WALTHAM, Mass., July 31, 2018 (GLOBE NEWSWIRE) — Histogenics Corporation (Histogenics) (Nasdaq:HSGX), a leader in the development of restorative cell therapies (RCTs) that may offer rapid-onset pain relief and restored function, today announced the appointment of E. Lynne Kelley, M.D., FACS as its Chief Medical Officer. Dr. Kelley brings more than 20 years of executive management and surgical experience in medical affairs, clinical operations, regulatory affairs and product development to Histogenics. Dr. Kelley will join Histogenics’ executive team and assume responsibility for leading medical affairs strategy and building out the department in anticipation of NeoCart’s potential commercial launch. Dr. Kelley will also work with the team on preparing the anticipated Biologics License Application (BLA) for NeoCart and spearheading related discussions with the United States Food and Drug Administration (FDA).

“Lynne’s experience as a surgeon, medical affairs executive and educator across a wide variety of therapeutic areas and indications will be critical for Histogenics as we prepare for our top-line data, potential BLA submission and FDA review of NeoCart,” stated Adam Gridley, President and Chief Executive Officer of Histogenics. “We are pleased to have Lynne join us at this exciting time to educate our customers and patients about the benefits of our novel restorative cell therapy platform through training, medical education and collaboration with our future commercial team. In addition, she will be working closely with our team to help drive additional product development initiatives, such as future trials in the U.S. and internationally.”

Dr. Kelley is a board certified general and vascular surgeon having received her medical degree from Dartmouth Medical School and completed her Residency in General Surgery at Dartmouth Hitchcock Medical Center. During her training she was awarded an NIH-sponsored basic science research grant at Harvard Medical School. She completed a Fellowship in Vascular Surgery at Harvard Medical School, Massachusetts General Hospital and was awarded the Marco Polo Fellowship providing advance training in Endovascular Surgery at the University Paris Hospital, Henri Mondor. Dr. Kelley also received a B.A. in Biology from Boston University. Prior to Histogenics, Dr. Kelley held various medical affairs roles within the industry including: Chief Medical Officer at Senseonics, World Wide Vice President of Medical Affairs at Becton Dickinson & Company Medical Surgical Systems Division, Vice President and Medical Director at Kimberly Clark, and Medical Director at Boston Scientific Corporation’s (Boston Scientific) Peripheral Interventions and Vascular Surgery division. Prior to her work at Boston Scientific, Dr. Kelley was an assistant professor of vascular surgery and radiology at Yale University.

“I am thrilled to join the talented, cutting edge team at Histogenics.  The potential of NeoCart in restoring function and thus improving the lives of patients with debilitating joint pain is extraordinary,” shared Dr. Kelley. “I look forward to collaborating with the physician community globally to bring this exciting therapy to our patients.”

In connection with the hiring of Dr. Kelley, the Compensation Committee of Histogenics’ Board of Directors approved a grant to Dr. Kelley of a stock option to purchase 200,000 shares of Histogenics’ common stock. The option was granted pursuant to the Nasdaq inducement grant exception as a component of Dr. Kelley’s employment compensation, and was granted as an inducement material to her acceptance of employment with Histogenics in accordance with Nasdaq Listing Rule 5635(c)(4). The option will have an exercise price equal to the closing price of Histogenics’ common stock on July 31, 2018. The option has a ten year term and vests with respect to 25% of the shares of common stock underlying the option on the one year anniversary of Dr. Kelley’s first day of employment with Histogenics and with respect to the remaining shares in equal monthly installments over the following 36 months, subject to Dr. Kelley’s continued service with Histogenics through the applicable vesting dates.

