MRI Ovarian Cancer/Cyst/Adnexal masses Protocol and Planning

Indications for MRI mri ovarian scans

Contraindications

Patient preparation for MRI mri ovarian scans

A satisfactory written consent form must be taken from the patient before entering the scanner room
Ask the patient to remove all metal objects including keys, coins, wallet, cards with magnetic strips, jewellery, hearing aid and hairpins
Ask the patient to undress and change into a hospital gown
Contrast and buscopan injection risk and benefits must be explained to the patient before the scan
Gadolinium should only be given to the patient if GFR is > 30
An intravenous line must be placed with extension tubing extending out of the magnetic bore
Claustrophobic patients may be accompanied into the scanner room e.g. by staff member or relative with proper safety screening
Offer earplug or headphones possibly with music for extra comfort.
Explain the procedure to the patient and answer questions
Note down the weight of the patient

Positioning for MRI mri ovarian scans

Position the patient in supine position with head pointing towards the magnet (head first supine)
Position the patient over the spine coil and place the body coil over abdomen and pelvis (nipple down to three inches below symphysis pubis)
Securely tighten the body coil using straps to prevent respiratory artefacts
Give a pillow under the head and cushions under the legs for extra comfort
Centre the laser beam localiser over the iliac crest
Register the patient in the scanner as head first supine

Recommended MRI Ovarian Scans Protocols and Planning

MRI Ovarian Scans localiser

A three-plane localiser must be taken at the beginning to localise and plan the sequences. Localisers are normally less than 25 seconds and are T2-weighted low-resolution scans.

Pause for buscopan injection

Before proceeding to the next step, intravenously inject 0.5 to 1 ml of Buscopan (according to the manufacturer’s instructions and departmental policy). Wait for 1 minute before starting the next scan (Buscopan takes a few seconds to start its function).

Warning

* Buscopan injection should not be administered to patients with myasthenia gravis, megacolon, narrow angle glaucoma, tachycardia, prostatic enlargement with urinary retention, mechanical stenoses in the region of the gastrointestinal tract or paralytic ileus.*

T2 tse sagittal 3mm SFOV

Plan the sagittal slices on the axial plane and align the positioning block parallel to the linea alba and median sacral crest. Verify the positioning block in the other two planes. In the coronal plane, ensure an appropriate angle that parallels the lumbosacral spine. Ensure that the slices cover the entire pelvic mass, ranging from the right acetabulum to the left acetabulum. The field of view (FOV) should be sufficiently large to encompass the fibroids, typically ranging from 270mm to 300mm. To minimize artifacts caused by arterial pulsation, peristalsis, and breathing, consider adding saturation bands on top and in front of the sagittal block. Ensure an adequate level of phase oversampling to prevent any wrap-around artifacts.

Due to the increased signal-to-noise ratio (SNR) in new generation scanners, motion artifacts can be significant when acquiring images in the anterior-posterior phase direction. This is primarily attributed to the movement of abdominal fat, which exhibits higher signal intensity and can cause ghosting effects over the sagittal images. Therefore, to mitigate this issue, scans are typically performed using a head-to-feet phase direction.

Parameters

4000-6000

100-120

SLICE

3 MM

FLIP

130-150

PHASE

H>F

MATRIX

320X320

FOV

270-300

GAP

10%

NEX(AVRAGE)

T2 tse axial 6 mm large FOV

Plan the large field of view (FOV) axial slices on the coronal plane, positioning the block parallel to the line along the right and left iliac crest. Verify the positioning block in the other two planes as well. Establish an appropriate angle in the sagittal plane, perpendicular to the lumbar spine. The slices should adequately cover the entire lower abdomen and pelvis, extending from the middle of the kidneys down to the symphysis pubis. The FOV should be large enough to encompass the entire pelvis, typically ranging from 350mm to 400mm. To reduce artifacts caused by arterial pulsation and breathing, consider adding saturation bands on top of the axial block. Large FOV scans are usually performed to assess the local spread, para-aortic, and pre-sacral nodes.

