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BONES AND MUSCLES

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Title: BONES AND MUSCLES


1
BONES AND MUSCLES
  • ROBERTO D. PADUA JR., MD, DPSP
  • DEPARTMENT OF PATHOLOGY
  • FATIMA COLLEGE OF MEDICINE

2
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • CHONDRODYSPLASIAS
  • Abnormalities in the size and shape of bones
  • Disproportionate shortness in stature
  • Named after the part of the bone affected
  • Other names refer to the appearance of the bone
  • Diastrophic (twisted)
  • Thanatophoric (death-bearing)
  • Metatropic (changing)
  • Family history of disease is obligatory
  • Radiologic appearance can be confused with other
    metabolic bone diseases
  • Serum levels of biochemical markers are normal
  • Bone is well mineralized

3
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 1. ACHONDROPLASIA
  • Most common cause of disproportionately short
    stature
  • 1 of 40,000 live births, autosomal dominant
  • Head is large, frontal region is protuberant,
    nasal bridge is depressed
  • Lordosis and lumbar kyphosis are present
  • Anteroposterior flattening of the pelvic inlet
  • Failure of normal endochondral ossification at
    the level of the proliferating and maturing
    cartilage

4
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 2. ACHONDROGENESIS
  • Affected infants are either stillborn or do not
    survive the immediate neonatal period
  • 2 syndromes
  • a) Achondrogenesis I (Parenti-Fraccaro)
  • Associated with congenital heart defects
  • No ossification in the skull vertebral bodies
  • b) Achondrogenesis II (Langer-Saldino)
  • Shortened limbs disproportionately large head
  • Underdeveloped ossification centers in the
    vertebral bodies and pelvis
  • Epiphyseal cartilage is lobulated with increased
    vascularity
  • Completely disorganized endochondral ossification
    of the growth plate and there is no column
    formation

5
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 3. THANATOPHORIC DYSPLASIA
  • Infants are either stillborn or die of
    respiratory distress during the neonatal period
  • Pattern of inheritance is unknown
  • Length of trunk is normal but the head is large
    with cranio-facial disproportion
  • Common CVS and CNS anomalies
  • Pronounced platyspondyly of the lumbar vertebrae
    with an inverted U appearance
  • Curvature of femurs with medial and lateral
    spikes at their lower ends short, flared ribs
  • Endochondral ossification is disrupted at the
    growth plate, no regular column formation

6
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 4. CHONDROECTODERMAL DYSPLASIA
  • Also known as Ellis-van Creveld syndrome
  • Short limb dwarfism
  • Consanguity is an important factor in the
    etiology of the disease
  • Clinical presentation
  • Narrowing of rib cage
  • Congenital heart disease
  • Ectodermal abnormalities
  • Acromegalic micromelia (shortening of the distal
    segment of the limb

7
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 5. ASPHYXIATING THORACIC DYSPLASIA
  • Jeunes syndrome
  • Narrowing of the chest and immobility
  • Stippled epiphyses and chondroplasia punctata are
    striking features on x-ray

8
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 6. OSTEOPETROSIS
  • Marble bone disease
  • Defective osteoclast function that impairs
    skeletal resorption
  • Primary spongiosa persists during adult life
  • Increased incidence of parental consanguity
  • Early symptom is malformation of mastoid and
    paranasal sinuses
  • Pathognomonic histologic finding is the failure
    of osteoclast to resorb skeletal tissue

9
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 7. PROGRESSIVE DIAPHYSEAL DYSPLASIA
  • Camurati-Engelman disease
  • Rare autosomal dominant disorder
  • Formation of new bone at both the periosteal and
    endosteal surfaces

10
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 8. ENDOSTEAL HYPEROSTOSIS
  • Van Buchem disease
  • Autosomal dominant/recessive disorder
  • Progressive enlargement of mandible during
    puberty
  • Radiographic feature dense and homogenous
    diaphyseal cortex with narrowing of the medullary
    canal

11
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 9. OSTEOPOIKILOSIS
  • Presence of numerous foci of sclerosis in
    cancellous bone (spotted bones)
  • Autosomal dominant disorder
  • Bone changes are asymptomatic
  • Found incidentally on radiographs

12
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 10. OSTEOPATHIA STRIATA
  • Characterized by linear striations at the ends of
    long bones and in the ilium
  • X-ray shows gracile linear striations in the
    cancellous region of the skeleton
  • Autosomal dominant trait

13
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 11. MELORHEOSTOSIS
  • Characterized by hyperostosis of the limb bones
  • X-ray likened to appearance of melted wax that
    is dripped down the side of the candle
  • Typical histologic finding is endosteal thickening

14
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 12. PACHYDERMOPERIOSTOSIS
  • Hypertrophic osteoarthropathy
  • Characterized by clubbing of digits,
    hyperhidrosis, thickening of skin around the face
    and forehead and periosteal new bone formation in
    the distal limbs
  • Inherited as autosomal dominant trait
  • Mengtwomen
  • X-ray shows thickening and sclerosis of the
    distal portions of the tubular bones

