Category Archives: Biopharmaceutical

Austrianova and San Raffaele University & Research Hospital initiate a Joint Development Programme to prevent the progression of multiple myeloma

SINGAPORE, 19-May-2023 — /EPR BIOTECH NEWS/ — Multiple myeloma is an incurable neoplasia of plasma cells causing anaemia, hypercalcemia, renal insufficiency, and bone lesions. This is due to malignant plasma cells accumulating in bone marrow — the soft, spongy tissue at the centre of bones — crowding out the normal plasma cells that help fight infection. Multiple myeloma usually presents at an potentially curable, asymptomatic stage (also known as smouldering/indolent). However, around 50% of patients go on to develop symptomatic disease and need treatment within 5 years of initial diagnosis. The gut microbiota modulates progression from smouldering disease to full-blown multiple myeloma, and several clinical and preclinical studies have also highlighted the role of the gut microbiota in patients’ response to current therapies (Brevi et al 2022). In 2022, there were 34,470 new cases of multiple myeloma and 12,640 deaths in the USA alone.

Austrianova and San Raffaele University & Research Hospital, Milan, Italy have just announced the initiation of a Joint Development Programme with the aim of creating a treatment to prevent the progression of multiple myeloma to full blown disease by manipulating the microbiome.

The group of Dr. Matteo Bellone, leader of Cellular immunology Unit at San Raffaele University & Research Hospital, has shown that Prevotella melaninogenica, a commensal bacterium of the human gastrointestinal microbiota, can protect against the progression of relatively benign asymptomatic multiple myeloma to the aggressive form of the disease. Delivery of Prevotella melaninogenica in preclinical animal models prevents this progression (Calcinotto et al., 2018) but large doses of the bacteria are needed since they must survive passage through the strongly acidic environment of the stomach. Austrianova, an Asian biotech company operating in Singapore and Thailand, has developed its unique, patented Bac-in-a-Box® technology specifically to efficiently protect bacteria from stomach acid as well as to allow storage at room temperature without appreciable loss of viability (Gunzburg et al., 2020).

This collaboration builds on San Raffaele Hospital’s dedication to technology transfer, the process of partnering with industry to successfully translate research results into medical benefits.

Dr. Bellone said: “Most patients affected by smouldering myeloma live in anxiety because they know the disease may easily evolve into an untreatable phase, but they are offered no preventive cure. It is unexpected that a treatment as simple as taking a probiotic positively impacts disease progression in animal models and might indeed help these patients. We are eager to test Austrianova technology in our models. This will be the first step to the clinic.”

Prof. Walter H. Gunzburg, Chairman of Austrianova, stated: “The Austrianova team is excited to be working with our colleagues at San Raffaele hospital to progress this strategy for hampering the full progression of this devastating blood cancer. Our Bac-in-a-Box® technology is ideally suited to efficiently store and deliver bacteria to the gastric tract and we look forward to applying it to the delivery of Prevotella melaninogenica to hopefully prevent progression of multiple myeloma in patients.”

References

Brevi A, Cogrossi LL, Lorenzoni M, Mattorre B, Bellone M. The Insider: Impact of the Gut Microbiota on Cancer Immunity and Response to Therapies in Multiple Myeloma. Front Immunol 2022;13:845422.

Calcinotto A, Brevi A, Chesi M, Ferrarese R, Garcia Perez L, Grioni M, et al. Microbiota-driven interleukin-17-producing cells and eosinophils synergize to accelerate multiple myeloma progression. Nat Commun 2018;9:4832.

Walter H GunzburgMyo Myint AungPauline ToaShirelle NgEliot ReadWee Jin TanEva Maria BrandtnerJohn DangerfieldBrian Salmons. Efficient protection of microorganisms for delivery to the intestinal tract by cellulose sulphate encapsulation. Microbial Cell Fact. 2020 Nov 26;19:216. doi: 10.1186/s12934-020-01465-3.

About Austrianova

Austrianova, part of the SG Austria Group, is a biotech company with a global footprint and headquarters in Singapore. Austrianova utilizes a novel and proprietary technology for the encapsulation of living mammalian (Cell-in-a-Box®) and bacterial (Bac-in-a-Box®) cells. Cell-in-a-Box® protects the encapsulated cells from rejection by the immune system, allows cells to be easily transported, stored and implanted at specific sites in patients. The technology, which has been proven safe and efficacious in clinical trials carried out in Europe, allows companies to develop any kind of cells as a one-for-all living pharmaceutical. Bac-in-a-Box® is a similar protective device adapted for encapsulation of probiotic bacteria where it has human food and animal feed applications due to its ability to extend storage under lyophilized conditions and to protect encapsulated bacteria against destruction by stomach acid. Austrianova now also offers GMP4Cells that includes competitively priced Master Cell Bank and Working Cell Bank production as well as “Fill and Finish” services for cell therapy products (such as stem cell therapies, biologics produced from cells e.g. vaccines, antibodies, recombinant proteins etc).

About San Raffaele University and Research Hospital

Ospedale San Raffaele is a clinical-research-university hospital established in 1971 to provide international-level specialised care for the most complex and difficult health conditions. OSR is part of Gruppo San Donato, the leading hospital group in Italy. The hospital is a multi-specialty center with over 60 clinical specialties; it is accredited by the Italian National Health System to provide care to both public and private, national and international patients. Research at OSR focuses on integrating basic, translational and clinical activities to provide the most advanced care to our patients. The institute is recognized as a global authority in molecular medicine and gene therapy and is at the forefront of research in many other fields. Ospedale San Raffaele is a first-class institute which treats many diseases and stands out for the deep interaction between clinical and scientific area. This makes the transfer of scientific results from the laboratories to the patient’s bed easier. Its mission is to improve knowledge of diseases, identify new therapies and encourage young scientists and doctor to grow professionally.

Austrianova Secures Significant Investment from Real Tech Fund

 

SINGAPORE, 2021-Jul-7 — /EPR BIOTECH NEWS/ — Austrianova (the SG Austria group, Austrianova Singapore and Austrianova Thailand) is pleased and honoured to announce that, after extensive due diligence, Real Tech Fund (managed by Real Tech Holdings, Japan) has invested an undisclosed seven figure amount in Austrianova via its Real Tech Global Fund 1 to accelerate Austrianova’s growth. Real Tech Fund is a venture capital firm that invests specifically in innovative deep-technology startups mainly in Japan and Southeast Asia. Austrianova was assisted in this transaction by Square Associates. The financing from Real Tech coincides with, as well as bolsters, the Company’s next stage of growth in production capacity in order to satisfy the strong demand witnessed across the wide variety of applications that its unique protective cell encapsulation technology addresses. It also enhances and facilitates Austrianova’s entry into the Japanese market and specifically partnerships with clients benefiting from Austrianova’s Cell-ina-Box® and Bac-in-a-Box® technologies.

“We are pleased that Real Tech has decided to invest in Austrianova as well as that they are convinced of the value of the Cell-in-a-Box® and Bac-in-a-Box® technologies for solving serious problems faced by the planet and by humanity” stated Walter H Gunzburg, Chairman of Austrianova. “Real Tech already has proven to be a valued partner as well as a significant investor in Austrianova and we look forward to working closely together in the future” added Brian Salmons, CEO of Austrianova.

