of type I collagen fibrils Intramembranous bone growth = bone growth at surfaces covered by periosteum (bone growth not initiated by cartilage) Endochondral bone growth = bone formed in association with cartilage Osteoid = bone matrix not yet been calcified Osteoblasts secrete matrix and age as they become encased in secretions ( osteocytes Osteocytes are metabolically active 1st bone formed and new bone forms by intermediation of matrix vesicles Cartilage matrix = made of randomly assembled fibrils Bone matrix = forms layers of type I collagen In slices of non-decalcified bone the blue/green color is calcified bone matrix and the red color is uncalcified osteoid METABOLIC BONE DISEASES – (a euphemism for bone-losing conditions) DiseasePathogenesisClinical FeaturesMorphologyNotesScurvyIn scurvy less collagen is synthesized -collagen is under hydroxylated -less triple helix is formed In scurvy there is less intermolecular crosslinking And insufficient cartilage and bone matrix is formed, leading to fragile bones -where cartilage meets bone- common site for hemorrhage and fractureLarge discolored spots, swollen legs, putrid gums, overwhelming lassitude, syncope, shivering, depression and unaccountable terrors, the reopening of old wounds, dissolution of callus in healed fractures, jaundice, indolent ulcers with luxuriant granulation tissue, and pleurisy(ulcers due to failure of Type I collagen secretion A major problem is breakdown of vascular connective tissues with hemorrhage – weakness and fragility of blood vessels -into joints -at epiphyseal/metaphyseal junctions there is hemorrhage and separation -subperiostic hemorrhage (under periosteum of calverium) Occurs when women give only breast milk or unfortified milk to a baby (black populations of northern cities) babies breast fed over a year/long period of time Also in those with deficient diets (e.g., alcoholics, elderly) People not exposed to sunlight Low dietary green leafy vegetablesDefinition: a disease of all connective tissues, resulting from a deficiency of ascorbic acid (Vitamin C), which leads to a failure of collagen synthesis Due to a deficiency of vitamin C ( poorly formed type I collagen in bones Type I collagen is a tri-peptide formed in ER or osteoblasts Collagen is synthesized in the RER where tri-peptides are hydroxylated by proline and lysine residues by ascorbic acid then secreted After secretion, telopeptide removed ( collagen fibrils Cross link in rows in a staggered array = periodicity of collagen molecule RicketsDietary deficiency of vitamin D3 (most common) leads to reduced synthesis of 1, 25-OH, D3 Impaired absorption of Ca and PO4 (sprue) Impaired tubular reabsorption of PO4-3 (secondary hyperparathyroidism) Growing bones can’t get enough Ca+2and PO4-3 to support mineralization. They become soft and flexibleProtruding forehead, pigeon chest, depressed ribs, enlarged epiphysis at wrist, protruding abdomen, large head, curved humerus, kyphosis, curved radius and ulna, curved femur, curved tibia and fibula, enlarged epiphysis at ankle Lack of calcification in growth plate ( enlargement Very widened and uncalcified growth plate on x-ray -a reversible lesion -add vitamin D back to the diet, calcification is re-established as a line across the plate: so-called “line test” With low vit D, bones soften and set in curvature. When calcification of restored, they set in curved shape.The “rachitic rosary” results from enlargement of poorly mineralized costochondral growth plates The rachitic growth plate is devoid of calcification -no calcification ( ineffective osteoclasts ( unresorbed cartilage ( debris accumulates at junction between the two tissues Hypertrophic zone enlarges – due to impaired resorption of unmineralized cartilage matrixA disease of childhood with failure of mineralization of bone due to insufficient Ca and PO4 Rickets is still a problem in infants of vegetarian black mothers who breast feed (avoiding cow milk) Softening of bone ( curvature of bone and pigeon breast Failure of calcification of bone Mineralization is based on ion product of Ca+2 and PO4-3 -need bothOsteomalaciaCauses of Osteomalacia: -impaired absorption of vitamin D due to sprue, persistent mild diarrhea, or inadequate dietary intake of vitamin D -dietary deficiency of Ca or PO4 -hyperphosphaturia in Vitamin D resistant rickets ( selective loss of PO4-3 and failure of bone calcification -aluminum toxicity ( coating of mineralization front of bone ( prevent further mineralization -malignant tumors (oncogenic osteomalacia) cause hyperphosphaturiaOften a history of persistent diarrhea ALP is frequently elevated and there is bone pain Osteopenia = bone loss There are pseudofractures (Looser’s zones) -these are characteristically painful -pseudofractures are transverse areas of decalcification -not actual fractures Treatment: give exogenous vitamin D and calcium, phosphate Marked increase in osteoid – but no decrease in bone spicule size Decreased calcification of matrix Lots of osteoblasts trying to mineralize matrix but can’t, which is why the alk phos is elevatedRickets in adults Most commonly results from a failure of Ca, PO4 absorption Therapy is very effective Elevated ALP in rickets and osteomalacia -ALP is produced by osteoblasts Osteopenia is caused by osteomalacia and osteoporosis – and you must separate malacia from porosisOsteoporosisCause(s) of osteoporosis is poorly understood The pathogenesis involves a negative balance between bone formation and bone resorption -amount of overall bone present is not sufficient to replace bone lost Porosity of bone is increased Leading to crush fractures of vertebraOften occurs after menopause Classic picture: shrinking post menopausal female Middle-aged to old-age Usually in women Sclerosis and Kyphosis, loss of height, and frequent real fractures Vertebral compression fractures are common and shorten the stature Osteoporotic fractures: 350,000/year (rib, femoral neck, humeral head and across the wrist) Serum calcium, phosphate and ALP levels are normal Increased morbiditySpicules are thin and far apart There is no failure of mineralization Bone metabolism is in a negative balance with resorption exceeding formation Increase in osteoid because the bone matrix that is present is calcified (normal mineralization) There is more marrow of the bone and the bone trabeculum is thinner and fragileOften confused with