On November 15, 2021 Aura Biosciences, a clinical-stage oncology company developing a novel class of virus-like drug conjugate (VDC) therapies for multiple oncology indications, reported the presentation of data evaluating its first VDC, AU-011, in indeterminate lesions (ILs) and choroidal melanoma (CM), including final safety and efficacy data from the Phase 1b/2 trial using intravitreal (IVT) administration, as well as updated safety results from the Phase 2 trial using suprachoroidal (SC) administration (Press release, Aura Biosciences, NOV 15, 2021, View Source [SID1234595642]). The results are presented as part of the American Academy of Ophthalmology (AAO) 2021 Annual Meeting.

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"The final safety and efficacy data from the Phase 1b/2 trial using intravitreal administration presented today, along with the data from the Phase 2 trial using suprachoroidal administration, provide a high level of confidence for further clinical development in patients with indeterminate lesions or choroidal melanoma," said Carol Shields, MD, Chief of the Ocular Oncology Service at Wills Eye Hospital and Professor of Ophthalmology at Thomas Jefferson University. "I believe AU-011 may offer patients a safe, effective first-line therapy for early-stage disease that preserves vision, a critical component in patients’ quality of life often neglected with today’s current treatment options."

Final 12-Month Safety and Efficacy Data from Phase 1b/2 Trial with IVT administration

The Phase 1b/2 trial (NCT03052127) evaluated the safety and efficacy of AU-011 using IVT administration for the treatment of ILs and CM. A total of 56 patients were enrolled in the Ph1b/2 trial including the single and multiple dose escalation cohorts and received up to two cycles of therapy (therapeutic regimen). As part of an enrichment strategy agreed with FDA, patients with small tumors with active growth were enrolled in the Phase 2 part of the study (expansion cohort). This group of patients (n=14) received the therapeutic regimen and were evaluated for the tumor growth rate, tumor control, and visual acuity preservation as the efficacy endpoints. These endpoints have been agreed with FDA and are planned to be used in the pivotal program. The results at 12 months showed a statistically significant reduction in the tumor growth rate (-0.483 mm/yr, p = 0.018) compared to each patient’s documented growth rate at study entry, and a 64% (9/14) tumor control rate. In addition, the visual acuity preservation rate was 71%, which is unprecedented compared to the current standard of care with radiotherapy. Overall, AU-011 demonstrated a favorable safety and tolerability profile. The majority of adverse events (AEs), which included intraocular inflammation and increased intraocular pressure, were transient and resolved without clinical sequelae. A large number of patients (43/56) had tumors close to the fovea and optic disk and only two patients with juxta-foveal tumors had a treatment related serious adverse event (SAE) of vision loss. No other treatment related SAEs were observed in the trial. These safety and efficacy results indicate that AU-011 may offer a targeted vision preserving therapy for the first line treatment of CM.

Safety Data from Phase 2 Trial with SC Administration

This Phase 2 trial (NCT04417530) includes an open-label, dose escalation phase assessing the safety and efficacy of AU-011 via SC administration in patients with ILs and CM and plans to enroll up to 22 patients. In this preliminary safety data review of the initial dose escalation cohorts (n=14), no treatment related SAEs, dose limiting toxicities (DLTs), or grade 3/4 AEs were reported. Preliminary results indicate a positive safety and tolerability profile for AU-011 via SC administration.

Details for the AAO 2021 Presentations are as follows:

Title: A Phase 1b/2 Trial of AU-011, a First in Class Targeted Therapy for the Treatment of Choroidal Melanoma via Intravitreal Administration
Presenter: Carol L. Shields, Wills Eye Hospital
Session: OP10 Ocular Pathology and Oculoplastics Original Paper Session
Date and time: Monday, November 15 from 9:45 – 9:52 AM CT
Location: 255-257

Title: A Phase 2 Trial of a First in Class Targeted Therapy for Choroidal Melanoma via Suprachoroidal (SC) Administration
Presenter: Hakan Demirci, Kellogg Eye Center
Session: PD08 Ocular Pathology and Oculoplastics Poster Discussion
Date and time: Available on demand beginning Friday, November 12, 2021, at 7:30am PT
Location: Virtually on demand

The presentations can be accessed by visiting the "Scientific Presentations" section of "VDC Platform" page of the Aura Biosciences website.

