Abstract
Patients with brain metastases (BM), who can benefit from resection of multiple scattered lesions, often will not be offered a procedure involving multiple craniotomies in one session due to the overall poor prognosis. However, carefully selected candidates may well benefit from the resection of multiple lesions using multiple craniotomies through a significantly shortened hospital stay, aggressive decompression, and rapid eligibility for adjuvant therapies. In this retrospective analysis, the records of patients, who were treated for multiple BM using one surgical session involving multiple craniotomies, were reviewed. A group of patients with multiple BM, whose surgery only involved one craniotomy, were assigned to a control group. Clinical and surgical characteristics, preoperative and postoperative Karnofsky Performance Scale (KPS), complication rate, preoperative tumor size, number of lesions, number of craniotomies, skin incisions, and intraoperative repositioning of patients were recorded. Thirty-three patients were included in the multiple-craniotomy group. Thirty patients underwent two craniotomies, while three cases involved three craniotomies. Seven patients (21%) were intraoperatively repositioned from a prone to a supine position, which required an average of 23.3 ± 9.3 min from wound closure to the following skin incision. Thirty-six patients with multiple BM and matching characteristics, who received only one craniotomy for the dominant lesion, served as the control group. No difference was detected in postoperative KPS (p = 0.269), complication rate (p = 0.612), rate of new postoperative neurological deficits (p = 0.278), length of intensive care unit (ICU) (p = 0.991), and hospital stay (p = 0.913). There was a significant difference in average preoperative tumor size (p = 0.002), duration of surgery (p < 0.001), and extent of resection (p = 0.002). In the age of personalized medicine, selected patient may benefit from a single surgery for BM using multiple craniotomies. This study shows no significant increase of the perioperative complication rate for surgeries with multiple craniotomies.
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Introduction
Recent advances in modern oncological therapy and the subsequent prolonged survival of cancer patients have led to a steady increase in the incidence of brain metastases (BM) [7]. Neurosurgical resection alone or in combination with modern chemotherapies, immunotherapies, stereotactic radiosurgery (SRS), and targeted therapies have improved the prognoses of patients diagnosed with BM. The role of neurosurgical interventions has also evolved in the direction of enabling other therapies by relieving symptoms [1]. Up to 80% of patients diagnosed with BM present with cerebral metastatic disease in a stage still suitable for local treatment modalities [13]. Characteristics such as comorbidities, tumor histology, and overall disease status play part in screening for surgical candidates [4]. In carefully selected cases, the resection of multiple BM causing neurological impairment by mass effect may rapidly improve the patients’ conditions when removed in a single surgical setting. Performing multiple craniotomies in such an approach may be warranted to shorten the time interval before further systemic treatment can be started.
Aggressive surgical therapy in patients with otherwise controlled extracranial disease can be beneficial to patients if surgical resection fits the overall oncological concept [2]. As outlined in the recommendations of the society of neuro-oncology (SNO), there are several factors that influence the selection of candidates for BM surgery. These factors include the reduction of tumor mass effect, absent histological diagnosis, and allowing for molecular analysis and consequently targeted molecular therapy [16]. Tumors located in the posterior fossa may be prognosis-limiting due to displacement of the fourth ventricle and subsequent hydrocephalus. The mass effect as well as the tumor-associated edema often requires high-dose glucocorticoid steroids. Surgery can provide rapid resolution of edema, relieve the mass effect, and enable steroid weaning [11]. Eloquent tumor localization and subsequent neurological deficits should also be taken into consideration. Surgery can allow patients to become eligible for adjuvant treatments, which has been associated with a better survival [14].
Contrary to the nihilistic approach taken to the situation of multiple BMs, one aspect of personalized medicine is offering selected patients with multiple BM and controlled or treatment-naïve extracranial disease the option of neurosurgical resection [5]. Even the need to resect scattered metastases through multiple craniotomies should warrant consideration. In that context, we present our experience with multiple craniotomies in single session as a safe, effective, and appropriate procedure with immediate consequences for further therapies.
