nuclearmedicineflash Flashcards
Gallium-67 dose? Gamma energies? Half-life? Time to imaging?
5 mCi (inflam). 10 mCi (tumor). 93, 184, 296, 388 keV. 78 hrs. 6, 24 (inflam). 48-72 (tumor).
Gallium-67 mechanism of uptake?
Fe analog via transferrin.
Gallium-67 Normal distribution?
Liver > spleen, marrow, bone. Variable: breast, bowel, salivary glands, lacrimal glands.
I-131 dose? Gamma energies? Half-life? Time to imaging?
2 mCi. 364 keV. half-life 8 days. 48 hrs.
I-131 mechanism of uptake?
Iodine. Thyroid uptake,TSH-mediated
I-131 Normal distribution?
Stomach, GI, bladder. Variable: salivary, nasopharynx,
I-131 MIBG dose? Gamma energies? Half-life? Time to imaging?
2 mCi. 364 keV. 8 days. 48 hrs.
I-131 MIBG mechanism of uptake?
Guanethidine analog. Norepinephrine reuptake.
I-131 MIBG normal distribution?
Liver > spleen. Variable: salivary, lung, GI, bladder, skeletal muscle, heart.
I-123 MIBG dose? Gamma energies? Half-life? Time to imaging?
1-10 mCi. 159 keV. 13 hrs. 24 hrs.
I-123 MIBG normal distribution?
Liver > spleen. Variable: salivary, lung, GI, bladder, skeletal muscle, heart.
In-111 octreoscan dose? Gamma energies? Half-life? Time to imaging?
6 mCi. 172, 247 keV. 67 hrs. 4, 24 hrs.
Octreoscan mechanism of uptake?
Somatostatin analog. Neuroendocrine tumors.
In-111 octreoscan normal distribution?
Intense renal cortex. Spleen, liver, pituitary, salivary, GI, bladder. Variable: breast, thyroid.
FDG-PET dose? Gamma energies? Half-life? Time to imaging?
10-15 mCi. 511 keV. 2 hrs. 1 hr.
FDG-PET mechanism of uptake?
Glucose analog. Active transport into cell. Phosphorylated and trapped.
FDG-Pet normal distribution
Intense urinary activity and cerebral cortex. GU, liver, spleen, marrow. Variable: thyroid, cardiac, GI, muscle.
In-111 WBC dose? Gamma energies? Half-life? Time to imaging?
0.5 mCi. 172, 247 keV. 67 hrs. 24 hrs.
In-111 WBC mechanism of uptake?
WBC localized at infection.
In-111 WBC normal distribution?
Spleen»_space; Liver > marrow. No renal or GI activity.
Tc-99 WBC dose? Gamma energies? Half-life? Time to imaging?
20 mCi. 140 keV. 6 hrs. 1-4, 24 hrs.
Intense cardiac activity radiotracer?
MIBG. PET.
Intense spleen activity radiotracer?
WBC.
Intense renal activity radiotracer?
Octreotide.
Lacrimal activity?
Gallium-67.
For about __ months after hip replacement surgery, the bone around the prosthesis is expected to have increased osteoblastic activity.
6 months.
Refers to a hot spot at the tip of a prosthesis and two areas of increased uptake at the proximal end.
Toggle sign. Prosthetic loosening.
Three phases of bone scan osteomyelitis?
First phase: Early arterial flow, seconds after injection. Second phase: Blood pool, few minutes after injection.Third phase: Bone labeling, 3 or more hours after injection. All three positive in infection.
Contraindications to perfusion lung scanning include
Severe pulmonary hypertension. Allergy to human serum albumin products.
Common indication for V/Q scans
Suspected PE. Preoperative estimates of lung function. To evaluate right-to-left shunts. Serial assessment of inflammatory lung disease.
When should a V/Q scan be ordered over CTA?
Low clinical probability. Normal CXR is normal. Pregnant patient. Contraindication to iodinated contrast.
Normal ventilation scans
Homogeneous radiopharmaceutical distribution throughout both lungs on all three phases: Initial breath. Equilibrium. Washout.
Retention (trapping) of xenon in the lungs in a focal or diffuse pattern is an indication of
Obstructive lung disease.
Normal perfusion scans
Well-defined margins of both lungs on all views. Sharply defined costophrenic angles.
Hampton hump
Wedge-shaped, pleural-based infarct on CXR.
Westermark sign
Wedge-shaped area of oligemia.
Most common but nonspecific CXR finding of PE
Atelectasis or opacities in the region of emboli. Elevated diaphragm, small pleural effusion, and/or prominent hilum are also frequently seen.
Two moderate (25-50%) or four small (<25%) perfusion defects are equivalent to
Full-segment defect.
Perfusion defect that demonstrates normal ventilation is termed a
Mismatched defect.
Perfusion defects that match ventilation and CXR abnormalities in size and location are called
Triple match defects.
Stripe sign.
Central perfusion defects with a rim or stripe of increased activity around them. Less than 10% probability of PE.
V/Q scan PIOPED categories?
High (2 or more mismatched perfusion segments). Intermediate. Low. Very low. Normal.
Ventilation scan signs in COPD?
Delayed wash-in and delayed washout.
Perfusion defects that are significantly larger than the CXR abnormality are
Higher probability for PE.
Three principle coronary artery distributions of the LV
Left anterior descending artery (LAD). Left circumflex artery (LCX). Posterior descending artery (PDA).
Pharmocologic stress agents in myocardial perfusion imaging?
Adenosine. Dipyridamole (if bronchospasm may give dobutamine).
At what percent stenosis can pharmocologic agents not dilate effectively?
> 50% stenosis.
Tc-99m Sestamibi is taken up by perfused myocardium by
Passive diffusion. Bound in myocyte, mostly within myocardial mitochondria.
Hibernating Myocardium
Severe ischemia with high-grade stenosis may be slow to reverse on Tl-201 rest imaging after stress. Respond to revascularization procedures. Perfusion-metabolism mismatch.
Stunned Myocardium
Temporarily damaged cells around infarct. Generally is hypokinetic or akinetic. Will not uptake Tl-201 until recovery several weeks later. Normal perfusion.
Solitary palpable thyroid nodules are best evaluated initially
FNA.
Discordant thyroid nodule
Increased Tc-99m-O4 uptake but decreased I-123 uptake (lost ability to organify iodine). Increased risk of malignancy.