 

About Austrianova
Austrianova (the SG Austria Group), is a biotech company with a global footprint and operations in Singapore and Thailand. Austrianova utilizes a novel and proprietary technology for the encapsulation of living mammalian (Cell-in-a-Box®) and bacterial (Bac-in-a-Box®) cells. Cell-in-a-Box® protects the encapsulated cells from rejection by the immune system, allows cells to be easily transported, stored and implanted at specific sites in patients. The
technology, which has been proven safe and efficacious in clinical trials carried out in Europe, allows companies to develop any kind of cells as a one-for-all living pharmaceutical. Bac-in-a-Box® is a similar protective device adapted for encapsulation of probiotic bacteria where it has human food and animal feed applications as well as rebalancing the microbiome due to its ability to extend storage under lyophilized conditions and to protect encapsulated bacteria against destruction by stomach acid. Austrianova now also offers GMP4Cells that includes competitively priced Master Cell Bank and Working Cell Bank production as well as “Fill and Finish” services for cell therapy products (such as stem cell therapies, biologics produced from cells e.g. vaccines, antibodies, enzymes, recombinant proteins, exosomes etc).

About Real Tech
Real Tech Holdings / Real Tech Fund is a joint venture fund between euglena Co.,Ltd and Leave a Nest Co., Ltd.  It supports change makers who give their heart and soul to solve societal and environmental challenges. Real Tech Holding’s manages Real Tech Fund, Japan’s leading deep-tech focused venture capital fund.
For more information: https://www.realtech.holdings

Forward-Looking Statements
This release includes forward-looking statements regarding Austrianova (the Company) and its respective businesses. Such statements are based on the current expectations of the management of each entity. The forward-looking events and circumstances discussed in this release, including completion of the public offering, may not occur and could differ materially as a result of known and unknown risk factors and uncertainties affecting the Company, including risks affecting the Company, economic factors and the equity markets generally. No forward-looking statement can be guaranteed. Except as required by applicable securities laws, forward-looking statements speak only as of the date on which they are made and Austrianova undertakes no obligation to publicly update or revise any forwardlooking statement, whether as a result of new information, future events, or otherwise. This is not an offer or solicitation to buy or sell any securities.

Financial Information Contact: pierre.faddoul@square-associates.com
Company and Technology Contact: salmons@sgaustria.com
For more information: http://www.austrianova.com

SOURCE Austrianova

Clinical trial started to verify whether the use of a nasals spray preparation containing azelastine can help fight COVID-19

SAARBRÜCKEN / VIENNA, 17-Feb-2021 — /EPR BIOTECH NEWS/ — In the fight against the SARS-CoV-2 virus, a large number of pharmaceutical companies are looking for new approaches to combat the pandemic. In addition to vaccines, intensive research and development efforts around the world are focusing on identifying new anti-COVID therapeutics that includes re-evaluation of existing product portfolios with a view to re-purpose drugs that have antiviral properties.

With this goal in mind, URSAPHARM Arzneimittel GmbH, based in Saarbrücken, and the Vienna-based biotech company CEBINA GmbH (Central European Biotech Incubator and Accelerator) are collaborating to repurpose the antihistamine drug azelastine hydrochloride as a potential anti-SARS-CoV-2 therapeutic. Azelastine has been successfully used for many years in anti-allergic therapy.

Starting with a novel computational drug repurposing prediction method, developed and performed by Prof Dr Robert Konrat (University of Vienna), CEBINA selected already approved active substances for experimental testing in collaboration with Prof Dr. Ferenc Jakab (Virology National Laboratory, Szentágothai-Research-Center, University of Pécs, Hungary). This collaborative effort led to the identification of azelastine as a potent antiviral compound effective against SARS-CoV-2, a finding confirmed by now by several independent research groups. The potent anti-SARS-CoV-2 activity of azelastine was demonstrated in a reconstituted human nasal tissue model and was evident at a lower dose than present in commercially available nasal sprays [1].

A clinical trial has started on February 16th 2021 to verify whether the use of a nasal spray preparation containing azelastine can achieve a reduction in viral load in the the nasal cavity. The aim of the study is to show whether the anti-allergic medication Pollival® Nasal Spray, or a diluted version, can achieve a reduction in the viral load, therefore reducing transmission and positively influencing the course of the disease.

If positive results of the running clinical studies are demonstrated, URSAPHARM Arzneimittel GmbH and CEBINA GmbH believe this will be an important new approach to control viral spread and contain the current pandemic.

SOURCE: EuropaWire

Complete protection of probiotics from destruction by stomach acid using Bac-in-a-Box technology

SINGAPORE, 2020-Nov-30 — /EPR BIOTECH NEWS/ — Austrianova announced today that a key publication on the ability of its patented technology, Bac-in-a-Box®, to completely protect probiotics from acidic conditions found in the stomach has been published in the well respected journal “Microbial Cell Factories”
https://rdcu.be/cbn0O.

Stomach acid is nature’s way of ensuring that any microbes in food are killed before they reach the intestines. In the same way, stomach acid is also a formidable barrier to the delivery of beneficial bacteria and yeast such as probiotics to the gut, necessitating the current million times “overdosing” of such bacteria. Even then, only a tiny fraction of probiotics survive transit through the stomach. The currently available protections and coatings are only partially effective and still result in the loss of millions of bacteria and the search is still on for novel protective agents and technologies to improve on this.

The stringently reviewed data presented in Austrianova’s Microbial Cell Factories paper show that Bac-in-a-Box® protects living micro-organisms (including probiotics) from stomach acid and bile, enabling them to reach the intestine in a viable state, thereby resulting in a greater beneficial effect. It also allows the use of ten thousand times lower doses, contributing to cost effectivity. Thus, Bac-in-a-Box® is ideal for enhanced and effective delivery of probiotics as well as of oral living vaccines, and it can even be used for microbial fecal transplantation (FMT or bacteriotherapy) where it provides a more patient friendly and acceptable means of delivering stool microbiota.

Brian Salmons, CEO of Austrianova, said “We are pleased that our publication on acid protection of encapsulated microbes has been published in Microbial Cell Factories, an open access, peer-reviewed journal, published by Springer Nature, that is the world leading, primary research journal fully focusing on Applied Microbiology.”

Elaborating on the significance of the paper, Prof. Walter H. Gunzburg said “The gut microbiota in humans and animals plays a key role in health by aiding digestion as well as regulating the immune system and protecting against disease causing pathogens. In recent years, changes or imbalances in the gut microbiota (dysbiosis) have been linked to many diseases as disparate as irritable bowel syndrome, dementia and diabetes, and evidence is
growing that restoring the balance of the microbiota by delivery of probiotic microorganisms can improve health. Orally delivered micro-organisms must survive transit through lethal, highly acid conditions in the stomach and current methods to protect probiotic microorganisms are still not effective enough. This paper reports that Austrianova’s proprietary encapsulation technology, Bac-in-a-Box®, protects members of the microbiota from stomach acid and bile. A number of probiotic strains were shown to survive low pH in vitro for at least 4 hours without appreciable loss in viability as compared to their respective non-encapsulated counterparts. Moreover, animal studies reveals that once the capsules arrive in the intestine (the site where they are needed to have beneficial effects), the probiotics are released and colonize the intestinal tract. Thus, Bac-in-a-Box® protects bacteria and yeasts from viability losses due to stomach acid, allowing the use of lower oral doses of probiotics and microbiota, whilst ensuring good intestinal delivery and release.”