osteomalacia Definition: a diffuse reduction in bone mass and bone density (not due to a failure of calcification) Results in 350,000 vertebral and hip fractures annually in U.S. – at a cost of more than $1 billion (also 2nd most frequent cause of death in females after age 45 = 5% (Heart disease = 38%, breast cancer = 4%) There are definite risk factors -hereditary (defective vitamin D receptor gene); multifactorial -loss of ovarian endocrine function (estrogen promotes bone growth) -diet deficiency in calcium, vitamin D -smoking -prolonged steroid therapy (corticosteroids) -inactivity or weightlessness There are two major approaches to treatment currently -estrogen replacement to promote bone formation (ERT increases incidence of uterine and breast cancer) -anti-osteoclast agents (bisphosphonate) to inhibit bone resorptionPaget’s disease (osteitis deformans) Paget’s disease (cont)Etiology unknown – familial with geographic “hot spots” Course: slowly progressive, spreading to involve multiple bones (typical: enlarging hat size-femurs bow outwards)A disease of the elderly There is increased warmth to touch over affected bones due to increased vasculature High ALP (greater osteoblastic activity) but normal Ca and PO4 -high osteoblastic activity is associated with a release of alkaline phosphatase -high bone formation Build up of bone in shins and head (“saber shins” and enlargement of head) -overgrowth of calvarial bones -disorderly thickening (hyperostosis frontalis interna) The rapid breakdown of collagen leads to the appearance of hydroxyproline in the urine Excessive osteoclastic resorption and excessive osteoblastic activity on the other (earliest change is lytic) causing increased bone formation Frantic cellular activity at cross purposes – first lytic and later osteoblastic -early in PD: increased osteoclasts ( bone loss -later in PD: increased osteoblasts The osteoclasts of Paget’s are the largest and most bizarre in any disease state (can have as many as 100 nuclei) -since Paget’s usually begins as excessive resorption, something may be intrinsically wrong with osteoclasts Decal sections show mosaic cement lines where osteoclastic resorption stopped and bone formation filled in End result: hyperdense zone which blocks out marrow Extra osteoid is seen = too much bone formation is taking placeThe end result is a bone with very thick bone spicules and increased x-ray density, but not very mechanically strong Complications of Paget’s: -cardiac failure due to extra oxygen demand of newly formed, highly vascularized bone -fractures (paradoxically); PD bone is not well organized ( decreased strength -osteogenic sarcoma in an older age population possibly associated with a measles-like virus changing the osteoclast FRACTURE HEALING 48 hours after a fracture: A blood clot is present between the fractured ends (latest evidence says it is a good thing – platelets have growth factors that will help bone growth – like bone morphogenic protein) Cortical osteocytes die in Haversian systems near the broken ends – probably because of disrupted blood supply Osteogenic cells in periosteum and endosteum are already beginning to proliferate (osteoblasts precursor cells) Ends are unhealed but they are opposed to each other Ends of bone are necrotic – not osteocytes, empty lacunae Callus is seen: repaired bone tissue (but not a lot) Periosteum cells multiply ( callus 7 days after fracture (beginning of “reparative phase”): The periosteum is elevated by the presence of many new cells in the external callus Callus = new growth of incompletely organized bony tissue surrounding the broken ends of a fracture Full callus joins the ends of the fracture Callus has cartilage (sign that the repair occurs by endochondral bone formation) Healing via callus is a form of endochondral bone formation- recapitulation of embryonic bone growth Endosteal cells proliferate to form an internal callus Mesenchymal cells of overlying muscle probably contribute to the external callus The clot is mostly resorbed New bone formation evident in endosteum All cartilage will be replaced by bone 3rd stage of repair = reformation of bone that closes ends of injured bone (months to years later) Osteoclasts resorb old bone (primary callus) and osteoblasts lay down new bone spicules new bone stronger than original bone – new fractures will rarely come back to the same area Early callus contains central cartilage Perhaps because of reduced blood supply Bone forms at periphery Remodeling phase: the final stage of fracture repairs requires months to years During remodeling, the dead bone ends, and mechanically inefficient spicules of new bone are resorbed Replacement occurs by coordinated osteoclastic and osteoblastic action producing new trabeculae which are oriented to best withstand mechanical forces at the fracture site It is amazing that bone cells know how to align themselves and their matrix to resist mechanical stress DISEASES OF BONE GROWTH (bone dysplasias) These are usually hereditary disorders Typically, either endochondral or membranous bone formation is disordered due to a genetic mutation DiseasePathogenesisClinical FeaturesMorphologyNotesAchondroplasiaGenetics: a simple Mendelian dominant trait In 1994, the gene causing achondroplasia was identified – autosomal dominant -the condition results from one of several possible mutations in the FGFR3 gene, causing a failure of endochondral ossification -FGFR mutations inactivate FGF receptor ( impair growth at growth plates (endochondral bone formation) Failure of growth at the epiphyseal growth plate (intramembranous bone growth is normal)The result is a circus dwarf with very short arms and legs (were court jesters in olden days) -normal sized heads The flat bones of the skull and jaw are normal sized looking overgrown causing: -bulging forehead -proganthism (i.e. protruding jaw) -achondroplastics often become circus dwarfs!?!?!The long bones are very short because of a failure of longitudinal growth -have wide ends at epiphyses -growth plates vary (sometimes thin) Growth plates contain masses of disordered cartilage -chondrocytes not in normal columnar array and there is marked shortening of metaphysis -hinders normal lengthening of boneFailure of endochondral bone formation as it occurs at the growth plate Endochondral bone growth is diminished Disease is compatible with life Skull and jaw formed by membrane