Imaging as an early biomarker to predict sensitivity to everolimus for progressive NF2-related vestibular schwannoma

Purpose NF2-related schwannomatosis (NF2) is characterized by bilateral vestibular schwannomas (VS) often causing hearing and neurologic deficits, with currently no FDA-approved drug treatment. Pre-clinical studies highlighted the potential of mTORC1 inhibition in delaying schwannoma progression. We conducted a prospective open-label, phase II study of everolimus for progressive VS in NF2 patients and investigated imaging as a potential biomarker predicting effects on growth trajectory. Methods The trial enrolled 12 NF2 patients with progressive VS. Participants received oral everolimus daily for 52 weeks. Brain imaging was obtained quarterly. As primary endpoint, radiographic response (RR) was defined as ≥ 20% decrease in target VS volume. Secondary endpoints included other tumors RR, hearing outcomes, drug safety and quality of life (QOL). Results Eight participants completed the trial and four discontinued the drug early due to significant volumetric VS progression. After 52 weeks of treatment, the median annual VS growth rate decreased from 77.2% at baseline to 29.4%. There was no VS RR and 3 of 8 (37.5%) participants had stable disease. Decreased or unchanged VS volume after 3 months of treatment was predictive of stabilization at 12 months. Seven of eight participants had stable hearing during treatment except one with a decline in word recognition score. Ten of twelve participants reported only minimal changes to their QOL scores. Conclusions Volumetric imaging at 3 months can serve as an early biomarker to predict long-term sensitivity to everolimus treatment. Everolimus may represent a safe treatment option to decrease the growth of NF2-related VS in patients who have stable hearing and neurological condition. TRN: NCT01345136 (April 29, 2011). Supplementary Information The online version contains supplementary material available at 10.1007/s11060-024-04596-4.


Introduction
NF2-related schwannomatosis (NF2) (formerly Neurofibromatosis type 2) is a rare autosomal-dominant tumor predisposition syndrome, with an incidence of 1 case in 33,000 live births [1][2][3].NF2 patients develop multiple tumors including bilateral vestibular schwannomas (VS), associated with possible bilateral hearing loss, tinnitus, and/or balance disturbances, as well as schwannomas on other cranial and spinal nerves, meningiomas and ependymomas.The tumor burden usually presents early in life, but clinical management can be variable between different patients because have been reported [12,13].Other targeted therapies for VS treatments, such as the endothelial growth factor receptor (EGFR) family kinase inhibitors, lapatinib and erlotinib have been used with limited success [14,15].
Merlin, the NF2 protein, has been identified as a novel negative regulator of mammalian target of rapamycin complex 1 (mTORC1), with functional loss of merlin yielding activation of mTORC1 signaling in NF2-related tumors [16,17].Our previous study in NF2 mouse schwannoma models showed that long-term inhibition of mTORC1 by rapamycin inhibited tumorigenesis without significant toxicity [18].Concomitant with these preclinical studies, we administered everolimus to an index patient with growing VS over a prolonged period resulting in a clinically meaningful growth delay [18].Meanwhile, the rapalog everolimus was approved by the FDA for subependymal giant cell astrocytomas associated with tuberous sclerosis, another tumor predisposition syndrome with multiple benign tumors requiring long-term tumor treatment [19].Two phase II clinical trials have further evaluated the efficacy of everolimus for progressive VS but only found the best response to be tumor stability [20,21].Altogether, these data led us to conduct this dual institution open-label phase II clinical trial to evaluate radiographic, hearing and quality of life (QOL) outcomes following everolimus treatment for NF2 patients with progressive VS.The results of the study performed in France were previously published [20].Here, we report the results of the US study.In addition to response, we also performed a post-hoc analysis to evaluate whether imaging can serve as an early signature of tumor stabilization.