About Histogenics Corporation

Histogenics (Nasdaq: HSGX) is a leader in the development of restorative cell therapies that may offer rapid-onset pain relief and restored function. Histogenics’ lead investigational product, NeoCart, is designed to rebuild a patient’s own knee cartilage to treat pain at the source and potentially prevent a patient’s progression to osteoarthritis. NeoCart is one of the most rigorously studied restorative cell therapies for orthopedic use.  Histogenics completed enrollment of its NeoCart Phase 3 clinical trial in the second quarter of 2017 and expects to report top-line, one-year superiority data in the third quarter of 2018.  NeoCart is designed to perform like articular hyaline cartilage at the time of treatment, and as a result, may provide patients with more rapid pain relief and accelerated recovery as compared to the current standard of care. Histogenics’ technology platform has the potential to be used for a broad range of additional restorative cell therapy indications. For more information on Histogenics and NeoCart, please visit www.histogenics.com.

Forward-Looking Statements

Various statements in this release are “forward-looking statements” under the securities laws. Words such as, but not limited to, “anticipate,” “believe,” “can,” “could,” “expect,” “estimate,” “design,” “goal,” “intend,” “may,” “might,” “objective,” “plan,” “predict,” “project,” “target,” “likely,” “should,” “will,” and “would,” or the negative of these terms and similar expressions or words, identify forward-looking statements. Forward-looking statements are based upon current expectations that involve risks, changes in circumstances, assumptions and uncertainties.

Important factors that could cause actual results to differ materially from those reflected in Histogenics’ forward-looking statements include, among others:  the timing and success of Histogenics’ NeoCart Phase 3 clinical trial , including, without limitation, possible delays in generating the data from the clinical trial; the ability to obtain and maintain regulatory approval of NeoCart or any product candidates, and the labeling for any approved products; MEDINET’s ability to initiate NeoCart clinical development in Japan in a timely manner; NeoCart’s regulation as a Regenerative Medical Product in Japan; the market size and potential patient population in Japan; the scope, progress, expansion, and costs of developing and commercializing Histogenics’ product candidates; the ability to obtain and maintain regulatory approval regarding the comparability of critical NeoCart raw materials following our technology transfer and manufacturing location transition; the size and growth of the potential markets for Histogenics’ product candidates and the ability to serve those markets; Histogenics’ expectations regarding its expenses and revenue; the sufficiency of Histogenics’ cash resources and the availability of additional financing on commercially reasonable terms; and other factors that are described in the “Risk Factors” and “Management’s Discussion and Analysis of Financial Condition and Results of Operations” sections of Histogenics’ Annual Report on Form 10-K for the year ended December 31, 2017 and Quarterly Report on Form 10-Q for the quarter ended March 31, 2018, which are on file with the SEC and available on the SEC’s website at www.sec.gov.  Additional factors may be set forth in those sections of Histogenics’ Quarterly Report on Form 10-Q for the quarter ended June 30, 2018, to be filed with the SEC in the third quarter of 2018.  In addition to the risks described above and in Histogenics’ Annual Report on Form 10-K and Quarterly Reports on Form 10-Q, Current Reports on Form 8-K and other filings with the SEC, other unknown or unpredictable factors also could affect Histogenics’ results.

There can be no assurance that the actual results or developments anticipated by Histogenics will be realized or, even if substantially realized, that they will have the expected consequences to, or effects on, Histogenics.  Therefore, no assurance can be given that the outcomes stated in such forward-looking statements and estimates will be achieved.

All written and verbal forward-looking statements attributable to Histogenics or any person acting on its behalf are expressly qualified in their entirety by the cautionary statements contained or referred to herein.  Histogenics cautions investors not to rely too heavily on the forward-looking statements Histogenics makes or that are made on its behalf.  The information in this release is provided only as of the date of this release, and Histogenics undertakes no obligation, and specifically declines any obligation, to update or revise publicly any forward-looking statements, whether as a result of new information, future events or otherwise.

WESTMINSTER, Colo., July 30, 2018 /PRNewswire/ — Cerapedics, a privately-held orthobiologics company, today announced that the first patients have been enrolled in an investigational device exemption (IDE) clinical trial evaluating the safety and efficacy of the next-generation P-15L Peptide Enhanced Bone Graft in transforaminal lumbar interbody fusion (TLIF) surgery.