Materials and methods
Through a retrospective search of clinical records, we identified all patients, who underwent surgery using multiple craniotomies between 2016 and 2021 (intervention group, group A). Patients, who had multiple cerebral metastases and only underwent resection using only a single craniotomy either for a single large or symptomatic lesion or multiple lesions between 2020 and 2021, served as a comparator (control group, group B). Clinical records and surgical notes about the initial hospital stay and follow-up were reviewed. All surgeries were performed at the Department of Neurosurgery at the University Medical Center Hamburg-Eppendorf. All treatment decisions were supported by dedicated tumor boards for the respective entities unless emergency treatment was indicated.
All lesions, which were surgically removed in operations involving either a single or multiple craniotomies, met the following criteria: size (generally > 3 cm in diameter), eloquent location, extensive peritumoral brain edema, and the displacement of the cerebral fluid drainage apparatus causing hydrocephalus. Additional factors, which played a role in the decision-making process, were interdisciplinary tumor board decisions, the necessity to confirm histological diagnosis, or determine molecular tumor markers. While all patients in group B had multiple BM, a single craniotomy was sufficient to address the lesions that met criteria for surgical resection. The indication for multiple craniotomies in group A resulted from the necessity to simultaneously address multiple lesions for being symptomatic either directly by local compression or indirectly by causing any kind of obstructive hydrocephalus.
Inpatient and outpatient medical records and neuroimaging data were reviewed to assess clinical characteristics, performance status, tumor stage, number of sites of metastatic manifestation, and the degree of cerebral metastatic disease. Preoperative tumor size was determined by measuring the maximal diameter of the lesions in preoperative contrast-enhanced T1-weighed MRI sequence. The extent of resection was defined as either resection of all lesions spotted in the preoperative MRI, complete resection of the targeted lesions with remaining BM, and macroscopically incomplete resection of targeted lesions.
We conducted a PubMed literature search (search term: “multiple craniotomies,” date 04/2022) to identify publications on surgeries involving multiple craniotomies for BM in a single surgery. All statistics were done using the software R Studio version 1.4.1103. Statistical analysis was performed using Pearson’s chi-squared test, Fischer’s exact test, and the Mann–Whitney U test were used when appropriate. A p value of < 0.05 was indicative of a significant difference. The ethics committee of the physicians’ association of Hamburg approved this study. The registration number is 2021–300,167-WF. Data analysis was performed on anonymized data sets. The study was conducted in accordance with the ethical guidelines of the Helsinki Declaration.
Results
Thirty-three patients (n = 33, male = 12, female = 21) with an average age of 59 years underwent surgery using multiple craniotomies in one session and were collected in group A. Thirty-six patients (n = 36, male = 11, female = 25, average age = 58 years) required only a single craniotomy in the presence of multiple lesions and were assigned to group B. The average number of intracranial lesions at the time of surgery was 4.7 ± 3.0 for group A and 4.6 ± 3.2 in group B (p = 0.995). In both cohorts, there is wide range of histological diagnoses. There is no difference in comorbidities and state of their metastatic disease, indicating relatively homogonous groups (Table 1).
Except for the three patients, who underwent three craniotomies, all other patients in group A underwent two craniotomies in single surgeries. Seven of the patients in group A had to be repositioned from a supine to a prone position during surgery. The duration of surgery in group A averaged 259.5 ± 95.8 min. In contrast, the average duration of surgery for group B was 160.8 ± 59.6 min, which indicates a significant difference (p < 0.001) (Fig. 1). The average time for intraoperative repositioning patients from prone to supine was 14.9 ± 11.5 min. The average size of the resected metastasis for the single craniotomy group was 35.7 mm, while the average metastatic lesion resected during surgery with multiple craniotomies was 29.1 mm (p = 0.002) (Fig. 2) (Table 2).
In 11 cases of group A, the approach resulted in removal of all preoperatively diagnosed intracranial lesions, whereas that was neither the goal nor accomplished for the single craniotomies in group B, except for one case of juxtaposed lesions. There was no difference in the surgeries’ effect on the KPS, which improved by 1.2 from 80.6 to an average of 81.8 at the time of discharge for group A and from 78.9 to 80.8 for patients in group B (p = 0.407) (Fig. 3).