Patient selection
Patients age 16 or older who met diagnostic criteria for NF2 (NIH 1988) and had progressive VS not requiring surgical resection or radiation therapy were eligible for the trial.We defined progressive VS as ≥ 20% volumetric increase on MRI in the prior 12 months.We excluded patients with prior radiation therapy within the past 60 months to eliminate delayed radiation treatment effects, as well as patients currently undergoing or having received anti-tumor therapy in the past 4 weeks.The full list of eligibility criteria is in Supplementary Information.All participants gave written informed consent before enrollment.Monitoring was assured by the Data Safety Monitoring Board DSMB of the UCLA Jonsson Comprehensive Cancer Center.Data, safety monitoring and results were subject to review by the FDA, UCLA IRB, and Novartis who provided the study drug.We received FDA approval for our protocol using RAD001 (everolimus) as an Investigational New Drug (IND #111195) in NF2.

Drug administration and safety
Adult participants (18 and older) were started on everolimus at 10 mg/day while adolescents aged 16-17 were started on 3 mg/day.All participants could receive study drug once daily continuously for 52 weeks or until unacceptable toxicity as per investigator's judgment or patient's preference.Adverse events were delineated through the National Cancer Institute Common Toxicity Criteria (CTCAE 3.0) [22].For adult participants who experienced grade 3 or higher or intolerable toxicity, everolimus could be reduced to 5 mg/ day.To assess compliance and trend plasma levels, we performed pharmacokinetic drug studies at the University of California, Los Angeles.

Radiologic measurement of tumor volume
Imaging was performed using a 3T clinical MRI scanner (Philips Healthcare, Los Angeles California).Tumor volume was determined using three-dimensional gradient echo T1-weighted post-gadolinium sequences with 1-mm slice thickness, no gap, by manual segmentation in OsiriX 4.1.2software (OsiriX, Geneva, Switzerland) and MEDx 3.44 software (Medical Numerics, Inc., Germantown, MD), and independently measured by three investigators (ED, AS and MG).If volumes deviated by more than 5%, investigators jointly reviewed images for agreement.Pre-study enrollment tumor growth was determined using MRI within 12 months of baseline and a baseline MRI obtained within 28 days of treatment start.MRI was then performed every three months during treatment and three months after last dose.Study primary endpoint was change in the target VS volume by MRI from baseline to 12 months.RR was defined as tumor volume reduction of ≥ 20% from baseline, while progression was defined as tumor volume increase of ≥ 20% from baseline.Tumors that had < 20% volumetric increase or reduction were considered stable [23].Time to tumor progression (TTP) was defined as the interpolated time needed for the tumor to increase 20% in volume before and during treatment [23].To allow for a direct comparison of tumor growth rate among patients with pre-enrollment MRIs acquired at different time intervals, we calculated the annual growth rate (AGR) [11].For consistency this measure was also applied to the different time points during the trial period.The annual growth rate (AGR) was calculated as the percentage change in tumor volume normalized to one year (%/year), using the formula: AGR = [((Vol 2 -Vol 1 )/Vol

Hearing evaluation
Hearing outcomes were assessed using pure tone averages (PTA) and word recognition scores (WRS).PTA was defined as the average of individual threshold frequencies at 500, 1000, 2000 and 4000 Hz for each ear.Hearing deterioration was defined as an increase of more than 10 dB in PTA from baseline to the 12-month evaluation, while hearing improvement was categorized as a decrease of more than 10 dB in PTA.Per prior studies, WRS was evaluated using a 50 item recorded Central Institute for the Deaf CID-W22 monosyllable word list [21,24,25].In addition to PTA, we also considered hearing deterioration as a decrease in WRS ≥ 20% from baseline to last everolimus treatment, while hearing improvement was defined as an increase in WRS ≥ 20%.

Statistical analysis
Baseline patient demographics and characteristics were summarized using descriptive statistics.TTP was calculated before treatment (reference to baseline time point) and during treatment (from initial date of everolimus to date of volumetric tumor progression) and represented using the Kaplan-Meier method.A Mann-Whitney test was used to compare AGR.