The prospective, single-blinded, multi-center, randomized, non-inferiority pivotal IDE study will evaluate the safety and efficacy of P-15L Bone Graft compared to use of an autologous bone graft when applied in TLIF surgery. The study will include a total of 364 patients with degenerative disk disease at up to 30 clinical trial sites across the U.S. once it is fully enrolled.

“We are pleased to announce enrollment of the first patients in our IDE study in TLIF procedures,” said Glen Kashuba, chief executive officer of Cerapedics. “More than 300,000 people in the U.S. suffer from degenerative disk disease that leads to pain and nerve irritation and often requires surgery. Our first-generation bone graft is already approved for anterior cervical discectomy and fusion (ACDF) procedures, and this pivotal study in TLIF procedures will be instrumental in a second Premarket Approval (PMA) application for our next-generation P-15 technology in the years ahead.”

In TLIF procedures, surgeons historically obtained bone graft from the patient’s pelvis and placed it in the interbody space to promote fusion when joining and stabilizing one or more vertebrae. P-15L Bone Graft is based on a biomimetic small peptide (P-15) technology developed by Cerapedics to support bone growth through cell attraction, attachment, and activation, and is designed to be used as a substitute for autologous bone. In 2015, the company’s first-generation bone graft became the first bone graft to be approved for use in the cervical spine and only the second PMA-approved bone graft in the spine.

“This important first patient enrolled signifies the culmination of substantial efforts on the part of many external and internal collaborators,” said Jeffrey G. Marx, Ph.D., president and chief operating officer of Cerapedics. “We are grateful for all of the efforts that have gotten us to this point and are excited about the future of this study and the P-15L Bone Graft technology. We would like to give special thanks to Dr. Small and his clinical research team for enrolling the first patient.”

“The team at the Foundation for Orthopaedic Research and Education is pleased to participate in this important IDE trial of P-15L Bone Graft. Being involved in the study of a new drug-device combination product for spinal fusion is gratifying. We look forward to this first step in potentially expanding the indications for use of peptide enhanced bone grafts to the lumbar spine,” said Dr. John M. Small, M.D., of Tampa, Florida.

About Cerapedics

Cerapedics is an orthobiologics company focused on developing and commercializing its proprietary synthetic small peptide (P-15) technology platform. i-FACTOR Peptide Enhanced Bone Graft is the only biologic bone graft in orthopedics that incorporates a small peptide as an attachment factor to stimulate the natural bone healing process. This novel mechanism of action is designed to support safer and more predictable bone formation compared to commercially available bone growth factors. More information can be found at www.cerapedics.com.

CAUTION:  P-15L Bone Graft is an Investigational Product limited by Federal (USA) Law to Investigational Use.

Media contact: 

Adam Daley 

Berry & Company Public Relations 

212-253-8881 

adaley@berrypr.com

SOURCE Cerapedics

Related Links

http://www.cerapedics.com

WALTHAM, Mass., July 23, 2018 (GLOBE NEWSWIRE) — Histogenics Corporation (Histogenics) (Nasdaq:HSGX), a leader in the development of restorative cell therapies that may offer rapid-onset pain relief and restored function, announced that Stephen Kennedy, Executive Vice President & Chief Operating Officer, has been appointed to the BioFabUSA Leadership Advisory Council and Technology Advisory Subcommittee (TASC) of the Advanced Regenerative Manufacturing Institute (ARMI).

ARMI is a new public-private Manufacturing USA initiative that brings together a consortium of nearly 100 organizations from industry, government, academia and the non-profit sector to develop next-generation manufacturing processes and technologies for cell and gene-based therapies.

“Innovation and the implementation of cutting-edge manufacturing process technologies has been a critical component of Histogenics’ development of NeoCart, and we know first-hand the importance of such technologies to realize the promise of restorative cell therapies,” said Mr. Kennedy. “I am pleased that ARMI has recognized Histogenics’ achievements in enabling this transformative therapeutic modality and grateful to have the opportunity to collaborate with other leaders in the cellular therapy field. The diverse backgrounds and perspectives of TASC’s members will help to ensure the development of manufacturing processes and technologies that support the clinical and commercial success of a broad array of cell therapies.”