15
SKELETAL DEVELOPMENTAL AND GENETIC DISORDERS
  • 13. OSTEOGENESIS IMPERFECTA
  • Brittle bone disease
  • Hereditary disorder involving defects in the
    synthesis or structure of collagen type I
  • Cardinal features osteopenia associated with
    recurrent fracture and skeletal deformity
  • Biochemical findings increased AP, increased
    level of hydroxyproline, hypercalciuria
  • Histology abnormal skeletal matrix
    cartilaginous bars formed by vascular invasion of
    the metaphyses do not become envelop by bones
    cortical bone is almost non-existent

16
METABOLIC BONE DISEASES
  • 1. OSTEOPOROSIS
  • Loss of normally minerralized bone
  • Diagnosed clinically with non-invasive
    radiographic techniques that measures bone
    density
  • Changes in the bone
  • Structurally weak
  • Loss of trabecular bone
  • Enlargement of the medullary space
  • Cortical porosity
  • Reduction in cortical thickness

17
METABOLIC BONE DISEASES
  • 2. RENAL OSTEODYSTROPHY
  • Seen in patients with advanced renal failure
  • Clinical presentations
  • Bone pain (most common), spontaneous fractures,
    aseptic necrosis of hip, myopathy
  • Laboratory findings
  • Low levels of 125(OH)2D3, hyperphosphatemia,
    hypocalcemia, alterations in the secretion or
    activity of PTH
  • X-ray
  • Subperiosteal erosions, patchy osteosclerosis
    (rugger jersey appearance of thoracic vertebral
    spine on lateral views, salt and pepper
    appearance of skull, slipped epiphyses

18
METABOLIC BONE DISEASES
  • 3. OSTEOMALACIA
  • Defective mineralization of the trabecular and
    cortical bone matrix
  • Associated with decreased serum calcium phosphate
    product
  • A common complication of chronic renal failure in
    adults
  • Secondary to Vitamin D deficiency
  • Histologically characterized by excessive
    quantities of osteoid because of the failed
    matrix calcification despite continued matrix
    synthesis by the osteoblasts

19
METABOLIC BONE DISEASES
  • 4. RICKETS
  • Defective mineralization of the epiphyseal growth
    plate cartilage
  • Clinical features craniotabes, frontal bossing,
    rachitic rosary, pectus excavatum, Harrisons
    groove, thoracic kyphosis, rachitic potbelly,
    genu varum/genu valgum
  • Histologic appearance
  • Rachitic growth plate is wide and irregular
  • Columnar rearrangement of the hypertrophic
    chondrocyts is lost
  • Zone of provisional calcification disappears
  • Cartilage extends deep into the metaphyses

20
TRAUMA
  • FRACTURE REPAIR
  • Blastema ? wound closure ? scar formation
  • Initial repair tissue formed is called a CALLUS
    which is composed of fibrous tissue, woven bone
    and cartilage
  • 3 phases of fracture healing
  • A) inflammatory phase
  • B) reparative phase orderly removal and
    replacement of immature woven bone by cartilage
    differentiation
  • C) modeling phase realignment mechanical
    shaping of the bone and callus restoration of
    the medullary cavity and bone marrow
  • Complications of fracture healing
  • A) nonunions
  • B) fibrous union

21
INFLAMMATORY BONE DISORDERS
  • OSTEOMYELITIS
  • Classified according to several factors
  • 1. its duration acute, subacute or chronic
  • 2. nature of the exudate hemorrhagic, purulent,
    or nonsuppurative
  • 3. its location bone, periosteum, or epiphyses
  • 4. etiologic agent Staphylococcus, Tb, etc.
  • Histologically, inflammatory cells are seen
  • Loss of normal marrow architecture
  • Hematopoietic elements and fat are replaced by
    leukocytic infiltrates

22
INFLAMMATORY BONE DISEASES
  • OSTEOMYELITIS..
  • Chronic sclerosing osteomyelitis of Garre
  • A chronic form of osteomyelitis with findings of
    dense, scarred bone and few clinical symptoms
    without any abscess formation.
  • Brodies abscess
  • Osteomyelitis sharply limited to one side with
    formation of abscess cavity surrounded by a rim
    of sclerotic bone.
  • Causes
  • Coagulase () Staph. Aureus (60-90)
  • Strep, Pneumococcus, E. coli, Klebsiella,
    Salmonella, Bacteroides

23
INFLAMMATORY BONE DISEASES
  • OSTEOMYELITIS..
  • Causes
  • Tuberculosis
  • Spread hematogenously
  • Characteristic lesion Chronic caseating
    granulomatous inflammation which often involves
    the subchondral part of the joint. Sequestrum
    forms in the subchondral bone and articular
    cartilage resulting in a kissing sequestrum.
  • Potts disease Tb of the spine

24
OSTEOMYELITIS
X-RAY
GROSS UPPER FEMUR
25
INFLAMMATORY BONE DISEASES
  • SARCOIDOSIS
  • Noncaseating granulomatous process
  • Manifest as small lytic and sclerotic foci in the
    bones of the hand
  • Large areas of destruction are not typically found

26
INFLAMMATORY BONE DISEASES
  • PAGETS DISEASE OF BONE (OSTEITIS DEFORMANS)
  • A chronic osteolytic and osteosclerotic disease
    of uncertain cause
  • May involve one or more bones
  • Presents with pain, skeletal deformities, and
    occasionally sarcomatous transformation
  • Usually affects 3 of white population over 40
    y/o
  • Incidence increases with age mengtwomen
  • Most patients are asymptomatic (80-90)