About Austrianova
Austrianova, part of the SG Austria Group, is a biotech company with a global footprint and headquarters in Singapore. Austrianova utilizes a novel and proprietary technology for the encapsulation of living mammalian (Cell-in-a-Box®) and bacterial (Bac-in-a-Box®) cells. Cell-in-a-Box® protects the encapsulated cells from rejection by the immune system, allows cells to be easily transported, stored and implanted at specific sites in patients. The technology, which has been proven safe and efficacious in clinical trials carried out in Europe, allows companies to develop any kind of cells as a one-for-all living pharmaceutical. Bac-in-a-Box® is a similar protective device adapted for encapsulation of probiotic bacteria where it has human food and animal feed applications due to its ability to extend storage under lyophilized conditions and to protect encapsulated bacteria against destruction by stomach acid. Austrianova now also offers GMP4Cells that includes competitively priced Master Cell Bank and Working Cell Bank production as well as “Fill and Finish” services for cell therapy products (such as stem cell therapies, biologics produced from cells e.g. vaccines, antibodies, recombinant proteins etc).

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Combined Shigella and ETEC vaccine candidate enters Phase 1 clinical study with radically innovative approach

VIENNA, 24-Sep-2020 — /EPR BIOTECH NEWS/ — Eveliqure Biotechnologies GmbH, an Austrian biotechnology company, today announces the initiation of clinical testing for its ShigETEC vaccine candidate, with the dosing of the first subject in a Phase 1 safety and immunogenicity study in Europe. ShigETEC is an orally administered vaccine candidate targeting Shigella and Enterotoxigenic E. coli (ETEC), two of the major pathogens responsible for diarrhoeal diseases in travelers to endemic countries, as well as a major threat to children living in low- and middle- income countries.

Currently no effective vaccines against these two pathogens exist and previous attempts to develop vaccines against Shigella and ETEC have failed. Eveliqure has employed a radically innovative approach based on a live attenuated Shigella vaccine strain rationally designed to provide broad, serotype independent protection against both Shigella and ETEC, and is developing the vaccine for both travelers to endemic countries and for children living in resource-poor countries. Following this initial Phase 1 study run in Hungary, further clinical development of ShigETEC will include Phase 1 testing in non-endemic adults, immune characterization of vaccine responses, vaccine formulation studies and clinical testing of ShigETEC in the pediatric population in resource poor-countries. These activities are supported by the EU-funded SHIGETECVAX international consortium of world-leading vaccine organizations – the European Vaccine Initiative, Eveliqure Biotechnologies, University of Gothenburg, icddr,b and PATH.

“Entering clinical development with ShigETEC marks a major milestone for Eveliqure, culminating from our extensive preclinical work performed over the past five years” – commented Gábor Somogyi, MD, MBA, Chief Executive Officer of Eveliqure. “We believe that ShigETEC has the potential to reduce the burden of diarrhoeal diseases for travellers, while also saving hundreds of thousands of children in endemic areas of the world”.

“Initiating the Phase 1 study for ShigETEC in adult volunteers is a crucial step towards establishing safety and immunogenicity of our vaccine candidate, and will help us define a well-tolerated, and effective schedule of dosing for our planned Phase 2 human challenge studies”. – commented Frank Malinoski MD, PhD, Chief Medical Officer of Eveliqure.

Compared to single pathogen approaches, ShigETEC has the potential to have a major impact on diarrheal diseases, protecting both travelers to the developing world and children in endemic populations.

SOURCE: EuropaWire

Cells for Cells and Austrianova announce publication on novel method to produce stem cell exosomes

SINGAPORE, 2020-May-22 — /EPR BIOTECH NEWS/ — Austrianova and Cells for Cells have just jointly published a ground breaking, peer reviewed, scientific publication on a novel, cost and time-saving method to generate extra-cellular vesicles (EVs) from encapsulated Mesenchymal Stem Cells (MSCs). These EVs are known to mediate many of the therapeutic effects of stem cells. The authors show that Austrianova’s proprietary Cell-in-a-Box encapsulation technology can be used to produce and deliver EVs from encapsulated MSC’s, as demonstrated using Cells for Cells proprietary MSCs.  The publication, which was co-authored with their academic partners, the University of the Andes, Chile and the University of Veterinary Medicine Vienna, Austria appeared in prestigious international journal “Frontiers in Pharmacology” (Front. Pharmacol., 21 May 2020 | https://doi.org/10.3389/fphar.2020.00679   https://www.frontiersin.org/articles/10.3389/fphar.2020.00679/full)

Currently, EVs have to be purified from cell culture conditioned media using tedious, costly and time-consuming protocols that are difficult to perform under Good Manufacturing Practices (GMP) conditions. The Cell-in-a-BoxÒ encapsulation technology allows efficient enrichment of EVs at high concentration since they are released from the encapsulated cells via the semipermeable pores, which selectively enable the release of small particles but not of the MSCs. Moreover, Cell-in-a-BoxÒ provides 3D culture conditions for the MSCs. The technology can be used in cell culture allowing GMP production. Alternatively, the encapsulated cells can be implanted into patients as a retrievable delivery device that shields the cells from clearance, whilst they continuously produce EVs, growth factors, hormones and other small therapeutically relevant molecules. Moreover, the EVs produced after encapsulation can themselves be used as drug-loaded delivery vehicles. This technology will be invaluable for the treatment of regenerative diseases and Inflammatory disease.

Maroun Khoury, CSO of Cells for Cells said “this is a multifaceted project bringing together different expertise  to support the burgeoning field of EV-based therapies. It will be interesting to test in the near future, the continuous  release of EVs in a in vivo context. At a personal level, it was  a great way to stay connected with colleagues that I met while living in Singapore ”.

Brian Salmons, CEO of Austrianova said “we are pleased that these results representing the culmination of a long term project with our colleagues at Cells for Cells are finally publicly available. The encapsulation of stem cells as a means to produce exosomes using our Cell-in-a-BoxÒ is an exciting technological breakthrough that is applicable for all stem cell types.”

About Austrianova

Austrianova, part of the SG Austria Group, is a biotech company with a global footprint and headquarters in Singapore. Austrianova utilizes a novel and proprietary technology for the encapsulation of living mammalian (Cell-in-a-Box®) and bacterial (Bac-in-a-Box®) cells. Cell-in-a-Box® protects the encapsulated cells from rejection by the immune system, allows cells to be easily transported, stored and implanted at specific sites in patients. The technology, which has been proven safe and efficacious in clinical trials carried out in Europe, allows companies to develop any kind of cells as a one-for-all living pharmaceutical. Bac-in-a-Box® is a similar protective device adapted for encapsulation of probiotic bacteria where it has human food and animal feed applications due to its ability to extend storage under lyophilized conditions and to protect encapsulated bacteria against destruction by stomach acid. Austrianova now also offers GMP4Cells that includes competitively priced Master Cell Bank and Working Cell Bank production as well as “Fill and Finish” services for cell therapy products (such as stem cell therapies, biologics produced from cells e.g. vaccines, antibodies, recombinant proteins etc).

About Cells for Cells

Cells for Cells is a Chilean biotechnological company dedicated to the research, development and commercialization of innovative cellular therapies, complying with high standards of scientific, technological and international quality, through manufacturing processes certified under ISO 9001: 2015. Each therapy is produced in our labs with GMP standards, being the first biotech company, with such high-quality standards at Latin American level. Our therapies are applied by duly certified specialists.

