On September 17, 2021 Celsion Corporation (NASDAQ: CLSN), a clinical-stage company focused on DNA-based immunotherapy and next-generation vaccines, and Hainan Poly Pharm Co. Ltd. (Shenzhen Stock Exchange 300630.SZ), a generics manufacturer dedicated to providing therapeutic-value products and services to patients and customers around the world, reported an amendment to their existing contract manufacturing agreement to include development work for Celsion’s investigational DNA-based COVID-19 vaccine (Press release, Celsion, SEP 17, 2021, View Source [SID1234590266]). Under the terms of the amended agreement, Poly Pharm will manufacture clinical batches and, if approved for use, will also manufacture commercial batches for Celsion’s vaccine based on its TheraPlas technology. TheraPlas underlies Celsion’s GEN-1 product and its PLACCINE vaccine technology platform.

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Poly Pharm is experienced with chemistry, manufacturing and controls (CMC), process development and good manufacturing processes (cGMP), including process optimization and manufacturing services to help customers advance new drug development projects. Its sites and pharmaceutical compounds have been approved by the U.S. Food and Drug Administration (FDA), the European Medicines Agency (EMA), China’s National Medical Products Administration (NMPA) and the World Health Organization (WHO).

Madame Fang, chief executive officer of Hainan Poly Pharm said, "Poly Pharm is a fully-integrated specialty pharmaceutical company with rich CDMO experience. Poly Pharm and Celsion have a successful cooperation on GEN-1 and have been successfully manufacturing clinical batches of GEN-1 to support Celsion’s OVATION 2 Study in advanced ovarian cancer. The GEN-1 collaboration and the DNA-based COVID-19 vaccine program demonstrate our expertise in highly cost-effective manufacturing of nucleic acid based finished drugs. We are glad that a DNA-based vaccine can be our second cooperative project. Celsion’s DNA vaccine technology platform is a promising platform as it may address global vaccine storage and distribution needs. We are pleased that Celsion has recognized Poly Pharm’s skills and dependability, especially with difficult-to-manufacture products, and we are looking forward to helping address the global COVID-19 pandemic."

Commenting on the agreement, Michael Tardugno, chairman, president and chief executive officer of Celsion said, "This is the second plasmid DNA-based investigational new drug project with Hainan Poly Pharm. Our first collaboration is GEN-1, which incorporates a DNA plasmid encoding IL-12 into a unique nanoparticle delivery system. GEN-1 immunotherapy is being evaluated in the Phase I/II OVATION 2 Study in combination with chemotherapy for patients with newly diagnosed advanced ovarian cancer. We have enjoyed a productive working relationship with Poly Pharm delivering quality product efficiently and are delighted to expand our contract manufacturing agreement with them."

About the PLACCINE platform

PLACCINE is Celsion’s proprietary plasmid and DNA delivery technology and the subject of a provisional patent application that covers a broad range of next-generation DNA vaccines. An adaptation of the Company’s TheraPlas technology, PLACCINE is a DNA vaccine technology platform characterized by a single plasmid DNA with multiple coding regions. The plasmid vector is designed to express multiple pathogen antigens along with a potent immune modifier. It is delivered via a synthetic delivery system and has the potential to be easily modified to create vaccines against a multitude of infectious diseases, addressing:

Viral Mutations: PLACCINE may offer broad-spectrum and mutational resistance (variants) by targeting multiple antigens on a single plasmid vector.
Enhanced Efficacy: The potent immune modifiers such as cytokines and chemokines may improve humoral and cellular responses to viral antigens and can be incorporated in the plasmid.
Durable Efficacy: PLACCINE delivers a DNA plasmid-based antigen that can result in durable antigen exposure and a robust vaccine response to viral antigens.
Storage & Distribution: PLACCINE allows for stability that is compatible with manageable vaccine storage and distribution.
Dosing & Administration: PLACCINE is a synthetic delivery system that should require a simple injection that does not require viruses or special equipment to deliver its payload.