bone formation (not endochondral formation)Osteogenesis imperfectaHereditary: may be autosomal dominant or recessive. The recessive, congenital form is most severe and common Inadequate osteoblasts making insufficient matrix but no defect in mineralization Since there is no defect in endochondral ossification, fracture callus tends to be excessive Etiology: mutations of the gene for collagen type I, causing insufficient bone matrix synthesis Pathogenesis: a reduction in bone matrix, which although fully calcified, results in fragile bones that are more prone to fractureClinical evidence of poor collagen formation: -thin skin -blue sclerae (thin sclerae) -hypermobile joints -early tooth loss (dentinogenesis imperfecta) Weight bearing joints suffer Long bones grow normally but most damaged because bear the most weight and fracture the mostExtremities are very deformed X-rays show irregular small bones lacking mineralization -with many fractures -deficient mineralization of bone ( won’t show up on x-ray Microscopically, cortex and medulla contain very little bone -thin cortex, no bone spicules in medullary cavity -trabeculum fully calcified but lacking in matrix and very thin -osteocytes close together because not enough matrix to push away Bone spicules show many osteoblasts but they look anemic, not much cytoplasm, poor Golgi formation, too close together – unable to secrete enough collagen Type IAKA “brittle bone disease” A hereditary disease characterized by abnormally fragile bones and frequent fractures Results from a failure of membrane bone and cortical bone formation X-rays in this disease can be deceptive: hypertrophic fracture callus can be confused with osteogenic sarcoma Failure of bone matrix formation In fractures, callus well formed (endochondral bone formation) but doesn’t get filled in with normal bone (matrix formation) ( generates lots of callus (can be misdiagnosed as osteosarcoma) -outside callus, bone is thin and demineralized -sunburst appearance (confused for osteosarcoma) -lots of cartilage b/c Type II isn’t affectedOsteopetrosisMutations causing impaired osteoclastic bone resorption There are two major forms -the severe congenital form which is transmitted as a Mendelian recessive -and a less severe form which appears during later childhood or adolescence, is transmitted as a Mendelian dominant (Albers Schoberg disease) -Impaired remodeling results in bone that is very dense, but its basic structure is disordered. Thus, osteopetrotic bone does not resist mechanical forces well, and is frequently fractured -Etiology: mutations of genes that govern osteoclast formation and function -Pathogenesis: impaired osteoclastic resorption leads to excessive bone formationFlask-shape to bones with increased density -cortex cannot be distinguished from medulla Bone overgrows the marrow space ( anemia, thrombocytopenia and increased vulnerability to infection w/ bleeding tendency Bone spicule: -several inclusions of cartilage matrix because abnormal resorption -osteoclasts present but not functioning -fragile bone because lacks architectural patterns of normal bones and very resistant to mechanical stressX-rays show very dense bones with no detectable endosteum, plus widened diaphyses (“Erlenmeyer flask deformity”) Long bones show a curious “bone-within-a-bone” phenomenon -resulting from failure of resorption at the metaphyses -pile-up of metaphysical bone on both sides of growth plates Bone has: -thin cortex -piling up of bone containing cartilage inclusions in the central shaft -medullary space compression causing loss of marrow (death often results from Pancytopenia and intercurrent infections) A hereditary deficiency of bone resorption characterized by abnormally dense bones Disease in which the bones becomes hard as rock (sometimes called marble bone disease) In osteopetrosis, the balance between osteoblastic bone formation and osteoclast-mediated resorption is distributed – literally means “bones made of stone” Normally, osteoclasts are multi-nucleated and have ability to resorb bone matrix and bone mineral with ruffled border (seals cell to bone spicule and releases enzymes and proteins that dissolve mineral and collagen) but in osteopetrosis you can’t find ruffled borders in their osteoclasts Recessive type is very severe Cartilage persists so not like Paget’sMyosites ossificans (fibrodysplasia ossificans progressive – FOP)The pathogenesis of the disease is poorly understood, but probably is hereditary in childhood cases Etiology: in some cases, genes for bone morphogenetic proteins (BMPs) are mutated or overexpressed Pathogenesis: in childhood, osteoprogenitor cells of muscle begin progressive endochondral bone formation, in one muscle group after another. Phenotype: “Petrified man” Bone formed as endochondral bone (1st cartilage ( bone by osteoblasts) -bone formed never goes awayUsually begins in childhood – the back and shoulder girdle are affected first -early signs of FOP: ossicle in SCM; surgical removal ( even larger bone develops Victims of this hereditary disease usually have inwardly bent great toes (hallux valgus) In childhood cases of FOP, circulating WBCs express high levels of BMP-4 The childhood form of FOP is relentlessly progressive: group after group of muscles and tendons “freeze” -victims are exhibited in carnivals as “petrified men” -death results from a failure to chew food or breathe Late stage of FOP: bone forms across joints -cause of death: respiratory infectionsMicroscopically: endochondral bone formation occurs in muscles -as we have seen with fractures, osteoprogenitor cells in muscle can generate cartilage and boneDisease in which bone is formed at abnormal locations in muscle Disease is not compatible with life There are other forms of myosites ossificans -myositis ossificans circumscriptor may follow local trauma -occurs in the lower extremities of about 4% of paraplegics with spastic paralysis Starts at neck (SCM) ( upper extremities, chest ( lower extremities No treatment BMP induce new bone formation; stimulate osteoprogenitor cells to form new bone -sm mol wt proteins BMP will grow bone under skin if placed there in an experimental animal (ectopic bone formation)Hypertrophic osteoarthropathyBulbous enlargement of the tips of the fingers results from cortical overgrowth of bone The process is one of periosteal inflammation followed by periosteal new bone