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Laura Beatriz López López, Jesús Adrián Moles Herbera, Silvia Vázquez Sufuentes, David Fustero de Miguel, Amanda Avedillo Ruidíaz, Javier Orduna Martínez, Juan Casado Pellejero
  1. Department of Neurosurgery, Miguel Servet University Hospital, Zaragoza, Spain.

DOI:10.25259/SNI_166_2021

Copyright: © 2021 Surgical Neurology International This is an open-access article distributed under the terms of the Creative Commons Attribution-Non Commercial-Share Alike 4.0 License, which allows others to remix, tweak, and build upon the work non-commercially, as long as the author is credited and the new creations are licensed under the identical terms.

How to cite this article: Laura Beatriz López López, Jesús Adrián Moles Herbera, Silvia Vázquez Sufuentes, David Fustero de Miguel, Amanda Avedillo Ruidíaz, Javier Orduna Martínez, Juan Casado Pellejero. Supracerebellar transtentorial approach for left parahippocampal cavernous malformation. 10-May-2021;12:216

How to cite this URL: Laura Beatriz López López, Jesús Adrián Moles Herbera, Silvia Vázquez Sufuentes, David Fustero de Miguel, Amanda Avedillo Ruidíaz, Javier Orduna Martínez, Juan Casado Pellejero. Supracerebellar transtentorial approach for left parahippocampal cavernous malformation. 10-May-2021;12:216. Available from: https://surgicalneurologyint.com/?post_type=surgicalint_articles&p=10799

Date of Submission
15-Feb-2021

Date of Acceptance
05-Apr-2021

Date of Web Publication
10-May-2021

Abstract

Background: Lesions in the temporomesial region can be reached by various approaches: subtemporal, transsylvian, transcortical, interhemispheric parieto-occipital, or supracerebellar transtentorial (SCTT). The choice varies according to the characteristics of the lesion and neighboring structures.

Case Description: In this clinical case, it is presented a 56-year-old man with long-term evolution of drug-resistant epilepsy secondary to a cavernoma in the left parahippocampal gyrus. After assessing the lesion, it was decided a SCTT approach for its resection in a semi-sitting position, to avoid language disorders or visual damage. The surgery was uneventful and the patient did not present epileptic seizures during 6-month follow-up.

Conclusion: Performing a SCTT is safe and feasible option for resection of lesions located in the basal temporomesial region without causing damage to neighboring structures, especially those located in the middle and posterior two-thirds of temporal region.

Keywords: Cavernoma, Epilepsy, Supracerebellar, Transtentorial

INTRODUCTION

Mediobasal temporal region can be approached by multiple routes. The most appropriate one will be chosen depending on the features of the lesion, location, and relationship with neighboring structures. In neurosurgical practice, subtemporal, transtemporal, transsylvian, or transcortical temporal approaches are frequently used, especially to access the anterior two-thirds of the temporomesial region. For the posterior one-third, other techniques are commonly used, such as the parietooccipital interhemispheric, or less frequently the supracerebellar transtentorial approach (SCTT). For huge lesions or those covering the entire temporal lobe, a combination of several approaches is usual, either in the same surgical time or deferred.

In the following case, we chose a SCTT corridor in semi-sitting position, which was first described by Voigt and Yasargil in 1976 for the resection of a right hippocampal cavernoma.[ 12 ]

CASE REPORT

We present a 56-year-old male with no drug allergies and a history of dyslipidemia and structural partial epilepsy since the age of 27, who was followed up by a neurologist.

The seizures consisted of absence-type focal seizures with altered consciousness for 2–3 min with postcritical period with slurred speech and bradypsychia. The patient did not present auras or any other type of seizures. Their frequency was 6–8 per month and was triggered by stress and work situations.

Since the diagnosis, the patient had been treated with multiple antiepileptic drugs without success, either because of the appearance of adverse effects or their ineffectiveness in seizure control.

At the time of the surgery, the patient was under treatment with levetiracetam 1000 mg/12 h, perampanel 8 mg/24 h, and 3 eslicarbazepine 800 mg tablets every 48 h.

A magnetic resonance imaging showed a left temporal parahippocampal lesion suggestive of cavernous angioma with pathological activity on the left posterior temporal lobe in electroencephalogram [ Figure 1 ].


Figure 1:

Preoperative magnetic resonance imaging with tractography. Lesion in the left temporal parahippocampal gyrus suggestive of cavernoma. Note the proximity of the visual or retinogeniculo-calcarine tract (pink color). The arcuate fascicle is shown in green and the corticospinal tract in blue.

 

Due to a diagnosis of a drug-resistant epilepsy secondary to a left parahippocampal cavernoma, the patient was referred to our department for the evaluation of surgical treatment.

Subsequently, informed consent including the use of diagnostic and intraoperative images for educational and academic purposes was obtained from the patient.

A transtentorial supracerebellar approach in semi-sitting position was chosen [ Video 1 ]. On this occasion, we preferred the semi-sitting position instead of Concorde position as it provides a better anatomical orientation, cerebellar mobilization caused by gravity, and better cleanliness of the surgical field. Due to the risk of air embolism, a bubble test was performed to rule out right-left shunt, which was positive. Therefore, a transesophageal echocardiography was performed, confirming the presence of patent foramen ovale, which was closed percutaneously before the intervention was carried out.