The average time until discharge was 14 ± 13.2 days for group A and 12.2 ± 6.9 days for group B (p = 0.913). Twenty-nine out of the 33 (88%) patients spent a single night at an intensive care unit in group A, while group B had a rate of 89% (n = 32) (p = 0.240). In both groups, there were two patients, who required emergency evacuation of postoperative hemorrhage (p = 0.929). Nine out of the 33 patients (27%) in group A developed new neurological deficits in the immediate postoperative phase with all of them showing improvement at the time of discharge. In group B, only 5 patients presented with new postoperative neurological deficits (14%). No statistical correlation could be observed (p = 0.233). There was no postoperative seizure or in-hospital mortality (Table 3). There was no difference in the rate of adjuvant treatment participation (chemotherapy, radiation therapy) (p > 0.05). The average days of follow-up were 300 ± 352 days for group A and 221 ± 183 days for group B. There was no difference in rate of surgical site infection between the two groups (p = 0.603). The results of our literature review on patient cohorts, who underwent multiple craniotomies in a single surgery, can be found in Table 4.
Discussion
Patients with multiple BM present an oncological dilemma. Surgical options are frequently limited and patients reaching that disease stage are frequently branded as “terminal.” The approach, however, has to be much more differential, especially in times of personalized medicine. Patients with a dominant symptomatic lesion of a yet undiscovered primary may still have many “lines of therapy” ahead of them. Likewise, patients, who have not exhausted all options in a lengthy disease course with good quality of life, may well benefit from combined surgical/radiosurgical approaches [8]. In that context, we were concerned with patients, in whom a significant change of their disease course could be achieved when endeavoring on resection of multiple lesions in one session, even if it involved two or even three separate craniotomies. Screening for such surgical candidates for resection of multiple scattered BM is multifaceted and individualized in interdisciplinary discourse with radiotherapists and oncologists in dedicated tumor boards.
Submitting patients to aggressive surgical strategies must be weighed in perspective with the potential gain for the patient. The benefit for such surgical candidate is individual. Patients with two large and symptomatic but spread-out lesions will gain time and thus access to further therapies, even enabling them to benefit from experimental therapies or clinical trials based on KPS [17]. Others may gain time to have smaller or inaccessible lesions treated by radiosurgery or standard radiation therapy [11].
No matter the reason, the indication for such a surgical procedure was made in these select cases of multiple BMs, our study indicates that there is no increase in postoperative complication rate associated with an increased duration of surgery or multiple craniotomies. Emergency evacuation of postoperative hemorrhage as well postoperative infections occurred in similar rates. This study found no difference in KPS improvement in the comparison of the two groups, which is in agreement with the results of a 2005 study by Peak et al. [9]. The resected lesions of patients undergoing multiple craniotomies were mostly supratentorial metastases and smaller in diameter when compared to the lesions in group B, but a combination of supra- and infratentorial lesions were also safely approached. For these cases, the infratentorial lesions was approached first to avoid putting patients into the prone position after resection of supratentorial metastases. Also, optimal positioning for each lesion is mandatory, even if two supratentorial lesions, refixation, and redraping are necessary to make small navigated linear incisions.
Our series expands on earlier studies by Bindal, which found no difference in surgical complication rates of surgeries involving multiple craniotomies regardless of number of craniotomies performed. The authors also found no difference in survival between patients, who underwent total resection of multiple BM using multiple craniotomies and patients, who received total resection of a single BM [2]. The control of systemic disease generally determines survival. In that context, however, it appears of major importance to stress the safety of aggressive surgical treatment of patients presenting with BM using multiple craniotomies as systemic disease control is drastically improving for most tumor entities. Thus, patients develop BMs later in their disease course, and the number of patients with BMs is steadily increasing [6]. Aggressive surgical treatment in these patients has shown to increase survival if patients can subsequently be in enrolled in adjuvant treatment protocols [10]. Baker et al. published a series of 20 patients undergoing such procedures, and the authors showed promising postoperative results with an increase of the average postoperative KPS [1]. In a different context, multiple craniotomies in a single surgery for multifocal glioblastoma have also been associated with a comparable outcome and rate of complication as for resection using a single craniotomy supporting the concept of technical safety [3]. We strongly advocate the concept that in selected cases the surgical strategy of resecting scattered BM using an approach involving multiple craniotomies can be beneficial and safe.