formation The cause is obscure – hypoxia is suspectedTumors release a factor leading to abnormal growth When tumor is removed, returns to normalClubbing of the fingers – distal phylanges Usually associated with an intrathoracic neoplasm (bronchogenic CA, thymoma or mesothelioma) Periosteal overgrowth of distal phalangesAvascular necrosis3 main causes: 1. steroid therapy: not dose-dependent; block sm vessels at end of long bones 2. Bends (or caisson disease) – in divers who have not properly resolved the CO2 and N gas bubbles when return from depth ( bubbles to end of long bones ( infarcts -also tunnel building construction workers 3. Legg syndrome (or Legg-Calve-Perthes): infarcts in upper femur of teenagers; infarct ( weakening of growth plates and break apart ( slipped femoral epiphysis -weakened bone under articular surface and falls into joint space -bone loss at distal end of bones -unknown cause 4. Sickle Cell diseaseBone infarcts occur in children -at the head of the femur (Legg-Calve-Perthes or Perthe’s) -in subarticular bone at diverse sites (osteochondritis dessicans) Most frequent in pre-adolescent or adolescent males, 4:1 vs. females Often associated with trauma and/or sports injuries Very painfulSubarticular bone collapses ( overlying articular cartilage loss with arthritis Bone fragment may fall off to form a “loose body,” or “joint mouse.” -bone fragment coated with reactive, repair cartilage -once encased, cause squeakiness in joint ( joint mouse3 major types Associated with Caisson disease in divers, due to hyperbarism or in sickle cell anemia Bone infarcts are often associated with steroid therapyOsteomyelitis Osteomyelitis (cont)Usually caused by hematogenous Staphylococci aureus -E. coli, Pseudomonas, and Klebsiella are more frequent in patients with urinary tract infections or who take intravenous drugs -Salmonella is more common in sickle cell anemia Hematogenous disease from non-bone site Osteomyelitis starts in metaphysic and form ankylosing bone where articular surfaces no longer slide, but are frozenCharacteristically seen in childhood Sudden onset of pain and swelling More often in children: 4:1 male predominance Metaphyses of long bones most frequently affected Characteristic smoldering infection often persists for months or years (with progressive destruction of bone)acute phase- marrow replaced by polyps Center of osteomyelitis- pus filled with neutrophils, surrounded by dead bone. Osteocytes empty- dead With time there is chronic inflammation and fibrosis -the vascular supply to some areas of bone may be compromised causing bone infarction (sequestrum) -dead bone spicules have empty lacunae (and no nuclei) Reactive new bone formation is present at the cortical surface (involucrum) -cortical bone reacts to osteomyelitis by formation of new bone (closeness of osteocytes) = WOVEN bone End result: dead bone w/in a live boneChronic progressive infection of bone which begins in bone marrow Infection of bone in ends of long bones Remains a problem because sequestered organisms can escape antibiotics -difficult to treat because decreased blood flow for antibiotics to reach Infection may penetrate the growth plate, slow bone growth, and even enter the joint space. The result is limb shortening (interruption of long bone growth in kids). And it can move onto other bones Osteomyelitis can break out of the bone at any time to form a draining sinus to surface of the body A final complication: Brodie’s abscess – burned out, non-infective bone cyst at site of previously active osteomyelitis -burned out focus of osteomyelitis that is no longer harboring bacteria but did not fill in after the infectionBENIGN BONE TUMORS Growth in length occurs at the epiphyseal plate and metaphysis Growth in width occurs at the cortex Metaphysis = very active area of bone growth and site of origin of bone tumors in adolescents Pain = indication that tumor is active Reasons why tumor in bone hurt: Increased activity ( ‘! tumor cells and edema ( overfill space ( stimulate nerve endings causing pain Tumor weakening bone ( micro fractures ( pathological fracture Systemic complaints: fever, chills, loss of appetite; indicate metastasis, rare Expansile lesion = width of bone wider and tumor has been there for awhile. Ground glass- b/c made of fat, tissue, minerals- not completely dense bone or cartilage Bone scan: pts injected with lipid phosphate and scanned. Active osteoblasts take up radiolabeled phosphate ( nonspecific bone activity Transition zone = zone differentiating bone from lesion 3 borders to look for at transition zone: geographic borders, permeative borders (non-distinct borders between bone and bone tumor), and moth-eaten borders (multiple holes in transition zone) DiseaseClinical FeaturesMorphologyNotesFibrous dysplasiaTypically with onset before puberty, usually originate in metaphysis Osteoblastic activity ( alkaline phosphatase elevated Distribution: -50% craniofacial -70% monostotic -30% polyostotic (occur in several bones at the same time) It often disappears at puberty Cortical allograft is used b/c seen as foreign and not destroyed Pain intermittent, increased with activity and decreased with rest Only bone tumor seen in kids that can continue to grow in adulthood.Lesions show typical features of fibrous dysplasia against a background of fibrous tissue -dysplasia because bone is malformed -weak bone and abnormal haversian structure -disorganized bone with lining of fibroblast that release ALP Irregular, weak-looking bone spicules The new bone is said to be dysplastic. There is disordered maturation. Irregular woven bone without lamellae or haversian systems As the bone weakens, muscles cause cortex to crack and reform, crack and reform, etc. to bow the bone -shepard’s crook deformity- hip, bowing of the bone inward Lab: alkaline phosphatase mildly elevated. Bone scan – area of fibrous dysplasia lights up (so does bladder!)McCune Albrights Syndrome in 5% of cases of polyostotic fibrous dysplasia -fibrous dysplasia -café au lait spots on skin -precocious puberty -often disappears at puberty Fibrous dysplasia is considered non-neoplastic (more like a hamartoma or malformation) Specific genetic defect High recurrence if scrape out and fill with allograft-dysplastic cells eat away away graft No risk of metastasis unless treated w/radiationOsteoid osteoma Typical age of onset (5 to 25 years) – often in