Radionuclide imaging in bone, inflammation and oncology 吳佩珊醫師
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Transcript of Radionuclide imaging in bone, inflammation and oncology 吳佩珊醫師
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Bone Scintigraphy
Department of Nuclear Medicine
Dr. Pei-Shan Wu
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Radiopharmaceuticals
Sr-85: high radiation absorbed dose, poor imaging characteristics, and delayed imaging time (5~7 days)
Sr-87m: Low target-to-background ratios Fluorine 18: positron emission Tc-99m MDP: 140 KeV, 6-hour half-life
distributed rapidly throughout the extracellular fluid space
rapid uptake in bone clearance from the body via the kidneys the skeleton-to-background tissue ratio improves
with time
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Technique
1. Patient preparation and follow-up be well hydrated void immediately before study remove metal objects
2. Dosage and route of administration 20 mCi (740MBq) Tc-99m MDP intravenous injection adjust dosage for pediatric patients, minimum 2 mCi
3. Time of imaging 2~4 hr after tracer administration
4. Images: three-phase, whole body, SPECT
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Normal bone scan
1. Areas with normally increased activity include: acromioclavicular joints, sternoclavicular joints, scapular tips, costochondral junctions, sacroiliac joints, lower neck, sternum, renal pelves and bladder
2. Pediatric patients: growth centers and cranial sutures3. Pitfalls
- Patient rotation- Urine retained in calyx may overlie lower rib- Urine contamination- Belt buckles, earrings, necklaces, and the like frequently create
cold defects- Recent dental procedures- Radiopharmaceutical problems: breakdown of tag leading to fr
ee pertechnetate causes activity in thyroid and GI tract
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Abnormal bone scans
A. Metastatic disease Tumors most likely to metastasize to bone include: bre
ast, lung, prostate, lymphoma, thyroid, renal and neuroblastoma
Tumors in which falsely normal bone scan can be expected include: multiple myeloma, some anaplastic tumors, and pure lytic lesions
Location of metastases: axial skeleton – 80%, skull – 10%, long bones – 10%
Super scan: diffuse symmetrical increased uptake_ tumors frequently causing super scan: prostate, breast, lung bl
adder and lymphoma_ nontumor causes of super scan: hyperparathyroidism, osteom
alacia, Paget’s disease, and fibrous dysplasia
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Abnormal bone scans
B. Primary malignant bone tumors Osteogenic sarcoma, chondrosarcoma,
Ewing’s sarcoma
C. Benign primary tumors Osteoid osteoma, bone islands, bone cy
sts, fibrous cortical defects, and others
D. Osteomyelitis and septic arthritis
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Abnormal bone scans
E. Fracture
1. Traumatic fracture positive within 24 hours 2/3 return to normal by 1 year child abuse :
_will not detect old, healed fx
_difficult to evaluate around metaphyseal/epiphyseal region
_may miss some skull fractures
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Abnormal bone scans
2. Stress fractures Fatigue fracture: caused by repeated abnormal stress
on normal bone_fusiform, longitudinal shape, most often involving posterior tibial
cortex_focal, less than 1/5 length of tibia_common located in junction of middle and distal third of tibia
Insufficiency fracture: resulting from normal stress on abnormal bone_seen in such diseases as: osteoporosis, osteomalacia, paget’s
disease, fibrous dysplasia, and status postirradiation
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Abnormal bone scans
F. Metabolic bone disease1. Osteoporosis: normal or decreased uptake2. Osteomalacia:
_vitamin D deficiency _results in failure of bone matrix to calcify_generalized increased skeletal uptake
3. Paget’s disease_increased uptake in bone scan_distribution of lesions: pelvis (70~80%), lumbar-thora
cic vertebrae, femur, skull, scapula, tibia, and humerus
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Abnormal bone scans
4. Hyperparathyroidism a. Primary: caused by hyperplasia or tumor of parathyroi
ds 50~80% normal bone scan abnormal uptake at: calvarium, mandible, acromioclavic
ular joint, sternum, lateral humeral epicondyles and hands
soft-tissue calcification in: lungs, stomach, kidneys, heart and periarticular