27
INFLAMMATORY BONE DISEASES
  • PAGETS DISEASE OF BONE..
  • Common skeletal sites of involvement are the
    sacrum, spine, pelvis, skull, femur, clavicle,
    tibia, ribs, and humerus
  • Histopathology
  • Normal marrow is replaced by a richly vascular,
    loose fibrous connective tissue
  • Isolated clusters of inflammatory cells may be
    seen
  • Osteoclasts aggregate on the existing bone
    trabeculae and within the cortex
  • Innumerable small, irregularly shaped bone
    fragments (mosaic pattern)
  • Grossly resembles the gritty but brittle texture
    of pumice or lava rock

28
INFLAMMATORY BONE DISEASES
  • PAGETS DISEASE OF BONE.
  • X-RAY flocculant, radiopaque deposit likened to
    cotton wool. Pelvis is the most common site of
    involvement.
  • Elevated AP and osteocalcin level
  • Elevated urinary excretion of hydroxyproline,
    pyridinoline and deoxypyridinoline
  • Malignant transformation are also observed
  • Osteosarcomas
  • Fibrosarcomas
  • Giant cell malignant fibrous histiocytoma

29
PAGETS DISEASE OF BONE
EARLY CHANGES SHOWING PROMINENT OSTEOCLASTIC
ACTIVITY
X-RAY OF TIBIA SHOWING BONE DESTRUCTION AND BONE
FORMATION
30
DEGENERATIVE DISEASES OF BONE
  • OSTEONECROSIS
  • Infarction of bone typically involving the
    femoral head
  • 3 generic categories postfracture, idiopathic,
    and renal transplant associated
  • Also known as avascular necrosis of bone
  • Earliest histologic changes are death of the bone
    and the surrounding hematopoietic fatty marrow
  • X-ray Crescent sign , a separation of
    fracture cleft forms between the impacted
    fragments and the overlying subchondral plate.
    Increased density within the necrotic bone.

31
BONE TUMORS
  • Most malignant tumors arise de novo
  • Benign bone lesions that predispose to the
    development of skeletal malignancies
  • Pagets disease, chondromatosis,
    osteochondromatosis, fibrous dysplasia, and
    osteofibrous dysplasia
  • Five basic parameters in the diagnosis of bone
    tumors
  • Age of the patient
  • Bone involved
  • Specific area within the bone
  • Radiographic appearance
  • Microscopic appearance

32
BONE FORMING TUMORS
  • 1. OSTEOMA
  • Seen almost exclusively in the flat bones of
    skull and face
  • Microscopically composed of dense, mature,
    predominantly lamellar bone
  • Benign
  • Associated with Gardners syndrome

33
BONE-FORMING TUMORS
  • 2. OSTEOID OSTEOMA
  • Benign neoplasm seen in patients between 10 and
    30 y/o
  • 21 male-female ratio
  • Intense pain is the most prominent symptom
  • Reported in practically every bone, most are
    centered in the cortex (85), spongiosa (13), or
    subperiosteal region (2)
  • X-ray typical finding is a radiolucent nidus
    that is seldom larger than 1.5 cm and may or may
    not contain a dense center. This nidus is
    surrounded by a peripheral sclerotic reaction.
  • Microscopic sharply delineated central nidus
    composed of more or less calcified osteoid lined
    by plump osteoblast and growing within
    vascularized connective tissue, without evidence
    of inflammation.

34
OSTEOID OSTEOMA
MICROSCOPIC
GROSS
X-RAY
35
BONE-FORMING TUMORS
  • 2. OSTEOBLASTOMA
  • Benign osteoblastoma, giant osteoid osteoma
  • Closely related to osteoid osteoma both
    microscopically and ultrastructurally
  • It has a larger size of the nidus, absence of
    surrounding area of reactive bone formation, and
    the lack of intense pain
  • A cartilaginous matrix is present in some cases
  • Most cases arise in the spongiosa of the bone
    involving the spine or major bones of the lower
    extremity
  • Osteomalacia can be seen as a complication

36
BONE-FORMING TUMORS
  • 3. OSTEOSARCOMA
  • The most frequent primary malignant tumor,
    exclusive of hematopoietic malignancy
  • Usually occurs in patients between 10 and 25
    years of age and is rare in pre-school children
  • Another peak age incidence occurs after the age
    of 40, in association with other disorders
  • Most osteosarcomas arise de novo, but others
    arise within the context of a preexisting
    condition
  • Pagets disease, radiation exposure,
    chemotherapy, preexisting benign bone lesions,
    foreign bodies, trauma

37
BONE-FORMING TUMORS
  • OSTEOSARCOMA..
  • Located in the metaphyseal area of long bones,
    particularly the lower end of femur, upper end of
    the tibia, and the upper end of the humerus
  • Large majority arise within the medullary cavity
    from which they extend into the cortex
  • Gross appearance varies depending on the relative
    amounts of bone, cartilage, cellular stroma and
    vessels ? bony hard to cystic, friable, and
    hemorrhagic
  • From its usual origin in the metaphysis of a long
    bone, the tumor may spread along the marrow
    cavity, invade the adjacent cortex, or elevate or
    perforate the periosteum (Codmans triangle)

38
BONE-FORMING TUMORS
  • OSTEOSARCOMA..
  • Extend into the soft tissues, extend into the
    epiphysis, extend into the joint space, form
    satellite nodules independent from the main tumor
    mass proximal to the primary lesion (skip
    metastases), metastasize through the blood
    stream to distant sites particularly the lung.