diaphysis Typical history of pain relieved by pain relievers (aspirin) -this is a tumor that makes prostaglandins, which causes inflammation and pain, more at night when kids are not as active. Treatment = aspirin for pain for 3-6 months before surgical removal; removal of nidus by drilling holes around demarcated nidus and chiseling out lesion; repeat CT Bone is not at risk of fracture, so you would only go after them surgically if the medication does not help the pain. Usually after using medication for a while, the pain stops, although the lesion doesn’t go away.Gross: cylinder of dense bone X-ray: peripheral sclerotic bone and central lucent nidus -nidus: tiny bone spicules -dense bone spicules at periphery -dense region at uptake Bone spicules in the nidus are mostly osteoid (i.e. uncalcified bone matrix) -woven bone spicules with osteoid material (uncalcified bone matrix) Special stains show many nerve endings entering the nidus ( pain Center has very small malformed bone spicules surrounded by dense trabeculae Extra bone gets remodeled in cotical bone (diaphysis)Tumor = nidus (hole) incenter that has caused bone proliferation by producing growth stimulants Removal of nidus should cause dissolution of proliferative growth Location of lesion in shaft; translucent nidus Tumor produces high prostaglandins( bones swell( stimulate nerve endings( pain MRI useless b/c edema makes tumor look worse Often have posterior spine muscle spasms -take xray standing w/ spasm and then the spasm will go away when pt lays down for 2nd xrayGiant cell tumorDiagnosed clinically, so no biopsy taken Typical age of onset 30-50 years In epiphysis usually (or metaphysis) Aggressive nature (soft tissue expansion) -some go through the bone, cartilage and metastasize Erosions of cortex on outside of tumor High rate of recurrence b/c it is so active. The more they come back, the more bone and joint they destroy. (ones in distal radius are more aggressive and likely to return and metastasize) Treatment is difficult; resection of tumor exposes to soft tissue (these tumors can grow in soft tissue) -Make hole in bone, scrape out the tumor and use something to kill whatever tumor is left (ie: peroxide), fill hole with bone cement (decreased risk of lung metastasis and recurrence). Bone cement gets very hot and helps kill off any remaining tumor. -If in distal radius, cut it out and put in a piece of frozen bone radius.Giant cell tumors are usually cystic, rapidly growing, but without reactive bone formation at the edges Micro: fibroblasts, histiocytes, and a variable number of giant cells Giant cells probably represent fused marrow monocytes -have features of osteoclasts (osteoclastoma) -many mitochondria -high tartrate-resistant acid phosphatase (TRAP) lesion eroding bone from inside (endosteal scalloping) bone is trying to wall off Tumor mass filled with gelatinous fluid, cortex thinned and pushed to side. Looks very cystic on gross specimen. X-ray – solitary expansile radiolucent lesion – strongly positive on bone scan. Very sharp border (benign) Lab: all normal (Ca, P, alk phos, PTH)Malignancy is rare Usually arise in the epiphysis – spread to metaphysic Rule out hyperparathyroid “brown tumor” (Osteitis fibrosa cystica) Clinical follow-up Benign but very active Metastasis ~1% Radiolucent- no mineralization Can be in kids- highly metastatic because high metabolic activityOsteochondroma Osteochondroma (cont)First appears in kids Autosomal dominant transmission - hereditary Arises at metaphysic of long bones More common in lower extremities Bowing in arms and legs because composed of 2 bones Treatment: removal of tumor only when symptomatic, usually do nothing. May also be multiple lesions – multiple oseochondromatosis Often seen in kids when they go through growth spurts. After kid stops growing, usually it stops growing as well and causes no other problems, Sometimes in 30s and 40s it can undergo malignant degeneration.Gross: cauliflower mass, with hard smooth, bosselated (bumpy) outer surface. Attached to cortex of bone. Not very active on bone scan. May be pedunculated or cessile. Cross section showed direct communication between the tumor and normal medullary bone. -there was a cartilage cap (growth plate) Cartilage cap is where lateral growth occurs as if a metaphyseal growth plate gets turned 90ŗ to the long axis of the bone and grows out like a mushroom -chondrocytes aligned in parallel columns; lower proliferative zone -tumor arising below or at level of growth plate -neck connected with medullary cavity of boneThe most common benign bone tumor that arise from the surface of the bone Caused by a defect on perimeter of growth plate Growth plate rotates 90ŗ; during growth spurts, grows to side Autosomal dominant These almost never become malignant but must be completely removed to prevent recurrence 1% risk for malignancy; lesions in adults concerning -Telangiectasia and Malfuchi Syndrome?Multiple enchondromas Not hereditary – 20’s to 50’s Solitary enchondromas are much more frequent Rule out Matucci syndrome: multiple enchondromas and cavernous hemangioma of skin -hereditary, 100% rate of developing metastasis x-ray – punctate (popcorn) calcifications are a sign of a cartilaginous lesion. Lesions may undergo malignant transformation and become a chondrosarcoma. Gross: ovoid, smooth surfaces; semitranslucent (typical of cartilage) -well-demarcated with no characteristics of malignancy Tumor is composed entirely of nodular masses of hyaline cartilage -small fields of small nodules of well-differentiated hyaline cartilage Some chondrocytes were “stretched out” – slightly atypical -a few have double nuclei (a suspicious sign of chondrosarcoma) -must be vigilant for malignant transformation (this is BORDERLINE) -2 nuclei in one lacuna Rounded “popcorn calcification” in femur heads Lucent center and surrounding mineralization Fields of sm nodules of well-differentiated hyaline cartilageAlso called Ollier’s disease Very mildly malignant Pathogenesis: displaced cartilage nests in metaphysic which start to grow endosteally -small inclusions of cartilage which persist in bone as they develop -not limited to any region of boneMALIGNANT TUMORS sarcoma- malignancy of mesenchymal tissue Best drugs for sarcomas: adriomycin (cardiotoxic) and aphosphamide (renal toxic) Most common primary malignant tumor of bone is multiple myeloma DiseasePathogenesisClinical