Sultan Qaboos University Med J, February 2013, Vol. 13, Iss. 1, pp. 179-182, Epub. 27th Feb 13
Submitted 21ST Apr 12
Revision Req. 7TH Aug 12, Revision Recd. 1ST Sep 12
Accepted 6TH Oct 12

1Sultan Qaboos University Hospital, Muscat, Oman; 2Amrita Institute of Medical Sciences, Kochi, Kerala, India
*Corresponding Author e-mail: rajeevkariyattil@gmail.com  

انزالق مشابك سبائك الكوبالت أثناء جراحة متدد األوعية الدموية 
الدماغية

 تقرير حالة ومراجعة املنشورات

راجيف كاريتيل،ديليب بانيكار

هذه   معظم  نتجت   وقد   نادرا.  يزال  ما  الدموية  الأوعية  متدد  م�صابك  التواء  اأو  وتداخل  احلدوث،  نادرة  ظاهرة  امل�صابك  انزلق  امللخ�ض: 
احلالت من م�صابك التيتانيوم.  وا�صفو التقرير اأبلغوا عن  حدوثه اأثناء ا�صتخدام م�صابك   �صبيكة الكوبالت املنخلة يف جراحة  متدد الأوعية 
الدموية يف  ال�رسيان ال�صباتي الداخلي التي مت حتديدها خالل العملية با�صتخدام الأ�صعة امل�صبغة  لالأوعية  وت�صحيحه من خالل اإعادة 
و�صع  م�صبك �صبيكة الكوبالت الغري املنخل. الآلية املحتملة لهذه امل�صاعفات، والتدابري التي قد حتول دون حدوثه، مبا يف ذلك الت�رسيح 

احلذر، اإزالة اأو تخفيف ال�صغط عندما يكون ذلك ممكنا، اختيار امل�صبك املنا�صب، والأ�صعة امل�صبغة اأثناء العملية.
مفتاح الكلمات: متدد الأوعية الدموية الدماغية، ف�صل امل�صبك؛ الأ�صعة امل�صبغة ؛ تقرير حالة؛ الهند.

abstract: Clip slippage is a rare occurrence, and the scissoring or torsional failure of aneurysm clips is rarer 
still. Titanium clips have been implicated in a few such reported cases. The authors report its occurrence while 
using a fenestrated cobalt alloy clip for an internal carotid artery aneurysm which was identified by intraoperative 
angiography and rectified by re-applying a non-fenestrated cobalt alloy clip. The possible mechanism of this 
complication, and measures that may prevent its occurrence, including meticulous dissection, decompression when 
possible, proper clip selection, and intraoperative angiogram are described.

Keywords: Cerebral aneurysm; Clip failure; Intra-operative angiogram; Case report; India.

Scissoring of a Cobalt Alloy Aneurysm Clip 
causing Slippage during Cerebral Aneurysm 

Surgery
Case report and review of literature

*Rajeev Kariyattil1 and Dilip Panikar2

case report

Secure clip placement is the key to successful aneurysm surgery. Clip failure after application, caused by twisting of the 
blades or scissoring rarely has been described in the 
literature.1–3 The failures that have been reported 
have followed the use of titanium clips. In these 
cases, the tensile property of the metal itself was 
suspected to be the main cause.

However, other factors related to the aneurysm 
itself and clip application techniques may play an 
equally important role.

Case Report
A 53-year-old hypertensive male presented with a 
good grade sub-arachnoid haemorrhage (SAH) of 3 
days’ duration. A computed tomography (CT) scan 
of the brain showed a Fischer grade 4 SAH with 
ventriculomegaly. A digital subtraction angiogram 
(DSA) showed a 1.47 cm trilobed internal carotid 
artery (ICA) aneurysm of the communicating 
segment with a 2.7 mm wide neck. There was 
irregular narrowing of the ICA, suggestive of 
atherosclerosis [Figure1].

The patient was admitted to Amrita Institute 
of Medical Sciences, Cochin, India, for clipping of 
the aneurysm through a right pterional approach. 
Exposure of the region showed the ICA to have 



Scissoring of a Cobalt Alloy Aneurysm Clip causing Slippage during Cerebral Aneurysm Surgery 
Case report and review of literature

180 | SQU Medical Journal, February 2013, Volume 13, Issue 1

atheromatous changes extending into the aneurysm 
neck and sac. After the neck was sufficiently 
exposed, a parallel clipping was achieved with a 
10 mm bayonet-shaped fenestrated cobalt alloy 
Yasargil aneurysm clip (B. Braun Melsungen AG, 
Meslungen, Germany) with the fenestra enclosing 
the middle cerebral artery (MCA). There was 
evidence of parent vessel compromise which was 
corrected by readjusting the clip distally along 
the neck. The dome was aspirated to confirm 
satisfactory clipping.

An intraoperative angiogram was then 
performed. The initial fluoroscopy images showed 
scisssoring of the blades and the angiogram showed 
refilling of the aneurysm [Figure 2]. On returning 
back to the operative field, it was found that the 
aneurysm had refilled with blood, which was 

leaking through the puncture site. Additionally, 
the clip was found to have rotated clockwise with 
the inner surface of one of the blades exposed 
[Figure 3].