Comparing this study’s cohort with a cohort of patients with multiple BM warranting resection, which were resected in multiple surgical sessions, would be interesting. However, at our institution, performing multiple craniotomies in a single session has been implemented as the standard protocol for resecting multiple brain lesions. While previous studies have observed an increased risk for postoperative complications for neurosurgical procedures, which lasted for more than 4 h, we did not observe such an increase in postoperative complications despite the significantly longer surgery durations [12]. Prospective studies with larger cohorts need to investigate, whether this surgical fits into the overall oncological concept and increase overall all morbidity and mortality. This study shows that patients with multiple BM may benefit from resection of more than one lesion in a single surgery. While the indication for such a surgical strategy is highly individualized, this study indicates no increased perioperative risk in the carefully selected candidates, who met the criteria to undergo procedure. Modern management of systemic oncological disease and targeted therapy warrants for individualized neurosurgical interventions, and in selected patients, the resection of multiple BM using resection of multiple scattered lesions may be warranted.
The retrospective nature of this study and the size of the study population limit the power of this study. Only limited conclusions about the overall neuro-oncological benefit on morbidity and mortality can be drawn from this comparison of the two groups because of the highly individualized surgical indications of patients undergoing multiple craniotomies in a single surgery. The size of the craniotomies may be a confounding variable in this study, especially since the size of the BM in group B was significantly larger compared to group A. We can only report on the technical feasibility of this procedure; however, this study indicates that there is no overall increase in complication rate for similar patient cohorts if surgery involved more than one craniotomy compared to a single craniotomy.
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References
Baker CM, Glenn CA, Briggs RG, Burks JD, Smitherman AD, Conner AK, Williams AE, Malik MU, Algan O, Sughrue ME (2017) Simultaneous resection of multiple metastatic brain tumors with multiple keyhole craniotomies. World Neurosurg 106:359–367. https://doi.org/10.1016/j.wneu.2017.06.118
Bindal RK, Sawaya R, Leavens ME, Lee JJ (1993) Surgical treatment of multiple brain metastases. J Neurosurg 79:210–216. https://doi.org/10.3171/jns.1993.79.2.0210
Hassaneen W, Levine NB, Suki D, Salaskar AL, de Moura LA, McCutcheon IE, Prabhu SS, Lang FF, DeMonte F, Rao G, Weinberg JS, Wildrick DM, Aldape KD, Sawaya R (2011) Multiple craniotomies in the management of multifocal and multicentric glioblastoma. J Neurosurg 114:576–584. https://doi.org/10.3171/2010.6.JNS091326
Hatiboglu MA, Akdur K, Sawaya R (2020) Neurosurgical management of patients with brain metastasis. Neurosurg Rev 43:483–495. https://doi.org/10.1007/S10143-018-1013-6
Karschnia P, Le Rhun E, Vogelbaum MA, van den Bent M, Grau SJ, Preusser M, Soffietti R, von Baumgarten L, Westphal M, Weller M, Tonn JC (2021) The evolving role of neurosurgery for central nervous system metastases in the era of personalized cancer therapy. Eur J Cancer 156:93–108
Kuksis M, Gao Y, Tran W, Hoey C, Kiss A, Komorowski AS, Dhaliwal AJ, Sahgal A, Das S, Chan KK, Jerzak KJ (2021) The incidence of brain metastases among patients with metastatic breast cancer: a systematic review and meta-analysis. Neuro Oncol 23:894. https://doi.org/10.1093/NEUONC/NOAA285