About Choroidal Melanoma

Choroidal melanoma is a rare and aggressive type of eye cancer. Choroidal melanoma is the most common primary intraocular tumor in adults and develops in the uveal tract of the eye. No targeted therapies are available at present, and current radiotherapy treatments can be associated with severe visual loss and other long-term sequelae such as dry eye, glaucoma, cataracts, and radiation retinopathy. The most common current treatment is plaque radiotherapy, which involves surgical placement of a radiation device on the exterior of the eye over the tumor. The alternative is enucleation, or total surgical removal of the eye. Choroidal melanoma metastasizes in approximately 50 percent of cases with liver involvement in 80-90% of cases and, unfortunately, metastatic disease is universally fatal. There is a very high unmet need for a new vision sparing targeted therapy that could enable early treatment intervention for this life-threatening rare disease given the mortality rate in metastatic disease, lack of approved therapies, and the comorbidities of radioactive treatment options.

About AU-011

AU-011 is a first-in-class virus-like drug conjugate (VDC) therapy in clinical development for the first line treatment of choroidal melanoma. The virus-like component of the VDC selectively binds unique heparin sulphate proteoglycans (HSPGs), which are modified and overexpressed on the tumor cell surface of malignant cells in the choroid and AU-011 delivers a potent cytotoxic drug that is activated with infrared light. Upon activation with an ophthalmic laser, the cytotoxic drug rapidly and specifically disrupts the cell membrane of malignant cells with a pro-immunogenic cell death that can activate the immune system generating long term anti-tumor immunity. The unique specificity of tumor binding by the VDC enables the preservation of key eye structures, which may allow for the potential of preserving patients’ vision and reducing other long-term complications of radiation treatment. AU-011 can be delivered using equipment commonly found in an ophthalmologist’s office and does not require a surgical procedure, pointing to a potentially less invasive, more convenient therapy for patients and physicians. AU-011 for the treatment of choroidal melanoma is currently in Phase 2 clinical development and the company plans to expand the clinical program into choroidal metastasis.

About Suprachoroidal Administration

The suprachoroidal space (SCS) injection treatment approach offers unprecedented access to the back of the eye where sight-threatening disease often occurs. Aura believes that delivering AU-011 into SCS within the eye, has the potential to offer certain advantages, including higher bioavailability at the tumor site and reduced exposure of non-targeted tissues, which may lead to an improved therapeutic index for AU-011. Collectively, these features could allow for the treatment of a wider range of tumor sizes, and, therefore, a larger number of patients may be treatable. The Company is partnered with Clearside Biomedical for use of Clearside’s SCS Microinjector for administration of AU-011 into the SCS.

On November 15, 2021 NiKang Therapeutics Inc. ("NiKang"), a clinical stage biotech company focused on developing innovative small molecule oncology medicines to help patients with unmet medical needs, reported that the first patient has been dosed in a phase 1/2, open-label, dose escalation and expansion study of single agent NKT2152, a small molecule that inhibits hypoxia inducible factor 2α (HIF2α). HIF2α is a transcription factor implicated in the development and progression of cancer including clear cell renal cell carcinoma (ccRCC) (Press release, NiKang Therapeutics, NOV 15, 2021, View Source [SID1234595641]).

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"The initiation of this study represents an important milestone for this program," said Zhenhai Gao, Ph.D., co-founder, president, and CEO of NiKang. "We are excited to bring NKT2152, our second targeted agent, into clinical development. We look forward to exploring multiple opportunities for this compound as a monotherapy and in combination with other drugs in treating cancers."

The first-in-human trial is designed to evaluate the safety, tolerability, pharmacokinetics, pharmacodynamics and clinical activity of NKT2152 in patients with advanced ccRCC. Patients with relapsed or refractory ccRCC will be eligible to screen for enrollment. NKT2152 will be administered orally and treatment will continue until there is evidence of unacceptable treatment-related toxicity or disease progression.

On November 15, 2021 Asher Biotherapeutics, a biotechnology company developing precisely-targeted immunotherapies for cancer, autoimmune, and infectious diseases, reported that company management will participate in the following upcoming investor conferences (Press release, Asher Biotherapeutics, NOV 15, 2021, View Source [SID1234595640]):

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Piper Sandler 33rd Annual Virtual Healthcare Conference
Craig Gibbs, Ph.D., Chief Executive Officer, will pre-record a corporate presentation, which will become available to registered conference attendees on Monday, November 22, 2021 at 10:00 a.m. ET (7:00 a.m. PT). Company management will be participating in 1×1 meetings on Monday, November 29, 2021.