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CoapTech and Fidmi Medical to Collaborate on Groundbreaking G-Tube Systems

Baltimore, MD, 2019-Sep-18 — /EPR BIOTECH NEWS/ — CoapTech LLC (Baltimore, MD) and Fidmi Medical, Ltd. (Caesarea, Israel) announced today that they will be collaborating on bringing to market a set of next-generation products for the initial placement and long-term maintenance of gastrostomy tubes (G-tubes). The collaboration between CoapTech and Fidmi will focus on integrating the company’s two technologies and expanding their collective market opportunities.

Gastrostomy tubes, which help patients receive long-term nutritional support, are typically placed endoscopically and need to be replaced every 3-6 months.

CoapTech’s PUMA-G System allows initial gastrostomy tube placement by non-surgeons/ gastroenterologists, outside of the endoscopy suite, using point-of-care ultrasound at the patient bedside. This novel approach can be performed in the ICU, emergency room, and eventually outside of the hospital setting, substantially reducing costs for tube placement.

Fidmi Medical’s innovative low-profile gastrostomy system is unique in that it can be utilized for both initial placement and replacement and has several features which make it more durable and comfortable for patients. Gastrostomy tubes very often get dislodged, clogged, or infected, and need to be replaced frequently. Fidmi’s improved low-profile gastrostomy tube is placed just like any standard PEG tube but has an easily replaceable inner tube which can be changed by patients without the need to re-enter the healthcare system for replacement procedures. This will result in fewer complications with patients’ g-tubes, therefore potentially reducing healthcare costs for payers and healthcare systems; as well as providing a substantial improvement in quality of life for patients and their caregivers.

Fidmi Medical Chairman, Lloyd Fishman, commented, “We are excited to collaborate with CoapTech in development and marketing. Both companies have developed cutting-edge technologies that will improve patient care and contribute to the ease, efficiency and confidence of clinicians’ work in the gastrostomy field.”

Dr. Steven Tropello, CoapTech’s founder and CMO said, “In combination these systems will be compatible with Push or Pull methods, be implantable in a wide variety of clinical settings, and require minimal readmission to the hospital and fewer visits to the ER. The synergy will reduce both front and back-end costs for hospitals and payers, and make care safer and more patient-centered.”

Via EPR Network
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Mr RICHARD GUILLAUME IS APPOINTED TO THE DIAFIR BOARD OF DIRECTORS

RENNES, FRANCE, 2019-Apr-08 — /EPR BIOTECH NEWS/ — DIAFIR, a medical technology company focused on the development, manufacture and sale of innovative diagnostic solutions in nonalcoholic steatohepatitis (NASH) and septic arthritis announces today the appointment of Mr Richard Guillaume to its Board of Directors

Mr Guillaume has a wide experience of over 30 years in international management and operations in the pharmaceutical industry as well as in the medtech. Drawing on his experience and knowledge in the field of medical devices and diagnosis, Mr Guillaume will advise and help the Company in its development.

Alongside his role at Diafir, Richard Guillaume has been the General Manager of Echosens from 2008 until 2013. He was previously Executive Vice President Global Sales and Marketing at Blatchford, a UK medical device company. He was also member of the board. Prior, he held various positions such as Director Global Marketing of Abbott International in Chicago and Director Category Development Europe of Mead Johnson. Richard holds a Master in Business Administration from Poitiers University and a DESS in Marketing from Paris Dauphine completed by a general management program at INSEAD.

Via EPR Network
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Global leader in flexible containment solutions ILC Dover expands its Irish production footprint by opening a location in Blarney, County Cork, Ireland

FREDERICA, DE, USA, 01-Nov-2018 — /EPR BIOTECH NEWS/ — ILC Dover, a global leader in flexible containment solutions for the pharmaceutical and biopharmaceutical industry is expanding its Irish production footprint by opening a location in Blarney, County Cork, Ireland.

The building will be operational in the first quarter of 2019 and outfitted with 4,000 square feet of

ISO 7 clean room capacity and 6,500 square feet of Class 8, both dedicated to the company’s pharmaceutical and biopharmaceutical product lines. When at full production, the company expects to hire 60-70 new ILC Dover employees. The company’s original operation in County Cork will be relocated to the Blarney site as part of the expansion project.

ILC Dover President and CEO Fran DiNuzzo expressed enthusiasm about the new launch: “The expansion of our production capabilities in Ireland will allow us to better serve our global customer base and strengthen our position as the leading single-use powder handling solutions provider to the global pharmaceutical and biopharmaceutical marketplace.”

In addition to production space, the new facility will contain state-of-the-art offices, meeting rooms and a product demonstration area for client visits. Curtis Gingles, Vice President and General Manager of the company’s Pharmaceutical Division, added, “Clients of ILC Dover will be happy to see that we’re focused on providing additional capacity located in the region with expanded technical resources. The market for our products is experiencing incredible growth and this expansion will ensure we can keep up with the growing demand for the high-quality products used in manufacturing lifesaving therapies.”

SOURCE: EuropaWire

Asian Study Confirms Favorable Results of Fotona SMOOTH® Laser Therapy for Urinary Incontinence

LJUBLJANA, Slovenia, 21-Sep-2018 — /EPR BIOTECH NEWS/ — The latest study published in the World Journal of Urology (Comparison between erbium‑doped yttrium aluminum garnet laser therapy and sling procedures in the treatment of stress and mixed urinary incontinence – https://doi.org/10.1007/s00345-018-2445-x) provides further confirmation that Fotona SMOOTH® laser technology is a safe, effective and minimally-invasive solution for stress and mixed urinary incontinence (SUI and MUI). The article, written by Dr. Nobuo Okui, compares Fotona’s minimally invasive IncontiLase® Er:YAG laser therapy with the more conventional TVT and TOT surgical sling procedures.

Asian Study Confirms Favorable Results of Fotona SMOOTH® Laser Therapy for Urinary Incontinence

In the study performed by Dr. Okui, 50 Japanese women were treated either surgically (tension-free vaginal tape – TVT or transobturator tape – TOT) or with a Fotona laser. The 1-h pad test, ICIQ-SF, and overactive bladder-symptom score were used to assess the patients before and 12 months after treatment. Laser therapy was performed by first applying a local anesthetic to the vaginal wall and then inserting a probe into the vagina. Laser irradiation was performed for 20 min with an Er:YAG wavelength of 2940 nm (Dynamis XS, Fotona) for a total of three treatments (alternating every month). Results of the 1-h pad test and ICIQ-SF showed comparable improvements in SUI in the sling and laser therapy groups, while some of the patients with MUI in the TVT and TOT groups showed exacerbation. In conclusion, the TVT and TOT procedures and the laser therapy are comparable for SUI; however, laser therapy is superior in terms of MUI and complications. The study thus once again confirms the safety and efficacy of Fotona SMOOTH® laser therapy for urinary incontinence.

Urinary Incontinence Treatment Options

Conventional treatment options for urinary incontinence are surgical, and include TVT or TOT sling procedures, which involve inserting a synthetic material. Problems often arise with artificial meshes that require new treatment methods. With the Fotona SMOOTH® Er:YAG laser thermotherapy (also known as IncontiLase®), the goal is to provide a minimally invasive therapy based on vaginal collagen hyperthermia followed by collagen remodeling and new collagen synthesis, which results in overall regeneration of aged or stressed vaginal tissues and subsequently greater support to the bladder.