Metellus P, Bialecki E, Le Rhun E, Dhermain F (2015) Neurosurgical and radiosurgical decision making in brain metastasis patients in the area of targeted therapies? Chinese Clin Oncol 4. https://doi.org/10.3978/J.ISSN.2304-3865.2015.06.02
O’Halloran PJ, Gutierrez E, Kalyvas A, Mohan N, Atallah S, Kalia S, Millar BA, Laperriere N, Conrad T, Zadeh G, Bernstein M, Shultz DB, Kongkham P (2021) Brain metastases: a modern multidisciplinary approach. Can J Neurol Sci 48:189–197. https://doi.org/10.1017/CJN.2020.224
Paek SH, Audu PB, Sperling MR, Cho J, Andrews DW (2005) Reevaluation of surgery for the treatment of brain metastases: review of 208 patients with single or multiple brain metastases treated at one institution with modern neurosurgical techniques. Neurosurgery 56:1021–1034
Pollock BE, Brown PD, Foote RL, Stafford SL, Schomberg PJ (2003) Properly selected patients with multiple brain metastases may benefit from aggressive treatment of their intracranial disease. J Neurooncol 61:73–80. https://doi.org/10.1023/A:1021262218151
Proescholdt MA, Schödel P, Doenitz C, Pukrop T, Höhne J, Schmidt NO, Schebesch KM (2021) The management of brain metastases—systematic review of neurosurgical aspects. Cancers (Basel). 13
Rhondali O, Genty C, Halle C, Gardellin M, Ollinet C, Oddoux M, Carcey J, Francony G, Fauvage B, Gay E, Bosson JL, Payen JF (2011) Do patients still require admission to an intensive care unit after elective craniotomy for brain surgery? J Neurosurg Anesthesiol 23:118–123. https://doi.org/10.1097/ANA.0B013E318206D5F8
Richards P, McKissock W (1963) Intracranial metastases. Br Med J 1:15–18. https://doi.org/10.1136/bmj.1.5322.15
Schödel P, Jünger ST, Wittersheim M, Reinhardt HC, Schmidt NO, Goldbrunner R, Proescholdt M, Grau S (2020) Surgical resection of symptomatic brain metastases improves the clinical status and facilitates further treatment. Cancer Med 9:7503–7510. https://doi.org/10.1002/CAM4.3402
Tanei T, Fujii M, Takebayashi S, Nakahara N, Wakabayashi T (2019) Simultaneous multiple craniotomies in the management of multifocal malignant brain lesions: case reports. Fukushima J Med Sci 65:43. https://doi.org/10.5387/FMS.2019-06
Vogelbaum MA, Brown PD, Messersmith H, Brastianos PK, Burri S, Cahill D, Dunn IF, Gaspar LE, Gatson NTN, Gondi V, Jordan JT, Lassman AB, Maues J, Mohile N, Redjal N, Stevens G, Sulman E, van den Bent M, Wallace HJ, Weinberg JS, Zadeh G, Schiff D (2022) Treatment for brain metastases: ASCO-SNO-ASTRO guideline. J Clin Oncol 40:492–516. https://doi.org/10.1200/JCO.21.02314
Yang K, Gutiérrez-Valencia E, Landry AP, Kalyvas A, Millesi M, Leite M, Jablonska PA, Weiss J, Millar B-A, Conrad T, Laperriere N, Bernstein M, Zadeh G, Shultz D, Kongkham PN (2022) Multiplicity does not significantly affect outcomes in brain metastasis patients treated with surgery. Neuro-oncology Adv 4. https://doi.org/10.1093/NOAJNL/VDAC022
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MB performed the data extraction and statistical analysis and drafted the manuscript. LD and FR conceived the study design, provided feedback, supervised the study, and reviewed the manuscript. TS and MW provided feedback and reviewed the manuscript. After editorial feedback, MB revised the manuscript.
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The ethics committee of the Physicians’ Association of Hamburg approved this study. The registration number is 2021–300167-WF. Data analysis was performed on anonymized data sets. The study was conducted in accordance with the ethical guidelines of the Helsinki Declaration.
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Bschorer, M., Ricklefs, F.L., Sauvigny, T. et al. Multiple craniotomies in a single surgery — the resection of scattered brain metastases. Neurosurg Rev 46, 70 (2023). https://doi.org/10.1007/s10143-023-01976-8
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DOI: https://doi.org/10.1007/s10143-023-01976-8