On June 21, 2021 Innovent Biologics, Inc. (Innovent) (HKEX: 01801), a world-class biopharmaceutical company that develops, manufactures and commercializes high-quality medicines for the treatment of cancer, metabolic, autoimmune and other major diseases reported that the Taiwan market has approved Pemazyre (pemigatinib) for the treatment of adults with previously treated, unresectable locally advanced or metastatic cholangiocarcinoma with a fibroblast growth factor receptor 2 (FGFR2) fusion or rearrangement (Press release, Innovent Biologics, JUN 21, 2021, View Source [SID1234584197]). Pemazyre, discovered by Incyte and licensed to Innovent for development and commercialization in Mainland China, Hong Kong, Macau and Taiwan, is the first tyrosine kinase inhibitor approved for the treatment of cholangiocarcinoma, a type of biliary tract cancer, in Taiwan market. This is Innovent’s first approved small molecule drug and is also its fifth approved innovative drug.

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The approval was based on the FIGHT-202 study, which is a Phase 2, multi-center, open-label, single-arm study (NCT02924376) evaluating the safety and efficacy of Pemazyre – a selective fibroblast growth factor receptor (FGFR) inhibitor – in adult (age ≥18 years) patients with previously treated, locally advanced or metastatic cholangiocarcinoma with documented FGFR2 fusion or rearrangement. The major efficacy outcome measure was overall response rate (ORR) determined by an independent review committee Per RECIST V1.1. Among the 107 patients with FGFR 2 fusion/rearrangement, the ORR was 35.5% (95% CI: 27%, 45%), including 3 complete responses. The median duration of response (DOR) was 9.1 months with responses lasting ≥ 6 months in 24 of the 38 (63%) responding patients and ≥ 12 months in 7 (18%) patients. The safety analysis, including 146 patients, demonstrated that pemigatinib was generally well tolerated. Hyperphosphatemia was the most common (60%) treatment-emergent adverse event (TEAE). TEAEs grade 3 or higher were reported in 64% of patients; the most frequent of which were hypophosphataemia (12%), arthralgia (6%), stomatitis (5%), hyponatraemia (5%), abdominal pain (5%) and fatigue (5%). For more information FIGHT-202, please visit View Source or https://www.thelancet.com/journals/lanonc/article/PIIS1470-2045(20)30109-1/fulltext.

Dr. Yongjun Liu, President of Innovent, stated: ‘The approval of Pemazyre in Taiwan market represents that Innovent has further broadened our product portfolio. In the future, Innovent will leverage the synergies of innovative drugs to explore more combination therapy opportunities to address unmet medical needs. ‘

Dr. Hui Zhou, Senior Vice President of Clinical Development of Innovent, stated: ‘Cholangiocarcinoma is the second most common primary liver cancer with a high incidence in Asia due to relatively widespread infection of HBV and parasites.’ He emphasized that a significant portion of patients receive an initial diagnosis of unresectable and/or metastatic status with limited therapy choice. Data from previous clinical trials of Pemazyre in participants with advanced cholangiocarcinoma with FGFR2 fusion as second line or later treatment has not only shown satisfactory safety results but also revealed compelling efficacy signals. With the refractory subjects being seen as the more challenging population and based on the promising data, we believe that patients with FGFR2 fusion or rearrangement may benefit from targeted therapies. The approval is a great clinical milestone, and we are looking forward to see the therapeutic contribution of Pemazyre in the treatment of eligible patients with cholangiocarcinoma in Taiwan market’, Dr. Zhou highlighted.

About Advanced Cholangiocarcinoma and FGFR2 Rearrangement

Cholangiocarcinoma is a malignant tumour originated from biliary epithelium cells and it is categorized as intrahepatic or extrahepatic based on anatomical location of origin. The incidence of cholangiocarcinoma has been increasing progressively over the past decade. Surgery is the first priority for patients with resectable disease. However, most cholangiocarcinomas has been in advanced and/or metastatic status at diagnosis and lost the chance for surgical resection. The treatment options for patient who relapse after surgery or have advanced / metastatic disease are limited and the recommended therapy method is systemic chemotherapy with gemicitabine plus cisplatin, which has a medium overall survival of less than a year.

Aberrant signaling through FGFR resulting from gene amplification or mutation, chromosomal translocation, and ligand-dependent activation of the receptors has been demonstrated in multiple types of human cancers. Fibroblast growth factor receptor signaling contributes to the development of malignancies by promoting tumor cell proliferation, survival, migration, and angiogenesis. Results from early clinical studies of selective FGFR inhibitors, including Pemazyre, have shown a tolerable safety profile for the class and preliminary signs of clinical benefit in participants with FGF/FGFR alterations.

