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THE SKELETAL SYSTEM MUDr.Kateřina Táborská

THE SKELETAL SYSTEM MUDr.Kateřina Táborská. Bone scintigraphy Bone physiology and skeletal anatomy balance osteogenesis bone resorption osteoblasts osteoclasts The response of bone to injury or disease ↓ reactive bone formation. Radiopharmaceuticals:

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THE SKELETAL SYSTEM MUDr.Kateřina Táborská

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  1. THE SKELETAL SYSTEM MUDr.Kateřina Táborská

  2. Bone scintigraphy Bone physiology and skeletal anatomy balance osteogenesis bone resorption osteoblasts osteoclasts The response of bone to injury or disease ↓ reactive bone formation

  3. Radiopharmaceuticals: • 99mTc – diphosphonates ( MDP –methylene diphosphonate) • Concentration predominantly in the mineral phase of bone (crystalline hydroxyapatite and amorphous calcium phosphate) • iv. • distributed via blood flow throughout the body • passively diffused into the extravascular and extracelular spaces • binding to the hydration shell around the bone crystal • unbound radiotracer clears from the plasma via urinary excretion

  4. Uptake of RF depends on: 1. blood flow flow must be present for delivery increased blood flow increased deposition 2. metabolic bone activity bony turnover osteoblastic lesions growth centers

  5. Patient preparation: good hydration to urinate immediately prior imaging Contraindiaction: pregnancy

  6. Two types of bone scans: Standart bone scan: iv., imaging of the entire skeleton, 2-5 h Three-phase bone scan: 1. Phase – angiographic rapid sequence flow imagesof the area of interest(60 x 1 sec.) 2. Phase (blood pool, soft tissue uptake) ten minut delayed static images 3. Phase (bone) delayed images of the region in question, 2-5 h

  7. 3F bone scan

  8. whole body bone scintigraphy

  9. Bone SPECT

  10. Bone SPECT – improved sensitivity greater anatomic details I. 3D rekonstrukce II. tomographic slices transaxiální 3D rekonstrukce sagitální koronální

  11. Static images

  12. Static images with pinhole collimator ANT pinhole

  13. Normal scan: axial and appendicular skeleton Symetry, the bones with minimal soft-tissue activity Both kidneys with mild activity, urinary bladder

  14. Normal scan: children increased uptake in growth centers margins of growth plate clearly demarcated

  15. Abnormal scan Areas : increased uptake95 - 98% (fracture, osteomyelitis, neoplasia, arthritis) decreased uptake (lytic lesions, early necrosis)

  16. Abnormal scan superscan Diffuse symetrical increased uptake Lack of kidney activity

  17. Soft tissue or extra-osseous uptake inflammation, calcification, muscle or tumor necrosis, myositis neuroblastoma rhabdomyolysis

  18. excretion via genitourinary tract hydronephrosis hydroureter nefrocalcinosis

  19. INDICATIONS • metastatic disease • primary malignant bone tumors • benign primary tumors • osteomyelitis • fracture • avascular necrosis • metabolic bone disease

  20. METASTATIC DISEASE Tumors most likely to metastasize to bone: breast prostate lung lymphoma thyroid renal neuroblastoma

  21. METASTATIC DISEASE more sensitive than plain RTG, 30-50% of bone mineral must be lost before a lesion can be detected surveying of the entire skeleton

  22. Approximately 90% of metastases are multiple initial staging follow up diffuse bone pain laboratory findings (PSA) Prostate cancer

  23. METASTATIC DISEASE flare fenomen 3-6 mo after chemotherapy, hormonal therapy increased uptake in known lesions and even new foci may be seen because of a healing response serial scanning

  24. PRIMARY MALIGNANT BONE TUMORS Osteosarcoma Ewing‘s sarcoma 3F bone scan WB - skip lesions and metastatic foci

  25. Osteosarcoma 19-year old man with pain of right knee, the initial staging

  26. Ewing‘s sarcoma 17-year old man with pain of left knee, the initial staging

  27. Osteosarcoma of left tibia Persistent increased uptake at the treatment site 6-12 mo after therapy, compared with a postherapy baseline, is considered suspicious for local recurrence 21-year old man after chemotherapy and amputation

  28. BENIGN PRIMARY TUMORS usually normal uptake bone cysts bone islands fibrous cortical defects osteiod osteoma negative scan virtually rules out 16-years old girl with aching pain, worse at night, relieved with aspirin and exercise at right

  29. OSTEOMYELITIS 3-phase bone scintigraphy flow – increased blood pool – increased delayed – increased dif.dg. cellulitis – increased only flow and blood pool high sensitive on unaffected bones positive during 24-48 h X-rays normal for first 10-14 days

  30. 1.phase 2.phase 3.phase Osteomyelitis (left calcaneous) 1.phase (curve from the region of interest - ROI)

  31. multifocal osteomyelitis 13-year old girl with OM of left clavicule

  32. 1.phase 2.phase 3.phase Myofasciitis of left thigh 1.phase 6-year old boy with pain of left thigh

  33. FRACTURE TRAUMATIC will become positive within 24 h 90% normal by 2 years tu pick up old fractures such as in spine child abuse STRESS a) fatigue – caused by repeated abnormal stress on normal bone - runners b) insufficiency – resulting from normal stress on abnormal bone (osteoporosis, postirradiation)

  34. polytrauma 27-year old woman after car crash

  35. Fracture of Th 8 13-year old boy after fall from tree

  36. Stress fracture of left tibia pinhole collimator ANT anterior lateral 17-year old girl with painful left leg after training for an athletic event

  37. AVASCULAR NECROSIS Adults – as a result of fracture, metabolic disorder, steroids, hemolytic anemias, vasculitis Children: Legg-Calve- Perthes disease early: decreased activity followed by increasing activity if subsequent revascularisation and healing occur

  38. Morbus Perthes l. sin. normal early phase 5-year old boy with hip pain

  39. METABOLIC BONE DISEASE OSTEOPOROSIS OSTEOMALACIA HYPERPARATHYROIDISM (primary, secondary) superscan or complication: pseudofracture,compresive fracture PAGET‘S DISEASE increased resorption of bone accompanied by increase in bone formation newly formed bone is abnormally soft increased uptake due to significant increase in blood flow

  40. PAGET‘S DISEASE

  41. ADVANTAGES high sensitivity early changes ability to survey the entire skeleton without added radiation (5 mSv)

  42. DISADVANTAGES lack of specificity A specific diagnosis often can be made when the bone scan is correlated with other imaging (plain films, CT)

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