Nuclear Genitourinary Exam

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Nuclear Genitourinary Exam

The Personal SWOT Analysis will provide insights based on your personality strengths and weaknesses, challenges you see ahead, opportunities present around you now, as well as future favorable circumstances.

Renal with ACE

Processing

If abnormal, will need a follow-up study without Captopril for comparison

Generate time-activity renogram curves

Draw 2 bg regions of interest (one for each kidney)

Draw region of interest around each kidney and the aorta

Flow study: 2 sec/ frame for 1 min then stats every 30 sec for 20 min

Views: posterior

LFOV gamma camera

5-10 mCi of Tc99m-MAG3 via IV

Enalaprilat: 40 ug/kg IV over 3-5 min wait 15 min then inject Rph

Captopril 50 mg pill, PO 1 hr before procedure

Obtain patient baseline of BP

ACE inhibitors and angiotensin II receptor blocking agents should be discontinued for 4-7 days

Diuretics should be discontinued for 3 days

Only liquids for 4 hr before procedures well hydrated

Contraindiations

any recent nuclear medicine study

Breast-feeding should be provided with appropriate radiation safety

Pregnant must be excluded for this exam

Diagnosis or exclusion of RVH

Differentiate of renal vascular hypertension (RVH) from renal artery stenosis

Diuretic Renal Scintigraphy

Have high sensitivity for the detection of urodynamically significant ureteral narrowings.

If a urodynamically significant outflow obstruction is present, the affected kidney is unable to increase its urine flow rate in response to the furosemide injection.

Energy: 140 keV Window: 20% Matrix: 128x128

Dynamic/flow

Detector system

Collimator: LEHR

camera: LFOV Gamma Camera

Patient position

Use dose to mark sternal notch in top one third of image and bladder in bottom one third of image. Use dose to ensure that patient's left and right sides are in the FOV.

Supine

Furosemide: 20-40 mg for adults 0.5-1 mg/kg for pediatrics injected slowly over 1-2 min image is continued for 20 min

ROA: IV bolus

MOL: MAG3 is tubular secretion/ DTPA is glomerular filtration

5 mCi Tc99m-DTPA may also be used

Best with 10 mCi of Tc99m-MAG3

Patient should be well hydrated drink 10 to 16 oz of water over 30 min

Technologist need to start an IV on patient

Patient does not to need to be NPO Light meal and adequate hydration Technologists need to start an IV

Contraindications

Furosemide is contraindicated in anuric/ or dehydrated patients

Pregnant/ breast-feeding: pregnant must be excluded for this exam breast-feeding patient use the appropriate radiation safety

Distinguish between obstructive hydronephrosis and nonobstructive collecting system dilation

Evaluation of hydronephrosis

Evaluation of renal obstructive nephropathy

Morphological study Renal cortical scintigraphy

Abnormal study: congenital abnormalities: horseshoe kidney, ectopic kidney, and the absence of kidney.

Normal study: show smooth renal contour Both kidneys should have equal amount of radioactivity and uniform tracer distribution

Time/view: Dynamic: 2-4s / frame for 60-120 seconds Static: 500k to 1 M counts SPECT: 2-4 hours post injection. 25-30 s/projections

Injection to imaging time: immediate and 2-4 hours after injection 24 hour delay is optional

Patient position: supine camera position: posterior

Camera type: LFOV gamma camera Energy: 140 keV Window: 20% Collimators: LEHR Matrix: 128x128

Pediatric patient: 50 uCi/kg

15-20 mCi of Tc99m-GH

5 mCi of Tc99m-DMSA

Patient preparation

Subtopic

Void prior to imaging

Well hydrated

detection of the presence of absence of small renal infarctions

Evaluation of renal cortex

Identification of functioning renal tissue in patients with congenital abnormalities

Differentiation of renal mass from normal variant Confirmation of suspected column of Bertin

Detection of pyelonephritis

Vesicoureteral Reflux Study Cystography

Abnormal study: show ureteral reflux, especially during urination Reflux bladder volume and the volume of reflux into the kidney can also be calculated

Normal study: Increasing activity in the bladder without reflux into the ureters

Total bladder volume of residual postvoid volume and bladder volume at initiation of reflux can be measured.

Acquisition parameters

Time/view: dynamic: 10-15 s/frame static: 120 seconds

Additional views: full bladder RAO/left anterior oblique postinfusion postvoid

Patient position: Supine

Data acquisition

Collimator: LEHR Matrix: 128x128

Window: 20%

Energy: 140 keV

Camera type: LFOV gamma camera Camera position: Posterior

Radiopharmaceutical

ROA: into the Foley catheter by injection port

1 mCi of Tc99m-sulfur colloid or DTPA

establish an indwelling Foley catheter

Ask patient to void before catheterization

Indication

Commonly perform in children

Evaluation and detection of vesicoureteral reflux

Basic Renal Scan

Begin by identifying your strengths. These are the traits or skills that set you apart from others.

List out all your strengths - if you get stuck, talk to people around you and ask for their input. Please be honest with yourself.

Interpretation

Abnormal study

Areas of relative decreased activity resulting from cysts or avascular tumors may also be seen in the flow sequence.

Normal study

Activity will be seen in the renal collecting system, ureters, and bladder.

The activity of radiopharmaceuticals should arrive in each renal area at the same time and with equal intensity.

Data processing

Time-activity curves are generated that tell physician the half-time.

ROI's drawn around both kidneys, abdominal aorta, and background

Acquisition

Flow: dynamic acquisition 30 frames x2 s/frame Function: dynamic acquisition 19 minutes of 20s/frame, compressed to 1min/frame Total: 22 minutes

Instrumentation

Matrix: 128x128 Energy: 140 keV Window: 20%

LEAP

single or dual head gamma camera

Patient Position

Post void can be acquired in supine position for 2 minutes

Use dose to mark sternal notch in top one third of image and bladder in bottom one third of image. Use dose to ensure that patient's left and right sides are in FOV

supine

Patient Preparation

Technologist should start an IV on patient

no need to be NPO light meal and adequate hydration urinary catheters should be put in for patients who cannot void

Radiopharmaceuticals

These are sample questions and sample answers, please feel free to add your own questions and answers.

Tc99m-DTPA

What are the Skills that you have developed over time?

These are the skills you have learned because you view them as essential OR people advised you to acquire them in order to improve yourself.

Choose from the examples below or add others:

most commonly used to measure GFR

used to assess renal blood flow, function, and drainage of the pelvicalyceal systems ureters

90% of the dose is excreted into the urine by glomerular filtration within 2 hours

Tc99m-MAG3

This is something that you learn unconsciously OR you learn by just observing someone you look up to (family/ colleagues/ teachers etc.)

Take a deep breath, close your eyes, think for a minute and type in your 'Natural Strengths' here.

Choose from the examples below or/and add others:

recommend to use of patients with decreased renal function and infants

clearance by 89% by active tubular secretion

tubular agents

functional radiopharmaceuticals

preferred over Tc99m-DTPA

able to see perfusion and function even in a failing kidney that would not be as easily seen in DTPA

high first-pass extraction

primarily excreted via tubular excretion

bolus of 10-20 mCi Tc99m DTPA or Tc99m-MAG3

Indications

Assess for UPJ obstruction

Assess split renal function for native kidneys

Assess for renal artery stenosis

Evaluation of acute renal failure

Evaluation of a renal transplant

Measurement of relative renal function