On June 3, 2021 Cannabics Pharmaceuticals Inc. (OTCQB: CNBX), a global leader in the development of cancer related cannabinoid-based medicine, reported the launching of a new research program for the development of a Breast Cancer antitumor targeting medicine (Press release, Cannabics Pharmaceuticals, JUN 3, 2021, View Source [SID1234583491]).

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The announcement comes following the launching of a Melanoma research program in April 2021, and as the company is gearing up for submission of a pre-IND meeting package and meeting request to the US Food and Drug Administration regarding its Colorectal Cancer treatment drug candidate RCC-33.

Gabriel Yariv, Cannabics Pharmaceuticals President and COO, said: "We have successfully completed a series of preclinical experiments in our in-house research facilities and have identified promising antitumor results on Breast Cancer cell lines. Based on these encouraging results, we now plan further research aimed at developing a new drug candidate for the treatment of Breast Cancer."

Eyal Barad Cannabics Pharmaceuticals’ Co-founder and CEO commented: "This new research project for Breast Cancer is evidence of how the company can leverage its unique expertise and experience to develop new antitumor formulas using our own drug discovery platform. This Breast Cancer research project is the third cancer treatment project we have launched after Colorectal Cancer and Melanoma, and I expect that additional projects will follow in the near future."

Breast cancer is the most common invasive cancer in women, and it is the most commonly diagnosed type of cancer globally along with lung cancer. According to the World Health Organization, in 2020, approximately 2.3M cases of Breast Cancer were diagnosed worldwide, and some 685,000 related deaths occurred globally.

On June 3, 2021 Geneos Therapeutics, a clinical stage company focused on the development of tumor neoantigen targeted personalized immunotherapies for cancer, reported that positive preliminary results of its ongoing first-in-human trial (Press release, Geneos Therapeutics, JUN 3, 2021, View Source [SID1234583490]). GT-30 is a phase I/II trial of personalized vaccine, GNOS-PV02, in combination with plasmid pIL-12 and pembrolizumab in patients in second line advanced hepatocellular carcinoma (HCC).

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As of May 13, 2021, 12 patients had initiated treatment in the GT-30 trial and received at least 1 dose of their combination therapy. The treatment was generally safe and well tolerated with no treatment related serious adverse events noted on the trial. Ten patients had reached at least the first on-treatment imaging timepoint of 9 weeks to enable evaluation of objective response by RECIST 1.1. The best overall response by the data cut-off date consisted of 3 patients achieving a partial clinical response (PR); 4 patients demonstrated stable disease (SD); and 3 patients had progressive disease (PD); representing an overall response rate (ORR) of 3/10 (30%) and a disease control rate of 7/10 (70%). The observed ORR of anti-PD1 alone monotherapy is 14%-17% in the 2nd line advanced HCC setting. Immune analysis of the pre-treatment and on-treatment patient samples demonstrated the induction and expansion of T cell clones in the peripheral blood and infiltration of T cells in the tumor tissue following vaccination.

Dr. Mark Yarchoan, Assistant Professor of Oncology, Johns Hopkins University will discuss the clinical trial design and advantages of Geneos’ GT-EPIC platform in an oral poster presentation titled:

Abstract #: TPS2680
"Personalized DNA neoantigen vaccine in combination with plasmid IL-12 and pembrolizumab for the treatment of patients with advanced hepatocellular carcinoma." – Yarchoan et al

Geneos is also presenting data from its ongoing collaboration with Dr. Tanner Johanns and colleagues at Washington University School of Medicine to treat a patient with newly diagnosed anaplastic astrocytoma/GBM under a single patient compassionate use IND. The patient is undergoing monotherapy treatment with their personalized cancer vaccine (GNOS-PV) and pIL12 in an adjuvant setting following resection of their tumor. As of the ASCO (Free ASCO Whitepaper) 2021 conference date the patient remains recurrence free 36 months since primary surgery and 23 months since initiation of the GNOS-PV + pIL12 treatment. The interim data demonstrated that the treatment was generally well tolerated with no treatment related serious adverse events. The patient received a vaccine comprising of 30 tumor antigens including 27 cancer neoantigens and 3 shared antigens. On-treatment immune analysis showed the induction and persistence of neoantigen directed T cells in the patient’s blood to 28 of 30 (93%) encoded antigens following GNOS-PV + pIL12 treatment.