FeaturesMorphologyNotesOsteosarcomaArises in metaphysis of long bones, 60% around the knee Aggressive, spread by blood No hx of trauma Pain about 4 months prior to radiographic activityBimodal peak age of incidence (teens, 70-80’s) Age of onset: 10 to 20 1.6:1 male: female ratio Pagets disease and radiation are linked to later onset, 40’s to 70’s -secondary lesion in older pts Treatment: surgical resection, bone graft + chemo -tumor not sensitive to radiation -after surg, CT and bone scan -chemo 10 wk later -surg- wide resection- only leave a little normal tissue Survival 90-95% Spread in blood- lung 95% -rule out lung metastasis w/ chest XrayGross: a bony mass in the metaphysic expanding to involve the cortex -can penetrate the cortex lifting the periosteum to form “codman’s triangle”; bad prognostic sign ( indicates aggressive tumor -railroad track sign at cortex; bad prognostic sign -permeative border -sunburst pattern – tumor is growing out into soft tissue. Micro: characterized by the formation of irregular bone spicules that are partially mineralized, partially unmineralized. -there may be cartilaginous areas -spicules formed by malignant cells The feature common to all osteosarcomas is the presence of atypical, malignant osteoblasts secreting a calcifiable bone matrix Very hot in bone scan. MRI – tumor mass is dark (calcified)Is the most common primary malignant tumor of bone Malignancy of mesenchymal tissue Osteoblasts also secrete alkaline phosphatase The tumor metastasizes by blood stream -in recent years prognosis has been improved by chemotherapy and advanced surgical techniques making bone, but not from bone- can be in soft tissue Often seen in people who’ve had high dose radiation of paget’s Uptake of technetium on bone scanChondrosarcoma Chondrosarcoma (cont)Commonly arises in the central skeleton, i.e. pelvis, shoulder and ribs Indolent tumor which grows and metastasizes (by blood) more slowly Predisposing factor: previous enchondroma (1%) Low or high gradeOccurring in an older age group (40’s to 70’s) High uptake on bone scan Treatment = surgery -has proteins that pump toxins (chemo) out of cell so poor response to chemotherapy x-ray – expansile lesion w/ characteristic punctate calcifications. Bone scan – intense uptake in region of tumor.Gross: outer surface of upper humerus with clavicle attached -cross section shows a central cystic area surrounded by slightly translucent tumor -punctate “popcorn” calcification- lesions with circles of calcification – pushing cortex out. -centrally necrotic, hemorrhagic, and translucent cartilaginous appearance -high soft tissue component indicates malignancy Micro: nodular, disorderly, well differentiated hyaline cartilage with typical chondrocytes separated by cartilage matrix Close inspection shows subtle evidence of malignant atypia: nuclear variation, two cells/lacuna, rarely mitosesUsually an indolent tumor Grossly malignant Benign and malign can be right next to each other- make sure to Bx malign If pain, check elsewhere and if nothing else, check for malign Low grade, asym- no Tx. If pain, scrape- 3% recur High grade- tx like other bone cancer, removeEwings sarcomaArising in the medullary cavity of long bones (only slightly more frequently than other bones) -frequently invades the cortex, and produces soft tissue masses -presents as a tender, warm, enlarging mass, associated with fever Aggressive Usually an intermedullary tumor Derived from neuroectodermal tissue Genetic abnormality recently found in an 11 to 22 chromosomal transposition.Intramedullary, diaphyseal malignancy of childhood (usually under age 15) Ages 5-25 Low grade fever without chills is an important diagnostic feature. Bone scan positive in area of involved bone. MRI – extensive marrow involvement with possible involvement of growth plates. Survival 90-95% if respond to chemo Do CT of chest and bone scan to checkMicro: a malignant small cell tumor resembling neuroblastoma Tumor cells are small, with poorly differentiated atypical enlarged nuclei that are hyperchromatic -cytoplasm filled with glycogen (clear around nuclei) These cells are believed to arise from neuroectodermal cells and sometimes show rosettes Cells are frequently vacuolated and contain large amounts of PAS stainable glycogen Permeative border Labs – white count elevated, normal sed rate. LDH slightly elevated. MRI is diagnosticChemotherapy has greatly improved the prognosis Most common type of sarcoma in <10 years Usually in humerus and femur -20% in pelvis in surg, must remove biopsy tract also b/c contaminated most common in metadiaphysis Treatment = chemotherapy + something to treat local disease -tumor is sensitive to radiation, but not all killed so can recur -chemotherapy for 10 weeks, then surg -if removed tumor is 90% dead, sensitive to chemoMalignant fibrous histiocytomaHighly aggressive and will metastasizeMay occur at any age and in any bone Slower growing than osteosarcomas. Usually endosteal in origin, but can arise in any section of the bone. Predisposing factors: existing bone infarcts, Paget’s disease, or radiation Variable behavior Treated with chemotherapy before surgery using metal replacement Get chest CT Labs - normalGross: soft, loculated, hemorrhagic cystic intramedullary tumor (they often appear tan or yellow because of infiltration by lipid-filled macrophages) -yellow = histiocytes -invasion of cortex Micro: tumor infiltrating fat of bone marrow with spindle cells and clusters of foamy histiocytes -malignant fibroblastic cells (spindle cells) and clusters of lipid-filled histiocytes The atypical fibroblastic tumor cells are arranged in radiating bundles, i.e. a “storiform” pattern -in parallel bundles radiating out in starburst pattern -variation in nuclear size, large nucleoli, nuclei are hyperchromatic -multinucleated cells are osteoclastic -In MFH there are often tumor giant cells -Foamy histiocytes are present to a variable degree -Hot areas with cold in the middle b/c outgrow blood supply and center diesMalignant fibrous tumors of bone and soft tissue, related to fibrosarcoma Prognosis is somewhat better on average than with osteosarcoma, but is highly variable and unpredictable Most common sarcoma in soft tissue -10% de novo in bone Codman’s triangle- bad sign Soft tissue mass X-ray – single large slightly expansile destructive lesion. Bone scan positive CT scan reveals destruction of cortex with tumor projecting out.  