Parameters

5000-6000

100-120

SLICE

6 MM

FLIP

130-150

PHASE

R>L

MATRIX

384X384

FOV

350-400

GAP

10%

NEX(AVRAGE)

T2 stir coronal 5 mm big FOV

Plan the large field of view (FOV) coronal slices on the sagittal plane and position the block parallel to the lumbar spine. Verify the positioning block in the other two planes as well. Establish an appropriate angle in the axial plane, which runs parallel to the right and left hip joint. The slices should adequately cover the entire abdomen and pelvis, extending from the anterior abdominal wall to the sacrum. The FOV must be large enough to encompass the abdomen and pelvis, typically ranging from 380mm to 400mm. Large FOV scans are usually performed to evaluate the local spread of the pathology and assess the para-aortic and pre-sacral nodes.

Parameters

4000-5000

110

FLIP

130

NEX

SLICE

5MM

MATRIX

384X320

FOV

380-400

PHASE

R>L

GAP

10%

130

T2 tse axial 3mm SFOV pelvis

Plan the axial slices on the sagittal plane and position the block horizontally across the pelvis. Verify the positioning block in the other two planes. Determine an appropriate angle in the coronal plane that is parallel to the right and left hip. Ensure that the slices adequately cover the entire mass (consider using a slice thickness of 4 if the mass is large). To minimize artifacts caused by arterial pulsation and breathing, consider adding saturation bands on top and in front of the axial block.

In modern scanners, the anterior-posterior phase direction can result in noticeable motion artifacts. This is due to the enhanced signal-to-noise ratio (SNR) and increased signal intensity in abdominal fat. As the abdominal fat moves during the acquisition, it can cause ghosting effects on the axial images. To mitigate this issue, axial scans are typically performed using a right-to-left phase direction.

Parameters

5000-6000

100-120

SLICE

3 MM

FLIP

130-150

PHASE

R>L

MATRIX

320X320

FOV

200-230

GAP

10%

NEX(AVRAGE)

T2 tse coronal 3mm SFOV pelvis

Plan the coronal slices on the sagittal plane and position the block vertically across the pelvis. Verify the positioning block in the other two planes. Provide an appropriate angle in the axial plane that is parallel to the right and left hip. Ensure that the slices adequately cover the entire mass (consider using a slice thickness of 4 if the mass is large). Adding saturation bands on top and in front of the coronal block will help reduce artifacts caused by arterial pulsation and breathing.

Parameters

5000-6000

100-120

SLICE

3 MM

FLIP

130-150

PHASE

R>L

MATRIX

320X320

FOV

200-230

GAP

10%

NEX(AVRAGE)

T1 tse fat sat axial 3mm SFOV PELVIS

Parameters

400-650

15-25

SLICE

3 MM

FLIP

130

PHASE

R>L

MATRIX

256X256

FOV

200-230

GAP

10%

NEX(AVRAGE)

DWI epi 3 scan trace axial 3mm SFOV PELVIS

Plan the axial slices on the sagittal plane and position the block horizontally across the pelvis. Verify the positioning block in the other two planes. Determine an appropriate angle in the coronal plane that is parallel to the right and left hip. Ensure that the slices adequately cover the entire mass (consider using a slice thickness of 4 if the mass is large). To minimize artifacts caused by fat signal, arterial pulsation, and breathing, consider adding saturation bands on top and both sides of the block.

Parameters

6000-7000

IPAT

NEX

3 5 8

SLICE

3 MM

MATRIX

192X192

FOV

200-250

PHASE

R>L

GAP

10%

B VALUE

0
500
1000

Now, prepare the injector to administer the IV gadolinium DTPA injection. The document below provides access to the recommended dosage of gadolinium DTPA injection, as advised by the manufacturer.

T1 VIBE DIXON 3D sagittal dynamic 1 pre 12 post

A dynamic VIBE 3D DIXON sequence comprises nine 3mm 3D scans, with a 10-second delay between the first and second scan for contrast injection. It is essential to administer the contrast injection following the initial run of the dynamic sequence.