Stephen Kennedy joined Histogenics in 2013 and has more than 30 years of experience in biological manufacturing and process development, including 18 years at Genzyme Corporation. He has also served as Executive Director of the Novartis/MIT Center for Continuous Manufacturing at the Massachusetts Institute of Technology. Stephen holds a B.S. from the University of Michigan, an M.S. from the University of Rochester and an M.B.A. from Boston University.

“We are delighted to have Steve Kennedy join the ARMI | BioFabUSA Leadership Advisory Council and Technology Advisory Subcommittee,” said inventor Dean Kamen, ARMI’s chairman. “His intelligence, experience and collaborative attitude are exactly what we need to bring engineers and scientists together to move this industry forward.”

About Advanced Regenerative Manufacturing Institute
The Advanced Regenerative Manufacturing Institute (ARMI), headquartered in Manchester, NH, is the 12^th Manufacturing USA Institute. It brings together a consortium of nearly 100 partners from across industry, government, academia and the non-profit sector to develop next-generation manufacturing processes and technologies for cells, tissues and organs. ARMI will work to organize the current fragmented domestic capabilities in tissue Biofabrication technology to better position the U.S. relative to global competition. For more information on ARMI, please visit www.ARMIUSA.org.

About Histogenics Corporation
Histogenics (Nasdaq:HSGX) is a leader in the development of restorative cell therapies that may offer rapid-onset pain relief and restored function.  Histogenics’ lead investigational product, NeoCart, is designed to rebuild a patient’s own knee cartilage to treat pain at the source and may prevent a patient’s progression to osteoarthritis.  NeoCart is one of the most rigorously studied restorative cell therapies for orthopedic use.  Histogenics completed enrollment of its NeoCart Phase 3 clinical trial in the second quarter of 2017 and expects to report top-line, one-year superiority data in the third quarter of 2018.  NeoCart is designed to perform like articular hyaline cartilage at the time of treatment, and as a result, may provide patients with more rapid pain relief and accelerated recovery as compared to the current standard of care.  Histogenics’ technology platform has the potential to be used for a broad range of additional restorative cell therapy indications.  For more information on Histogenics and NeoCart, please visit www.histogenics.com.

Forward-Looking Statements
Various statements in this release are “forward-looking statements” under the securities laws.  Words such as, but not limited to, “anticipate,” “believe,” “can,” “could,” “expect,” “estimate,” “design,” “goal,” “intend,” “may,” “might,” “objective,” “plan,” “predict,” “project,” “target,” “likely,” “should,” “will,” and “would,” or the negative of these terms and similar expressions or words, identify forward-looking statements. Forward-looking statements are based upon current expectations that involve risks, changes in circumstances, assumptions and uncertainties.

Important factors that could cause actual results to differ materially from those reflected in Histogenics’ forward-looking statements include, among others,  the timing and success of Histogenics’ NeoCart Phase 3 clinical trial and other factors that are described in the “Risk Factors” and “Management’s Discussion and Analysis of Financial Condition and Results of Operations” sections of Histogenics’ Annual Report on Form 10-K for the year ended December 31, 2017 and Quarterly Report on Form 10-Q for the quarter ended March 31, 2018, which are on file with the SEC and available on the SEC’s website at www.sec.gov.  Additional factors may be set forth in those sections of Histogenics’ Quarterly Report on Form 10-Q for the quarter ended June 30, 2018, to be filed with the SEC in the third quarter of 2018.  In addition to the risks described above and in Histogenics’ Annual Report on Form 10-K and Quarterly Reports on Form 10-Q, Current Reports on Form 8-K and other filings with the SEC, other unknown or unpredictable factors also could affect Histogenics’ results.

There can be no assurance that the actual results or developments anticipated by Histogenics will be realized or, even if substantially realized, that they will have the expected consequences to, or effects on, Histogenics.  Therefore, no assurance can be given that the outcomes stated in such forward-looking statements and estimates will be achieved.

