NEO100 and High-Grade Meningioma

Phase 2

Recruiting

• Conditions: Residual, Progressive or Recurrent Grade II or III Meningioma
• Interventions: Drug: NEO100

• Registration Number: NCT05023018
• Lead Sponsor: Neonc Technologies, Inc.

Brief Summary

This multi-site, Phase 2 clinical trial is an open-label study to identify the safety, pharmacokinetics, and efficacy of a repeated dose regimen of NEO100 (perillyl alcohol) for the treatment of patients with residual high-grade meningioma following resection surgery, radiographically-confirmed progression of high-grade meningioma or recurrent high-grade meningioma. There will be up to 30 patients enrolled in this study to have 29 evaluable patients. NEO100 will be self-administered four times daily on a 28-day treatment cycle until disease progression, death or patient withdraw from study for any reason, whichever occurs first.

Detailed Description

Meningiomas are the most common primary brain tumor with an incidence rate of 8.33 per 100,000. They originate from the meningeal (dural) coverings of the brain and spinal cord. Although the majority of meningiomas are benign, these tumors can grow slowly until they are very large, if left undiscovered, and, in some locations can be severely disabling and/or life-threatening.

There is a relative paucity of prospective clinical trials that provide an evidenced-based agreed upon approach to managing meningioma. Furthermore, uniformly applied guidelines have been difficult to achieve given the typical pattern of slow growth.

Meningiomas can be organized into two groups. WHO Grade I meningioma are histologically benign and can be managed by careful observation as recommended in the National Comprehensive Cancer Network Guidelines. Grade I meningiomas are low grade and have a 7-20% recurrence risk. For most other patients (WHO Grade II and WHO Grade III) there is an increased risk of recurrence and death. Grade II meningiomas occur in 5-15% of cases with a 30-40% recurrence risk and Grade III meningiomas occur 1-3% of the time with a 50-80% recurrence risk. For Grade I and Grade II meningiomas, gross total resection is standard. WHO Grade II and WHO Grade III meningiomas are referred to as high-grade meningiomas.

Questions remain regarding the selection and timing of treatment, especially in cases of recurrent meningioma or newly diagnosed high-grade meningioma (WHO Grade II or Grade III meningioma). For patients undergoing definitive therapy, complete resection (gross total resection) has been the standard. However, there is a significant subset of patients who are not successfully managed by surgery alone, or in whom a complete resection is not possible due to the relationship of the tumor to important anatomy. Complete tumor resection is not always achievable as many meningiomas arise at or near critical neural or vascular structures or in sites with limited surgical access When a gross total resection cannot be accomplished, post-operative radiation therapy is often considered (e.g., single-session stereotactic radiosurgery, hypofractionated stereotactic radiation therapy and conventionally fractionated external beam radiation therapy).

The potential for recurrence, whether following subtotal resection or gross-total resection, is well recognized. As a result, there is increasing evidence from retrospective review of case histories in support of radiation therapy as primary therapy for high-grade meningioma (or radiation prior to or following resection surgery). The relative efficacy of these approaches has not yet been tested in rigorously designed prospective clinical trials.

The role of chemotherapy in treating meningioma is also unclear; however, there is a need for additional therapeutic options to treat meningioma cases which cannot be managed by surgery and/or radiation therapy alone.

One reason for the hesitation to treat primary central nervous system tumours with chemotherapy is the difficulty of penetrating the blood brain barrier with chemotherapy agents. Nasal brain delivery of chemotherapy offers a novel, paradigm shifting platform based on technology to deliver chemotherapy via inhalation to the brain tumor. The presumed mechanism of nasal brain delivery from preclinical rodent studies is thought to be via the olfactory and trigeminal nerves. Effective nasal brain delivery has been demonstrated in humans in other diseases. For example, Reger et al. have reported effective delivery of intranasal insulin for Alzheimer's disease.

Perillyl alcohol, also called p-metha1,7-diene-6-ol,or 4-isopropenylcyclo-hexenecarbinol, is a monoterpene, isolated from the essential oils of lavender, peppermint, spearmint, and several other plants and synthesized by the mevalonate pathway. It has been previously demonstrated to have anti-cancer properties in preclinical studies in rodent models for a variety of cancers including mammary, pancreatic, and colon cancer. Although the exact mechanism of perillyl alcohol induced tumor regression is unknown, perillyl alcohol has been reported to modulate cellular processes that control cell growth and differentiation including G1 cell cycle arrest and induction of apoptosis.