Evercore ISI 4th Annual HealthconX Conference
Craig Gibbs, Ph.D., will participate in a fireside chat on Wednesday, December 1, 2021 at 10:05 a.m. ET (7:05 a.m. ET). Company management will be participating in 1×1 meetings on Wednesday, December 1, 2021.

On November 15, 2021 Novocure (NASDAQ: NVCR) reported that Dr. David Tran, Chief of the Division of Neuro-Oncology at the McKnight Brain Institute at the University of Florida, has released updated data from the phase 2 pilot 2-THE-TOP trial testing the safety and efficacy of Tumor Treating Fields (TTFields) together with pembrolizumab and temozolomide for the treatment of adult patients with newly diagnosed glioblastoma (GBM) (Press release, NovoCure, NOV 15, 2021, View Source [SID1234595639]). In patients with greater than 9 months of follow-up, median progression-free survival, the primary endpoint, was at least 11.2 months. 24% of patients achieved partial to complete response. Dr. Tran will present these data at the Society for Neuro-Oncology (SNO) 2021 Annual Meeting in Boston on November 19, 2021.

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"These data show that Tumor Treating Fields have the potential to activate the pathways needed to create an effective, anti-cancer environment in the tumor," said Dr. Ely Benaim, Novocure’s Chief Medical Officer. "The results published today suggest a potential paradigm shift in how we approach treatment of patients with newly diagnosed glioblastoma."

"We are very encouraged by the results of the 2-THE-TOP study, especially in light of the poor prognostic factors of the patient population," said William Doyle, Novocure’s Executive Chairman. "Dr. Tran’s research is an important continuation of our exploration of synergies between TTFields and immunotherapy agents. We would like to thank Dr. Tran and the patients enrolled in the 2-THE-TOP trial for their ingenuity and courage."

Twenty-five patients with a median age of 61 years were enrolled in the 2-THE-TOP study, with a median follow-up of 14.7 months. Eight (32%) had biopsy only and partial resection, respectively. Eighteen (72%) had unmethylated MGMT and 3 (12%) had an IDH mutation. Twelve (48%) were progression-free, and 15 (60%) were still alive. Of the 19 patients with follow-up greater than 9 months, the median progression-free survival was at least 11.2 months compared to 6.7 months from the historical control study, EF-14, in which patients received TTFields and adjuvant temozolomide. Six (24%) patients with measurable tumors achieved partial or complete response. 193,760 peripheral blood mononuclear cells were sequenced in 12 patients before pembrolizumab and detected robust post-TTFields T cell activation in 11 of 12 patients via the T1IFN trajectory with a strong correlation with the TCRαβ clonal expansion Simpson index (Spearman coefficient r=-0.8, P=0.014). The study defined a T cell-based gene signature of TTFields effects on TCRαβ clonal expansion. The most common adverse events were thrombosis (4 patients, 16%), seizure (3 patients, 12%), and metabolic disturbances (2 patients, 8%).

The 2-THE-TOP trial is a phase 2 pilot trial designed for the treatment of patients with newly diagnosed GBM. Patients enrolled in the trial underwent maximal tumor resection followed by standard chemoradiation. Following the completion of chemoradiation, patients began a course of monthly cycles of adjuvant temozolomide. Treatment with TTFields started at approximately the same time as the first cycle of adjuvant temozolomide. Pembrolizumab was introduced in the second cycle of treatment and subsequent cycles of pembrolizumab were administered every three weeks until first disease progression or unacceptable toxicities or 2 years, whichever comes first.

About EF-14

The EF-14 trial was a randomized, phase 3 pivotal trial which compared, post radiation, TTFields plus temozolomide versus temozolomide alone for the treatment of newly diagnosed GBM. Median progression-free survival, the primary endpoint, was 6.7 months for TTFields plus temozolomide versus 4.0 months for temozolomide alone. Median overall survival was 20.9 months for TTFields plus temozolomide versus 16.0 months for temozolomide alone.

About Tumor Treating Fields

Tumor Treating Fields, or TTFields, are electric fields that disrupt cancer cell division. Fundamental scientific research extends across more than two decades and, in all preclinical research to date, TTFields have demonstrated a consistent anti-mitotic effect. TTFields therapy is intended principally for use together with other standard-of-care cancer treatments. There is a growing body of evidence that supports TTFields’ broad applicability with certain other cancer therapies, including radiation therapy, certain chemotherapies and certain immunotherapies. In clinical research and commercial experience to date, TTFields therapy has exhibited no systemic toxicity, with mild to moderate skin irritation being the most common side effect. The TTFields global development program includes a network of preclinical collaborators and a broad range of clinical trials across all phases, including four phase 3 pivotal trials in a variety of tumor types. To date, more than 20,000 patients have been treated with TTFields therapy.