On September 17, 2021 Immix Biopharma, a Phase 1b/2a biotech developing tissue-specific therapies for solid tumors, reported that it filed on Friday with the SEC to raise up to $25 million in an initial public offering (Press release, Immix Biopharma, SEP 17, 2021, View Source [SID1234587965]).

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Immix is developing a novel class of Tissue-Specific Therapeutics ("TSTx") in oncology and inflammation. Its lead asset, IMX-110, is a negatively-charged TSTx that simultaneously disables resistance pathways with a poly-kinase inhibitor and induces tumor cell death with an apoptosis inducer. IMX-110 is currently in Phase 1b/2a trials for solid tumors in the US and Australia.

The Los Angeles, CA-based company was founded in 2012 and plans to list on the Nasdaq under the symbol IMMX. Immix Biopharma filed confidentially on July 20, 2021. ThinkEquity is the sole bookrunner on the deal. No pricing terms were disclosed.

On September 17, 2021 Oasmia Pharmaceutical AB, an oncology-focused specialty pharmaceutical company, reported that it has signed a license agreement with the Swiss-based FarmaMondo Group for the commercialization of Paclical (Apealea) in Russia and the Commonwealth of Independent States (Press release, Oasmia, SEP 17, 2021, View Source [SID1234587943]).

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Paclical is the first water-soluble cancer drug with paclitaxel to receive a market authorization and is used for the treatment of for epithelial ovarian cancer, fallopian tube cancer and peritoneal cancer.

Under the terms of the agreement, the marketing authorizations which Oasmia holds in Russia and Kazakhstan will be transferred to FarmaMondo. FarmaMondo will also be responsible for all future development and commercialization activities in Russia and the Commonwealth of Independent States, which includes Armenia, Azerbaijan, Belarus, Kazakhstan, Kyrgyzstan, Moldova, Russia, Tajikistan, and Uzbekistan. Oasmia will supply FarmaMondo with Paclical and will receive product supply revenues.

The signing of this agreement heralds the completion of the out-licensing of Apealea globally and Oasmia anticipates starting to receive royalties from these partnerships during 2022.

François Martelet, M.D., CEO of Oasmia, commented: "FarmaMondo is an excellent commercial partner for Paclical with a rapidly growing portfolio of high quality products in Russia and the CIS. It is focused on providing market access and specialty distribution services, through its unique and established infrastructure and geographical footprint. This agreement will enable us to focus our resources on significant value-enhancing corporate activities including pipeline development and M&A."

Yaron Spigel, President of the Board and Group CEO at FarmaMondo added: "We are looking forward to commercialising and selling Paclical in Russia and the CIS. Cremophor-EL is highly toxic, requires long infusion times, and can cause serious hypersensitive allergic reactions, requiring premedication with steroids and antihistamines. As a non-Cremophor based formulation of paclitaxel we believe that Paclical could offer a valuable alternative for many advanced ovarian cancer patients."

On September 17, 2021 PulseCath B.V., a leader in the expanding field of percutaneous ventricular assist devices for high-risk PCI, and Huadong Medicine Co., Ltd., reported that the companies have entered into an exclusive collaboration to develop and commercialize the iVAC technology in mainland China, Hong Kong, Macau and Taiwan (Greater China) and selected other Asian Pacific countries (Press release, Huadong Medicine, SEP 17, 2021, View Source [SID1234587915]).

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The collaboration agreement between PulseCath and Huadong provides Huadong Medicine with a license to distribute iVAC technology in mainland China, Hong Kong, Macau and Taiwan (Greater China) and selected other Asian Pacific countries as well as for local manufacturing and development. PulseCath will retain all rights in the rest of the world.

"With extensive regional experience, the right development and regulatory capabilities, and access to a deep local network of hospitals and clinics across Greater China, Huadong Medicine is an ideal partner for us," said Oren Malchin, PulseCath’s Vice President for Marketing and Sales. "This collaboration reflects iVAC pulsatile technology’s potential to deliver meaningful value to high-risk PCI patients as well as our ability to translate our work in cardiac assist devices into long-term relationships that create sustainable value for PulseCath and our partners. We look forward to working closely with Huadong Medicine to develop and commercialize the iVAC technology in Greater China as we continue to advance the iVAC product family, develop new products, conduct further clinical studies and support our application for FDA approval, which we expect for 2022 in the United States.

