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CASE REPORT
Year : 2020  |  Volume : 15  |  Issue : 2  |  Page : 431-433

The histopathological findings of two nonbranching saccular cerebral aneurysms


Department of Neurosurgery, Japanese Red Cross Shizuoka Hospital, Shizuoka, Japan

Date of Submission05-Dec-2019
Date of Acceptance19-Jan-2020
Date of Web Publication07-Apr-2020

Correspondence Address:
Dr. Satoru Kida
Department of Neurosurgery, Japanese Red Cross Shizuoka Hospital, Shizuoka
Japan
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/ajns.AJNS_353_19

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  Abstract 


Cerebral aneurysms arising from nonbranching sites are different from ordinary branching aneurysms in clinical course and histology. We pathologically examined two cases of saccular aneurysm occurring at nonbranching sites. One was a pseudoaneurysm arising at a branch of the right pericallosal artery. The other had an entirely hyalinized and thickened aneurysmal wall. Despite similar angiographical findings, our two cases had different pathological features as described above. Based on the pathological findings obtained from these cases, we believe that aneurysms in nonbranching sites are caused by injury to the internal elastic lamina. A ruptured aneurysm may be discovered as a blood blister-like aneurysm, whereas an unruptured one may develop into a “nonbranching true aneurysm.”

Keywords: Arterial dissection, internal elastic lamina, nonbranching aneurysm


How to cite this article:
Kida S, Tenjin H, Tokuyama T, Saito O. The histopathological findings of two nonbranching saccular cerebral aneurysms. Asian J Neurosurg 2020;15:431-3

How to cite this URL:
Kida S, Tenjin H, Tokuyama T, Saito O. The histopathological findings of two nonbranching saccular cerebral aneurysms. Asian J Neurosurg [serial online] 2020 [cited 2020 Aug 12];15:431-3. Available from: http://www.asianjns.org/text.asp?2020/15/2/431/282005




  Introduction Top


The majority of cerebral saccular aneurysms arise at arterial bifurcations, and cerebral aneurysms occurring at nonbranching sites are relatively rare. Previous studies have demonstrated that nonbranching site aneurysms are typically associated with arterial dissection and take the form of so-called blood blister-like aneurysms.[1] However, there are some reports of true saccular aneurysms at nonbranching sites of the internal carotid artery (ICA),[2] it is not clear how their formation differs from bifurcation aneurysms. We recently encountered two cases of a saccular aneurysm arising at nonbranching sites and examined the pathological findings. We discuss the pathogenesis and formation mechanism of nonbranching cerebral aneurysms.


  Case Reports Top


Case 1

A 79-year-old male with a history of diabetes mellitus and hypertension presented with sudden headache and leg weakness without any head trauma. He showed confusion and had mild paresis in his left leg. Computed tomography (CT) of the head showed an acute subdural hematoma in the interhemispheric fissure and subarachnoid hemorrhage [Figure 1]a. CT angiography showed a 4-mm saccular aneurysm on a branch of the right pericallosal artery [Figure 1]b. After confirming that the aneurysm was not infectious, we performed trapping of the aneurysm on day 5. The intraoperative findings showed that the aneurysmal neck was torn at its origin [Figure 1]c. H and E staining of the resected aneurysm showed the lesion was composed of mostly thrombi, and no obvious vascular structures, such as the internal elastic lamina (IEL) or adventitia, were observed [Figure 1]d. The pathogenesis of aneurysm formation was considered to be mild arterial wall injury caused by the edge of the falx cerebri.
Figure 1:(a) Head computed tomography showing acute subdural hematoma in the interhemispheric fissure. (b) Aneurysm located on a branch of the right pericallosal artery demonstrated by three-dimensional reconstructed computed tomography angiography. (c) Intraoperative image just after removal of the aneurysm (arrow). The aneurysmal neck was torn at its origin (arrowhead). (d) H and E staining of the resected aneurysm (×10). No obvious vascular structures such as internal elastic lamina or adventitia are visible

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Case 2

The patient was a 67-year-old male with a history of diabetes mellitus and hypertension. A 15-mm unruptured aneurysm was incidentally found in the left middle cerebral artery (MCA) at a nonbranching site of the M2 inferior trunk, where the MCA sharply curved [Figure 2]a and [Figure 2]b. Neck clipping through the pterional approach was performed, and the aneurysmal dome was resected. The intraoperative findings showed a firm aneurysmal neck and severe atherosclerosis on the dome [Figure 2]c. Pathological findings showed that the intima was entirely hyalinized and thickened [Figure 3]a. Although Elastica van Gieson stain typically shows the IEL as a black-purple membrane, no such staining was observed in the aneurysmal wall [Figure 3]b. Pathologically, this aneurysm looked like an ordinary bifurcation aneurysm on a branching site.
Figure 2:(a) Right internal carotid artery angiography shows a 15 mm saccular aneurysm on the left middle cerebral artery-M2 inferior trunk (arrowhead). (b) Three-dimensional reconstructed image showing the aneurysm originating from the convex portion of the sharply curved vessel (arrow). (c) Intraoperative image showing the aneurysm (arrow) with severe atherosclerosis on the aneurysmal dome (arrowhead)

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Figure 3:(a) H and E staining of the resected aneurysm (×10) shows a considerably thickened and hyalinized intima. (b) Elastica van Gieson staining section shows lack of internal elastic lamina on the aneurysmal wall