Patient demographics, target tumor characteristics and response to treatment
A total of twelve participants (9 F/3 M) were enrolled with an average age at start of study of 25.8 years (range: 16.3-45.6),including three < 18.Eight participants (1, 2, 6, 7, 8, 9, 10 and 11) completed the 12-month study treatment period (Table 1).Four participants (3,4,5,12) were taken off study early because of significant tumor progression during treatment based on investigator's evaluation, or patient's preference (Fig. 1).At baseline, the median volume of the target VS was 5.7 cm 3 (IQR 1.1 to 7.8).The median annual growth rate between the pre-baseline and baseline MRI was 77.2% (IQR 50.4 to 113.1), measured at a median time interval of 8.5 months (IQR 5.8 to 10.8).After 12 months of treatment, the median volume was 2.6 cm 3 (IQR 1.1 to 6.4) and the median annual growth rate decreased to 29.4%/ year (IQR 21.8 to 57.2) (Table 2).Overall, the best tumor response seen in all participants was -14% during the first  Four participants (3,4,5,12) were taken off study.Two had surgical removal of target VS (S), one was lost to follow-up (L) and bevacizumab was started in another one trial completion.Three participants (1,7,9) with no tumor growth and/or tumor reduction at 3 months (Fig. 3a, b) demonstrated stable disease at 12 months.In contrast, patients who exhibited any increase in tumor volume, even insignificant growth (< 20%), at 3 months showed tumor progression (> 20%) at the 12-month MRI follow-up (Fig. 3a).Retrospective analysis of tumor growth data from a French study of everolimus [20] also corroborated this observation, showing that participants with stable VS at the 12 month MRI showed a volume reduction or no growth at the 3-month MRI (Fig. 3b).Thus, the absence of tumor growth at 3 months of continuous everolimus treatment was predictive of stable response at 12 months.

Non-target tumors
In addition to target VS, we analyzed volumes for six contralateral VS, eight intra-cranial meningiomas, one C1 root schwannoma and one ependymoma.We did not observe any imaging responses, and 11 of 15 these non-target tumors were stable during the study period (Supp.Figure 1).However, participant 6 showed a 6.7% volumetric reduction in the ependymoma, and participant 8 a 6.2% reduction in the contralateral non-target VS, with concurrent hearing recovery in the associated ear.A non-target meningioma in participant 12 was reduced by 9.6% in volume at 6 months compared to baseline.

Hearing response
PTA remained stable or improved in all target ears of the 8 participants who completed the 12-months study treatment (1, 2, 6, 7, 8, 9, 10, 11) and WRS remained stable or improved for 7 of these 8 participants (Supp.Figure 2).Despite target VS stabilization, participant 7 experienced marked hearing deterioration from 58 to 20% WRS over the drug treatment period, decreasing to 0% after drug withdrawal at the 3 months of treatment for participant 7. Thus, the study did not reach the RR primary endpoint.
During the 52-week treatment, 3 participants (1, 7 and 9; 25%) had stable disease with an average target VS volume increase of 5.7% at 12 months, compared to 38% increase at baseline (Fig. 2a).Participant 1 experienced rapid decreased hearing in the contralateral ear and balance deterioration one month after everolimus discontinuation, associated with marked growth of the target VS (30% in 3 months, 8.7 cm 3 ) and non-target VS (23% in 3 months, 13.5 cm 3 ) (Supp. Figure 1).The non-target VS was subsequently surgically removed.Participant 7 whose target VS was stable under treatment, showed a markedly rapid increase in tumor volume of 64%, 3 months after treatment discontinuation.The VS was subsequently surgically removed.Target VS of participant 9 was stable during treatment: MRIs at 3, 6, 9 and 12 months showed no increase in VS volume compared to the baseline.About two weeks after stopping the drug treatment, the patient noticed increased symptoms with hearing drum-like sounds without other complaints (all mouth ulcers had resolved within a few days after stopping the drug).After MRI confirmed tumor progression (26% in 1 month), the patient was rechallenged with everolimus treatment on a compassionate-use basis.After resuming everolimus treatment, the target VS showed growth stabilization (+ 6% compared to previous MRI) and WRS improved from 96 to 100 at month 15.Eventually, the tumor progressed (+ 20% compared to volume at rechallenge) 26 months after restarting drug treatment.Two patients (10 and 12) who had continuous tumor growth on everolimus subsequently received bevacizumab alone with some tumor shrinkage and overall tumor stability.
An unplanned secondary analysis showed that the interpolated TTP for target VS was 4.9 months before treatment and improved to 8 months during study treatment (Fig. 2b, c), indicating that the TTP evolution slowed during treatment.Remarkably, early reduction of VS volume by everolimus was predictive of tumor stabilization at drug or very mild handicap" from their tinnitus (Supp.Figure 3c).While on clinical trial with everolimus, participants reported minimal worsening of SF-36 QOL over 12 months in most domains, except in emotional role (mean change = -19.4),fatigue (-10.2),social function (-11.5),pain (-11.5) and general health (-19.2).After 52 weeks of treatment, participants had negligible changes in their QOL scores, except for 2 participants.Participants 1 and 8 showed significant changes in their domain score for the SF36 questionnaire, but it is unclear if tumor progression was responsible for QOL decline, rather than the trial drug itself.Similarly, the NFTI-QOL questionnaire also demonstrated minimal impairment during the trial.The THI questionnaire detected higher grade tinnitus in a maximum of only 3 participants over the 12 months of treatment, likely responsible for their overall lower QOL scores, including in the THI subscales (Supp.Figure 3d) and NFTI-QOL hearing domain (Supp.Figure 3b).