Under the terms of the agreement, PulseCath will receive a significant investment in the company’s share capital and is eligible to receive a further investment as a result of potential development and regulatory milestones. In addition, PulseCath will receive a payment for regulatory activities and production in China dedicated to Greater China and selected other Asian Pacific countries. PulseCath is also eligible to royalties on iVAC’s commercial sales by Huadong Medicine in their commercial region.

Huadong Medicine will be responsible for the development as well as regulatory submissions and commercialization of iVAC in Greater China and selected other Asian Pacific countries. Huadong Medicine will also have the opportunity to participate in global clinical studies of PulseCath conducted by PulseCath. PulseCath will continue to be responsible for the development and commercialization of iVAC in Europe, the United States, and other geographies.

On September 17, 2021 The Janssen Pharmaceutical Companies of Johnson & Johnson reported results from the Phase 1b/2 NORSE (NCT03473743) study evaluating BALVERSA (erdafitinib) in combination with cetrelimab, an anti-programmed cell death protein 1 (PD-1) monoclonal antibody, compared to BALVERSA monotherapy in patients with locally advanced or metastatic urothelial carcinoma (mUC) with fibroblast growth factor receptor (FGFR)3 or FGFR2 genetic alterations who are ineligible for cisplatin, a current standard of care treatment for mUC (Press release, Johnson & Johnson, SEP 17, 2021, View Source [SID1234587914]). The results were highlighted in an oral presentation at the European Society for Medical Oncology (ESMO) (Free ESMO Whitepaper) Annual Congress 2021 virtual meeting on Friday, September 17 (Abstract #LBA 27).1

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Preliminary findings suggest robust clinical activity and depth of response in patients treated with BALVERSA in combination with cetrelimab.1 The overall safety of treatment with BALVERSA in combination with cetrelimab was generally consistent with BALVERSA monotherapy and aligned with the known safety profile of approved anti–PD-1 therapies.1

At the time of analysis, the investigator-assessed objective response rate (ORR) in 19 patients treated with BALVERSA in combination with cetrelimab was 68 percent (95 percent confidence interval [CI]; 43-87), of which 21 percent (n=4) were complete responses (CR) and 47 percent were partial responses (PR).1 The disease control rate (DCR) was 90 percent (95 percent CI; 67-99) for evaluable patients using the Response Evaluation Criteria in Solid Tumors Version 1.1* (RECIST v1.1) criteria.1 The ORR in 18 patients treated with BALVERSA monotherapy was 33 percent (95 percent CI; 13-59), in which one patient showed a CR and 28 percent (n=5) were partial responses. The DCR was 100 percent (95 percent CI; 82-100).1

"PD-1 inhibitors have become treatment options for many types of solid tumors, including bladder cancer. Now, as we learn more about the genetic factors that impact treatment outcomes, we are exploring new treatment approaches that may help patients with specific mutations, including FGFR-alterations and fusions," said Thomas Powles, MRCP, M.D., Professor of Uro-Oncology, Director of Barts Cancer Institute, London and principal study investigator.† "With this combination of erdafitinib and cetrelimab, we aim to change the tumor microenvironment to make it more receptive to PD-1 intervention."

Fibroblast growth factor receptors are a family of receptor tyrosine kinases that can be activated by genetic alterations in a variety of tumor types, potentially leading to increased tumor cell growth and survival.2 Approximately 20 percent of patients diagnosed with mUC have an FGFR genetic alteration.3,4 A current standard of care for mUC is cisplatin-based chemotherapy, however, more than 50 percent of patients with mUC may be ineligible for cisplatin treatment, underscoring a need for new treatment options.5 Alternative options for patients with newly diagnosed mUC include different chemotherapy regimens or PD-1 inhibitors, which enhance T-cell immune responses against the tumor cells.6