About Pemazyre (pemigatinib)

In April 2020, the U.S. Food and Drug Administration (FDA) approved Incyte’s Pemazyre (pemigatinib), a selective, oral inhibitor of FGFR isoforms 1, 2 and 3, for the treatment of adults with previously treated, unresectable locally advanced or metastatic cholangiocarcinoma with a fibroblast growth factor receptor 2 (FGFR2) fusion or rearrangement as detected by an FDA-approved test. Continued approval for this indication may be contingent upon verification and description of clinical benefit in a confirmatory trial(s).

In Japan, Pemazyre is approved for the treatment of patients with unresectable biliary tract cancer with a FGFR2 fusion gene, worsening after cancer chemotherapy. In Europe, Pemazyre is approved for the treatment of adults with locally advanced or metastatic cholangiocarcinoma with a FGFR2 fusion or rearrangement that have progressed after at least one prior line of systemic therapy. Pemazyre is marketed by Incyte in the United States, Europe and Japan.

In December 2018, Innovent and Incyte entered into a strategic collaboration for three clinical-stage product candidates discovered and developed by Incyte, including pemigatinib (FGFR1/2/3 inhibitor). Under the terms of the agreement, Innovent has received the rights to develop and commercialize the three assets in Mainland China, Hong Kong, Macau and Taiwan. In March 2020, Innovent announced that the first patient was dosed in the pivotal registrational trial evaluating pemigatinib in patients with advanced cholangiocarcinoma in mainland China. In June 2021, Taiwan market approved Pemazyre (pemigatinib) for the treatment of adults with previously treated, unresectable locally advanced or metastatic cholangiocarcinoma with a FGFR2 fusion or rearrangement.

Pemazyre is a trademark of Incyte Corporation.

On June 21, 2021 Gossamer Bio, Inc. (Nasdaq: GOSS), a clinical-stage biopharmaceutical company focused on discovering, acquiring, developing and commercializing therapeutics in the disease areas of immunology, inflammation and oncology, reported that, Richard Aranda, M.D., previously Senior Vice President and Head of Clinical Development, will be promoted to Chief Medical Officer (Press release, Gossamer Bio, JUN 21, 2021, View Source [SID1234584196]). Dr. Aranda joined Gossamer in February 2018 with responsibilities including oversight of Clinical Pharmacology, Translational Medicine, and Pharmacovigilance.

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"Dr. Richard Aranda’s clinical development expertise has been vital to Gossamer since inception," said Faheem Hasnain, Chairman, co-founder and CEO of Gossamer Bio. "Dr. Aranda is an experienced drug developer and clinician, and under his continued strong leadership, I am confident that Gossamer is best positioned for success."

Prior to joining Gossamer Bio, Dr. Aranda was Vice President of Clinical Development at Receptos, Inc. (Celgene Corporation), from 2015 to 2018, where he contributed to the late-stage development programs for ozanimod (Zeposia) in multiple sclerosis and inflammatory bowel disease (IBD) and RPC4046 in eosinophilic esophagitis. Before joining Receptos, from 2011 to 2015, Dr. Aranda was Vice President of Medical-Science and Inflammation at Novo-Nordisk, Inc., where he played a key role in advancing several biologic product candidates through Phase 1 to proof-of-concept studies in rheumatoid arthritis (RA), systemic lupus erythematosus and IBD. Dr. Aranda began his industry career at Bristol Myers Squibb in 2001, where he held roles of increasing scope and responsibility, including serving as the Global Medical Lead for abatacept (Orencia), as well as Early Development Team Lead for early-stage immunology product candidates. As the Global Medical Lead, Dr. Aranda contributed to the development and approval of Orencia for the treatment of RA and juvenile arthritis and the exploration of Orencia in other immune-mediated disorders.

Before joining the pharmaceutical industry, Dr. Aranda was on the faculty of the Division of Digestive Diseases and West Los Angeles Veterans Affairs, University of California, Los Angeles (UCLA) School of Medicine where he was involved in patient care and laboratory based immunological research. Dr. Aranda received his medical training at Harbor-UCLA and clinical fellowship and immunology research training through the UCLA integrated Gastroenterology Training Program. He received his M.D. from Stanford Medical School and his undergraduate degree from the University of California, Santa Cruz.

On June 21, 2021 Paige, a global leader in AI-based diagnostic software in pathology, reported that the Company, Oxford University and National Health Service (NHS) regional partners in the United Kingdom have won the prestigious Phase 4 Artificial Intelligence in Health and Care award from the NHS Accelerated Access Collaborative to study Paige Prostate prospectively in a real-world cancer laboratory setting (Press release, Paige AI, JUN 21, 2021, View Source [SID1234584195]).