ARTHRITIS Arthritis (inflammation of joints) is a very serious problem affecting many people in the world today Although usually not lethal, it causes much disability and loss of manhours Arthritis is not a single disease but several diseases with different etiologies The normal joint: Two cartilaginous gliding surfaces, a “diarthrodial” joint The joint surfaces are lined by cartilage and the joint space is enclosed by synovium This cartilage to cartilage junction makes one of the best gliding surfaces known. There is a very low coefficient of friction The collagen fibrils are arranged in arcades in the joint to give resilience The proteoglycan has a high affinity for water – so that these molecules, when hydrated, expand to occupy much of the space between collagen fibrils Problem: no vascular supply to articular cartilage The cartilage is nourished by the synovial fluid: proteins secreted by synovial epithelium The synovial fluid composition: like a filtrate of plasma with mucin added by synovial cells plus some antibodies. The synvoium acts like a glomerulus DiseasePathogenesisClinical FeaturesMorphologyNotesGoutUsually due to over-synthesis of urates, but secondary gout, from increased turnover of purines is seen in leukemia Deposition of monosodium urate on joint surfaces, ear lobes, and in soft tissues Etiology: multifactorial hereditary disease, most common in males Pathogenesis: abnormal uric acid metabolism leads to hyperuricemia with deposition of monosodium urate crystalsMostly in hereditary predisposed males Often affects great toe = “podagra” (pain in foot) Uric acid above 10 mg/dL (Robbins: > 7.0 mg %) Affects small joints Most common: 1st metatarsophalangeal joint between great toe and 1st metatarsalTypical pattern of inflammation Microscopic needlelike crystals with foreign body reaction Highly inflammatory crystals Articular surfaces covered by crystals Nodular deposition in peri-articular connective tissue in joint capsule Nodules = tophi (an extra-articular deposition of monosodium urate crystals) Crystals = needle-shaped deposits Chronic inflammation with foreign-body giant cells resorbing these crystals, surrounding them Deposits outside of great toe in soft tissues: tophiA disorder of uric acid metabolism An arthritis caused by deposition of urate crystals in joints and kidneys The effect can be very destructive Complications: -most serious is chronic renal disease requiring dialysis -accelerated atherosclerosis -deformity due to destruction of articular surfaces -Lesch Nyhan syndrome: congenital absence of hypoxanthine-guanine phosphoribosyl transferase (HGPRT) causes hyperuricemia with mental retardation, severe neurodegeneration, and choreoathetosis (shaking tremor)ChondrocalcinosisUnknownUsually there are no symptoms Sometimes there may be very severe joint pain -usually in the major weight-bearing joints Older-aged individualsX-ray: linear calcium deposits in articular cartilage Micro: -deposition of a crystalline material in articular cartilage -usually there is no inflammation -CaPPi is not solubilized by ordinary fixation and histological processing, and appears as small rhomboids -crystals are rhomboid/rectangular and resistant to various forms of solubilizationMore common than gout but can be confused Sometimes called “pseudogout” or calcium pyrophosphate deposition disease, CPDD Calcium pyrophosphate crystal deposition into articular cartilage Calcium pyrophosphate = insoluble and crystalline form of pyrophosphoric acid Not very inflammatoryCalcium hydroxyapatite deposition arthritisResistant to solibilization by normal conc of ECFTiny crystals of hydroxyapatite find their way into the synovial fluid (10 x 100 nm) -experiments have shown that these crystals are highly inflammatoryit may develop as a periarthritis with calcific deposits in the periarticular tissues -or it may mimic osteoarthritis (with excessive HA deposits near tidemark) -when in shoulder called “Milwaukee shoulder”Highly inflammatory Most commonly encountered form of CaPO4 in body Typical crystals deep in boneSeptic arthritis Septic arthritis (cont)Hematogenous spread of organisms from a primary site of infection, most often from pneumonia, bacterial endocarditis or gonorrhea Salmonella infection is frequent in drug addictsThere is pain, redness, swelling of a single joint (monoarticular) -can be any joint The diagnosis is made by culture and identifying the characteristic TB granulomas in biopsy of the synovium Treatment: antibiotics PMNs infiltrate the articular cartilage surface and accumulate in the synovial fluidIs usually monoarticular involving one of the large joints and can be caused by staphylococci, streptococci, pneumonococci, gonococci or tuberculous organisms TB is one of the most destructive forms of septic arthritis -more common in children -it tends to affect weight bearing joints and the spine, in which case it is referred to as (Pott’s disease)- white death -very destructive and difficult to eradicate -TB granuloma: central area of caseous necrosis surrounded by typical cellular components of granuloma, including giant cells and histiocytesReiter syndromeEtiology unknown; probably not related to gonococcus. May be autoimmune-stimulated by ChlamydiaUrethritis, arthritis, and conjunctivitis Autoimmune arthritis that mimics septic arthritisMost common cause of monoarticular arthritis in young males Recently shown to be associated with HLA-B27 antigen in 60% of casesOsteoarthritisCause is unknown Loss of proteoglycan seems to be the first step in the development of the lesion -this reduces the mechanical resistance of articular cartilage and makes it more susceptible to the destructive effects of ordinary mechanical stress Proteoglycan is lost because of lysosomal proteases, particularly cathepsins B and D, and MMPases -are released from cartilage cells and this dissolves the proteoglycan -the result is fibrillation Pathogenesis: -proteolytic degradation of cartilage matrix -loss of resilience of articular cartilage -surface irregularity of subchondral boneSeen in most people after the age of 50 >65y/o- 100% more severe in younger indiv Affects large weight bearing joints This is a very big disease problem, causing much pain and disability among the elderly Risk factors: -hereditary, gender -repeated mechanical trauma multifactorial, multigenicFocal