The findings presented at ESMO (Free ESMO Whitepaper) build upon the growing set of BALVERSA data. In 2019 the U.S. Food and Drug Administration (FDA) granted accelerated approval to BALVERSA, with a companion diagnostic, as a once-daily oral FGFR kinase inhibitor for patients with mUC that have susceptible FGFR3 and FGFR2 genetic alterations and who have progressed during or following at least one line of prior platinum-containing chemotherapy, including within 12 months of neoadjuvant or adjuvant platinum-containing chemotherapy. This indication is approved under accelerated approval based on tumor response rate. Continued approval for this indication may be contingent upon verification and description of clinical benefit in confirmatory trials.7

The safety profile of BALVERSA in combination with cetrelimab (n=24) was generally similar to that of BALVERSA monotherapy (n=24), with the most common treatment-emergent adverse events (AEs) being hyperphosphatemia (BALVERSA in combination with cetrelimab vs BALVERSA monotherapy, 58 percent vs 58 percent), stomatitis (54 percent vs 63 percent), diarrhea (42 percent vs 50 percent), dry mouth (58 percent vs 21 percent), dry skin (38 percent vs 21 percent) and anemia (25 percent vs 25 percent).1 Grade 3-4 AEs occurred in 12 patients (50 percent) in the BALVERSA in combination with cetrelimab arm and 9 patients (38 percent) in the BALVERSA arm.1 In the BALVERSA in combination with cetrelimab arm, the most frequent Grade 3-4 AEs were stomatitis (n=3 [12.5 percent]), lipase increased (n=3 [12.5 percent]), and fatigue (n=2 [8.3 percent]); in the BALVERSA arm, these were anemia (n=3 patients [12.5 percent]) and general physical health deterioration (n=3 [12.5 percent]).1

"As the first targeted treatment approved for patients with locally advanced or metastatic bladder cancer and FGFR3 or FGFR2 genetic alterations after platinum-based chemotherapy, we are encouraged by the data that continue to support the safety and efficacy of BALVERSA and its benefit for these patients with high unmet medical need. By investigating two active classes of drugs with BALVERSA and cetrelimab, our aim is to maximize the potential benefits of this combination approach for these patients," said Craig Tendler, M.D., Vice President, Late Development and Global Medical Affairs, Oncology, Janssen Research & Development, LLC. "The continued development of BALVERSA reflects Janssen’s ongoing commitment to offer more personalized therapy approaches for patients with bladder cancer, a disease where there is considerable need for more effective treatment using innovative approaches."

*RECIST (version 1.1) refers to Response Evaluation Criteria in Solid Tumors, which is a standard way to measure how well solid tumors respond to treatment and is based on whether tumors shrink, remain the same or increase in size.8

About the NORSE Study9
NORSE (NCT03473743) is an open-label, Phase 1b/2 multicenter study of BALVERSA in combination with cetrelimab in patients with locally advanced or metastatic urothelial cancer and FGFR3 or FGFR2 gene alterations. Participants enrolled in Phase 1b may have received any number of lines of prior therapy, and participants enrolled in Phase 2 had no prior systemic therapy for metastatic disease and are ineligible for cisplatin-based chemotherapy, currently the standard of care. Phase 1b established the recommended Phase 2 dose (RP2D) for BALVERSA in combination with cetrelimab, and Phase 2 evaluates the safety and efficacy of the RP2D. The study is being conducted in three phases: screening phase, treatment phase and follow-up phase. Study evaluations include efficacy, pharmacokinetics, pharmacodynamics, immunogenicity, biomarkers and safety. Enrollment of the Phase 2 part of the NORSE study is currently ongoing.