39
BONE-FORMING TUMORS
  • OSTEOSARCOMA..
  • Microscopic features
  • May destroy preexisting bone trabeculae or grow
    around them in an appositional fashion
  • Key feature is the presence of osteoid and or
    bone produced directly by tumor cells without
    interposition of cartilage
  • Osteoblastic areas are often mixed with
    fibroblastic and chondroblastic foci
  • Tumor cells may grow in diffuse, nesting or
    pseudopapillary arrangements

40
BONE-FORMING TUMORS
  • OSTEOSARCOMA..
  • OS cells usually exhibit strong AP activity,
    regardless of their appearance
  • Ultrastructurally, tumor cells resemble normal
    osteoblasts
  • Consistently expresses Vimentin
  • In some cases, they are positive for smooth
    muscle actin, desmin, EMA, S-100 protein
  • Osteonectin, osteocalcin, osteopontin bone
    morphogenetic protein and bone GLA protein have
    been identified immunohistochemically

41
BONE-FORMING TUMORS
  • OSTEOSARCOMA..
  • Microscopic variants
  • Telangiectatic
  • Small cell
  • Fibrohistiocytic
  • Anaplastic
  • Well-differentiated intramedullary
  • Others parosteal (juxtacortical), periosteal

42
OSTEOSARCOMA
GROSS SHOWING SKIP METASTASIS
MICROSCOPIC APPEARANCE
43
OSTEOSARCOMA
TELANGIECTATIC VARIANT OF OSTEOSARCOMA
44
OSTEOSARCOMA
JUXTACORTICAL OSTEOSARCOMA
45
BONE-FORMING TUMORS
  • OSTEOSARCOMA..
  • Diagnosis characteristic radiographic
    appearance, open biopsy, needle biopsy, FNAB,
    frozen section.
  • Therapy amputation or disarticulation. At
    present, limb-sparing procedures coupled with
    other therapeutic modalities.
  • Prognosis
  • Poor presence of Pagets disease, multifocal
    OS, chondroblastic type, Telangiectatic variant,
    elevated AP, low postchemotherapy tumor necrosis,
    loss of heterozygosity of the RB gene, HER2/neu
    expression, expression of P-glycoprotein

46
CARTILAGE-FORMING TUMORS
  • 1. CHONDROMA
  • A common benign cartilaginous tumor that occurs
    most frequently in the small bones of the hands
    and feet, particularly the proximal phalanges
  • 30 are multiple
  • Microscopically, they are composed of mature
    hyaline cartilage. Foci of myxoid degeneration,
    calcification, and endochondral ossification are
    common
  • Enchondromas begins in the spongiosa of the
    diaphysis from which they expand and thin out the
    cortex
  • Lesions with predominantly unilateral
    distribution are referred to as Olliers disease
  • Its association with soft tissue hemangiomas is
    known as Maffuccis syndrome

47
CHONDROMA
MICROSCOPIC
X-RAY
GROSS
48
CARTILAGE-FORMING TUMORS
  • 2. OSTEOCHONDROMA
  • Most frequent benign tumor
  • Usually asymptomatic, but may lead to deformity
    or interfere with the function of adjacent
    structures such as tendons and blood vessels
  • Most common locations are metaphyses of the lower
    femur, upper tibia, upper humerus and pelvis
  • Average age of onset is 10 y/o, majority appears
    before the age of 20
  • Average greatest diameter is 4 cm but may reach
    10 cm or more
  • A cap of cartilage covered by fibrous membrane
    continous with the periosteum of the adjacent
    bone
  • Microscopically, the cells resemble those of
    normal hyaline cartilage. Eosinophilic, PAS-()
    inclusions may be seen in the cytoplasm. The bulk
    of the lesion is composed of mature bone
    trabeculae located beneath the cartilaginous cap
    and containing normal bone marrow.

49
OSTEOCHONDROMA
GROSS, CUT SECTION
MICROSCOPIC
50
CARTILAGE-FORMING TUMORS
  • 3. CHONDROBLASTOMA
  • Occurs predominantly in males under 20 y/o
  • Usually arises in the epiphyseal end of long
    bones before the epiphyseal cartilage has
    disappeared, particularly in the distal end of
    femur, proximal end of humerus, and proximal end
    of tibia
  • X-ray tumor is fairly well delimited and
    contains areas of rarefaction
  • Microscopic
  • the basic tumor cell is an embryonic
    chondroblast with only a limited capacity for the
    production of cartilaginous matrix.
  • Presence of occasional scattered giant cells

51
CARTILAGE-FORMING TUMORS
  • CHONDROBLASTOMA..
  • Microscopic
  • Cells are usually polyhedral with round to
    indented nuclei. Reticulin fibers surround each
    individual cell.
  • Presence of small zones of focal calcification
    (chicken wire)
  • Diagnosis can be made by fine needle aspiration
    which will show neoplastic chondroblast,
    multinucleated osteoclast-like giant cells, and
    chondroid myxoid fragments
  • Treatment is by curettement with bone grafting