Discussion
Most current studies for progressive NF2-associated VS define success of a treatment based on tumor shrinkage.However, in a syndrome where tumors are slow growing and neurological and hearing deficits can take years to manifest, treatment with a low toxicity agent, which can inhibit tumor growth and induce prolonged tumor stabilization, may be as desirable as agents promoting tumor shrinkage.Concordant with prior trials, our results corroborate the cytostatic effect of everolimus on tumor growth [21,34].Because of its convenient oral administration and safety profile, everolimus should be considered for treatment-naïve patients or perhaps for those patients with difficulty traveling to a certified NF2 15-month time point.Participant 8 showed stabilization of the non-target VS of -6% at 12 months, which coincided with improvement in hearing outcomes from PTA of 60dB at baseline to 52.5dB at 12-month follow-up.

Drug toxicity
All enrolled patients underwent toxicity and safety monitoring.No participants withdrew from the study due to drug toxicity (Supp.Table 1).However, participant 4 had a grade 3 related adverse event of pneumonia, which required hospitalization and antibiotic therapy.Participant 10 experienced a severe grade 4 elevated triglycerides and consequently treated with statin.One patient had a dose reduction for intolerable grade 2 oral ulcers.The most common side effects included: mouth ulcers (n = 9), fatigue (n = 6), acne (n = 6), skin rashes (n = 5), and headache (n = 5).

Quality of life
All 12 participants completed the HRQOL questionnaire at baseline with 10 and 8 responses at six and twelve months, respectively.At baseline before the trial, patients with NF2 tended to have lower baseline QOL than literature normal values, which can be attributed to the effect of tumor burden interfering with daily functional activities [26][27][28].The SF-36 questionnaire revealed that participants endorsed difficulty with fatigue (score = 58.3)and general health (69.2) (Supp.Figure 3a).In the NF2-specific QOL questionnaire (NFTI-QOL) participants most frequently reported problems with dizziness (score = 1.41), hearing (1.41), and vision (1.17) at initial evaluation (Supp.Figure 3b).The THI questionnaire showed that 10 of 12 participants (91.7%) experienced "no