About Urothelial Carcinoma
Urothelial carcinoma, also known as transitional cell carcinoma, starts in the innermost lining of the bladder.10 It is the most common and frequent form of bladder cancer, representing more than 90 percent of all bladder cancers.11 Approximately one in five patients (20 percent) diagnosed with mUC have an FGFR genetic alteration.4,5 Fibroblast growth factor receptors are a family of receptor tyrosine kinases that can be activated by genetic alterations in a variety of tumor types, and these alterations may lead to increased tumor cell growth and survival.3 In the U.S. each year, it is estimated that up to 3,000 people with urothelial carcinoma will test positive for FGFR genetic alterations.8,9,12,13 Fibroblast growth factor receptor genetic alterations can be detected through an FDA-approved companion diagnostic. The five-year survival rate for patients with Stage IV metastatic bladder cancer that has spread to distant parts of the body is currently 6 percent.14

About BALVERSA
BALVERSA (erdafitinib) is a once-daily, oral FGFR kinase inhibitor that is approved by the U.S. FDA for the treatment of adults with locally advanced or metastatic urothelial carcinoma (mUC) that has susceptible FGFR3 or FGFR2 genetic alterations and has progressed during or following at least one line of platinum-containing chemotherapy, including within 12 months of neoadjuvant or adjuvant platinum-containing chemotherapy. Patients are selected for therapy based on an FDA-approved companion diagnostic for BALVERSA. Information on FDA-approved tests for the detection of FGFR genetic alterations in urothelial cancer is available at: View Source This indication is approved under accelerated approval based on tumor response rate. Continued approval for this indication may be contingent upon verification and description of clinical benefit in confirmatory trials.7,15

BALVERSA is being studied in multiple clinical trials including the Phase 3 THOR (NCT03390504) study evaluating BALVERSA versus standard of care, consisting of chemotherapy (docetaxel or vinflunine) or anti-PD-1 agent pembrolizumab, in participants with advanced urothelial cancer and selected FGFR aberrations with disease progression following one prior line of therapy; the Phase 2 THOR-2/BLC2003 study (NCT04172675) study examining BALVERSA versus investigator choice of intravesical chemotherapy in participants who received Bacillus Calmette-Guérin and recurred with high risk non-muscle-invasive bladder cancer; and the Phase 2 RAGNAR (NCT04083976) study assessing BALVERSA in patients with advanced solid tumors and FGFR genetic alterations.16,17,18

In 2008, Janssen entered into an exclusive worldwide license and collaboration agreement with Astex Pharmaceuticals to develop and commercialize BALVERSA.

For more information, visit www.BALVERSA.com.

About Cetrelimab
Cetrelimab is a Janssen discovered and developed investigational programmed cell death receptor-1 (PD-1) monoclonal antibody being studied in the treatment of bladder cancer, prostate cancer, and multiple myeloma as a combination treatment. Cetrelimab is also being evaluated in multiple combination regimens across the Janssen oncology portfolio.

BALVERSA IMPORTANT SAFETY INFORMATION

Warnings and Precautions
Ocular Disorders – BALVERSA can cause ocular disorders, including central serous retinopathy/retinal pigment epithelial detachment (CSR/RPED) resulting in visual field defect.

CSR/RPED was reported in 25% of patients treated with BALVERSA, with a median time to first onset of 50 days. Grade 3 CSR/RPED, involving central field of vision, was reported in 3% of patients. CSR/RPED resolved in 13% of patients and was ongoing in 13% of patients at the study cutoff. CSR/RPED led to dose interruptions and reductions in 9% and 14% of patients, respectively, and 3% of patients discontinued BALVERSA. Dry eye symptoms occurred in 28% of patients during treatment with BALVERSA and were Grade 3 in 6% of patients. All patients should receive dry eye prophylaxis with ocular demulcents as needed.

Perform monthly ophthalmological examinations during the first 4 months of treatment and every 3 months afterwards, and urgently at any time for visual symptoms. Ophthalmological examination should include assessment of visual acuity, slit lamp examination, fundoscopy, and optical coherence tomography. Withhold BALVERSA when CSR occurs and permanently discontinue if it does not resolve within 4 weeks or if Grade 4 in severity. For ocular adverse reactions, follow the dose modification guidelines [see Dosage and Administration (2.3)].

Hyperphosphatemia – Increases in phosphate levels are a pharmacodynamic effect of BALVERSA [see Pharmacodynamics (12.2)]. Hyperphosphatemia was reported as adverse reaction in 76% of patients treated with BALVERSA. The median onset time for any grade event of hyperphosphatemia was 20 days (range: 8–116) after initiating BALVERSA. Thirty-two percent of patients received phosphate binders during treatment with BALVERSA. Monitor for hyperphosphatemia and follow the dose modification guidelines when required [see Dosage and Administration (2.2, 2.3)].

