Bone scan
12,166 views
23 slides
Apr 06, 2016
Slide 1 of 23
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
About This Presentation
presentation about bone scintigraphy or bone scan study on nuclear medicine field done by students of nuclear medicine course in deparment of radiological techniques, Qassim univeristy
Slide Content
Definition
•A bone scan is a test that detects areas of
increased or decreased bone activity by
injecting a certain radiopharmaceutical i.e.
Tc-99m MDP. This may indicate bone
injury or disease.
•A bone scan is a test that detects areas of
increased or decreased bone activity by
injecting a certain radiopharmaceutical i.e.
Tc-99m MDP. This may indicate bone
injury or disease.
SenSitivity anD
Specificity
•Bone scan is very sensitive study but it is not
specific.
•Although findings on bone scan are non-specific,
its monostotic or polyostotic status and
anatomical distribution can provide important
clues to the differential diagnosis.
Specificity
•Bone scan is very sensitive study but it is not
specific.
•Although findings on bone scan are non-specific,
its monostotic or polyostotic status and
anatomical distribution can provide important
clues to the differential diagnosis.
aDvantageS vS DiSaDvantageS
Advantages Disadvantages
Needs radiopharmaceuticals
& gamma camera not widely
available.
Low specificity.
Cost is high.
Whole-body evaluation in one
test/ same rad exposure.
Low radiation exposure.
Sensitive evaluation
Advantages Disadvantages
Needs radiopharmaceuticals
& gamma camera not widely
available.
Low specificity.
Cost is high.
Whole-body evaluation in one
test/ same rad exposure.
Low radiation exposure.
Sensitive evaluation
anatomy
RadiophaRmaceuticals
Bone-seeking agents are analogs of calcium,
phosphates.
Tc-99m Methylene diphosphonate
(Tc-99m MDP)
Tc-99m MDP
The most widely used
Radiopharmaceuticals is
Tc-99m labeled
diphosphonates
Bone-seeking agents are analogs of calcium,
phosphates.
Tc-99m Methylene diphosphonate
(Tc-99m MDP)
Tc-99m MDP
The most widely used
Radiopharmaceuticals is
Tc-99m labeled
diphosphonates
tc-99m mdp
•Used within 4 hrs after preparation.
•High target/bcg ratio within 2-3 hrs. with
•Rapid renal clearance
•Renal Impairment: increased soft tissue
activity, poor image quality, delayed excretion,
higher radiation exposure due to retained high
activity
•Used within 4 hrs after preparation.
•High target/bcg ratio within 2-3 hrs. with
•Rapid renal clearance
•Renal Impairment: increased soft tissue
activity, poor image quality, delayed excretion,
higher radiation exposure due to retained high
activity
technique
•Preparation: None
•Injection of Tc-99m 20-25
mCi IV, (250 uCi/Kg) for
children, good hydration
afterwards & frequent
voiding
•Wait for about 2-3 hrs to
start imaging, avoid
contamination
•Empty bladder prior to
scanning
•Change the cloth and remove
things likely cause artifact.
•Preparation: None
•Injection of Tc-99m 20-25
mCi IV, (250 uCi/Kg) for
children, good hydration
afterwards & frequent
voiding
•Wait for about 2-3 hrs to
start imaging, avoid
contamination
•Empty bladder prior to
scanning
•Change the cloth and remove
things likely cause artifact.
pooR image quality
•Renal impairment
•Decreased cardiac output
•Dehydration
•Extravasation of the radiopharamceutical
•Aging.
•Underdosage of the radiopharmacetical.
•Obesity.
•Renal impairment
•Decreased cardiac output
•Dehydration
•Extravasation of the radiopharamceutical
•Aging.
•Underdosage of the radiopharmacetical.
•Obesity.
imaging acquisition
Routine Bone scan imaging
•Whole-body planar
imaging in anterior and
posterior projection.
•Additional static images if
required eg. Oblique or
additional spot
views(squat view)
•Whole-body planar
imaging in anterior and
posterior projection.
•Additional static images if
required eg. Oblique or
additional spot
views(squat view)
•This is the bony phase of bone scan.
•Inject radiopharmaceutical and image in 2-
4 hours.
•When we say bone scan, we usually mean
whole body bone scan.
•Inject radiopharmaceutical and image in 2-
4 hours.