Temporary clipping was not considered due to 
the extensive atheromatous changes in the ICA. 
Instead the clip was gently de-rotated and removed. 
There was considerable distortion of the aneurysm 
neck, ICA, and MCA during this manoeuvre. 
Clipping was then achieved after a more complete 
dissection around the aneurysm neck, with a 
perpendicularly placed 9 mm curved cobalt alloy 
Yasargil aneurysm  clip. The check angiogram was 
found to be satisfactory [Figure 4 ].

The postoperative course was complicated by a 
delayed left sided hemiparesis due to multiple MCA 
territory infarcts secondary to vasospasm, which 

 
Figure 1: Preoperative angiogram showing internal 
carotid artery (ICA) aneurysm.

 
Figure 2: Intraoperative angiogram showing scissoring 
of clip and filling of aneurysm.

 
Figure 3: Intraoperative view showing rotated clip.

 
Figure 4: Final intraoperative angiogram showing 
complete clipping and vasospasm



Rajeev Kariyattil and Dilip Panikar

Case Report | 181

improved with medical measures. 

Discussion
The phenomenon of a “slipped” aneurysm following 
routine postoperative angiograms, although first 
described by Charles Drake, has been documented 
infrequently in the literature, and failure due to 
twisting of the blades or scissoring is rarer still.1–5

The stability of an aneurysm clip during 
surgery depends on various factors operating 
simultaneously, most of which cannot be predicted 
based on the mechanical properties of the clip alone. 
Additionally, the current data are from in vitro 
testing and hardly mimic the real life situation.6-12 

Of these, only one study shows the effect of torque 
on the twisting of clip blades.11

Of the several factors that are responsible for 
the stability of the clip, the one most commonly 
reported is that of the clip’s mechanical properties. 
Pure titanium and titanium alloy clips have been 
implicated in all the reported cases of scissoring 
malfunction so far.1–3 Although there are several 
studies which show reliable closing forces and the 
stability of these clips, one of these showed inferior 
stability of titanium clips to torque forces compared 
to cobalt alloy clips.9–13 There are also concerns in 
using titanium clips for larger aneurysms due to the 
decreased opening of the clip blades.14 

For cobalt alloy clips, the make, length, and 
geometry of the clips have all been shown to 
influence the closing forces.7,8,10 In particular, 
bayonet and fenestrated clips have been shown 
to have weaker closing forces when compared to 
standard straight clips.8 The clip used in our patient 
was a fenestrated bayonet-shaped cobalt alloy clip. 
This is an alpha-type clip with a single box lock 
mechanism for stability. Other similar clips like the 
Sugita (Mizuho Medical Co., Tokyo, Japan) have 
stabilisation bars to prevent scissoring.

The next most important factor is aneurysm-
related. Large complex aneurysms, especially those 
with a neck wider than 2 mm, require greater closing 
forces, which is often not achievable with a single 
clip. The presence of atherosclerosis further adds 
to the complexity by increasing wall thickness and 
stiffness.2,3,14 Both these factors were present in this 
case. But the nature of failure, (i.e. the rotation and 
scissoring occurring in a slightly delayed manner), 
cannot be explained by size and wall thickness 

alone. However, if the atheroma is non-uniformly 
distributed around the neck, one of the clip blades 
may gradually slide over a rigid part of the plaque, 
resulting in their scissoring over a short period of 
time after the clip placement, as occurred in this 
patient.

The third—and probably most important 
factor—is procedure-related. A good neck 
exposure freeing all adhesions, decreasing 
intra-luminal pressure, and choosing the right 
clip and final placement, all contribute to clip 
stability.14 Torsional forces created while re-
adjusting a clip in a large atheromatous neck 
can also result in scissoring, especially if the 
plaque is hard and eccentric, thereby preventing 
proper apposition of the blades. Temporary 
clip occlusion of the ICA and aspiration of the 
aneurysm provide the best conditions for a 
satisfactory clipping in such circumstances; 
however, these were not considered due to the 
presence of gross atheromatous changes in the 
parent vessel as seen in the angiogram as well 
as during surgery. Parallel clipping was initially 
performed to avoid kinking of the ICA. An 
additional clip, parallel and distal to the first after 
collapsing the sac, might have prevented the 
slipping. In the end, a simpler clipping solution 
with a standard clip in a perpendicular direction 
was found to be effective.

The role of the intraoperative angiogram in 
achieving satisfactory clipping has been highlighted 
previously and cannot be over-emphasised.15,16

Conclusion
Clip failure is a rare but distinct possibility and 
occurs when the clip is made to function in situations 
beyond its design parameters, irrespective of its 
make and mechanical properties. A good technique 
adhering to the basic principles of aneurysm 
surgery and choosing the right clip(s) for the right 
aneurysm are the keys to a successful outcome.

The intraoperative angiogram is a valuable tool 
in identifying various unexpected and correctable 
problems, especially in complex aneurysms.



Scissoring of a Cobalt Alloy Aneurysm Clip causing Slippage during Cerebral Aneurysm Surgery 
Case report and review of literature

182 | SQU Medical Journal, February 2013, Volume 13, Issue 1

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