Embryo-fetal Toxicity – Based on the mechanism of action and findings in animal reproduction studies, BALVERSA can cause fetal harm when administered to a pregnant woman. In a rat embryo-fetal toxicity study, erdafitinib was embryotoxic and teratogenic at exposures less than the human exposures at all doses studied. Advise pregnant women of the potential risk to the fetus. Advise female patients of reproductive potential to use effective contraception during treatment with BALVERSA and for one month after the last dose. Advise male patients with female partners of reproductive potential to use effective contraception during treatment with BALVERSA and for one month after the last dose [see Use in Specific Populations (8.1, 8.3) and Clinical Pharmacology (12.1)].

Most common adverse reactions including laboratory abnormalities ≥20%:
Phosphate increased (76%), stomatitis (56%), fatigue (54%), creatinine increased (52%), diarrhea (47%), dry mouth (45%), onycholysis (41%), alanine aminotransferase increased (41%), alkaline phosphatase increased (41%), sodium decreased (40%), decreased appetite (38%), albumin decreased (37%), dysgeusia (37%), hemoglobin decreased (35%), dry skin (34%), aspartate aminotransferase increased (30%), magnesium decreased (30%), dry eye (28%), alopecia (26%), palmar-plantar erythrodysesthesia syndrome (26%), constipation (28%), phosphate decreased (24%), abdominal pain (23%), calcium increased (22%), nausea (21%), and musculoskeletal pain (20%). The most common Grade 3 or greater adverse reactions (>1%) were stomatitis (9%), nail dystrophy*, palmar-plantar erythrodysesthesia syndrome (6%), paronychia (3%), nail disorder*, keratitis†, onycholysis* (10%), and hyperphosphatemia.

*Included within onycholysis. †Included within dry eye.

An adverse reaction with a fatal outcome in 1% of patients was acute myocardial infarction.
Serious adverse reactions occurred in 41% of patients, including eye disorders (10%).
Permanent discontinuation due to an adverse reaction occurred in 13% of patients. The most frequent reasons for permanent discontinuation included eye disorders (6%).
Dosage interruptions occurred in 68% of patients. The most frequent adverse reactions requiring dosage interruption included hyperphosphatemia (24%), stomatitis (17%), eye disorders (17%), and palmar-plantar erythrodysesthesia syndrome (8%).
Dose reductions occurred in 53% of patients. The most frequent adverse reactions for dose reductions included eye disorders (23%), stomatitis (15%), hyperphosphatemia (7%), palmar-plantar erythrodysesthesia syndrome (7%), paronychia (7%), and nail dystrophy (6%).
Drug Interactions

Moderate CYP2C9 or strong CYP3A4 Inhibitors: Consider alternative agents or monitor closely for adverse reactions. (7.1)
Strong CYP2C9 or CYP3A4 inducers: Avoid concomitant use with BALVERSA. (7.1)
Moderate CYP2C9 or CYP3A4 inducers: Increase BALVERSA dose up to 9 mg. (7.1)
Serum phosphate level-altering agents: Avoid concomitant use with agents that can alter serum phosphate levels before the initial dose modification period. (2.3, 7.1)
CYP3A4 substrates: Avoid concomitant use with sensitive CYP3A4 substrates with narrow therapeutic indices. (7.2)
OCT2 substrates: Consider alternative agents or consider reducing the dose of OCT2 substrates based on tolerability. (7.2)
P-gp substrates: Separate BALVERSA administration by at least 6 hours before or after administration of P-gp substrates with narrow therapeutic indices. (7.2)
Use in Specific Populations
Lactation – Because of the potential for serious adverse reactions from erdafitinib in a breastfed child, advise lactating women not to breastfeed during treatment with BALVERSA and for one month following the last dose.

Please see the full Prescribing Information for BALVERSA.