On November 15, 2021 Novocure (NASDAQ: NVCR) reported 31 presentations on Tumor Treating Fields (TTFields) will be featured at the Society for Neuro-Oncology (SNO) 2021 Annual Meeting from Nov. 18 to Nov. 21 in Boston (Press release, NovoCure, NOV 15, 2021, View Source [SID1234595638]). The presentations cover a broad range of topics, with 22 of the 31 presentations prepared by external authors.

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One of the oral presentations will feature updated data from the 2-THE-TOP study treating 25 patients with newly diagnosed glioblastoma (GBM) with TTFields plus pembrolizumab and temozolomide. In patients with greater than 9 months of follow-up, median progression-free survival, the primary endpoint, was at least 11.2 months with activation of adaptive immunity.

"We are excited to gather, participate and share information on Tumor Treating Fields at the SNO 2021 Annual Meeting, one of the most important neuro-oncology conferences worldwide," said Dr. Ely Benaim, Novocure’s Chief Medical Officer. "More than 300 presentations on Tumor Treating Fields have been shared at SNO over the past 14 years. We look forward to driving further awareness and understanding of our therapy as an important treatment for solid tumors."

Oral Presentations

(CTIM-16) Phase 2 study of pembrolizumab plus TTFields plus temozolomide in patients with newly diagnosed GBM (2-THE-TOP trial). Lead author and presenter: David D. Tran. 5:05 p.m. to 5:10 p.m. EST Friday, Nov.19. (Clinical Trials Session I)

Induction of anti-tumor immunity in glioblastoma using Tumor Treating Fields. Presenter: David D. Tran. 11:30 a.m. to 11:50 a.m. EST Sunday, Nov. 21. (Emerging Technologies in Radiation Science Session)

Poster Presentations

All occurring 7:30 p.m. to 9:30 p.m. EST Friday, Nov. 19 in Exhibit Hall D

Clinical

(INNV-22) Factors guiding the initiation of Tumor Treating Fields (TTFields; 200 kHz) therapy for glioblastoma: self-reported patient and oncologist perspectives. Lead author and presenter: Peggy Frongillo.

(SURG-06) The safety profile of Tumor Treating Fields (TTFields; 200 kHz) concomitant with ventriculo-peritoneal shunts in patients with glioblastoma and hydrocephalus. Lead author: Nancy Ann Oberheim-Bush. Presenter: Wenyin Shi.

(CTNI-09) TRIDENT phase 3 trial (EF-32): first-line Tumor Treating Fields (TTFields; 200 kHz) concomitant with chemo-radiation, followed by maintenance TTFields/temozolomide in newly-diagnosed glioblastoma. Lead author and presenter: Wenyin Shi.

(QOLP-31) Quality of life of patients with newly diagnosed glioblastoma during TTFields therapy in routine clinical care: first results of the TIGER study. Lead author and presenter: Oliver Bähr.

(INNV-07) TTFields treatment of gliosarcoma and recurrent anaplastic oligodendroglioma. Lead author and presenter: Nicholas A. Blondin.

(INNV-10) TTFields as maintenance therapy for an oligodendroglioma case and long-term follow-up. Lead author and presenter: Uvin Ko.

(CTNI-11) Tumor Treating Fields combined with second-line chemotherapy in recurrent glioblastoma: a matched retrospective study. Lead author and presenter: Yonggao Mou.

(CTNI-52) Retrospective analysis of using radiotherapy with concurrent temozolomide and Tumor Treating Fields for Chinese patients with newly diagnosed glioblastoma. Lead author and presenter: Yang Wang.

(NCOG-14) Real-World retrospective analysis of Tumor Treating Fields in the treatment of high-grade glioma based on Chinese population. Lead author and presenter: Zhiyong Qin.

(NIMG-34) Delayed pseudoprogression in glioblastoma patients treated with TTFields: a report of two cases. Lead author and presenter: Norihiko Saito.

(CTNI-38) PriCoTTF trial: a phase I/II trial of TTFields prior and concomitant to radiotherapy in newly diagnosed glioblastoma. Lead author and presenter: Sied Kebir.

(RADT-13) SPARE trial: Scalp-sparing radiation with concurrent temozolomide and Tumor Treating Fields for patients with newly diagnosed glioblastoma. Lead author and presenter: Ryan C. Miller.