Video 1

The patient was operated in semi-sitting position with his head fixed, elevated, and flexed to expose the suboccipital region. An external lumbar drain was placed to evacuate approximately 50 cc to aid cerebral relaxation and better retraction during surgery.

A left paramedial vertical incision was made, one-third superior to the transverse sinus and two-thirds inferior. After muscle dissection, the left suboccipital craniotomy was achieved exposing the transverse sinus. The dura mater was dissected in a C shaped and lifted up to increase the corridor view and elevate the tentorium.

The tentorial incisura was reached preserving the bridging veins and the opening of the ambient and quadrigeminal cisterns was performed to relieve cerebral pressure avoiding the placement of retractors. Neuronavigation-guided assistance was used to execute the tentorial incision, reaching the medial temporal lobe. The fusiform and parahippocampal gyrus along with the collateral sulcus were located. After performing corticotomy in the parahippocampal gyrus with the support of neuronavigation-guided monitoring, the cavernous angioma was located [ Figure 2 ].


Figure 2:

Superior images: intraoperative image after opening the tentorium showing temporomesial basal cortex, left lateral ventricle, lateral to lesion location. Inferior left: intraoperative cavernoma dissection. Inferior right: surgical removed piece.

 

The resection was performed without surgical or anesthetic incidents and the patient remained in the intensive care unit for 24 h.

The patient did not present any complications during the postoperative period and was discharged 4 days after surgery.

After 6-month follow-up, the patient is seizure free (Engel IA). [ Figure 3 ] shows postoperative imaging control with complete resection.


Figure 3:

Postoperative magnetic resonance imaging T1 weighted with contrast. Surgical cavity in the posterior third of the left temporomesial region with complete resection of the cavernoma.

 

DISCUSSION

Voigt and Yasargil[ 12 ] first described the SCTT approach in 1976, explaining the advantages it offers, such as absence of transgression of the brain parenchyma and its retraction, avoiding the temporal cortex and optical radiation damage. Some disadvantages described are the long working distance and narrow field or the possibility of venous infarction due to the sacrifice of bridging veins between the tentorium and the cerebellum.

In our case, SCTT approach was chosen due to the posterior and basal location of the cavernoma, in the parahippocampal gyrus of the left temporal lobe. Since it is the dominant hemisphere, SCTT avoids temporal cortex injury, which can be harmed in other approaches such as subtemporal or transtemporal.

The main disadvantage of the subtemporal approach is the retraction of the temporal lobe, which can lead to parenchymal damage or venous infarction due to compression of Labbé’s vein, complications that are more noticeable in the dominant hemisphere. On the other hand, the transcortical approach implies the transgression of the parenchyma to reach the medial part of temporal lobe, compromising optic radiations.

The transsylvian approach may lead to insular or optic radiations lesions. Other approaches reported in the literature are the parietooccipital interhemispheric approach, which requires retraction of occipital lobe and may cause visual disturbances, or SCTT. The main advantages of the latter are the direct access to the temporal basal region without retraction or disruption of the parenchyma and thus, the lower probability of language and visual disturbances. Although it may seem an approach with limited surgical field, a cadaver study by Chau et al. compares the depth, angle approach, maneuverability area, and width of the different types of approaches mentioned for temporobasal lesions of the fusiform gyrus. Their conclusions highlight that SCTT is the approach with the greatest maneuverability area and broadness and the lowest working depth.[ 1 ] The main limitation of SCTT is the possibility of venous infarction due to coagulation of bridging veins and their anatomical margins.

There is controversy regarding the anatomical limits of SCTT.[ 2 , 9 , 11 , 13 , 14 ] The most widely accepted limits range from ambient and quadrigeminal cisterns medially, cingulate isthmus and cingulate gyrus as posterosuperior limit, fusiform gyrus laterally, and up to the amygdala as anterior limit. Thus, the middle and posterior two-thirds of the medial temporal base are safely accessible by this route. Access to the anterior one-third by this approach becomes more complex, since it curves medially and the petrosal apex makes its visibility difficult. Authors such as Türe et al.,[ 11 ] however, have described the feasibility of amygdalohippocampectomy through this approach, including resection of the temporal pole, although its technical complexity is greater and specific material is required for its performance. Other authors have described the use of this passage for thalamic lesions,[ 8 , 10 ] intraventricular lesions,[ 6 , 7 ] and vascular pathology.[ 2 - 5 , 14 ]

CONCLUSION

The SCTT approach is safe and feasible for resection of lesions in the basal temporomesial region without causing damage to neighboring structures, especially those located in the middle and posterior two-thirds. Therefore, we believe this approach should be considered for interventions involving the posterior temporomesial region given the advantages it offers.

Declaration of patient consent

The authors certify that they have obtained all appropriate patient consent.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.

Video available on:

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Acknowledgments

We are thankful all the staffs of Miguel Servet University Hospital involved in care of our patients.

References

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