b. Secondary: associated with chronic renal failure usually have abnormal bone scan super scan focal abnormalities
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Abnormal bone scans
G. Avascular necrosis result of: fracture, metabolic disorder, fat embolizati
on, steroids, hemolytic anemia, and vasculitis plain film is normal in early stage (6 months) bone scan: normal for first 48 hr decreased activi
ty increased activity develop degenerative joint disease (increased uptake in the acetabulum)
Legg-Calve-Perthes disease: afftects boys aged 4~8 years
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Abnormal bone scans
H. Heterotopic ossification
_associated with paraplegia and quadriplegia
_increased activity in soft tissue
I. Arthritides
1. Degenerative joint disease - most common locations: hands, feet, hips, knees, SI joints and shoulders
2. Rheumatoid arthritis - symmetrical increased uptake: hands feet, knees and cervical spine
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Radionuclide inflammation scan and tumor scan
Department of Nuclear Medicine
Dr. Pei-Shan Wu
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Application of Radionuclide Imaging in Infection
Radionuclide imaging for detection of infection –Ga-67 scan
–Tc-99m (V) DMSA scan
–Tc-99m HMPAO labeled WBC scan
–Tc-99m labeled IgG scan
Utility in specific diseases –Osteomyelitis
–Painful prosthesis
–AIDS
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Gallium-67
Cyclotron produced Half-life: 78 hrsBiological behavior: similar to ferric ion Binding to iron-binding molecules, includi
ng transferrin, lactoferrin, ferritin, siderophores
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Gallium-67 scan: Mechanism
Not thoroughly understood Ga-67 citrate binds to transferrin in the blood
=> transported to site of inflammation/infection Localization depends on a number of factors
–Adequate blood supply –Increased vascular permeability –Leaking into areas inflammation/infection
Ga-67 can be used in leukopenic, immunocompromised patients
Within 12-24 hours: Ga-67 firmly bound within lesion
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Ga-67 scan: Technique
Dose: –Inflammation: 3-5 mCi –Tumor: 5-10 mCi
Imaging time: –48-72 hr to 1 week –Inflammation: 24 hr; Earlier images: high background: false-ne
gative Imaging parameters:
–Energy: 93, 185, 296 keV peaks –Total body scan, focal view, SEPCT –Medium energy collimator –Bowel activity: bowel preparation
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Ga-67 scan: Normal distribution
Liver: greatest Ga-67 uptake Other: Spleen, nasopharynx, lacrimal and saliv
ary glands, bone marrow, scrotum, testes First 24 hours: kidneys, bladder
- 48-72 hours: kidneys: only faintly visualized After 24 hours, biological clearance through bo
wel Breast uptake: variable, woman’s hormonal cy
cle Thymus: children
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Ga-67 scan: image interpretation
Abnormal uptake:≥ liver or spleen abscess= liver clinical important inflammation< bone marrow low-level inflammation
No difference in sensitivity fro acute or chronic infection
Less sensitivity in tuberculosis, fungal infection
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Ga-67 scan: Advantages
Whole body survey Sensitive for detection of all inflammatory
process whether or not they are discretely defined anatomically
For detecting source of sepsis Leukopenic, immunocompromised patien
tsTumor detection
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Ga-67 scan: Disadvantages
Time delay between injection and imaging Poor spatial definition of anatomically discr
ete lesionsPotential misinterpretation as a result of gall
ium uptake in adjacent organ (e.g. liver) Bowel activity Infection vs tumor
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Tc-99m (V) DMSA scan
A tumor scan: e.g. medullary carcinoma of thyroid, soft tissue tumor
Mechanism: –unknown
–hypothesis: resemble phosphate ion distribution
Biodistribution: Cardiovascular system, kidneys Technique
–20 mCi Tc-99m (V) DMSA iv injection
–Imaging: 4 hr post-injection
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Tc-99m (V) DMSA scan: Advantages
Good availability High resolution Low price Low radiation dose Preparation technique: Easy Imaging: 4 hr post-injection
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Tc-99m (V) DMSA scan: Disadvantages
GU tract infection Infection vs tumor Chronic infection Further study