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Under the award, leaders in uropathology at Oxford University Hospitals, Coventry and Warwickshire University Hospitals Trust, and North Bristol Trust, will develop system adoption guidelines for Paige Prostate, a clinical-grade artificial intelligence (AI)-based diagnostic software system that aids pathologists in detecting, grading and measuring prostate tumors in biopsies obtained from patients at risk of prostate cancer,1 and other similar systems. These adoption guidelines will enable further roll-out of AI technologies and advanced algorithms across the NHS to aid in the diagnosis of complex diseases.

"Paige is proud to be working with this multidisciplinary team of experts to demonstrate the impact of digital pathology tools in routine clinical use," said Leo Grady, Ph.D., Chief Executive Officer of Paige. "Alongside our partners, we look forward to potentially ushering in a new era of clinical diagnostics powered by AI-enabled technologies to benefit patients and cellular pathology laboratories throughout the NHS."

The Phase 4 award, which is restricted to mature market-authorized CE-IVD products and is the most advanced award category, will enable Paige and its partners to demonstrate clinical or economic utility of Paige Prostate with respect to its real-world implementation and use in the NHS. Additionally, the parties aim to demonstrate clinical and economic impact of Paige Prostate in the NHS and/or social care setting to help inform reimbursement and procurement decisions and facilitate adoption.

"At Paige we believe that best practice guideline development and successful adoption of this new technology is best led by pathologists," said Margaret Horton, Ph.D., Business Lead for UK and Europe at Paige and co-investigator in the study. "In addition to measuring and quantifying the health economics benefits of Paige Prostate, we have the unique opportunity as industry to work alongside patients, pathologists and urologists in this study to show how Paige Prostate impacts diagnostic reporting and the patient experience."

"With published clinical evidence, and our own initial experiences with Paige Prostate on challenging tissue samples, Paige Prostate is an ideal candidate system for investigating the patient and system-level benefits of artificial intelligence in NHS cellular pathology," said Clare Verrill, Associate Professor at Oxford University, Lead in Prostate Pathology, Consultant in Cellular Pathology at the Oxford University Hospital NHS Trust, and principal study investigator for the Phase 4 award. "Now is the time to take technologies from simulated clinical settings to embedding in the routine reporting workflow and measure the impact on patient care. By sharing our findings in the professional community, my hope is for widespread benefits from AI with fewer barriers to routine adoption of these powerful systems."

For additional information, read the article from the Oxford Biomedical Research Centre.

On June 21, 2021 Virpax Pharmaceuticals, Inc. ("Virpax" or the "Company") (NASDAQ: VRPX), reported that the Investigational New Drug (IND) Application enabling studies for Envelta being performed under a Cooperative Research and Development Agreement (CRADA) entered into by Virpax and the National Center for Advancing Translational Sciences (NCATS) for chronic pain, will also be used as a source for INDs for two additional indications, for cancer pain and Post-Traumatic Stress Disorder (PTSD) (Press release, Virpax Pharmaceuticals, JUN 21, 2021, View Source [SID1234584194]). NCATS has commenced the IND enabling studies of Envelta to support Virpax’s future application for clearance from the Food and Drug Administration (FDA) to initiate Virpax’s first-in-human clinical trials.

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Sheila Mathias, PhD, JD, Chief Scientific Officer of Virpax stated, "Once the Envelta IND enabling studies are submitted to the FDA for acute/chronic pain, the parent IND is expected to be used to cross reference for the PTSD IND. We believe the same Phase I Single Ascending Dose (SAD)/Multiple Ascending Dose (MAD) study could be used to advance all three indications. SAD and MAD studies are typically the first-in-human studies, where we seek to gain information on safety and tolerability, general pharmacokinetic (PK), and pharmacodynamic (PD) characteristics, and identify the maximum tolerated dose."

About Envelta

Envelta is an investigational intranasal formulation intended to improve enkephalin transport to the brain. Enkephalin is a naturally occurring (endogenous) peptide that is not easily administered in its original form. Envelta uses a preassembled device and cartridge to propel the enkephalin formulation through the nose to the brain by flowing along the olfactory nerve pathway. The Molecular Envelope Technology is designed to protect the drug and help carry it to the brain, enabling it to cross the blood-brain barrier to suppress pain by binding to the delta-opioid receptors. Envelta has demonstrated analgesic potential in animal models without developing opioid tolerance, withdrawal, respiratory depression, euphoria, or addiction associated with the use of opioids. Once the Envelta IND enabling studies are submitted to the FDA, the data may be cross-referenced to our cancer pain and PTSD INDs.