Perillyl alcohol has also been shown to inhibit post-translational modification of proteins involved in signal transduction. It has been postulated that the anti-neoplastic activity of perillyl alcohol involves a decrease in the levels of isoprenylated Ras and Ras-related proteins, thereby reducing the physiological functioning of these proteins. Protein isoprenylation involves the post-translational modification of a protein by the covalent attachment of a lipophilic farnesyl isoprenoid group to a cysteine residue at or near the carboxyl terminus. Isoprenoid substrates for prenylprotein transferase enzymes include farnesyl pyrophosphate plus geranylgeranyl pyrophosphate, two intermediates in the mevalonate pathway. This action was attributed to the inhibition of farnesyl protein transferase activity. Farnesylation is the most critical part of the process that leads to the activation of Ras, and farnesyl transferase inhibitors exert their antitumor effect in part by inhibiting Ras-mediated signaling. A study revealed that H-Ras and K-Ras farnesylation were inhibited by perillyl alcohol.

Ras activity is elevated in malignant central nervous system tumors. Strong evidence demonstrates that Ras protein is highly expressed in meningioma cells, and inhibition of Ras activity may inhibit the growth of meningiomas. Activated Ras stimulates other pathways essential for proliferation and progression through the cell cycle and inhibition of apoptosis in malignant gliomas. Moreover, the formation of malignant meningioma may require the cooperation of both Ras and Akt signaling. This cooperative effect has been demonstrated by somatic-cell gene transfer, during which transfer of either an activated form of K-Ras or Akt alone to neural progenitors was insufficient to form malignant glioma in vivo, but the combined effect of both pathways could initiate gliomagenesis. Thus, based on this potential alteration in signal transduction involving K-Ras in malignant central nervous system tumors, and its ability to induce cell cycle arrest and apoptosis, perillyl alcohol (NEO100) may be an attractive agent and warrants further clinical development. Furthermore, intranasal delivery of NEO100 has the additional, potential benefit of direct drug delivery into the brain and avoiding systemic toxicity and first pass metabolism.

Intranasal delivery of NEO100 will directly penetrate meningiomas, particularly skull-based meningiomas which extend along the olfactory groove, tuberculum sella, spenoid ridge and petroclival region. These represent some of the most challenging pathologies encountered by neurosurgeons due to the meningioma depth, invasion, vascularity and relationship to critical cranial nerves and vessels.

Intranasal perillyl alcohol has been tested in a Phase I clinical trial in the US, it has also been studied in two clinical studies in Brazil in more than 275 patients with systemic cancers and in malignant glioma. The Brazil studies indicate good tolerance and no long term central nervous system (CNS) or systemic severe adverse events. Adult patients with CNS cancers received commercial (Sigma Chemical) perillyl alcohol (formulated as a 10% solution in ethanol:glycerol) administered intranasally via a commercial nasal delivery mask four times a day (110 mg/dose or 440 mg/day). Radiographic regression and a PFS-6 of 50% were reported. A pharmacokinetic study showed that perillic acid, a metabolite of perillyl alcohol, was detected in the serum of patients 30 minutes post inhalation after a single dose of 110 mg or 220 mg of perillyl alcohol and lasted for 3 hours.

Study Timeline

• Study First Submitted: 2021-08-20
• Study First Submitted QC: 2021-08-25
• Study First Posted: 2021-08-26
• Study Start: 2022-07-01
• Status Verified: 2024-10
• Last Update Submitted: 2024-10-10
• Last Update Posted: 2024-10-14
• Primary Completion: 2025-09-30
• Study Completion: 2026-09-30

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 30

Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Patients with high-grade meningioma	NEO100	30 patients with residual high-grade meningioma following resection surgery, radiographically-confirmed progression of high-grade meningioma or recurrent high-grade meningioma

Primary Outcome Measures

Name	Time	Method
Progression free survival as six months (PFS6).	6 months	Progression free survival

Secondary Outcome Measures

Name	Time	Method
Perillic acid measurement	30 days
Objective Tumor response to NEO100 as determined by RANO criteria	6 months
Overall survival	12 months

Trial Locations

Locations (1)

University of Southern California; 🇺🇸 Los Angeles, California, United States