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Scintigraphic diagnosis of osteomyelitis
ESR: Sensitive, but nonspecific Blood culture: 40% negative X-ray
–First imaging study –Not detectable until 10-21 days after onset of symptoms
Scintigraphic methods –Three-phase bone scan –Ga-67 scan –Tc-99m (V) DMSA scan –WBC scan –IgG scan
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Three-phase bone scan: Osteomyelitis
Blood flow study: Imaging at 3-5 sec intervals throughout the 1st-2nd minutes after radiotracer administration
Blood pooling study: Obtain 5-20 min after injection Delayed scan: 2-4 hr post-injection DD osteomyelitis and cellulitis Cellulitis: diffuse hyperemia, delayed: negative Osteomyelitis: focal hyperemia, delayed: positive Positive:
–24-48 hr after onset of symptoms –Remain positive for months after resolution
Sensitivity: 90-100%, specificity: 75-90%
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Ga-67 scan: Osteomyelitis
Positive: within 24-48 hr of symptomatic onset Return to baseline quickly following successful
treatment Sensitivity: 80-90%, specificity: 70% Sequential bone and gallium scans
Positive: Ga-67 uptake is incongruent with the bone scan
Negative: low-trade uptake Equivocal: intense congruent uptake
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Neonatal osteomyelitis
Diffuse nature, propensity for complications, paucity of associated signs => whole body image
Three-phase bone scan: –22-68% falsely normal or cold defects –Resolution –Cold lesion: subperiosteal abscess
Bone scan: negative, clinically suspected => Ga-67 scan
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Scintigraphic diagnosis of painful prosthesis
Three-phase bone scan –Focally increased uptake: loosening –Diffuse, uniformly distribution: infection –Not very specific
Ga-67 scan –Differential between pure mechanical loosening and i
nfection Sequential bone-gallium imaging
–Incongruent image: Ga uptake exceed Tc-99m MDP bone radiotracer uptake (spatial, intensity of uptake)
–sensitivity: 70%, specificity: 90%, Accuracy: 80%
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Infection in immunosuppressed patients
Diffuse pulmonary uptakePCP
CXR: bilateral diffuse infiltrate from hilum to peripheral
Ga-67: diffuse bilateral pulmonary uptake without nodal or parotid uptake (often before CXR)
Severe in CXR but decreased uptake in Ga-67 deficient immune response poor prognosis
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Infection in immunosuppressed patients
CMVLow-grade diffuse lung uptake, perihilarMaybe with ocular(retinitis), adrenal, renal uptak
e, persistent colon uptake(diarrhea)Lymphoid interstitial pneumonia
Low-grade diffuse lung uptake, without nodal uptake, and symmetrically increased parotid uptake
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Infection in immunosuppressed patients
Focal pulmonary uptake Bacterial pneumonia: a lobar like, without nodal and
parotid uptake Actinomyces, Nocardia and Aspergillus: multiple sit
es of focal accumulation, frequently with local bone invasion
Nodal uptake Mycobacterium avium-intracellulare (MAI), tubercul
osis, cryptococcal, HSV infection and lymphadenitis, lymphoma
MAI: 25~50% of AIDS, patchy lung uptake with hilar and nonhilar nodal uptake
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AIDS: Radionuclide Studies
Ga-67 scan: –Infection, Tumor (lymphoma)
Thallium-201 scan: –tumor (Kaposi’s sarcoma, lymphoma)
Tc-99m HMPAO brain SPECT: –Dementia
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AIDS: Ga-67 scan and Tl-201 scan
Kaposi’s sarcoma: –Ga-67: (-), Tl-201: (+)
Infection: –Ga-67: (+), Tl-201: (-)
Lymphoma: –Ga-67: (+), Tl-201: (+)
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Overview of Tumor Scintigraphy
Organ-specific tumor imaging radionuclides –Cold spot: Thyroid scan,
Liver scan –Hot spot: Bone scan, con
ventional brain scan
Non-specific tumor imaging radionuclides –Ga-67 –Tl-201 –Tc-99m sestamibi –Tc-99m (V) DMSA –PET (F-18 FDG)
Tumor-type specific radionuclides –Thyroid cancer: I-131
–Adrenal tumors: I-131 MIBG or NP-59
–Hepatocyte origin tumors: Tc-99m DISIDA
–Hemangioma: Tc-99m RBC
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Ga-67 scan
Mechanism of tumor localizationAdequate blood supplyVascular premeabilitySpecific tumor-associated transferrin recept
orTumor metabolism
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Ga-67 scan – image interpretation