•When we say bone scan, we usually mean
whole body bone scan.
3-phase bone scan imaging
•Phase 1; Vascular phase: 60 s
dynamic immediately post
injection
•Phase 2; Soft-tissue (blood-
pool) phase: 5 min post
injection.
•Phase 3; Delayed (bone)
phase: 2-3 hr post injection.
Soft-tissue
delayed 2-3hr
Vascular phase
•Phase 1; Vascular phase: 60 s
dynamic immediately post
injection
•Phase 2; Soft-tissue (blood-
pool) phase: 5 min post
injection.
•Phase 3; Delayed (bone)
phase: 2-3 hr post injection.
Soft-tissue
delayed 2-3hr
Vascular phase
First phase
•30-60 dynamic images are usually obtained
over 1 minute immediately after injection.
•This is radionuclide angiography and gives an
idea about the local vasculature. During the
first minute after injection, injected dose is
still intravascular.
•30-60 dynamic images are usually obtained
over 1 minute immediately after injection.
•This is radionuclide angiography and gives an
idea about the local vasculature. During the
first minute after injection, injected dose is
still intravascular.
second phase
•Static image is obtained in 5 minutes after
dose injection.
•Within 5 minutes post injection,
radiopharmaceutical moves from
intravascular space to extravascular space
(soft tissue). It gives idea about soft tissue
edema.
•Static image is obtained in 5 minutes after
dose injection.
•Within 5 minutes post injection,
radiopharmaceutical moves from
intravascular space to extravascular space
(soft tissue). It gives idea about soft tissue
edema.
blood pool
Hyperemia
•If there is focal increased activity in
the first and second phases,
hyperemia or acute inflammatory
process is present.
•If there is focal increased activity in
the first and second phases,
hyperemia or acute inflammatory
process is present.
THird pHase
•It is the bony phase image obtained in
2-4 hours post injection.
•It is the same as whole body bone
scan.
•It is the bony phase image obtained in
2-4 hours post injection.
•It is the same as whole body bone
scan.
indicaTions
Neoplastic disease: Primary bone tumors & Bone metastasis
– Staging for malignancies that have high incidence of bone
metastasis eg. cancers of prostate, breast, lung,
neuroblastoma.
– Unexplained bone pain in a patient with known malignancy (neg X-ray)
– Unexplained bone pain in a patient with no history of
malignancy.
Trauma: Fracture/ Stress injuries (eg, stress fracture, shin splints).
Infection:(osteomyelitis)
Avascular necrosis
Arthritis:Degenerative changes
Metabolic & Endocrine disorders: (eg, Paget’s Disease,
Hyperparathyroidism)
Bone marrow diseases: Sickle cell disease
Neoplastic disease: Primary bone tumors & Bone metastasis
– Staging for malignancies that have high incidence of bone
metastasis eg. cancers of prostate, breast, lung,
neuroblastoma.
– Unexplained bone pain in a patient with known malignancy (neg X-ray)
– Unexplained bone pain in a patient with no history of
malignancy.
Trauma: Fracture/ Stress injuries (eg, stress fracture, shin splints).
Infection:(osteomyelitis)
Avascular necrosis
Arthritis:Degenerative changes
Metabolic & Endocrine disorders: (eg, Paget’s Disease,
Hyperparathyroidism)
Bone marrow diseases: Sickle cell disease
clinical applicaTions
•Malignancy
1- Primary bone cancer
2- Secondary metastatic bone disease
•Osteomyelitis
•Stress fractures
•Malignancy
1- Primary bone cancer
2- Secondary metastatic bone disease
•Osteomyelitis
•Stress fractures
THANK YOU
Download
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 12,166
- Slides 23
- Favorites 63
- Age 3527 days
Related Slideshows
36
Clinical approach Dyspnoea A simple and practical approach.pptx
ShajahanPS
23 views
238
Cancer Awareness therapy for public by Dr Kanhu Charan Patro
kanhucpatro
23 views
41
Prof Satyadas Memorial oration Kozhikode.pptx
ShajahanPS
18 views
26
Viral Conjunctivitis and it;s managment.pptx
ZaidAzhar
33 views
30
Essential Thrombocythemia 15 Years of Experience at the Hematology Department, Algies, Algeria.pdf
sbelakehal
29 views
10
Hypertension sign symptoms cmdt style with regime
androiddabest
30 views