Conclusions
Although everolimus did not lead to a sustained RR in progressive NF2-associated VS in our study, we confirmed its growth rate inhibitory effects in a subset of patients.This effect can be predicted by MR imaging and volumetric analysis just after the first 3 months of treatment.As a result, everolimus may best serve as a first-line agent for treatment of naïve NF2 patients presenting with progressive VS but otherwise stable clinical symptoms due to its oral advantage and tolerable adverse event profile.
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made.The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material.If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted center offering clinical trial options.Practically, everolimus can serve as another therapeutic modality to delay time to bevacizumab or surgical intervention, temporarily avoiding their associated morbidities.
Vestibular schwannoma growth patterns can vary during progression [35,36].Currently, the recommended endpoint for NF2 clinical trials is to assess the percentage change in tumor growth over time based on patients' natural history of tumor growth before starting the trial [8].Our study shows that seven patients had reduced VS growth rate after 12 months of treatment.Overall, the TTP also improved with everolimus treatment by 3.1 months, comparing TTP before and during treatment.We found that an unchanged or decreased VS volume with an annualized VS growth rate of < 1% at 3 months into treatment was predictive of VS stabilization at 12 months.That is, imaging at 3 months allowed identification of patients displaying stable tumor growth along the entire treatment course up to 12 months.Moreover, in non-responders the risk of rebound growth following treatment cessation is less severe [34].Thus, tumor response or tumor growth rate at 3 months can then serve as an early prognostic marker for prolonged sensitivity to everolimus, eventually allowing for rapid transition to an alternative therapeutic strategy.
Though it is unclear why everolimus response is variable, this may be attributed to the VS genomic and cellular heterogeneity potentially affecting drug distribution and target modulation [37][38][39][40][41]. Recent observations highlighted the potential for intrinsic schwannoma heterogeneity to influence the microenvironment and consequent multifaceted impact of everolimus [42].We found that everolimus may also stabilize non-target tumors in NF2 patients.Overall, 11 of 15 non-target tumors were stable during treatment, likely due to their low or non-proliferative status.These non-target tumor results are corroborated by Karajannis et al. in their initial phase II trial of everolimus for NF2, noting a volume decrease in a cervical nerve root tumor [21].
Treatment with everolimus did not significantly alter QOL and hearing remained stable during treatment, except one participant with a decline in word recognition score.The therapy is tolerable in our patient population with minimal side effects.In general, our patients experienced the common and manageable side effects of stomatitis and fatigue, but we did not see severe adverse events such as non-infectious pneumonitis, wound healing issues, renal failure, or metabolic issues as reported in other studies of everolimus [43].
In summary, everolimus should be considered as an early treatment for NF2 patients with VS progression in the absence of significant symptoms or deficits requiring surgical or medical interventions (i.e.bevacizumab).Longer follow-up time and larger patient cohorts will be necessary for studies aimed to explore the effect of drug treatments on tumor growth and hearing trajectories.

Fig. 1
Fig. 1 Volumetric change of target VS for the 12 participants before, during and after the clinical trial.Background color codes represent treatment periods for everolimus (pink) and bevacizumab (gray).The horizontal dotted lines represent +/-20% of each individual tumor

Fig. 2
Fig. 2 Volumetric change and time to progression of target VS for the 12 participants.(a) Change in target VS volume between the baseline and the end of the 12-month everolimus treatment or time when participant removed (#) from trial because of tumor progression (3, 5, 12) or voluntary withdrawal (4).Green bars show patients with stable disease

Fig. 3
Fig. 3 Change in tumor size over time and early prediction of sensitivity to everolimus.(a) Measurement of target VS volumes relative to baseline before, during (pink background) and after everolimus treatment showing participants with stable (green lines) or progressive (red lines) disease.The horizontal dotted lines represent +/-20% of tumor volume compared to baseline tumor volume.(b) Median of tumor growth rate after 3 months of continuous everolimus treatment statistically predicts the overall tumor volume response after 12 months of treatment in both UCLA (circles) and Pitié-Salpêtrière Hospital (triangles) participants.Error bars represent the interquartile range 1 ) x 100]/(Date 2 -Date 1 ) x 365, where Vol 1 and Vol 2 are the tumor volumes measured at current (Vol 1 ) and previous (Vol 2 ) MRI at dates Date 1 and Date 2 , respectively.

Table 1
Demographics and clinical characteristics of the 12 patients participating in the everolimus phase II trial UCLA University of California, Los Angeles; a defined as tumors with less than a 20% volumetric increase or reduction

Table 2
Target tumor volumetric analysis and annual growth rates Participant No.