52
CHONDROBLASTOMA
X-RAY
GROSS
53
CHONDROBLASTOMA
MICROSCOPIC
54
CARTILAGE-FORMING TUMORS
  • 4. CHONDROMYXOID FIBROMA
  • An unusual benign tumor
  • Usually occurs in long bones of young adults
  • Radiographically, it is sharply defined and may
    attain a large size
  • Grossly, it is solid and yellowish white or tan,
    replaces bone and thins the cortex.
  • Microscopically, shows hypocellular lobules with
    a chondromyxoid appearance separated by
    intersecting bands of fibroblast-like spindle
    cells and osteoclasts
  • Strong positivity to S-100 protein
  • Treatment is by curettage with a recurrence rate
    of 25

55
CHONDROMYXOID FIBROMA
X-RAY
GROSS
MICROSCOPIC
56
CARTILAGE-FORMING TUMORS
  • 5. CHONDROSARCOMA
  • A malignant tumor of cartilage-forming tissues
  • Divided into conventional and variants
  • Conventional chondrosarcoma can be
  • Central located in the medullary cavity,
    usually of flat or long bone. X-ray show
    osteolytic lesion with splotchy calcification
    with ill-defined margins, fusiform thickening of
    the shaft, and perforation of the cortex
  • Peripheral may arise de novo or from the
    cartilaginous cap of a preexisting osteochondroma
  • Juxtacortical (periosteal) involves the shaft
    of a long bone characterized by a cartilaginous
    lobular pattern with areas of splotchy
    calcification and endochondral ossification

57
CARTILAGE-FORMING TUMORS
  • CHONDROSARCOMA..
  • Microscopically, there is production of
    cartilaginous matrix and the lack of direct bone
    formation by the tumor cells
  • Soft tissue implantation following biopsy is a
    well known complication
  • Chondrosarcoma variants
  • Clear cell chondrosarcoma
  • Myxoid chondrosarcoma
  • Dedifferentiated chondrosarcoma
  • Mesenchymal chondrosarcoma

58
CHONDROSARCOMA
GROSS APPEARANCES OF CHONDROSARCOMA
59
CHONDROSARCOMA
X-RAY, FEMUR
60
CHONDROSARCOMA
WELL-DIFFERENTIATED
CLEAR CELL VARIANT
61
GIANT CELL TUMOR
  • Osteoclastoma
  • Patients are over 20 years of age
  • More common in women then men
  • More frequently in Oriental than Western
    countries
  • Classic location is epiphysis of long bone
  • Affects more commonly the lower end of femur,
    upper end of tibia, and lower end of the radius.
    It also occurs in the humerus, fibula, and skull
    particularly the sphenoid bone.
  • Multicentricity has been reported particularly in
    young patients and in the small bones of hands
    and feet

62
GIANT CELL TUMOR
  • X-ray
  • The typical appearance is that of an entirely
    lytic, expansile lesion in the epiphysis, usually
    without peripheral bone sclerosis, or periosteal
    reaction
  • Gross
  • The size of the tumor varies when large, it may
    be associated with a pathologic fracture
  • The cut surface is solid and tan or light brown,
    traversed by fibrous trabeculae, and often
    contains hemorrhagic areas
  • The cortex is thinned, but periosteal new bone
    formation is rare

63
GIANT CELL TUMOR
  • Microscopic
  • Two main components are stromal cells and giant
    cells
  • The giant cells are usually large and have over
    twenty or thirty nuclei, most of then are
    arranged toward the center.
  • They resemble osteoclasts at all levels
    ultrastructurally, enzyme histochemically and
    immunohistochemical
  • Result of fusion of circulating monocytes that
    have been recruited into the lesion
  • Possible mechanisms
  • Autocrine or paracrine loop mediated by
    transforming growth factor beta

64
GIANT CELL TUMOR
  • Microscopic..
  • Possible mechanisms.
  • 2. Production of osteoprotegerin ligand (a factor
    essential for osteoclastogenesis)
  • 3. Expression of the ligand for RANK (receptor
    activator of nuclear factor Kappa B)
  • Mononuclear stromal cells is the only
    proliferating element in the lesion and the one
    exhibiting atypia in the rare cytologically
    malignant examples of this tumor
  • These changes may be focal, hence a thorough
    sampling is required
  • Produces type I III collagen and has receptors
    for PTH

65
GIANT CELL TUMOR
X-RAY
GROSS APPEARANCE
66
GIANT CELL TUMOR
MICROSCOPIC APPEARANCE
67
GIANT CELL TUMOR
  • Frequent positivity for S-100 protein
  • Many benign lesions with giant cells have been
    diagnosed as giant cell tumor in the past
  • A diagnosis of a lesion other than GCT should be
    favored if
  • 1. patient is a child
  • 2. lesion is located in the metaphysis or
    diaphysis of a long bone
  • 3. lesion is multiple
  • 4. lesion is located in the vertebrae, jaw, or
    bones of the hands or feet

68
GIANT CELL TUMOR
  • Treatment
  • Surgical consists of curettage with bone
    grafting or en bloc resection with allograft or
    artificial material
  • Use of radiation therapy should be reserved only
    for cases in which surgical removal is impossible

