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  • This video will demonstrate clipping of a PICA aneurysm via the retrosigmoid approach

  • The patient is a 47 year old female who was referred after attempted coil embolization at an outside hospital

  • The aneurysm is seen here and involves the origin of the PICA on the left side

  • The PICA vessel comes directly out of the base of the aneurysm on the inferior aspect.

  • This made it unfavorable for stent coiling and affected the clipping strategy.

  • Given its high location, it was approach via a Retrosigmoid (craniotomy).

  • Here is a still from the video which will be seen later as well indicating the direction of flow in the PICA

  • as well as the pertinent anatomy.

  • Here is the post clipping CT angiogram as well as reconstructions of the CTA and a CT showing the craniotomy

  • The patient was discharged with no new deficits on postoperative day number 2.

  • Here's the opening, you can see the sigmoid sinus at the top right of the screen.

  • Initially a dural opening is made, inferiorly.

  • towards the foramen magnum. Inferior is to the left of the screen.

  • This allows for the procedure to be performed without a lumbar drain.

  • The first step is to open the arachnoid in the direction of the Cisterna Magna and obtain CSF drainage.

  • Again, we go inferior to the cerebellum to obtain CSF.

  • And continuing the dural opening. Now the dura is being opened towards the Sigmoid sinus.

  • And then reflected. You can see just how relaxed the cerebellum is. No lumbar drain was used.

  • Now additional dural openings will be made here.

  • You can see that this is clearly a Retrosigmoid approach, not a Far lateral approach.

  • There's no drilling of the occipital condyle involved and there is no C1 laminectomy.

  • The opening is larger than would be used for a microvascular decompression of the 5th cranial nerve.

  • Now the arachnoid is sharply opened.

  • To reveal the lower cranial nerves as well as the 7/8 nerve complex.

  • And we can see the lower medulla here.

  • As well, we get a glance of the vertebral artery on the left side underneath the cranial nerves.

  • And now we can see the left PICA vessel.

  • Further opening of the arachnoid is performed.

  • Again the cerebellum is under no tension. Seeing the lower cranial nerves here.

  • In the center of the view

  • And there is no sign of the aneurysm at this point.

  • So the strategy will be to use the vertebral artery and the PICA vessel

  • to find the aneurysm

  • A temporary clip can be placed, which was just shown. This ensures that should there be an rupture

  • that we have proximal control.

  • Now, opening the arachnoid over the 7/8 nerve complex.

  • Again, we will use the vertebral artery and the PICA vessel to trace our way back to the aneurysm dome.

  • Here we can see the lower cranial nerves.

  • Cranial nerves 9, 10, and 11

  • And the distal PICA is seen there, with the origin of the PICA vessel right behind it.

  • Note that the origin of the PICA is larger than the distal PICA.

  • In one of the still images, in the diagram I've created, you can see the direction of flow within the PICA vessel.

  • So now dissecting between the lower cranial nerves.

  • We can see the flocculus under the scissors there and we can see the Choroid plexus

  • of the Foramen of Luschka

  • The aneurysm is going to be buried directly behind the lower cranial nerves.

  • Now looking for the PICA origin to the left of the screen.

  • will be able to trace that back to the junction of the vertebral artery and the aneurysm dome.

  • We can see the distal vertebral artery as it dives away.

  • towards the center of the screen. It dives into the depth of the operative cavity.

  • Again, Choroid plexus of the Foramen of Luschka which will continue to be dissected.

  • That's the distal PICA just adjacent to the scissors and behind it is the proximal PICA.

  • as it goes towards the right of the screen

  • and then flows towards the top of the screen and then flows back down as it supplies the lower aspect of the cerebellar hemisphere.

  • Again, clearly this is demonstrated a Retrosigmoid approach.

  • The orientation is significantly different than what would be expected for a far lateral approach for clipping of a PICA aneurysm.

  • Now we can see the aneurysm dome, we just saw a glimpse of it there behind the lower cranial nerves.

  • We can also see it behind the PICA and visualize the PICA as it wraps around to become the distal PICA vessel.

  • This will require aneurysm clipping between the lower cranial nerves.

  • And this will involve dissection. There's the aneurysm dome right there.

  • We can see that the clip direction will want to be oriented parallel to the vertebral artery.

  • along the course of the vertebral artery as it goes towards the depth. This will allow us to capture

  • the neck of the aneurysm while preserving the origin of the PICA which is coming off to the left.

  • That's the origin of the PICA where it exits the aneurysm dome.

  • So that will need to be preserved. We cannot eliminate that portion of the aneurysm along the bottom.

  • There's the plane where the aneurysm clip will have to be placed.

  • And there's the aneurysm. It is going to be separated away from the brainstem.

  • lifted up gently so that we can identify the plane in which the aneurysm clip will be placed.

  • And there it is, it has been separated from the brainstem.

  • Again, here is the still image that shows the aneurysm, the direction of flow within the PICA vessel and the lower cranial nerves.

  • So now, just to be sure that we can place a clip into the space.

  • A 12 mm permanent clip will be used. A temporary clip is placed proximally on the vertebral artery to soften the aneurysm.

  • and to facilitate clipping.

  • And now the straight aneurysm clip is placed. The orientation of the aneurysm clip will go parallel to that of the vertebral artery.

  • After the clip is placed, inspecting to make sure the blades of the aneurysm clip are placed all the way across the aneurysm dome.

  • To the left is the origin of the PICA vessel, so we cannot clip that aspect.

  • Here's where we have to preserve a small remnant just to the left of the clip

  • to allow the PICA vessel to fill.

  • We can see that the clip blades are all the way across not touching the brainstem.

  • Now the temporary clip is removed.

  • Doppler indicates good flow within the PICA vessel

  • You can see that the clip is all the way across the aneurysm.

  • And in between the lower cranial nerves.

  • Indocyanine Green shows excellent flow in the PICA vessel following clipping

  • Now a small pledgit will be placed to prevent pulsation

  • from the aneurysm clip against the lower cranial nerves.

  • and we can see the 7/8 nerve complex and the Flocculus underneath the Rhoton dissector

  • We can see the 5th cranial nerve at the top of the screen.

  • Some papaverine is placed to reduce vasospasm.

  • And then the delicot cottonoids are removed.

This video will demonstrate clipping of a PICA aneurysm via the retrosigmoid approach

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PICA動脈瘤クリッピング手術。Retrosigmoid Approach.3D HD.( 脳外科) (PICA aneurysm clipping surgery. Retrosigmoid Approach. 3D HD. ( Brain Surgery ))

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    masasama に公開 2021 年 01 月 14 日
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