Abstract #: e14561
"Personalized DNA neoantigen vaccine in combination with plasmid IL-12 for the treatment of a patient with anaplastic astrocytoma." – Johanns et al

"We are encouraged by the interim data from our personalized cancer vaccine program showing tumor shrinkage in combination with anti-PD1. Our GT-EPIC platform’s ability to drive CD8 T cells leading to meaningful clinical responses in intractable tumors is exciting," said Dr. Niranjan Y. Sardesai, President and CEO of Geneos Therapeutics. "A distinguishing feature of our HCC trial is that all the patients receive their first dose of GNOS-PV02+pIL12 at the same time as they receive their first dose of PD1 thus enabling direct comparison to the historical responses achieved by PD1 alone. These early data represent the first objective responses reported in HCC patients with plasmid DNA encoded cancer vaccines."

On June 3, 2021 Foresight Diagnostics, a privately-held cancer diagnostic company, reported that two abstracts that report the clinical performance of its minimal residual disease (MRD) detection platform in diffuse large B-cell lymphoma (DLBCL) and non-small cell lung cancer (NSCLC) were chosen for presentation at the virtual 2021 American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) Annual Meeting on June 4-8, 2021 (Press release, Foresight Diagnostics, JUN 3, 2021, View Source [SID1234583489]).

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The posters demonstrate the utility of Foresight Diagnostics proprietary PhasED-Seq technology to improve MRD detection rates in low disease burden settings in DLBCL and NSCLC patients.

Details of the posters to be presented:
Abstract 7565: Phased variants improve DLBCL minimal residual disease detection at the end of therapy

Detection of circulating tumor DNA (ctDNA) has prognostic value in DLBCL and could facilitate minimal residual disease (MRD) driven approaches. ctDNA detection has potential to change management of DLBCL in the clinic, however detection is still challenging in low-disease burden states (i.e., detection of MRD at the end of therapy). It is shown that phased variants (PVs) are common in B-cell lymphomas and occur in stereotyped locations, enabling an ‘off-the-shelf’ approach that does not require tumor tissue or patient-specific customization. PhasED-Seq (Phased Variant Enrichment & Detection Sequencing) can identify and track PVs for improved ctDNA MRD detection down to parts-per-million levels. The PhasED-Seq technology improves MRD detection compared to SNV-based methods at interim and end-of-treatment time-points for DLBCL.

Abstract 8518: Leveraging phased variants for personalized minimal residual disease detection in localized non-small cell lung cancer

The sensitivity of existing MRD methods that track single nucleotide variants (SNVs) is suboptimal due to the background error rates of SNVs. Phased variants (PVs) have a lower background error-rate than SNVs resulting in improved ctDNA MRD detection rates. PhasED-Seq was developed and applied to detect low-burden MRD in localized-stage lung cancer. PhasED-Seq improves MRD detection rates in lung cancer patients with low disease burden while maintaining high specificity. Phased variants were found to be common in most tumor types and can be applied to other cancers.

Due to the virtual nature of the annual meeting, pre-recorded presentations of each poster will be released for on-demand viewing on June 4, 2021 at 9:00 AM (EDT).

"We are pleased to present this compelling data on the PhasED-Seq technology at ASCO (Free ASCO Whitepaper) this year," says David Kurtz (MD/PhD), a Stanford University professor and co-founder of Foresight Diagnostics who will present the abstracts. "We show that PhasED-Seq more accurately distinguishes between patients who were cured and patients in need of additional therapy following curative intent treatment. This improved sensitivity for MRD detection in low-disease-burden settings will pave the way for adapted approaches to personalized therapy and novel clinical trial designs."

Learn more about attending the 2021 ASCO (Free ASCO Whitepaper) Annual Meeting at View Source

On June 3, 2021 GenesisCare—one of the leading oncology providers in the United States, Australia, Spain, and the United Kingdom—reporteded it will administer the first commercially available dose of Lantheus’ new prostate cancer imaging agent, PYLARIFY (piflufolastat F 18) Injection (Press release, Lantheus Medical Imaging, JUN 3, 2021, https://www.prnewswire.com/news-releases/lantheus-selects-genesiscare-to-administer-first-commercial-dose-of-pylarify-the-first-and-only-fda-approved-psma-pet-imaging-agent-for-men-with-prostate-cancer-301305363.html [SID1234583488]). As a fluorinated PSMA-targeted PET imaging agent, PYLARIFY helps determine and monitor the presence or absence of recurrent and/or metastatic prostate cancer (cancer that has spread throughout the body). *With more than 3.1 million men living with prostate cancer, it is the second leading cancer-related cause of death for men, and there is an urgent need to find better ways to diagnose, monitor, and cure this disease.