69
MARROW TUMORS
  • 1. EWINGS SARCOMA/PRIMITIVE NEUROECTODERMAL
    TUMOR (PNET)
  • Undifferentiated type of bone sarcoma in children
  • Related to the neoplasm originally described in
    the soft tissues as primitive (peripheral)
    neuroectodermal tumor
  • Usually seen in patients between the ages of 5
    and 20 years
  • Clinically, the tumor may simulate OM because of
    pain, fever, and leukocytosis

70
EWINGS/PNET
  • Occurs most often in long bones (femur, tibia,
    humerus, and fibula) and in the bones of the
    pelvis, rib, vertebrae, mandible and clavicle
  • It generally arises in the medullary canal of the
    shaft, from which it permeates the cortex and
    invade the tissues
  • Can present clinically as a soft tissue neoplasm
    with a normal appearance of the underlying bone
    on plain x-ray films
  • X-ray cortical thickening and widening of the
    medullary canal. With progression of the lesion,
    reactive periosteal bone may be deposited in
    layers parallel to the cortex (onion-skin
    appearance) or at right angle to it (sun-ray
    appearance)

71
EWINGS SARCOMA/PNET
  • Microscopic
  • Consists of solid sheets of cells divided into
    irregular masses by fibrous bands
  • Individual cells are small and uniform
  • The cells outline are indistinct, resulting in a
    syncitial appearance
  • The nuclei are round, with frequent indentations,
    small nucleoli and variable but usually brisk
    mitotic activity
  • There is well developed vascular network
  • Pseudorosettes and rosettes arrangement of cells
    may be seen

72
EWINGS SARCOMA/PNET
X-RAY
GROSS APPEARANCE
73
EWINGS SARCOMA/PNET
MICROSCOPIC APPEARANCE
74
EWINGS SARCOMA/PNET
  • Cells contains large amounts of cytoplasmic
    glycogen --- () PAS
  • Ultrastructurally, a few dense core granules will
    be found either in the cell cytoplasm or in cell
    prolongations
  • Immunohistochemically, positive for vimentin, LMW
    keratin, NSE, protein gene product 9.5, Leu7, and
    neurofilaments
  • Over 95 of cases show a reciprocal translocation
    1122 (q24q12), which results in the fusion of
    EWS gene with FLI or ERG genes

75
EWINGS SARCOMA/PNET
  • Metastatic spread is to the lungs and pleura,
    other bones (particularly the skull), CNS, and
    (rarely) regional LN
  • About 25 of the patients have multiple bone
    and/or visceral lesions at the time of
    presentation
  • Treatment
  • Combination of high-dose irradiation and
    multidrug chemotherapy sometimes combined with
    limited surgery

76
MARROW TUMORS
  • 2. MALIGNANT LYMPHOMA
  • Can involve the skeletal system primarily or as a
    manifestation of a systemic disease
  • LARGE CELL LYMPHOMA
  • More common in adults than in children
  • 60 of cases occurring in patients over 30 y/o
  • No sex predilection
  • Most cases involve the diaphysis or metaphysis og
    long bones or vertebrae producing patchy cortical
    and medullary destruction associated with minimal
    to moderate periosteal reaction
  • The tumor is pinkish gray and granular,
    frequently extends into the soft tissues and
    invades the muscle

77
MALIGNANT LYMPHOMA
  • LARGE CELL LYMPHOMA..
  • Radiographically, a combination of bone
    production and bone destruction often involves a
    wide area of a long bone
  • Microscopically, the appearance is similar to
    that of the large cell lymphoma in nodal and
    other extranodal sites, some cases are
    accompanied by prominent fibrosis
  • The 5-year survival rate for localized B-cell
    lymphoma of bone has ranged from 30-60
  • The stage of the disease is the single most
    important prognostic determinator

78
MALIGNANT LYMPHOMA
MICROSCOPIC APPEARANCE
X-RAY
79
MALIGNANT LYMPHOMA
  • HODGKINS LYMPHOMA
  • Produces radiographically detectable bone lesions
    in approximately 15 of the patients
  • Involvement is multifocal in about 60 of cases,
    most frequent sites being vertebrae, pelvis,
    ribs, sternum, and femur
  • Osseous lesions are often asymptomatic and in
    half of the cases are not demonstrable
    radiographically

80
MALIGNANT LYMPHOMA
  • Anaplastic large cell lymphoma
  • Burkitts lymphoma
  • Lymphoblastic lymphoma

81
ACUTE LEUKEMIA
  • Associated with radiographic abnormalities in the
    skeletal system in 70-90 of cases
  • Destructive bone lesions are extremely rare in
    the chronic leukemias

82
VASCULAR TUMORS
  • 1. HEMANGIOMA
  • Often seen in the vertebrae as an incidental
    post-mortem finding
  • The most common locations are the skull,
    vertebrae, and jaw
  • Cut section has a currant jelly appearnce
  • Microscopically, there is a thick-walled
    lattice-like pattern of endothelial lined
    cavernous spaces filled with blood
  • Multiple hemangiomas are mainly seen in children
    and are associated in about half of the cases
    with cutaneous, soft tissue, or visceral
    hemangiomas

83
VASCULAR TUMORS
  • 2. MASSIVE OSTEOLYSIS
  • Gorhams disease
  • Not a vascular neoplasm
  • Has microscopic similarities with skeletal
    angiomatosis
  • It has a destructive character
  • It results in reabsorption of a whole bone or
    several bones and the filling of the residual
    spaces by a heavy vascularized fibrous tissue