All written and verbal forward-looking statements attributable to Histogenics or any person acting on its behalf are expressly qualified in their entirety by the cautionary statements contained or referred to herein.  Histogenics cautions investors not to rely too heavily on the forward-looking statements Histogenics makes or that are made on its behalf.  The information in this release is provided only as of the date of this release, and Histogenics undertakes no obligation, and specifically declines any obligation, to update or revise publicly any forward-looking statements, whether as a result of new information, future events or otherwise.

Contact:
Investor Relations
Tel: +1 (781) 547-7909
InvestorRelations@histogenics.com.

CENTENNIAL, Colo., July 17, 2018 /PRNewswire-USNewswire/ — AlloSource, one of the largest nonprofit cellular and tissue networks in the country, offering life-saving and life-enhancing solutions in orthopedic, spine, burn and wound procedures to help restore patient health and mobility, today announced that it will award Dr. Kevin Shea with its second annual Dr. Steven Gitelis Inspiration Award. The award honors a doctor or clinician that inspires AlloSource through his or her work in treating patients with allografts.

Dr. Shea recently joined the Stanford University School of Medicine as a professor of orthopedic surgery and also serves as director of the Stanford Children’s Health Sports Medicine Program. He specializes in the treatment of knee ligament and cartilage injuries, osteochondritis dissecans (OCD), fractures, and pediatric trauma and is one of the founders of The ROCK Group, an organization dedicated to researching OCD and improving its treatment methods.

“I am honored to receive this award,” said Dr. Shea.  “I look forward to continued advancements in the field of orthopedics.”

Dr. Shea has been crucial in coordinating efforts between The ROCK Group and AlloSource in research on OCD and other pediatric orthopedic conditions.  Dr. Shea works tirelessly to find unique uses for donated allograft material for pediatric orthopedic applications. In 2018, Dr. Shea was a recipient of the American Academy of Orthopedic Surgeons (AAOS) Senior Achievement Award in recognition of his volunteer work for the AAOS and orthopedic community.

“Dr. Shea truly embodies the spirit of honoring the gift of tissue donation to help heal his patients,” said Thomas Cycyota, AlloSource president and CEO. “His commitment to research and improving treatment methods using donated tissue is an inspiration to all of us at AlloSource. We admire his dedication to the profession of orthopedic surgery and to his patients.”

The award honors a physician who understands and embraces the use of donated human tissue in surgical applications. The award is named after Dr. Steven Gitelis, a highly regarded orthopedic surgeon and one of the founders of AlloSource.

About AlloSource 

AlloSource is dedicated to advancing the science and use of transplantable allogeneic cells and tissue through pioneering research in regenerative therapies. The organization offers life-saving and life-enhancing solutions in orthopedic, spine, burn and wound procedures to help restore patient health and mobility. As a world leader in cell-based products, fresh cartilage tissue for joint repair and skin allografts to help heal severe burns, AlloSource’s products bridge the proven science of allografts with the advanced technology of cells. The company is accredited by the American Association of Tissue Banks and is headquartered in Centennial, CO. For more information, please visit allosource.org.

Media Contact 

Megan Duggan

AlloSource

720. 382. 2766

mduggan@allosource.org

SOURCE AlloSource

Related Links

http://www.allosource.org

July 13, 2018

May 25, 2018

Oregon State University – 07-06-18

Nanofiber-based wound dressings loaded with vitamin D spur the production of an antimicrobial peptide, a key step forward in the battle against surgical site infections, or SSIs.

The findings by Oregon State University researchers and other collaborators, published Wednesday in Nanomedicine, are important because SSIs are the most common healthcare-associated infection and result in widespread human suffering and economic loss.

Each year in the U.S. alone, nearly 300,000 surgical patients develop an infection within 30 days of their operation – accounting for an estimated $10 billion in additional healthcare costs – and more than 13,000 of those people die.

Researchers used electrospinning to prepare dressings containing the bioactive form of vitamin D: 1,25-dihydroxyvitamin D3, or 1,25(OH)2D3.

“Electrospinning is a versatile, simple, cost-effective and reproducible technique for generating long fibers with nanoscale diameters,” said Adrian Gombart, co-corresponding author and professor of biochemistry and biophysics in OSU’s College of Science. “Electrospun nanofiber wound dressings offer significant advantages over hydrogels or sponges for local drug delivery. They provide several functional and structural advantages, including scar-free healing.”