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"We continue to strive to deliver exceptional cancer treatments that offer the best possible life outcomes. This innovative new imaging agent will help us deliver meaningful prostate cancer treatment options that may significantly improve patient’s lives," said Dan Collins, Founder and CEO, GenesisCare. "Being selected by Lantheus to partner and to administer the first dose of PYLARIFY is an honor, and it’s humbling to know that GenesisCare will be potentially helping men with prostate cancer while improving access to high-quality care for our patients."

Prostate cancer is a common and usually slow-growing cancer. Over 60% of men 65+ years are eventually diagnosed with prostate cancer.[Source: American Cancer Society, Key Statistics for Prostate Cancer] Until now, testing for metastatic prostate cancer has been limited, and healthcare providers have had to rely on PSA blood tests and less sensitive imaging tests, such as bone scans and CT.

"When a prostate cancer patient has a rising PSA blood test after initial therapy, whether it is post-surgery or post-radiotherapy, we find that conventional imaging studies are often inadequate in identifying early stages of disease recurrence with any high degree of reliability or accuracy," said Dr. Kishore K. Dass, Radiation Oncologist, GenesisCare. "PSMA PET imaging allows clinicians to detect areas of early prostate cancer recurrences and thereby allows us to properly target the exact areas of tumor recurrences. The positive predictive value of PYLARIFY PET imaging over conventional imaging in men with high-risk prostate cancer will revolutionize the management of this disease while improving patient outcomes."

"Innovations such as PYLARIFY will expand our capability to care for men with prostate cancer," said Wally Curran, MD, GenesisCare Global Chief Medical Officer. "From diagnosis, active surveillance, surgery, radiation therapy, and more – GenesisCare physicians will consider those innovative approaches that are tailored to meeting each patients’ individual needs. We support breakthrough advances in diagnostics and therapeutics, and adding PYLARIFY into our available options is a natural fit."

Upon administering this first dose in Boca Raton, GenesisCare plans to continue to add the agent to a number of centers across the U.S.

"Nuclear medicine, including PYLARIFY PET imaging, is now a pivotal medical specialty that can transform patients by optimizing treatment selection," said Dr. Neal D. Shore, U.S. Chief Medical Officer of Surgery and Urology, GenesisCare. "The approval by the FDA for public use of this PET PSMA imaging agent provides critical accessibility which will improve prostate cancer patient management nationwide."

As a leading provider of oncology services globally, GenesisCare strives to ensure the best possible life outcomes for its patients by bringing integrated cancer care, research, and medical technology together for each individual. With its origins in radiation oncology, GenesisCare has, in recent years, expanded its services to include medical oncology, urology and surgery, and nuclear medicine, a rapidly developing field of oncology care.

For more information on GenesisCare, visit genesiscare.com/us (formerly 21st Century Oncology). To view the complete list of precautions GenesisCare U.S. centers are taking to ensure patient and staff safety, visit View Source

On June 3, 2021 Novartis reported the final analysis from the NETTER-1 phase III study comparing treatment using Lutathera (INN: lutetium (177Lu) oxodotreotide / USAN: lutetium Lu 177 dotatate) plus 30 mg octreotide LAR to 60 mg of octreotide LAR in patients with midgut neuroendocrine tumors (Press release, Novartis, JUN 3, 2021, View Source [SID1234583487]). The previously reported primary analysis of the trial demonstrated a statistically significant improvement in progression free survival (PFS) (HR: 0.18*, p < 0.0001)3. In the final analysis of overall survival, a secondary objective of the trial, treatment with Lutathera resulted in a clinically relevant prolongation in median overall survival of 11.7 months [48.0 months (95%CI: 37.4-55.2) compared to the control arm (36.3 months (95%CI: 25.9-51.7)]1. While this analysis did not reach statistical significance (Hazard ratio for OS (HR): 0.84 with 95% CI: (0.60, 1.17) (p=0.30, two-sided))1, the analyses of overall survival may have been impacted by multiple factors, including the crossover of patients from the control arm receiving subsequent radioligand therapy (36% of patients) as well as heterogenous subsequent anti-cancer treatments in both study arms1. No new safety signals emerged in the final analysis1. These results will be presented during the 2021 American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) Annual Meeting on June 4.