84
VASCULAR TUMORS
  • 3. LYMPHANGIOMAS
  • Most cases are multiple and associated with soft
    tissue tumors of similar appearance
  • 4. GLOMUS TUMOR
  • May erode the underlying bone
  • 5. HEMANGIOPERICYTOMA
  • Can present as a primary bone lesion, most common
    location is the pelvis

85
VASCULAR TUMORS
  • 6. EPITHELIOID HEMANGIOENDOTHELIOMA
  • A borderline type of vascular neoplasm
    characterized microscopically by the presence
    epithelial- or histiocyte-like endothelial cells
    with abundant acidophilic and often vacuolated
    cytoplasm, large vesicular nucleus, modest
    atypia, scanty mitotic activity, inconspicous or
    absent anastomosing channels, recent and old
    hemorrhage and an inconstant but sometimes
    prominent inflammatory component rich in
    eosinophils

86
VASCULAR TUMORS
  • 7. ANGIOSARCOMA
  • Malignant hemangioendothelioma,
    hemangioendothelial sarcoma
  • Exhibits obvious atypia of the tumor cells,
    formation of solid areas alternating with others
    with anastomosing vascular channels, and foci of
    necrosis and hemorrhage
  • Multicentricity is common
  • Distant metastasis are common, particularly lungs

87
VASCULAR TUMORS
CAVRNOUS HEMANGIOMA OF BONE
88
VASCULAR TUMORS
EPITHELIOID HEMANGIOENDOTHELIOMA
89
METASTATIC TUMORS
  • In most cases the lesions are multiple
  • More than 80 arises from the breast, lung,
    prostate, thyroid, or kidney
  • These metastases can be accompanied by visceral
    deposits or represent the only apparent site of
    dissemination
  • Soft tissue sarcomas rarely metastasize to the
    bones except embryonal rhabdomyosarcoma in
    children
  • They are usually osteolytic but maybe
    osteoblastic or mixed

90
Metastatic tumors
  • The mechanism is thought to be the production of
    bone growth factors by tumor cells, such as
    TGF-beta, fibroblast growth factor, and bone
    morphogenetic proteins
  • Symptoms is usually pain
  • Treatment is relief of pain and to prevent
    fracture of weight-bearing bones

91
TUMORLIKE LESIONS
  • 1. SOLITARY BONE CYST
  • Unicameral bone cyst
  • Usually occur in long bones, most often in the
    upper portion of the shaft of the humerus and
    femur
  • Also seen in the short bones, calcaneus
  • Mostly affects males and are seen in patients
    under 20 years
  • Usually are advanced when first seen, most are
    centered in the metaphysis and they migrate away
    from the epiphyseal line

92
TUMORLIKE LESIONS
  • SOLITARY BONE CYST.
  • The cysts contains a clear or yellow fluid that
    is lined by a smooth fibrous membrane
  • Maybe hemorrhagic if previous fracture occurred
  • Microscopic well-vascularized connective tissue,
    hemosiderin and cholesterol clefts are frequent
  • Treatment of choice is curettement and
    replacement of the cyst with bone chips

93
SOLITARY BONE CYST
X-RAY
GROSS APPEARANCE
94
TUMORLIKE LESIONS
  • 2. ANEURYSMAL BONE CYST
  • Usually seen in patients between 10 and 20 years
    of age
  • More common in females
  • Occurs mainly in the vertebrae and flat bones but
    can also arise in the shaft of long bones
  • Multiple involvement is common in the vertebral
    lesions
  • X-ray shows eccentric expansion of the bone with
    erosion and destruction of the cortex and a small
    area of periosteal new bone formation

95
TUMORLIKE LESIONS
  • ANEURYSMAL BONE CYST.
  • GROSS it forms a spongy hemorrhagic mass covered
    by a thin shell of reactive bone, which may
    extend into the soft tissue
  • Microscopic
  • show large spaces filled with blood
  • They do not contain endothelial lining but are
    rather delimited by cells with similar features
    to fibroblast, myofibroblasts, and histiocytes
  • A row of osteoclasts is often seen immediately
    beneath the surface
  • There is significant deposition of generated
    calcifying fibromyxoid tissue.

96
TUMORLIKE LESIONS
  • ANEURYSMAL BONE CYST.
  • Pathogenesis is still unknown
  • In a few cases, the lesion is preceded by trauma
    with fracture or subperiosteal hematoma
  • It may also arise in some preexisting bone lesion
    as a result of changed hemodynamics
  • Insulin-like growth factor-I may play in its
    pathogenesis
  • Ddx chondroblastoma, GCT, fibrous dysplasia,
    nonossifying fibroma, osteoblastoma,
    chondrosarcoma
  • Treatment en bloc resection or curettage with
    bone grafting

97
ANEURYSMAL BONE CYST
GROSS APPEARANCE
X-RAY
98
ANEURYSMAL BONE CYST
MICROSCOPIC APPEARANCE
99
TUMORS OF SKELETAL MUSCLES
  • RHABDOMYOSARCOMA
  • Most common soft tissue sarcoma of childhood and
    adolescence
  • Usually appears before the age of 20
  • Commonly occurs in the head and neck or
    genitourinary tract, extremities
  • Cytogenic abnormalities
  • t(213)(q35q14)
  • t(113)(q3614)