The dressings the researchers created proved capable of delivering vitamin D on a sustained basis over four weeks, and they significantly induced production of a peptide, hCAP18/LL37, that kills microbes by disrupting their membranes.

READ THE REST HERE

SCHLIEREN (ZURICH), Switzerland, July 02, 2018 (GLOBE NEWSWIRE) — Kuros Biosciences (SIX:KURN) announced today it recorded the first commercial use last week of MagnetOs in the U.S., and the company expects to ramp up its commercial activities in Europe and the U.S. in the second half of 2018.

Joshua M. Ammerman, M.D. of Washington Neurosurgical Associates in Washington DC, successfully performed minimally invasive spinal fusion using MagnetOs Putty, and was satisfied with the handling and performance of MagnetOs.  Dr. Ammerman is a nationally and internationally recognized expert in the application of minimally invasive surgical techniques to disorders of the brain and spine.

Prior to this, the first commercial European use of MagnetOs occurred in the UK. Mr. Stewart Tucker MBBS, FRCS (Eng), FRCS (Ortho), performed a scoliosis intervention using MagnetOs Granules at the Wellington Hospital in London.  Mr. Tucker is Consultant Spinal Surgeon at Great Ormond Street Hospital for Children, and his specialist interests include childhood and adult scoliosis/kyphosis, degenerative cervical and lumbar disease, spinal trauma and spinal tumors, and complex revision spinal surgery.

Joost de Bruijn, Chief Executive Officer of Kuros, said: “After reporting successful case studies with MagnetOs at last week’s State of Spine Surgery Think Tank, we are delighted to now report the first commercial usage of MagnetOs in the U.S. and Europe.  We commend Dr. Ammerman and Mr. Tucker for pioneering the clinical use of MagnetOs and look forward to ramping up our commercial effort in the U.S. and selected geographies in Europe, as we continue to execute on our strategy to build a leading orthobiologics company.”

About MagnetOs
MagnetOs promotes local bone formation equivalent to current gold standard, autograft. MagnetOs is a bone graft substitute intended to fill bony voids or gaps of the human skeletal system and promote the formation of bone at the implanted site. A substantial number of clinically relevant and predictive studies have demonstrated its equivalence to the current gold standard (patient’s own bone, which may not be available in sufficient quantities and/or involves morbidity, costs and pain associated with its harvesting from another healthy site of the patient’s body). MagnetOs is a bone graft comprising biphasic calcium phosphate with an advanced submicron surface topography that directs bone formation after implantation. With its unique submicron surface topography, MagnetOs preferentially directs early wound healing toward the bone-forming pathway, resulting in an osteoinductive claim in Europe. MagnetOs is available as granules and as a putty formulation.

For further information, please contact: 
Kuros Biosciences AG
Michael Grau
Chief Financial Officer
Tel +41 44 733 47 47
michael.grau@kurosbio.com

LifeSci Advisors
Hans Herklots
Media & Investors
+41 79 598 7149
hherklots@lifesciadvisors.com

About Kuros Biosciences AG 
Kuros Biosciences (SIX:KURN) is focused on the development of innovative products for bone regeneration and is located in Schlieren (Zurich), Switzerland and Bilthoven, The Netherlands. Visit www.kurosbio.com for additional information on Kuros, its people, science and product pipeline.

Forward Looking Statements 
This media release contains certain forward-looking statements that involve risks and uncertainties that could cause actual results to be materially different from historical results or from any future results expressed or implied by such forward-looking statements. You are urged to consider statements that include the words “will” or “expect” or the negative of those words or other similar words to be uncertain and forward-looking. Factors that may cause actual results to differ materially from any future results expressed or implied by any forward-looking statements include scientific, business, economic and financial factors, Against the background of these uncertainties, readers should not rely on forward-looking statements. The Company assumes no responsibility for updating forward-looking statements or adapting them to future events or developments.