degeneration of articular cartilage with reactive outgrowth of the articular margins to form bone spurs called “osteophytes” The earliest microscopic changes seen are a loss of metachromatic polysaccharides from the cartilage matrix and a breaking up of the cartilage surface into bundles, i.e. fibrillation -causes deep grooves in articular cartilage -circular cluster of cells = ineffective attempt at repair Not an inflammatory lesion Later in the course of the disease there is characteristic proliferation of new bone at the edges of the articular surfaces to form bony spurs: the so-called osteophytes -uneven wearing away of cartilage The final result of all this grinding away is eburnation. Cartilage is lost and underlying bone hardens to form a dense bony articular surface -hydroxyapatite worn away and released into joint space and cause periodic acute inflammation Circular clusters- ineffective attempt at repair Fibrillation of articular cartilage- deep grooved( change in cellular structure on either side of fibrillar cleft -cells clustered( matrix lostDegenerative joint disease Causes a loss of 68 million work hours/yr in the U.S. Often appears to be related to repetitive mechanical trauma Wearing away of articular cartilage Herberden’s nodes are a variant of osteoarthritis -osteophytes (bone spurs) which form at the distal interphalangeal (DIP) joints ( fusiform enlargement of joint -they are mostly seen in middle-aged women and show a hereditary pattern of inheritanceRheumatoid arthritis Rheumatoid arthritis (cont)Etiology unknown: for several reasons it appears to be an autoimmune disease Auto-antibodies, characterized by rheumatoid factor (RF), cause chronic synovitis -RF is an immunocomplex composed of an IgM associated with IgG Inflammatory cytokines, released from inflamed synovium, signal complement-mediated destruction of articular cartilage Rheumatoid factor is often tested for by latex agglutination (latex spheres or sheep RBCs coated with normal human IgG – then reacted with RF to cause agglutination) -usually the RF titer correlates well with the severity of rheumatoid Additionally there is often an anti-nuclear antibody, similar to the one seen in Lupus3:1, females:males Hereditary predisposition Perhaps because of the severe pain associated with rheumatoid arthritis, the muscles associated with an affected joint undergo spasms and can actually dislocate the bones of a joint -this is called “subluxation,” i.e. over-riding of articulating bones Subluxation of the metacarpo-phalangeal joint = Boutonnier deformity Often there is ulnar deviation -uneven tension of flexor vs. contractor muscles in forehand, fingers forced outwards Erosion of the articular cartilage causes fusion The last stage is a bony union across what used to be a joint (ankylosis) -when 2 normally articulating bones come together and form one bone -no joint space Spastic contraction of muscles around joints ( overriding of joints (subluxation) Flipper hand = subluxation of several knuckles of hand Characteristic ulnar deviationAt first there is an acute inflammation in the synovium, followed by chronic inflammation. The synovial enlarge and project into the synovial cavity. This produces a pannus – i.e. papillary projections of inflamed synovium -the word pannus comes from the Latin word for apron – the sort that Roman bakers wore -pannus spreads, apron-like, over the articular surface -when it does, it causes extensive destruction of the articular surfaces, probably due to the release of lysosomal enzymes Rheumatoid nodules develop in the subcutaneous tissues near the joints (Rheumatoid nodules may also be present in aorta, large arteries or sometimes in lungs, i.e. Kaplan’s syndrome) -these nodules are comprised of central fibrinoid necrosis surrounded by palisades of histiocytes and fibroblastsA systemic, autoimmune arthritis of multiple small joints (esp. fingers, wrists, and temperomandibular joints) A systemic inflammatory disorder which leads to destructive changes in articular cartilage of multiple small joints: fingers, temperomandibular joints and wrists Risk factors -hereditary (HLA-DR genotype) -EBV infection Rheumatoid variants: -Still’s disease: RA in children (RF usually absent) -Rheumatoid ankylosing spondylitis (eponym: Marie Strumpell disease) -Felty’s syndrome: RA with splenomegaly and leukopenia -Sjogrens: RA is associated with salivary gland enlargement and dryness of eyes and mouth (there is chronic inflammation of lachrymal and salivary glands) What causes rheumatoid hypersensitivity and immune complex formation remains is unknown Lyme diseaseetiologic agent is Borrelia burgdorferi carried by loxodes damani -tick borne spirochete characteristic rash called erythema chronicum migrans (ECM) late sequelae include arthritis, neuropathy and cardiac arrhythmias serologic testing is currently unreliable; a characteristic rash is perhaps the most definitive way of making the diagnosis serious complications: myocarditis, cardiac arrhythmias, and encephalitis has many features of rheumatoid arthritis self-limitedTUMORS OF THE JOINTS DiseaseClinical FeaturesMorphologyNotesGanglion cystMost common on the extensor surface of the wrist, between tendons Develops close to joint surface in wrist -fluid-filledMicroscopically it is a fibrous-walled cyst Often there is no lining epithelium. Some believe that it is a displaced bursa which has lost its liningNot neoplastic Very common benign tumor, no pain Therapy: surgical removal (in olden days – hitting it with a hammer)Benign giant cell tumor of tendon sheathOften arising in the hands and fingers Occur in articular capsuleBoth tenosynovitis and giant cell tumor are similar histologically, showing: -giant cells -fibrous stroma -variable number of histiocytes -variable old hemorrhage -Gross: brownish pigment due to hemosiderin spilled outRelated to “pigmented villonodular tenosynovitis” -These benign tumors are thought not to be neoplastic but to be inflammatory -Never becomes malignantSynovial sarcomaPrimary is small, usually arising in the lower extremities, 18-25 year olds -Diagnosed by lung metastases (via blood)The histology varies considerably but usually there are two components -most commonly encountered are malignant spindle cells- malig fibroblasts -malignant cuboidal lining cell – the malignant counterpart of 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