Unique Fotona SMOOTH® Technology for Maximum Safety

Patient safety is the primary concern and, for this reason, the patented Fotona SMOOTH® technology holds a very unique position within the spectrum of gynecological treatment options. It is a non-surgical procedure (no incisions) and without implants or appliances. The Fotona SMOOTH® method of dual-tissue regeneration is completely non-ablative and therefore minimally invasive to the vaginal wall. The treatment involves an additional superficial heat-shocking mechanism of tissue regeneration, and a unique self-regulating safety feature. These dual-tissue regeneration characteristics of the Fotona SMOOTH® Er:YAG laser allow for an exceptionally high degree of safety and efficacy in thermotherapy of the vaginal wall. This is what makes Fotona SMOOTH® a significantly safer alternative to many widely used and more-invasive procedures.

Evidence-Based Laser Medicine

Over the past few years numerous (over 35) other studies on Fotona SMOOTH® laser therapy have been published by distinguished gynecologists from around the globe in some of the most trusted and renowned international scientific journals, all with favorable results (https://www.laserandhealthacademy.com/en/practitioners/recommended-reading/gynecology/). One such noteworthy clinical paper published in March 2018 by Dr. Adolf Lukanovic and Dr. Mija Blaganje is the first randomized controlled trial study (on 114 premenopausal parous women) to evaluate the efficacy and safety of non-ablative Er:YAG laser therapy as an alternative non-invasive treatment of SUI and the improvement of sexual gratification (published in the European Journal of Obstetrics & Gynecology and Reproductive Biology. 2018 (224): 153-158). The results from this study indicate that a single session of IncontiLase® treatment improves the impact of SUI symptoms on quality of life and sexual function in premenopausal parous women significantly better than placebo.

In another Asian study, Dr. Yi-Wen Tien et al. from the Chang-Hua Hospital in Taiwan examined the effects of laser treatment for female SUI on pad weight, urodynamics, and sexual function in 35 women (published in the International Urogynecology Journal. 2017; 28(3): 469-476). The study reveals that the effect of IncontiLase® treatment for mild SUI was moderate at the 6-month follow-up. Moreover, it improved LUTS, quality of life, and the sexual function of both partners. The authors conclude that the IntimaLase® procedure is very effective in the treatment of SUI and is not associated with any severe adverse effects.

Similarly, Dr. Yi-Hao Lin et al. from the Chang Gung Memorial Hospital in Taiwan obtained favorable results. Their study investigated the effects of non-ablative laser treatment on overactive bladder (OAB) syndromes, SUI and sexual function in 30 women with urodynamic stress incontinence (published in the Taiwanese Journal of Obstetrics & Gynecology. 2017 (56): 815-820). The results showed that IncontiLase® treatment can resolve SUI and coexistent OAB symptoms three months after therapy, while repeated laser therapy may be necessary after six months. The results also revealed that sexual gratification improved, while no major adverse effects were noticed.

The quantity and quality of the studies performed with Fotona SMOOTH® laser therapy is such that Fotona’s Dynamis has been cleared in the European Union for SUI (IncontiLase®), vaginal laxity – vaginal relaxation syndrome (IntimaLase®), genitourinary syndrome of menopause – GSM (RenovaLase®) and pelvic organ prolapse (ProlapLase®), giving women the option to choose a safer and less-invasive treatment alternative. In Asia, the Taiwan Food and Drug Administration has already cleared Fotona Dynamis for mild to moderate SUI, and the Singapore Health Sciences Authority has cleared the Dynamis for the treatment of SUI and GSM.

SOURCE: EuropaWire

International Symposium on the Accessibility to High-Value Medicine, December 5-6, 2017 in London

LONDON, Dec-3-2017 — /EuropaWire/ — On December 5-6, 2017, 200 high-level experts from government, academia, biopharmaceutical developers and patient organisations convene in London (UK) to address the mounting challenge of accessibility and patient access to high-value, high-cost medical therapies.

The not-for-profit executive forum is organised by the London School of Hygiene and Tropical Medicine and analytica|LASER, a global research consultancy, to investigate topical questions around drug policy, global health systems sustainability and innovation funding through a combination of case studies, panel sessions, and roundtables. Delegations are registered from over 70 public and private organisations, including the World Health Organization, as well as health systems representatives from Belgium, England, Estonia, Croatia, France, Germany, Italy, Norway, Sweden, the United States and Wales. Multiple patient organisations support the meeting to ensure that the patient voice is reflected in all deliberations.

“Access to life-saving drugs is not a new challenge. The paradigm of accessibility was changed completely in the face of the deadly HIV epidemic. This time, however, accessibility concerns almost every domain of medicine such as cancer, auto-immune diseases and rare diseases. We must act now,” says Prof Peter Piot, Director of the London School of Hygiene & Tropical Medicine and former head of UNAIDS.

“There is an incredible challenge for the sustainability of health systems across the world”, says Prof. Lucien Abenhaim, London School of Hygiene & Tropical Medicine and Chairman of Analytica Laser. “It is critical that drug developers and health system engage on actionable proposals that address concerns around value, cost and overall access to innovation for the patients who need it. We are at an inflection point – the paradigms of the 1990’s can no longer guide us,” he adds.

Yann Le Cam, CEO of EURORDIS-Rare Diseases Europe, an alliance of over 700 rare disease patient organisations, commented, “The majority of people living with a rare disease have delayed or no access to the medicine they need. Only through a collective engagement between all stakeholders involved, including industry, competent authorities, health ministries, academics and regulators, can we break the access deadlock.” Le Cam will be presenting a new four-pillar approach to improve access to rare disease therapies in Europe.

The main plenary on December 6th features scheduled remarks by over a dozen authorities in the field, including Professor Baron Peter Piot (Director, London School of Hygiene & Tropical Medicine and former Head, UNAIDS), Dr. Olivier Brandicourt (Chief Executive Officer, Sanofi), Dr. Sarah Garner (World Health Organization), Prof. Dominique Le Guludec (President, French HAS), Sir Andrew Dillon (Chief Executive, National Institute for Health and Care Excellence UK) and Dr. Harold Paz (Chief Medical Officer, Aetna). The plenary is preceded by a scientific seminar on December 5th which gathers globally renowned academics to explore new frontiers on the methodology for the appraisal and valuation of high-value medicines.

Please contact the organisers for more information on the programming and media access, or refer to www.accessibility-symposium.org

SOURCE: EuropaWire

GenQual and R-Pharm collaborate to deliver predictive diagnostics for novel anti-IL-6 antibody for autoimmune diseases

Seattle, WA, San Francisco, CA and Moscow, Russia, 2016-May-25 — /EPR Biotech News/ — R-Pharm and GenQual are pleased to announce a new collaboration focused on the development of novel predictive diagnostic tools in the area of Rheumatoid Arthritis and Autoimmune diseases.

The GenQual proprietary real-time PCR platform, when applied to the genes that are involved in the manifestation of several autoimmune diseases, allows us to detect and assess single nucleotide polymorphisms. Here, allelic determination is used as potential predictor of the treatment response by the novel anti-IL6 antibody, which is currently in development by R-Pharm.

GenQual Founder and CEO Jonathan Mirich said, “This partnership is exciting for GenQual as we advance in our goal to deliver predictive diagnostic tools for the treatment of autoimmune disorders. We are very excited about the possibilities in this space and are thankful to have quality partners in R-Pharm.”

R-Pharm CEO Vasily Ignatiev indicated the importance of the Autoimmune diseases as an area of the development and growth for R-Pharm, as well as the development of novel diagnostic tools aimed to increase the level of predictive response and efficiency of the upcoming treatment paradigm.