(CTNI-19) Concurrent chemoradiation and Tumor Treating Fields (TTFields; 200 kHz) for patients with newly diagnosed glioblastoma may increase the rate of distant recurrence. Lead author and presenter: Ayesha S. Ali.

(RADT-22) Concurrent TTFields (200 kHz) with chemoradiation for patients with newly diagnosed glioblastoma may increase the rate of pseudoprogression: analysis of a pilot clinical trial. Lead author and presenter: Muneeb Niazi.

(INNV-18) Effect of duration of Tumor Treating Fields therapy on cellularity distributions beyond T1w MRI contrast enhancing margin at autopsy in glioma patients: preliminary results. Lead author and presenter: Samuel Bobholz.

(INNV-13) Understanding factors that influence the decision of accepting Tumor Treating Fields therapy. Lead author and presenter: Priya U. Kumthekar.

(QOLP-10) A longitudinal observational study of exercise behavior in glioblastoma patients treated with Tumor Treating Fields. Lead author and presenter: Katherine B. Peters.

Preclinical

(EXTH-75) Application of Tumor Treating Fields (TTFields) to the head and torso of mice with the dedicated inovivo system. Lead author: Shiri Davidi. Presenter: Moshe Giladi.

(EXTH-74) Increasing cancer cell membrane permeability through application of Tumor Treating Fields (TTFields). Lead author: Tali Voloshin. Presenter: Moshe Giladi.

(DDRE-46) Reduced cancer cell sensitivity to Tumor Treating Fields (TTFields) through activation of the PI3K/AKT/mTOR signaling pathway can be mitigated using PI3K inhibitors or PI3K/mTOR dual inhibitors. Lead author: Anat Klein-Goldberg. Presenter: Moshe Giladi.

(EXTH-05) Tumor Treating Fields in combination with the TERT-inhibitor eribulin have synergistic antiproliferative effects on human glioblastoma cells. Lead author: Piet Beusker. Presenter: Marco Stein.

(CBIO-02) In vitro Tumor Treating Fields (TTFields) reduce proliferation and alter MLH1 expression in temozolomide resistant (TMZR) patient-derived glioblastoma (GBM) cells. Lead author and presenter: Sharon K. Michelhaugh.

(CSIG-09) Assessment of Tumor Treating Fields (TTFields) combined with trichostatin A (TSA) in patient-derived glioblastoma (GBM) cells. Lead author and presenter: Manxiu Ma.

(DDRE-13) Prostaglandin E receptor 3 (PTGER3) regulates resistance to Tumor Treating Fields (TTFields) in glioblastoma cells. Lead author and presenter: Dongjiang Chen.

(IMMU-35) Induction of anti-tumor immunity by Tumor Treating Fields (TTFields) in glioblastoma. Lead author and presenter: Dongjiang Chen.

(EXTH-76) Developing the novel combination therapy options for cancer therapy using Tumor Treating Fields together with the chemo agents targeting the replication stress pathway. Lead author and presenter: Narasimha Kumar Karanam.

Physics

(RBIO-01) Developing the framework for Tumor Treating Fields (TTFields) treatment planning for a patient with astrocytoma in the spinal cord. Lead author: Jennifer de Los Santos. Presenter: Tal Marciano.

(RBIO-06) Mechanism of action and associated effects of Tumor Treating (TTFields) on living cells using simulations. Lead author and presenter: Tal Marciano.

(CTNI-44) Dosimetric impact of Tumor Treating Fields on concurrent radiation therapy for pediatric brain tumors. Lead author and presenter: Michelle Quan.

About Tumor Treating Fields

Tumor Treating Fields, or TTFields, are electric fields that disrupt cancer cell division. Fundamental scientific research on TTFields extends across more than two decades and, in all preclinical research to date, TTFields have demonstrated a consistent anti-mitotic effect. TTFields therapy is intended principally for use together with other standard-of-care cancer treatments. There is a growing body of evidence that supports TTFields’ broad applicability with certain other cancer therapies, including radiation therapy, certain chemotherapies and certain immunotherapies. In clinical research and commercial experience to date, TTFields therapy has exhibited no systemic toxicity, with mild to moderate skin irritation being the most common side effect. The TTFields global development program includes a network of preclinical collaborators and a broad range of clinical trials across all phases, including four phase 3 pivotal trials in a variety of tumor types. To date, more than 20,000 patients have been treated with TTFields therapy.