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Jonathan Strosberg, MD, Principal Investigator and Associate Professor, Section Head, Neuroendocrine Tumor Program at Moffitt Cancer Center, said, "Lutathera plus long-acting octreotide was associated with a nearly 12-month difference in median overall survival compared to high-dose long-acting octreotide in these difficult to treat patients with inoperable midgut NETs progressing under standard dose octreotide LAR treatment. While not statistically significant, I consider this difference to be clinically relevant for these patients. It is also important to emphasize that PFS was the primary endpoint of this study. Moreover, 36% of patients in the control arm crossed over to receive subsequent radioligand treatment, which may have impacted the comparison of survival between both study arms."

"We are proud of our 30-year legacy as an innovator for patients in the neuroendocrine tumor community," said John Tsai, Head of Global Drug Development and Chief Medical Officer for Novartis. "Since its approval by the European Commission in 2017 and the FDA in 2018, Lutathera has been administered to more than 9,000 gastroenteropancreatic neuroendocrine tumor (GEP-NET) patients in Europe and the United States1. We believe in the potential of targeted radioligand therapy and are investing in new discovery and expansion of this important platform, including exploration of new radioisotopes and combinations with complementary mechanisms of action, such as immunotherapy and inhibitors of DNA damage response."

At this final analysis, no new safety signals emerged in the long-term safety follow-up with a median of 6.3 years. In terms of secondary hematological malignancies, no new cases of MDS or acute leukemia were reported in the long term follow up4.

Radioligand therapy combines a targeting compound that binds to receptors expressed by tumors and a radioactive isotope, causing DNA damage that inhibits tumor growth and replication and may lead to cell death5-7. In the case of Lutathera, it binds to somatostatin receptor type 2, which is over-expressed on certain types of cells, such as gastroenteropancreatic neuroendocrine tumor cells8,9.

Novartis has established global expertise and specialized supply chain and manufacturing capabilities across its network of four radioligand therapy production sites, and is further increasing capacity to ensure delivery of future targeted radioligand therapies to patients in need. Novartis is the only pharmaceutical company which is pursuing four different cancer treatment platforms. These include targeted radioligand therapy, cell and gene therapy, targeted therapy and immunotherapy, with an opportunity to combine these platforms for the best outcomes for each cancer patient.

Visit View Source for the latest information from Novartis, including our commitment to the Oncology community, and access to our ASCO (Free ASCO Whitepaper)21 Virtual Scientific Program data presentations (for registered participants).

* HR: 0.21 (0.13, 0.32) in the US Package Insert

About NETTER-1
NETTER-1 is a Phase III international, multicenter, controlled, randomized study that compared treatment using Lutathera every eight weeks plus best standard of care (octreotide LAR 30 mg) to 60 mg of octreotide LAR (dosed every four weeks) in patients with inoperable midgut NETs progressing under standard dose octreotide LAR treatment and overexpressing somatostatin receptors3.

The primary endpoint was to compare the progression-free survival (PFS) after treatment with Lutathera plus octreotide LAR 30 mg versus octreotide LAR 60 mg using RECIST 1.1 criteria3. Secondary trial endpoints included comparing objective response rate, overall survival, time to tumor progression, duration of response and safety between the two study arms3.

About GEP-NETs
Neuroendocrine tumors (NETs) are a type of cancer that originate in neuroendocrine cells throughout the body. NETs are commonly considered slow-growing malignancies. However, some NETs are associated with rapid progression and poor prognosis10-11. In many cases, NET diagnosis is delayed until patients have advanced disease12. Symptoms such as fatigue, diarrhea, and abdominal pain can occur on a daily basis13. Gastroenteropancreatic neuroendocrine tumors (GEP-NETs) are subdivided into two categories: tumors of the gastrointestinal (GI) tract and pancreas14. There is a need for additional treatment options for inoperable or advanced GEP-NET, including those who have progressed while taking first-line somatostatin analogs.

The estimated age-adjusted incidence, or rate of new cases of NETs in the United States is approximately 6.98/100,000 per year (as of 2012), while the estimated 20-year limited-duration prevalence for 2014, based on the National Cancer Institute’s Surveillance, Epidemiology, and End Results (SEER) database, was 171,32111. Even though NETs have historically been considered to be rare (orphan disease), their incidence has grown over 500% over the last 3 decades 10,11,12,15.

About Lutathera
Lutathera (lutetium Lu 177 dotatate) is an Advanced Accelerator Applications product approved in the United States for the treatment of somatostatin receptor-positive gastroenteropancreatic neuroendocrine tumors (GEP-NETs), including foregut, midgut and hindgut neuroendocrine tumors in adults16.