About GenQual
GenQual develops proprietary biomarker diagnostics for autoimmune and oncology indications.  Our personalized medicine products are designed to facilitate early disease detection and diagnosis, and to improve treatment approaches at the molecular level.  GenQual is a privately-held corporation based in Seattle, WA area, USA.

About R-Pharm
R-Pharm is a private Russian pharmaceutical company founded in 2001. It employs over 3,500 highly qualified specialists in 60+ branches. R-Pharm operates in Russia and CIS, USA, Germany, Japan, Turkey/MENA.

The company is involved in R&D, manufacturing (finished dosage forms, biotech and chemical APIs), marketing, sales and distribution of innovative pharmaceutical products in hospital/specialty care therapeutic areas.

R-Pharm collaborates with major international pharmaceutical companies and universities in the fields of drug discovery, development, clinical trials, manufacturing and commercialization.  The company operates several  GMP compliant manufacturing sites in Russia and Germany, research, BD/licensing and marketing affiliates in Japan, Germany, Turkey and US.

Marketed portfolio and pipeline features drugs used in oncology, hematology, autoimmune diseases, HIV, HCV, neurology, diabetes, cardiology, as well as antibiotics, contrast media and anesthesia agents.

Contact

R-Pharm
info@rpharm.ru
www.r-pharm.com/en/

 

GenQual

info@genqual.com
206.659.7825
www.genqual.com

 

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Nu-Tek Bioscience Announces Availability of Pea Peptones

Allergen free Peptones for the use in probiotic cultures

Minnetonka, MN, 2016-May-10 — /EPR BIOTECH NEWS/ — Nu-Tek’s Pea Peptone is an excellent alternative to Dairy and Soy Peptones for the production of probiotic cultures. Consumers with known food allergies rely on ingredient labeling for guidance. An Allergen Control Plan is a critical component of a food ingredient manufacturer’s safety initiatives. It not only protects the health and confidence of the consumer, but also the reputation and financial success of the company.

An advantage of allergen management strategies include ingredient selection that eliminates allergens without negatively affecting the performance of the product. Formulating growth media using Nu-Tek Pea Peptone provides such an advantage. Nu-Tek Pea Peptone HPP-A is an excellent source of natural nitrogen and necessary growth factors needed for optimum probiotic culture fermentations.

Our Kosher Pea Peptones are obtained through enzymatic hydrolysis of Animal free and Non-GM pea protein. Pea protein hydrolysates do not require special allergen labeling. Independent university trials have shown excellent growth performance results that compare favorably with soy peptones. In addition, peptones have been shown to improve fermentations versus yeast extract “only” growth media. Today at Nu-Tek Bioscience announced immediate availability of Pea Peptones, enabling developers of probiotics to either enhance their current culture growth rate.

Pea Peptones

Pea Peptones Availability
Pea Peptones is an update driven by customer feedback and is part of Nu-Tek Bioscience’ continuing development of new technologies.

Founded in 2008, Nu-Tek Bioscience LLC is the worldwide manufacture and developer of specialty Peptones that have been designed to enhance Cell growth. The company offers a wide range of Peptones and Yeast Extracts.

For more information, press only:
Cyndi Mueller
952-936-3604
cmueller@nu-tekbioscience.com

For more information on Pea Peptones:
www.nu-tekbioscience.com

Austrianova expands its business area

SINGAPORE, January 26, 2016 — /EPR BIOTECH NEWS/ — Austrianova announced today that, having completed the set up of austrianova logoits new GMP facility, it is now offering clients a GMP cell banking (Master Cell Bank and Working Cell Bank) as well as a “Fill and Finish” service for cell therapy products, in addition to its encapsulation services and technology. Austrianova is able to offer the production of Master Cell and Working Cell Banks (MCB and WCB) at the size scale required for early (phase 1 and 2) stage clinical trials at highly competitive prices using its state of the art isolator based production facility, assuring that the highest quality standards are adhered to. The company can also fill bulk cell product into syringes or vials in its GMP facility. This new cell banking and filling service is called GMP4Cells. MCB’s and WCB’s are required for all cell therapy products such as stem cell therapies as well as biologics produced from cells such as vaccines, antibodies, recombinant proteins etc. Similarly, many companies, including those developing stem cell lines and products, are seeking high quality economic fill and finish for relative small lots.

“We see this as a natural add-on to our already established Cell-in-a-Box® cell encapsulation technology for which we have recently set up a GMP manufacturing facility in Thailand. This kind of MCB and WCB production as well as “Fill and Finish” services for cells are, however, stand alone services. Although these services are generally available to all customers, they should allow start up companies and academic based cell products, vaccines etc to enter clinical trials in a quality assured manner but at lower cost that other, more conventional, cell banking companies offer” stated Walter H. Gunzburg, Chairman and CTO of Austrianova.

“In addition to our state of the art facility, Austrianova offers services that comply with major international regulatory agencies using a customized German/Swiss based quality assurance system. Our team has many years experience with regulatory agencies around the world and has taken cell therapies into clinical trials” said Brian Salmons, CEO.

More information about the GMP4Cells cell banking but also the Cell-in-a-Box® and the related Bac-in-a-Box® encapsulation services can be found on our newly revamped website www.austrianova.com.

About Austrianova:
Austrianova, part of the SG Austria Group, is a biotech company with a global footprint and headquarters in Singapore. Austrianova utilizes a novel and proprietary technology for the encapsulation of living mammalian (Cell-in-a-Box®) and bacterial (Bac-in-a-Box®) cells. Cell-in-a-Box® protects the encapsulated cells from rejection by the immune system, allows cells to be easily transported, stored and implanted at specific sites in patients. The technology, which has been proven safe and efficacious in clinical trials carried out in Europe, allows companies to develop any kind of cells as a one-for-all living pharmaceutical. Bac-in-a-Box® is a similar protective device adapted for encapsulation of probiotic bacteria where it has human food and animal feed applications due to its ability for extending storage under lyophilized conditions and protection in stomach acid.

Austrianova Singapore Pte Ltd,
#05-19 Synapse,
3 Biopolis Drive,
Singapore 138623
Tel +65 6779 3867
Fax: +65 6268 4671

Austrianova Thailand Co., Ltd,
141 INC2 Building D, Room 401-404
Thailand Science Park,
Paholyothin Road, Klong 1,
Klong Luang, Pathumthani 12120,
Thailand

www.austrianova.com

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ISOLATOR

 

BOC Sciences Released Analytical Support Services

Long Island City, New York, January 15, 2016 — /EPR BIOTECH NEWS/ — Thursday of this week (January 14, 2016), BOC Sciences officially launched its analytical support service, aiming to provide all-round custom services on the base of its present services in pharmaceutical field.

BOC SCIENCES LOGO

The analytical service of BOC Sciences covers a wide range in almost every aspect of drug discovery from impurities identification, purity level testing, to right equipment suggestion for compound preparation with the aim of providing the best solutions for research conduction and maximizing the outcome with less waste in both time and cost.

Analysis service on inspecting the quality of compounds before, during, and after researches including their purity level, structure and degradation testing, final chemicals analysis, even involved equipment suggesting are available.  “The launch of analytical service is an upgrade of the present customer services like drug design, compound manufacturing, but making the analysis outstand to meet pure needs in this aspect, with which the companies that carry out researches in a single direction can benefit from our comprehensive expertise network.” Said Daylen, the director of the newly funded business department, “and we will continue to optimize our professionalism in the field to serve more clients in such tailored needs.”