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  Discussion Top


We encountered two different types of nonbranching aneurysms. Pathologically, one was a pseudoaneurysm, and the other was a firm saccular aneurysm similar to those seen on branching sites. Anterior wall aneurysms comprise 0.9%–6.5% aneurysms in the ICA,[3] of which a previous study suggested there are two types, differing in shape, histological features, and treatment requirements.[2] One is a blood blister-like type, showing a small hemispherical bulge located at the anterior wall of the supraclinoid portion of ICA. Most patients with this type of aneurysm suffer massive subarachnoid hemorrhaging because the aneurysmal walls are thin and fragile.[3] Pathologically, abrupt termination of the IEL is observed at the area adjacent to the rupture point, which is not composed of collagenous tissue, as seen in an ordinary aneurysm. The other type is the saccular type, which has a saccular dome with an obviously firm neck similar to ordinary aneurysms arising at arterial bifurcations. Unlike with the blood blister-like type, neck clipping is possible for this type of aneurysm as in ordinary bifurcation aneurysms. We believe that this classification system can be applied to cerebral arteries other than the ICA, such as in our two cases.

Mizutani et al. reported that saccular-shaped arterial dissections could develop by tearing of the IEL at nonbranching sites.[4] They classified aneurysms unrelated to the branching zones into four types, of which type 4 aneurysms appear saccular shaped. However, pathologically, these have an abruptly disrupted IEL without intimal thickening, and lack IEL on the dome. Case 1 and blood blister-like aneurysms are consistent with type 4 of this classification system.

The question remains of how an aneurysm like the one in Case 2 is formed. We hypothesize that if the IEL tears but does not rupture, it can become a firm saccular aneurysm or “non-branching true aneurysm.” A previous study suggested that when the IEL is injured, the lesion is covered by endothelium in 2–4 days, and neointima is formed in about 3 months.[5] It was also reported that fibroblastic tissue can thicken the aneurysmal wall.[6] Based on these facts, nonbranching true aneurysms can develop, as shown in [Figure 4]. When the IEL is torn by mild wall injury, such as shear stress or mild trauma, but does not rupture, the inner layer of the thin aneurysmal wall is first covered by endothelium. Neointima is then formed, and finally, the aneurysmal wall becomes thickened by fibroblastic tissue and hyalinization. The fact that blood blister-like aneurysms are only found in cases of arterial rupture, contrary to arterial dissection which has nonhemorrhagic onset, leads us to propose that unruptured blood blister-like aneurysms can develop into nonbranching true aneurysms.
Figure 4: Scheme of the development of nonbranching true aneurysm. When arterial dissection occurs (a), the luminal surface is covered by endothelium in 2–4 days (b). Then, neointima gradually forms over 3 months (c). Finally, fibroblastic tissue thickens the aneurysmal wall and a nonbranching true aneurysm has formed (d)

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As a pathological feature, ordinary aneurysms show fibrosis and hyalinization of the arterial wall, and fragmented and/or missing IEL.[7] The nonbranching true aneurysm presented in Case 2 had pathological findings similar to ordinary aneurysms, but the difference between these cases is the mode of occurrence. Ordinary aneurysms occur because of a congenital medial defect at the bifurcation,[7] while nonbranching true aneurysms may be due to IEL injury caused by mild arterial wall damage. [Table 1] shows a proposed concept of aneurysm classification.
Table 1: Proposed concept of aneurysm classification

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In conclusion, aneurysms arising from nonbranching sites take the form of either pseudoaneurysms or true saccular aneurysms. The latter of which have similar pathological findings to bifurcation aneurysms. This fact and previous studies propose that nonbranching true aneurysms can develop from unruptured blood blister-like aneurysms caused by IEL injury due to mild arterial wall damage. Further reports will help to elucidate the precise mechanism of aneurysm formation at nonbranching sites.

Declaration of patient consent

The authors certify that they have obtained all appropriate patient consent forms. In the form the patient(s) has/have given his/her/their consent for his/her/their images and other clinical information to be reported in the journal. The patients understand that their names and initials will not be published and due efforts will be made to conceal their identity, but anonymity cannot be guaranteed.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.



 
  References Top

1.
Ishikawa T, Nakamura N, Houkin K, Nomura M. Pathological consideration of a “blister-like” aneurysm at the superior wall of the internal carotid artery: Case report. Neurosurgery 1997;40:403-5.  Back to cited text no. 1
    
2.
Ogawa A, Suzuki M, Ogasawara K. Aneurysms at nonbranching sites in the surpaclinoid portion of the internal carotid artery: Internal carotid artery trunk aneurysms. Neurosurgery 2000;47:578-83.  Back to cited text no. 2
    
3.
Abe M, Tabuchi K, Yokoyama H, Uchino A. Blood blisterlike aneurysms of the internal carotid artery. J Neurosurg 1998;89:419-24.  Back to cited text no. 3
    
4.
Mizutani T, Miki Y, Kojima H, Suzuki H. Proposed classification of nonatherosclerotic cerebral fusiform and dissecting aneurysms. Neurosurgery 1999;45:253-9.  Back to cited text no. 4
    
5.
Mitchell GM, McCann JJ, Rogers IW, Hickey MJ, Morrison WA, O'Brien BM. A morphological study of the long-term repair process in experimentally stretched but unruptured arteries and veins. Br J Plast Surg 1996;49:34-40.  Back to cited text no. 5
    
6.
Carmichael R. The pathogenesis of noninflammatory cerebral aneurysms. J Pathol Bacteriol 1950;62:1-19.  Back to cited text no. 6
    
7.
Sahs AL. Observations on the pathology of saccular aneurysms. J Neurosurg 1966;24:792-806.  Back to cited text no. 7
    


    Figures

  [Figure 1], [Figure 2], [Figure 3], [Figure 4]
 
 
    Tables

  [Table 1]



 

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