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Literature DB >> 30150108

Report of the international conference on manufacturing and testing of pluripotent stem cells.

Stewart Abbot¹, Francisca Agbanyo², Jan-Eric Ahlfors³, Behnam A Baghbaderani⁴, Shirley Bartido⁵, Kapil Bharti⁶, Carl Burke⁷, Bjorn Carlsson⁸, Joy Cavagnaro⁹, Abla Creasey¹⁰, David DiGiusto¹¹, Kathy Francissen¹², Andrew Gaffney¹³, Christopher Goldring¹⁴, Thorsten Gorba¹⁵, Elwyn Griffiths¹⁶, Tadaaki Hanatani¹⁷, Takao Hayakawa¹⁸, Tatsuo Heki¹⁹, Karin Hoogendoorn²⁰, Shin Kawamata²¹, Hironobu Kimura²², Agnete Kirkeby²³, Ivana Knezevic²⁴, Jane Lebkowski²⁵, Stephen Lin¹⁰, Shen Lin-Gibson²⁶, Anthony Lubiniecki¹⁶, Orla O'Shea²⁷, Martin Pera²⁸, John Petricciani²⁹, Gary Pigeau³⁰, Anthony Ratcliffe³¹, Yoji Sato³², Gerald G Schumann³³, William Shingleton³⁴, Glyn Stacey Chair³⁵, Stephen Sullivan³⁶, Clive N Svendsen³⁷, Jean-Hugues Trouvin³⁸, Joris Vandeputte¹⁶, Bao-Zhu Yuan³⁹, Kathryn Zoon⁴⁰.

Abstract

Sessions included an overview of past cell therapy (CT) conferences sponsored by the International Alliance for Biological Standardization (IABS). The sessions highlighted challenges in the field of human pluripotent stem cells (hPSCs) and also addressed specific points on manufacturing, bioanalytics and comparability, tumorigenicity testing, storage, and shipping. Panel discussions complemented the presentations. The conference concluded that a range of new standardization groups is emerging that could help the field, but ways must be found to ensure that these efforts are coordinated. In addition, there are opportunities for regulatory convergence starting with a gap analysis of existing guidelines to determine what might be missing and what issues might be creating divergence. More specific global regulatory guidance, preferably from WHO, would be welcome. IABS and the California Institute for Regenerative Medicine (CIRM) will explore with stakeholders the development of a practical and innovative road map to support early CT product (CTP) developers.

Entities: Chemical

Keywords: Cell therapy; Stem cells; Transplantation

Mesh：

Year: 2018 PMID： 30150108 DOI： 10.1016/j.biologicals.2018.08.004

Source DB: PubMed Journal: Biologicals ISSN： 1045-1056 Impact factor: 1.856

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Cited

9 in total

1. A strategic road map to filing a Biologics License Application for a pluripotent stem cell derived therapeutic product.

Authors: Abla A Creasey; Glyn Stacey; Kapil Bharti; Yoji Sato; Anthony Lubiniecki
Journal: Biologicals Date: 2019-04-30 Impact factor: 1.856

2. Development of genetic quality tests for good manufacturing practice-compliant induced pluripotent stem cells and their derivatives.

Authors: Hye-Yeong Jo; Hyo-Won Han; Inuk Jung; Ji Hyeon Ju; Soon-Jung Park; Sunghwan Moon; Dongho Geum; Hyemin Kim; Han-Jin Park; Sun Kim; Glyn N Stacey; Soo Kyung Koo; Mi-Hyun Park; Jung-Hyun Kim
Journal: Sci Rep Date: 2020-03-03 Impact factor: 4.379

3. Computational fluid dynamics modeling, a novel, and effective approach for developing scalable cell therapy manufacturing processes.

Authors: Mehdi Shafa; Krishna M Panchalingam; Tylor Walsh; Thomas Richardson; Behnam Ahmadian Baghbaderani
Journal: Biotechnol Bioeng Date: 2019-09-23 Impact factor: 4.530

4. Stem cell culture conditions and stability: a joint workshop of the PluriMes Consortium and Pluripotent Stem Cell Platform.

Authors: Glyn N Stacey; Peter W Andrews; Ivana Barbaric; Charlotta Boiers; Amit Chandra; Giulio Cossu; Lynn Csontos; Thomas Jr Frith; Jason A Halliwell; Zoe Hewitt; Mark McCall; Harry D Moore; Malin Parmar; M Beatrice Panico; Venkat Pisupati; Valentin P Shichkin; Alison R Stacey; Francesco S Tedesco; Oliver Thompson; Ravenska Wagey
Journal: Regen Med Date: 2019-04-02 Impact factor: 3.806

Review 5. Scalable manufacturing of clinical-grade differentiated cardiomyocytes derived from human-induced pluripotent stem cells for regenerative therapy.

Authors: Yuika Morita; Yoshikazu Kishino; Keiichi Fukuda; Shugo Tohyama
Journal: Cell Prolif Date: 2022-05-09 Impact factor: 8.755

Review 6. Manufacturing clinical-grade human induced pluripotent stem cell-derived beta cells for diabetes treatment.

Authors: Lay Shuen Tan; Juin Ting Chen; Lillian Yuxian Lim; Adrian Kee Keong Teo
Journal: Cell Prolif Date: 2022-04-26 Impact factor: 8.755

7. Clinical translation of stem cell therapy for spinal cord injury still premature: results from a single-arm meta-analysis based on 62 clinical trials.

Authors: Zhizhong Shang; Mingchuan Wang; Baolin Zhang; Xin Wang; Pingping Wanyan
Journal: BMC Med Date: 2022-09-05 Impact factor: 11.150

Review 8. Translating stem cell research into development of cellular drugs-a perspective from manufacture of stem cell products and CMC considerations.

Authors: Yu Alex Zhang; Glyn N Stacey
Journal: Cell Prolif Date: 2022-02-14 Impact factor: 8.755

Review 9. Neuronal cell-based medicines from pluripotent stem cells: Development, production, and preclinical assessment.

Authors: Yun Sun; Lin Feng; Lingmin Liang; Glyn N Stacey; Chaoqun Wang; Yukai Wang; Baoyang Hu
Journal: Stem Cells Transl Med Date: 2021-11 Impact factor: 6.940

9 in total