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Radionuclide Pulmonary imaging (LUNG V/Q SCAN) Radiology Resident Half Academic Day Dr Hussein Farghaly Nuclear Medicine Consultant PSMMC Riyadh, KSA March,

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Presentation on theme: "Radionuclide Pulmonary imaging (LUNG V/Q SCAN) Radiology Resident Half Academic Day Dr Hussein Farghaly Nuclear Medicine Consultant PSMMC Riyadh, KSA March,"— Presentation transcript:

1 Radionuclide Pulmonary imaging (LUNG V/Q SCAN) Radiology Resident Half Academic Day Dr Hussein Farghaly Nuclear Medicine Consultant PSMMC Riyadh, KSA March, 2011

2 Clinical Application: A. The most common clinical indication for lung scintigraphy is to determine the likelihood of pulmonary embolism (PE). B. Less common clinical indications are: 1. Document the degree of resolution of pulmonary embolism 2. Quantify differential pulmonary function before pulmonary surgery for lung cancer 3. Evaluate lung transplants 4. Evaluate congenital heart or lung disease such as cardiac shunts, pulmonary arterial stenosis, and arteriovenous fistulae and their treatment 5. Confirm the presence of bronchopleural fistula 6. Evaluate chronic pulmonary parenchymal disorders such as cystic fibrosis 7. Evaluate the cause of pulmonary hypertension

3 PROCEDURE/SPECIFICATIONS OF THE EXAMINATION Nuclear Medicine study request: -Women of childbearing age -Clinical pre test probability of PE (Wells score) -D-Dimer test -History of prior DVT or PE or anticoagulant therapy -Review of prior lung scintigraphy -Relevant chest radiographic findings Patient Preparation and Precautions -A standard chest X-ray CT scan can substitute - Pregnant or breastfeeding women: benefit versus risk. - Discontinue breastfeeding for 24 hours - Children < 3 years of age: Limit close contact for 24 hours.

4 Perfusion scan: Agent: Tc-99m macro-aggregated albumin (Tc-99m MAA) Particle size: microns (90% of particles) No particles should be larger than 150 microns Obstructing ~ 0.1% of precapillary arterioles Particles clearance: Enzymatic hydrolysis and phagocytized by reticuloendothelial cells (biologic half-life of 6-8 hours). Critical organ: Lungs, 1 rad/5 mCi Total RDE : ~ 0.8 mSv

5 Number of particles: 500,000 particles/5mCi, Minimum of 70,000 Reduced number of particles: 100,000 in Pulmonary arterial hypertension (> 50 mmHg), right to left shunts, status post pneumonectomy, poor respiratory function, cardiopulmonary instability. 10,000 to 50,000 particles in Neonates: Neonate have about 10% of adult pulmonary capillaries Number of capillaries increases to half of the adult value by age 3 years, and reaches an adult level by age 8 to 12 years. Dose and adminstraion: Adult 40–150 MBq (1–4 mCi). Pediatric 1.11 MBq/kg (0.03 mCi/kg) with a minimum of 14.8 MBq/kg (0.4 mCi) - Tc-99m MAA is injected IV slowly during 3–5 respiratory cycles with the patient in the supine position.. - Perfusion scan: Agent cont. :

6 Perfusion scan: Imaging Imaging is preferably performed in the upright position to increase chest cavity size and to minimize diaphragmatic motion. Large field of view camera, parallel hole and high-resolution collimator. Planar images should be obtained in multiple projections including anterior, posterior, both posterior oblique, both anterior oblique and both lateral projections SPECT can be used to obtain a three-dimensional evaluation of the perfusion, and is recommended by some investigators. Images of the brain may be obtained to distinguish right-to-left shunting from systemic distribution of radiopharmaceutical components too small to be trapped by capillaries. Tc-99m MAA injection into the veins of the feet: May help to reveal a DVT as "hot spots" Venous obstruction or collateral flow can be seen

7 Tc-99m MAA Perfusion Lung Scan

8 RADIOACTIVE GASES: - Xenon-133 (5 days, 81KeV ) - Krypton-81m (13 sec, 190 KeV, RU-81/Kr-81m generator ) RADIOAEROSOL: - Technegas “pseudo-gas (0.005–0.2 μm) -Tc-99m DTPA aerosol (0.1–0.5 μm) Ventilation scan: Radiopharmaceuticals