Salivary gland uptake is noted after C/T or R/T Faint symmetrical hilar uptake may be seen no
rmally and is common after C/T Faint or absent liver uptake:
Extensive tumor metastases Hepatic failure C/T (vincristine) given within 24 hrs of Ga-67 injecte
d Iron overload
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Ga-67 scan – tumor detectability
Histology: high gradeLesion sizeLocation: superficial > deepTumor detection: lymphoma, HCC, soft
tissue sarcoma, melanoma, lung cancer, head and neck tumors
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Tl-201 Chloride tumor scan
Thallium-201: a potassium analogFactors determining tumor cell uptake:
Blood flowTumor viabilityTumor typeSodium-potassium ATPase systemCotransport systemCalcium ion channel system
Clearance by kidney, half-life: 73 hrs
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Tl-201 Chloride tumor scan - Clinical application
Brain tumor Correlated with gliomas grade Post-op or post-R/T recurrent Therapeutic effectiveness In AIDS p’t: D.D. lymphoma and toxoplasmosis
Bone and soft tissue tumor Correlation between Tl-201 uptake and response to
C/T Lack of Tl-201 uptake tumor necrosis
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Tl-201 Chloride tumor scan - Clinical application
Thyroid cancerAdvantage
Continue thyroid hormoneLocalized thyroid ca (when I-131 negative, but T
G elevated)Disadvantage
Not specificNot predict the potential therapeutic effectivenes
s
Kaposi’s sarcoma: Ga(-), Tl(+)
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Tc-99m sestamibi
A lipophilic cationic complexFactors determining tumor cell uptake:
Blood flow Tumor viabilityTumor typeLipophilic cationLarge negative transmembrane potential
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Tc-99m sestamibi
Localized in liver, kidney, heart and skeletal muscle
Difficult imaging:Sub-diaphragmatic tumor liver uptake an
d urinary clearanceBrain tumor choroid plexus uptake
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Tc-99m sestamibi - Clinical application
Breast cancer Sensitivity 85%, specificity 81% Higher in palpable, lower for lesion < 1cm Fibroadenoma is commonest false positive Diffuse uptake is nonspecific and usually not malign
ancy Useful in
Non-diagnostic mammogram Dense breast or anatomical changed Fibrocystic disease
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F-18 FDG tumor imaging
F-18 FDG: F-18 FDG enters the metabolic cycle like glucose, b
ut it is trapped in the tissue in the form of F-18 FDG-6-phosphate without further metabolism
Increased glycolysis associated with malignancy Excreted by kidney
Clinical: lung cancer, colorectal cancer, lymphoma, breast cancer etc.
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Lymphoscintigraphy
Clinical applications of lymphoscintigraphy Distinguish lymphatic from venous edema, myxede
ma, lipedema, or other etiology Assess pathways of lymphatic drainage Identify sentinel nodes in patients with melanoma, b
reast, or genitourinary cancer Identify patients at high risk for development of lym
phedema after axillary lymph node dissection Quantify lymphatic flow
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Lymphoscintigraphy
MethodologyRadiotracers : colloidal gold(198Au), Tc-99
m labeled tracers (antimony sulfide colloid, sulfur colloid, albumin colloid, HSA)
Tracer: injected into the tumor or surrounding tissue to identify the nodes receiving the lymphatic drainage of that tumor: subcutaneous, Intradermal, and Subfascial Injection
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Sentinel lymph node detection and imaging
Lymphatic effluent of a tumor drains initially to one or two lymph nodes before other nodes receive the tumoral drainage
Sentinel node develops lymphatic metastases before other nodes
Careful examination of the sentinel node can be a more accurate predictor of regional nodal metastases than examination of adjacent nodes even if they are located in the same drainage basin as the sentinel node
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Sentinel lymph node detection and imaging
If the sentinel node is negative for tumor, then other nodes are not likely to contain metastases, and the patient can be spared the unnecessary morbidity and expense of a more extensive node dissection
To localize the proximal or initial portion of the lymphatic chain, efferent from the tumor, for subsequent surgical excision and histologic diagnosis