Lutathera (lutetium (177Lu) oxodotreotide) is also approved in Europe for the treatment of unresectable or metastatic, progressive, well differentiated (G1 and G2), somatostatin receptor positive gastroenteropancreatic neuroendocrine tumors (GEP-NETs) in adults3.

Important Safety Information
LUTATHERA (lutetium Lu 177 dotatate) is a prescription medicine used to treat adults with a type of cancer known as gastroenteropancreatic neuroendocrine tumors (GEP-NETs) that are positive for the hormone receptor somatostatin, including GEP-NETs in the foregut, midgut, and hindgut.

LUTATHERA is associated with some serious safety considerations, and in some cases these may require a healthcare provider to adjust or stop treatment. Treatment with LUTATHERA will expose patients to radiation which can contribute to long-term radiation exposure. Overall radiation exposure is associated with an increased risk for cancer. The radiation will be detectable in urine for up to 30 days following administration of the drug. It is important to minimize radiation exposure to household contacts consistent with good radiation safety practices as advised by your healthcare provider. Treatment with LUTATHERA increases the risk of myelosuppression, a condition in which bone marrow activity is decreased, resulting in a drop in blood cell counts. You may experience blood-related side effects such as low red blood cells (anemia), low numbers of cells that are responsible for blood clotting (thrombocytopenia), and low numbers of white blood cells (neutropenia). Speak with your healthcare provider if you experience any signs or symptoms of infection, fever, chills, dizziness, shortness of breath or increased bleeding or bruising. Other serious conditions that you may develop as a direct result of treatment with LUTATHERA include blood and bone marrow disorders known as secondary myelodysplastic syndrome and cancer known as acute leukemia. Your healthcare provider will routinely check your blood cell counts and tell you if they are too low or too high. Treatment with LUTATHERA will expose kidneys to radiation and may impair their ability to work as normal. You may be at an increased risk for kidney problems after LUTATHERA treatment if you already have kidney impairment before treatment. In some cases, patients have experienced kidney failure after treatment with LUTATHERA. Your healthcare provider will provide you with an amino acid solution before, during, and after LUTATHERA to help protect your kidneys. You should stay well hydrated before, during, and after your treatment. You should urinate frequently during and after administration of LUTATHERA. Your doctor will monitor your kidney function and may withhold, reduce, or stop your LUTATHERA treatment accordingly. In clinical studies of LUTATHERA, less than 1% of patients were reported to have tumor bleeding (hemorrhage), swelling (edema) or tissue damage (necrosis) to the liver. If you have tumors in your liver, you may be more likely to experience these side effects. Signs that you may be experiencing liver damage include increases in blood markers called ALT, AST and GGT. Your healthcare provider will monitor your liver using blood tests and may need to withhold, reduce, or stop your LUTATHERA treatment accordingly. During your treatment you may experience certain symptoms that are related to hormones released from your cancer. These symptoms may include flushing, diarrhea, difficulty breathing (bronchospasm), and low blood pressure (hypotension), and may occur during or within the 24 hours after your first LUTATHERA treatment. Your healthcare provider will monitor you closely. Speak with your healthcare provider if you experience any of these signs or symptoms. Tell your healthcare provider if you are pregnant. LUTATHERA can harm your unborn baby. Females should use an effective method of birth control during treatment and for 7 months after the final dose of LUTATHERA. Males with female partners should use an effective method of birth control during treatment and for 4 months after the final dose of LUTATHERA. You should not breastfeed during treatment with LUTATHERA and for 2.5 months after your final dose of LUTATHERA. Treatment with LUTATHERA may cause infertility. This is because radiation absorbed by your testes or ovaries over the treatment period falls in the range of exposure where temporary or permanent infertility may occur.

The most common and most serious side effects of LUTATHERA include: vomiting, nausea, decreased blood cell counts, increased liver enzymes, decreased blood potassium levels, and increased blood glucose. Talk to your doctor if you experience any of these, or any other side effects.

Tell your healthcare provider if you are taking any other medications. Somatostatin analogs and corticosteroids may affect how your LUTATHERA treatment works. You should stop taking your long-acting somatostatin analog at least 4 weeks before LUTATHERA treatment. You may continue taking short-acting somatostatin analogs up to 24 hours before your LUTATHERA treatment. Avoid repeated high doses of glucocorticosteroids during treatment with LUTATHERA.