9 Ventilation scan: Xenon-133 Gamma energy: 81 keV Physical half-life: 5.2 days Dose inhaled: mCi through Xenon delivery device. Critical organs: Trachea and airways of ~ 250 mrad Absorbed dose by the body: Less than 15% Total radiation dose equivalent: mSv Xe-133 ventilation scan performed prior to Q scan Uncommon practice: Xe-133 exam after the perfusion study; low dose of Tc-99m MAA first (1-2 mCi) and then high dose of Xe-133 (20-30 mCi)

10 Gamma camera placed behind the patient's back: Posterior view. Xe-133 is inhaled through a mouthpiece of the Xenon delivery system. Ventilation scan in 3 phases: Single breath: At maximum inspiration take sec image. COPD detected in ~ 66% Equilibrium: Normal tidal respirations for 3-5 minutes, rebreathing a mixture of Xenon-133 and oxygen take two sequential 90 sec images. Least sensitive for COPD diagnosis. Washout: Patient breaths room air or oxygen while exhaling the xenon into a charcoal trap take three sequential 45 sec images. Biological half life is 30 sec. Normal Xenon-133 clearance: 2-3 minutes. Clearance > 3 minutes: Air trapping. More sensitive (90%) than single breath phase in diagnosing COPD. Xenon more sensitive than aerosolized Tc-DTPA for detecting COPD. Ventilation scan: Xenon-133

11 Xenon ventilation scan

12 Ventilation scan: Krypton-81m Rubidium krypton-81m generator. Isomeric transition like Tc-99m Gamma emission: 191 keV (65%) Physical half-life: 13 seconds  Advantages: Higher energy than Tc-99m Very short physical half-life: V imaging immediately after each Q image Radiation dose to the lungs is lower than with other agents (about 15 mrad per view).  Disadvantages: Rubidium 81m: Physical half-life ~ 4.5 hours, can be used only for 1 day Limited assessment of COPD because tracer decays before an equilibrium distribution can be attained

13 Ventilation scan: Tc-99m DTPA Submicronic particles (aerosols) inhaled through an aerosol delivery system. Particles size: 0.5 to 0.8 microns in diameter, reaching alveoli Dose: 30 mCi (3-5 minutes rebreathing within closed system, oxygen at 8-10 liters/min). System delivers about mCi of tracer to the lungs 100,000 counts images in about 2-5 minutes. Radiation exposure to the lungs: ~ 100 mrads. Exposure to personnel: Less compared with Xenon study. Half-time clearance: hours in normal patients; more rapid clearance in patients with PE, lung injury (ARDS), pulmonary fibrosis, and in smokers (20 min.)

14 Tc-99m DTPA vs. Xe-133 Advantages of Tc-99m DTPA : No collection devices for exhaled gas Multiple projections Can perform before or after perfusion scan Feasible for ICU patients on ventilator Disadvantage of Tc-99m DTPA : Air trapping cannot be assessed. Xenon more sensitive than Tc-DTPA for detecting COPD.

15 Ventilation scan: Tc-99m technegas Tc-04 is vaporized in a microfurnace: Ultrafine labelled carbon particles. Particle size: 0.05 and 0.15 microns Good peripheral deposition: even in COPD. Longer pulmonary retention no effective clearance half time is 6hrs The material is produced by heating 5mCi of Tc- pertechnetate to very high temperatures (2500 degrees Celsius) in the presence of 100% argon gas produced a Tc-carbon particle that is so small it acts like a gas.

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17 Image Sequence: A. A chest radiograph should be obtained and reviewed before lung scintigraphy. B. Ventilation scintigraphy using 133Xe is usually performed before perfusion scintigraphy. Alternately, perfusion scintigraphy can be performed first and ventilation scintigraphy omitted if not needed. C. Because of the higher energy of the gamma emissions and the short half-life of 81mKr, images obtained with this gas can be alternated with those obtained with 99mTc MAA. D. When 99mTc labeled aerosol imaging is performed before 99mTc MAA perfusion imaging, smaller amounts (20-40 MBq) [ mCi]) of 99mTc labeled aerosol should be administered to the lungs.

18 Normal Ventilation/Perfusion


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