100
TUMORS OF SKELETAL MUSCLES
  • RHABDOMYOSARCOMA
  • In the more common translocation, t(213), the
    PAX3 gene on chromosome 2 fuses with the FKHR
    gene on chromosome 13
  • PAX3 gene functions upstream of genes that
    control muscle differentiation
  • Pathogenesis of tumor involves dysregulation of
    muscle differentiation by the chimeric PAX3-FKHR
    protein

101
TUMORS OF SKELETAL MUSCLES
  • RHABDOMYOSARCOMA MORPHOLOGY
  • EMBRYONAL
  • ALVEOLAR
  • PLEOMORPHIC
  • Diagnostic cell is the RHABDOMYOBLAST
  • contains eccentric eosinophilic granular
    cytoplasm rich in thick and thin filaments
  • may be round or elongated (tadpole or strap
    cells
  • Ultrastructurally, contain sarcomeres
  • Immunohistochemically, they stain with
    antibodies to the myogenic markers desmin,
    MYOD1 and myogenin

102
TUMORS OF SKELETAL MUSCLES
  • RHABDOMYOSARCOMA MORPHOLOGY
  • EMBRYONAL RHABDOMYOSARCOMA
  • Most common type, accounting to 60
  • Includes Sarcoma Botryoides
  • Occurs in children under 10 years of age
  • Typically arises in the nasal cavity, orbit,
    middle ear, prostate and paratesticular region
  • Allelic loss of chromosome 11p15.5 as its major
    genomic abnormality

103
TUMORS OF SKELETAL MUSCLES
  • RHABDOMYOSARCOMA MORPHOLOGY
  • EMBRYONAL RHABDOMYOSARCOMA
  • Grossly,they present as a soft gray infiltrative
    mass
  • Microscopically, the tumor cells mimic skeletal
    muscle cells at various stages of embryogenesis
    and consist of sheets of both malignant round and
    spindled cells in a variably myxoid stroma
  • Sarcoma botryoides grows in a polypoid fashion,
    producing the appearance of a cluster of grapes
    protruding into a hollow structure such as the
    bladder or vagina

104
TUMORS OF SKELETAL MUSCLES
  • RHABDOMYOSARCOMA MORPHOLOGY
  • ALVEOLAR RHABDOMYOSARCOMA
  • Most common in the early and mid-adolescence and
    usually arises in the deep musculature of the
    extremities
  • Histologically, the tumor is traversed by a
    network of fibrous septae that divide the cells
    into clusters or aggregates as the central cells
    degenerate and drop out, resembles pulmonary
    alveolae
  • Tumor cells are moderate in size and have little
    cytoplasm

105
TUMORS OF SKELETAL MUSCLES
  • RHABDOMYOSARCOMA MORPHOLOGY
  • ALVEOLAR RHABDOMYOSARCOMA
  • Cells with cross-striations are identified in
    about 25 of cases
  • Cytogenetic studies show a t(213) or t(113)
    chromosomal translocations

106
TUMORS OF SKELETAL MUSCLES
  • RHABDOMYOSARCOMA MORPHOLOGY
  • PLEOMORPHIC RHABDOMYOSARCOMA
  • Characterized by numerous large, sometimes
    multinucleated, bizarre eosinophilic tumor cells
  • This variant is rare
  • Arises in the deep soft tissue of adults
  • Resemble malignant fibrous histiocytoma
    histologically

107
TUMORS OF SKELETAL MUSCLES
  • RHABDOMYOSARCOMA
  • Usually treated with a combination of surgey and
    chemotherapy with or without radiation
  • Histologic variant and location of the tumor
    influence survival
  • Sarcoma botryoides have the best prognosis,
    followed by embryonal, pleomorphic, and alveolar
    variants
  • Overall prognosis for children is good 65
    less for adults

108
TUMORS OF SMOOTH MUSCLE
  • LEIOMYOMA
  • Benign smooth muscle tumor, commonly arises in
    the uterus
  • May also arise in the erector pili muscles found
    in the skin, nipples, scrotum and labia and less
    in the deep soft tissues
  • Multiple lesions is thought to be hereditary and
    transmitted as an autosomal dominant trait
  • Occur in adolescence and early adult life

109
TUMORS OF SMOOTH MUSCLE
  • LEIOMYOMA
  • Tumors are usually not larger than 1 to 2 cm in
    greatest dimension
  • Composed of fascicles of spindle cells that tend
    to intersect each other at right angles
  • Tumor cells have blunt-ended, elongated nuclei
    and show minimal atypia and few mitotic figures
  • Treatment is surgical

110
TUMORS OF SMOOTH MUSCLE
  • LEIOMYOSARCOMA
  • Account for 10 to 20 of soft tissue sarcomas
  • Occurs in adults, womengtmen
  • Most develop in the skin and deep soft tissues of
    the extremities and retroperitoneum
  • Present as painful, firm masses
  • Retroperitoneal tumors may be large and bulky and
    cause abdominal symptoms

111
TUMORS OF SMOOTH MUSCLE
  • LEIOMYOSARCOMA
  • Histologically, characterized by malignant
    spindle cells that have cigar-shaped nuclei
    arranged in interweaving fascicles
  • Immunologically, they stain with antibodies to
    vimentin, actin, smooth muscle actin and desmin
  • Treatment depends on the size, location and grade
    of the tumor

112
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