Besides, the analytical support (http://www.bocsci.com/analytical-support.html) additionally includes but not limited to mass spectrometry, nuclear magnetic resonance, and X-ray crystallography. Other technologies like chemistry synthesis and bioconjugation involved analysis needs can be also met at BOC Sciences

With the development of pharmaceutical industry, numerous studies and researches on material and new formulation are undergoing, the appearance of BOC Sciences’ analytical support services can be considered as an outsource route for companies that are not willing to spare more time and budget on some sub-matters, and such custom services can contribute to a purer research with no further distraction while obtain the highest level of expertise in related matters.

This form of analytical service will get furtherly developed as the general environment put more emphasis on the idea that professional problems should be done by professional people with the best result while keep efficient.

About BOC Sciences
BOC Sciences (http://www.bocsci.com) is original a chemical supplier on APIs, natural compounds, chiral compounds, inhibitors, GMP products and many other chemicals. But in recent years, the company gradually takes more effort on providing related custom services like synthesis, drug discovery and so on to be a comprehensive products and services supplier in the field.

PR Contact

Linna Green
account@bocsci.com
5166698109

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VTU Technology and Research Corporation Technologies (RCT) entered into a development and commercialization agreement

VTU Technology to offer unique combination of technologies for the high-level production of proteins with human-like glycosylation using Pichia GlycoSwitch®

Tucson, Arizona and Grambach, Austria, December 03, 2014 — /EPR BIOTECH NEWS/ — VTU Technology and Research Corporation Technologies (RCT) announced today that they have entered into a development and commercialization agreement for VTU to combine both companies´ Pichia pastoris protein production technologies. Pichia GlycoSwitch® – a new expression system for the production of glycoproteins with human-like glycosylation patterns – and VTU´s yield enhancing Pichia pastoris expression platform are now available in one package from VTU. This unique combination of technologies acting synergistically is of great benefit for customers as it leads to a high performance production platform for recombinant glycoproteins with superior product yields and uniform Man5 – or other human-like glycoforms.

Under the terms of the agreement, RCT grants VTU Technology access to RCT´s Pichia GlycoSwitch® expression system for combination with VTU´s in-house high-yielding Pichia platform featuring different proprietary technologies such as AOX1 promoter libraries suited for both methanol-induced and methanol-free production. VTU Technology is now offering the combined technology suite as part of the company´s expression strain and corresponding bioprocess development contract services portfolio.

“We are delighted to offer Pichia GlycoSwitch® engineered with our broad portfolio of Pichia tools in this partnership with RCT and I am convinced that our yield enhancing technologies will give GlycoSwitch® an exciting extra edge for the production of glycoproteins with Man5 – or other human-like glycoforms”, states Thomas Purkarthofer, Ph.D., Head of Business Development of VTU Technology.

“Our partnership with VTU Technology brings together two technologies that will enable customers to uniquely tailor the glycosylation of their target protein and explore new biological functions. We are looking forward to working with VTU Technology to expand the potential of proteins manufactured in Pichia GlycoSwitch®”, states Kurt R. Gehlsen, Ph.D., Vice President and CSO of Research Corporation Technologies, Inc.

About Pichia

Pichia pastoris is a yeast widely used for recombinant protein expression. As a microbial eukaryotic organism, Pichia combines the post-translational modification systems similar to those found in mammalian cells, with the ease of use/manipulation of E. coli. Decades of processes development have been focused on efficiently growing Pichia to extremely high cell densities; and multiple generations of molecular biology tools have been created to engineer strains to produce tens of grams/liters of a recombinant protein product. Pichia can secrete high levels of properly folded, functional proteins into a simple, defined medium for easy purification. There have been more than 20,000 publications on the use of Pichia for the production of more than 5,000 proteins, with more than 70 products manufactured in Pichia on the market today. Pichia products include enzymes manufactured in 200,000-liter fermenters and two FDA-approved therapeutics.

Pichia GlycoSwitch® is a recombinant protein expression system that broadens Pichia’s applications to glycoproteins where N-linked glycosylation is important for biological function. Pichia GlycoSwitch® offers researchers the ability to control the glycosylation (sugar addition) of recombinant glycoproteins and explore the role of protein glycosylation and various glycan structures on protein function. Pichia´s typical high-mannose glycan patterns can also be eliminated to reduce immunogenicity caused by the unwanted hyperglycosylation. The Pichia GlycoSwitch® system consists of patents, strains and vectors that are useful for making proteins with a number of different human-like glycoforms.

For additional information about Pichia, please visit www.pichia.com.

About VTU Technology

VTU Technology, a leading contract research and development company, offers the broadest toolbox and most versatile technology platform available for Pichia pastoris recombinant protein expression / production enabling highest productivities delivering up to 22 g/L of secreted protein within a few weeks development time. VTU Technology´s powerful Pichia pastoris protein expression technology is based on its optimized gene design and cloning strategies, proprietary AOX1 promoter libraries & in-house expression platform and high-throughput screening & cultivation regime, combined with excellent know-how in fermentation and downstream process development.

Headquartered in Grambach/Graz, Austria, VTU Technology is a private company and a subsidiary of VTU Holding, an Austrian enterprise that combines several technology and engineering companies in chemistry, pharma & life science as well as power and fuel industry. For additional information about VTU Technology, please visit www.vtu-technology.com.

About RCT

RCT is a Tucson, Ariz.-based technology investment and management company that provides early-stage funding and development for promising biomedical companies and technologies. RCT focuses on technology investments with origins from universities and research institutions worldwide. RCT’s technology portfolio includes platforms and tools that support the discovery, development and manufacturing of therapeutics. Current platform technologies include Pichia and E.coli protein expression systems and novel protein binding scaffolds. To learn more about RCT, see www.rctech.com and www.pichia.com.

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VTU Technology and RCT announce partnership
VTU Technology and RCT announce partnership

RCT Color logo
RCT Color logo

VTU technology rgb
VTU technology rgb

For more information

Thomas Purkarthofer, Ph.D.
VTU Technology GmbH
Phone: +43 316 4009 4017
Email: thomas.purkarthofer@vtu.com

Kurt R. Gehlsen, Ph.D.
Research Corporation Technologies
Phone: 520-748-4460
Email: kgehlsen@rctech.com

ViroCarb’s anti HIV Crowd Funding Campaign

Toronto, Canada, December 01, 2014 — /EPR BIOTECH NEWS/ — ViroCarb Inc. has launched a worldwide crowd funding campaign to promote the development of its new HIV infection inhibitor.

WORLD AIDS DAY – Make a donation to save lives from AIDS! Support new treatment development at: https://www.indiegogo.com/projects/funding-a-new-therapy-against-drug-resistant-hiv/x/9240077

Despite the great progress made in HIV/AIDS treatment, there is still an urgent need for new drugs, particularly for people who have had to abandon existing treatments due to HIV drug resistance and side effects.

The current treatment of HIV/AIDS involves the use of three or more drugs from five main general classes, used in combination. While this antiretroviral therapy (ART) has helped to reduced morbidity and mortality from AIDS, long term toxicity and the emergence and transmission of drug resistant HIV strains limit the effectiveness. Thus, despite therapy which can render this a chronic, rather than acute fatal infection, development of new drugs to prevent infection and overcome drug resistant strains, is increasingly urgent.

