Advertisement

Topics

Novel 3D Cell-based Assays Accelerate Discovery for Immuno-oncology/CAR-T Therapies

20:00 EDT 2 Apr 2017 | Marketwired

SCHLIEREN, SWITZERLAND--(Marketwired - April 03, 2017) - InSphero AG highlighted the unique advantages of its physiologically relevant 3D InSight™ Microtissue Platform to drive more efficient development of anti-cancer drugs and immuno-oncology (I-O) approaches at the American Association of Cancer Research (AACR) Annual Meeting in Washington, DC. The presentations included data generated in collaboration with academic, government, and industry partners.

"Our presentations at this year's AACR meeting display not only the variety and complexity of tumor models we can produce through our Custom Tumor Microtissue Development Service, but also the breadth of applications for which they can be used throughout the drug development pipeline," said Dr. Jens Kelm, InSphero Chief Technology Officer and Co-founder. "These range from early discovery screens in cell-line based 3D microtissue models in 384-well format to more complex pre-clinical development and validation studies, using co-cultures of fibroblasts with cancer cell lines or patient-derived xenograft (PDX) samples."

In addition, InSphero presented data demonstrating the infiltration of activated immune cells, such as peripheral blood mononuclear cells (PBMCs), into tumor-stromal co-culture models. "Recent successes in I-O therapies for blood-borne cancers has triggered the race in pharma for similar strategies targeting solid tumors," Dr. Kelm said. "Our technology provides the first turnkey 3D platform for mimicking complex solid tumor environments in vitro
. It is designed specifically for the development and optimization of CAR-T, CAR-NK, or immunomodulatory based I-O strategies." InSphero scientists recently showed that activated PBMCs can penetrate tumor-stromal microtissues and specifically kill tumor cells. The findings were published in a collaborative study with Roche Pharmaceutical and ETH Zurich in the January 2017 issue of the journal Cancer Immunology, Immunotherapy.

"We have presented work done in collaboration with the University of Zurich as well, where we've created microtissues directly from patient tumor biopsy material," Dr. Kelm said. "This approach holds potential for in vitro
testing in the clinical phase to help identify a personalized treatment plan using drugs most effective against the biopsied material cultured in 3D."

In addition to custom model development, InSphero offers 3D InSight™ Oncology Services, including single or combinatorial drug testing, tumor relapse, and antibody penetration assays, all of which can be conducted on customized tumor microtissues, or on established tumor-stromal co-culture models.

InSphero AACR Poster Presentations

Wednesday, April 5 (8 AM - 12 PM)

Poster 5781/17
(Section 38):
Establishment of a 3D ex vivo
assay as a preclinical drug testing platform for personalized cancer therapy. Presented by Dr. Sumeer Dhar, InSphero AG (collaboration with University of Zurich).
Wednesday, April 5 (8 AM - 12 PM)

5780/16 (Section 38):
3D ex vivo
assay platform using primary lung cancer cells in malignant pleural effusions as predictors for clinical outcome of personalized chemotherapy. Presented by Cheng-guang Wu, University of Zurich (collaboration with InSphero AG).

In-booth Poster Presentations

Booth 1029 (Sunday 12 PM - Wednesday 12 PM, during exhibition hours) - Evaluation of immuno-therapeutic efficacy in biologically relevant 3D tumor microtissue models - InSphero's oncology platform for accelerating drug discovery and development

For more information about InSphero 3D InSight™ solutions for oncology, visit www.insphero.com.

About InSphero

InSphero provides superior biological relevance to in vitro
testing with its easy-to-use solutions for production, culture and assessment of more organotypic 3D cell culture models. The company's patented technologies include the 3D Select™ Process (pending) and scaffold-free 3D cell culture plates that enable large-scale, reproducible production of a broad range of assay-ready 3D InSight™ Microtissues derived from liver, pancreas, tumor, heart, brain and skin. These models and contract research services utilizing them help to identify promising drugs and toxic liabilities with greater predictivity at early development stages, enabling better pre-clinical decision making, saving development cost, and shortening time to market. InSphero technologies drive significant findings in peer-reviewed journals, through collaborative projects such as EU-ToxRisk and HeCaToS, and have gained validation in the world's largest government institutions and pharmaceutical, chemical and cosmetics companies. This 3D know-how is also being applied in the diagnostics field to aid development of personalized chemotherapeutic strategies for the treatment of cancer.

Founded in 2009, the privately held company is headquartered in Schlieren, Switzerland with subsidiaries in the United States (Brunswick, ME) and Waldshut, Germany. It has been recognized for its scientific and commercial achievements with several national and international awards.

Follow us on Twitter and www.insphero.com.

Image Available: http://www.marketwire.com/library/MwGo/2017/4/3/11G134909/Images/insphero-71488e23dbb89e62adf0933d07271147.jpg

Dr. Randy StrubeDirector of Global MarketingPhone +1 800-779-7558 ext. 102Dr. Jens M. KelmChief Technology Officer and Co-founderPhone +41 44 5150490 NEXT ARTICLE

More From BioPortfolio on "Novel 3D Cell-based Assays Accelerate Discovery for Immuno-oncology/CAR-T Therapies"

Quick Search
Advertisement
 

Relevant Topics

Cancer Disease
Cancer is not just one disease but many diseases. There are more than 100 different types of cancer. Most cancers are named for the organ or type of cell in which they start - for example, cancer that begins in the colon is called colon cancer; cancer th...

Cancer
  Bladder Cancer Brain Cancer Breast Cancer Cancer Cervical Cancer Colorectal Head & Neck Cancers Hodgkin Lymphoma Leukemia Lung Cancer Melanoma Myeloma Ovarian Cancer Pancreatic Cancer ...

Collaborations in biotechnology
Commercial and academic collaborations are used throughout the biotechnology and pharmaceutical sector to enhance research and product development. Collaborations can take the form of research and evaluation agreements, licensing, partnerships etc. ...