On June 21, 2021 Castle Biosciences, Inc. (Nasdaq: CSTL), a dermatologic diagnostics company providing personalized genomic information to inform treatment decisions, reported it has been included in the Houston Chronicle’s list of the 100 most successful publicly traded companies in the Houston area (Press release, Castle Biosciences, JUN 21, 2021, View Source [SID1234584193]).

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Castle has been included in the category for Market Value, Market Return & Revenue Growth. This is the second year that Castle has been named in the "CHRON 100" as a top company by the Houston Chronicle. In 2020, the Company received recognition as one of the top initial public offerings of 2019.

"We’re excited to be recognized as one of the top public companies in Houston by the Houston Chronicle again this year," said Derek Maetzold, president and chief executive officer of Castle Biosciences. "We are proud to be included for our achievements in the category of market value, market return and revenue growth. And we continue to grow our suite of diagnostic and prognostic tests for dermatologic cancers and other dermatologic diseases with unmet clinical need. While DecisionDx -Melanoma remains our lead product, in the second half of 2020, we expanded our skin cancer test offerings with the commercial launch of DecisionDx-SCC for cutaneous squamous cell carcinoma and DecisionDx DiffDxTM-Melanoma for difficult-to-diagnose melanocytic lesions. In addition, in May of 2021, we acquired a second gene expression profile test for difficult-to-diagnose melanocytic lesions, myPath Melanoma. We look forward to furthering our position as a leader in providing clinically actionable dermatologic genomic tests designed to transform disease management and help improve the lives of patients."

About DecisionDx-Melanoma

DecisionDx-Melanoma is a gene expression profile test that uses an individual patient’s tumor biology to predict individual risk of cutaneous melanoma metastasis or recurrence, as well as sentinel lymph node positivity, independent of traditional staging factors, and has been studied in more than 5,700 patient samples. Using tissue from the primary melanoma, the test measures the expression of 31 genes. The test has been validated in four archival risk of recurrence studies of 901 patients and six prospective risk of recurrence studies including more than 1,600 patients. To predict likelihood of sentinel lymph node positivity, the Company utilizes its proprietary algorithm, i31-GEP, to produce an integrated test result. i31-GEP is an artificial intelligence-based neural network algorithm (independently validated in a cohort of 1,674 prospective, consecutively tested patients with T1-T4 cutaneous melanoma) that integrates the DecisionDx-Melanoma test result with the patient’s traditional clinicopathologic features. Impact on patient management plans for one of every two patients tested has been demonstrated in four multicenter and single-center studies including more than 560 patients. The consistent performance and accuracy demonstrated in these studies provides confidence in disease management plans that incorporate DecisionDx-Melanoma test results. Through March 31, 2021, DecisionDx-Melanoma has been ordered more than 73,396 times for use in patients with cutaneous melanoma.

More information about the test and disease can be found at www.CastleTestInfo.com.

About DecisionDx-SCC

DecisionDx-SCC is a 40-gene expression profile test that uses an individual patient’s tumor biology to predict individual risk of cutaneous squamous cell carcinoma metastasis for patients with one or more risk factors. The test result, in which patients are stratified into a Class 1, 2A or 2B risk category, predicts individual metastatic risk to inform risk-appropriate management.

Peer-reviewed publications have demonstrated that DecisionDx-SCC is an independent predictor of metastatic risk and that integrating DecisionDx-SCC with current prognostic methods can add positive predictive value to clinician decisions regarding staging and management.

More information about the test and disease can be found at www.CastleTestInfo.com.

About Castle Biosciences’ Comprehensive Diagnostic Offering for Difficult-to-Diagnose Melanocytic Lesions

myPath Melanoma and DecisionDx DiffDx-Melanoma comprise Castle’s objective and comprehensive diagnostic offering designed to aid dermatopathologists in characterizing difficult-to-diagnose melanocytic lesions. Of the approximately 2 million suspicious pigmented lesions biopsied annually in the U.S., Castle estimates that approximately 300,000 of those cannot be confidently classified as either benign or malignant through traditional histopathology methods. For these cases, the treatment plan can also be uncertain. Obtaining highly accurate, objective ancillary testing can mean the difference between a path of overtreatment or the risk of undertreatment. Interpreted in the context of other clinical, laboratory and histopathologic information, myPath Melanoma and DecisionDx DiffDx-Melanoma are designed to reduce uncertainty and provide confidence for dermatopathologists and help dermatologists deliver more informed patient management plans.

More information about the test and disease can be found at www.CastleTestInfo.com.