ViroCarb Inc. is developing a novel technology that addresses infections by drug resistant HIV strains. Developed from the identification of a new, natural resistance factor against HIV infection by scientists at SickKids and Canadian Blood Services, ViroCarb’s inhibitor works against a previously overlooked target on the virus to block HIV from entering human cells, the very first step in the infection. It works against all HIV strains.

Funds are needed to aid in moving forward to support preclinical studies; therefore ViroCarb Inc. has started an international crown funding campaign to carry out these HIV model studies needed before conducting clinical trials.
Please support this new way to block HIV.

Contact-Details: Dr. Mario Huesca
479 Simonston Boulevard.
Thornhill ON.
L3T 4M4 Canada

Facebook: https://www.facebook.com/ViroCarb;
Website: http://www.virocarb.com

 

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HD Biosciences, Co., Ltd. and E. J. Corey Institute of Biomedical Research Reached Agreement for Drug R&D Collaboration

HD Biosciences Co., Ltd. (HDB) and E. J. Corey Institute of Biomedical Research (CIBR) announced that they have reached a risk-sharing agreement on collaborative drug discovery and development in the therapeutic areas of infectious diseases, metabolic diseases, and oncology. This joint effort will focus on both international and Chinese markets to provide innovative medicines for unmet healthcare needs. The agreement includes lead candidate selection pre-clinical development, IND filing, clinical trials, and NDA approvals. Both companies will share financial returns from any successes or products launches.

“We are delighted to enter this partnership. The collaboration will leverage HDB’s extensive capabilities in preclinical drug discovery and development, and create long term potentials for the company.” stated Xuehai Tan, Ph.D., President & CEO of HDB. “In combination of CIBR’s expertise in drug development, we are confident to deliver novel drug candidates over the next few years, and to make this partnership a success.”

“Working with HDB gives CIBR a unique opportunity to showcase its strength in innovative drug discovery and development,” said Wuyi Meng, Ph.D., President of CIBR. “This partnership further demonstrates CIBR’s commitment in the betterment of patient’s lives by bringing forward novel medicines. We will collaborate closely with HDB to accelerate the progress of our collaborative programs”

About HD Biosciences Co., Ltd.
HD Biosciences Co., Ltd. is a Shanghai-based, biology-focused preclinical drug discovery contract research organization (CRO). The company offers comprehensive service platforms around target validation, plate-based pharmacology, hit identification and lead discovery, therapeutic antibody discovery, in vivo pharmacology, as well as other research and development services. The company currently collaborates with eight of the ten largest pharmaceutical companies in the world and has established strategic partnerships on many key R&D areas with impacts to their portfolios. The strong scientific expertise, high quality and consistency in deliveries, constantly meeting or exceeding expectations, has earned the company a great reputation in the industry, and helped the company to build its widely recognized leadership in preclinical contract research services.http://www.hdbiosciences.com

About E. J. Corey Institute of Biomedical Research
Located in the Jiangyin High-tech Industry Development Zone in Jiangyin, Jiangsu, E. J. Corey Institute of Biomedical Research (CIBR) is a non-profit research organization founded by Nobel laureate Prof. E. J. Corey with the support from Jiangyin and Jiangsu government. CIBR is committed to scientific research in the broad biomedical field and to the development of novel therapeutics to meet the unmet medical needs of patients. In addition to its strong internal research and discovery capabilities in biomedical research and drug discovery, CIBR has established solid external capabilities in translational medicine and molecular toxicology to support drug development. Under the guidance of Nobel laureate Prof. Corey, CIBR is well poised to contribute to the discovery and development of novel medicines. http://www.cibrnobel.org

Contact Details:
HD Biosciences
Ms. Jessie Yang
Email: yangxiaojie@hdbiosciences.com

CIBR
Dr. Jiaquan Wu;
Email: jwu@cibrnobel.org

 

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HD Biosciences and Anchor Therapeutics Form Collaboration for Co-marketing Pepducin-mediated GPCR Technology

HD Biosciences Co., Ltd (HDB) and Anchor Therapeutics, Inc. today announced that they have formed a strategic collaboration to co-develop and co-market Anchor’s proprietary pepducin technology and provide novel drug development solutions to global pharmaceutical companies with drug discovery efforts focused on G-protein coupled receptors (GPCR).

Pepducins are proprietary lipidated peptide modulators for GPCR signaling. They may stabilize receptor conformation, promote or inhibit dimerization, and modulate interaction of GPCR with signalosome. As a strong research tool, pepducin technology enables high throughput screening (HTS) campaigns for the identification of special class of compounds and allosteric ligands, facilitates biophysical studies via stabilization of GPCRs in different activation states and functionally de-orphanizes GPCRs to provide tools for interrogation of pharmacology in vitro and in vivo.

As a key component of HDB’s plate-based pharmacology service capabilities, GPCR assays and screenings is one of the most active research and development areas that attracts global clients and partners in drug discoveries. With over 200 recombinant GPCR cell lines in house, some of which are orphan receptors, combining a variety assay formats with pepducin technology allows HDB to enhance its capabilities for supporting hit identification, lead discovery and receptor selectivity profiling. The collaboration is also designed to provide broader exposure and accessibility of pepducin technology across pharmaceutical and biotechnology industries through HDB’s global client base. HDB’s clients will gain unprecedented access to not only the pepducin screening platform but also HDB-Anchor’s joint expertise in GPCR research.

“Anchor’s pepducin technology has provided a novel approach to search very special GPCR related compounds that have potential to alter the receptor functions. We believe this technology will be very valuable in GPCR related drug discovery.” commented Dr. Xuehai Tan, President and Chief Executive Officer of HDB. “As one of the global leaders in biology focused contract research services, HDB emphasizes on innovative and scientific driven technologies in order to deliver extra value to our clients. The partnership between HDB and Anchor is a perfect example to demonstrate our commitment to grow the expertise and strengthen our leadership in GPCR R&D.” Dr. Tan continues his comments.

“Anchor Therapeutics is extremely pleased to partner its pepducin technology with HD Biosciences, one of the leading companies providing state of the art high throughput screening services to pharmaceutical and biotechnology clients,” said Thomas J. McMurry, PhD, Anchor’s Interim President. Dr. McMurry continued, “Through this collaboration, Anchor and HDB will expand the validation of pepducin high throughput screening probes in order to provide HDB’s clients with access to innovative screens designed to facilitate access to novel small molecule pharmacophores.”

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LC Sciences Launches Online Searchable Knowledgebase

LC Sciences, LLC, a leading provider of microRNA analysis services, today announced the launch of a new online searchable knowledgebase that researchers can use to locate technical information on the company’s website. This announcement comes on the heels of the launch of LC Sciences’ re-designed company website last week. The knowledgebase contains technical information in the form of application notes, technical bulletins, customer publications, presentations, reviews of seminal publications in the field, etc. This documents database contains over one thousand entries and encompasses a wide range of research fields; from plant science to neuroscience. Additionally, all entries have been carefully meta-tagged to improve search results.

“Having served the microRNA research community for the past nine years, we’ve accumulated quite a large library of reference documents such as application notes and related customer publications. This new resource offers the community a simple, user friendly search interface that makes it easier for them to locate the information they’re looking for within that library.” – Chris Hebel (Vice President of Business Development, LC Sciences)

The knowledgebase is freely accessible to all at: http://www.lcsciences.com/Knowledgebase/

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