Industry Growth Insights (IGI) recently published a latest research study on the global Induced Pluripotent Stem Cells (iPSCs) market for the forecast period, 2021-2028. As per the study, the global Induced Pluripotent Stem Cells (iPSCs) market was valued at USDXX million and is projected to surpass USDXX million by the end of 2027, expanding at a CAGR of XX% during the forecast period. This research report offers a comprehensive outlook of the market with detailed information about drivers, restraints, opportunities, trends, and challenges, which are the key factors that can influence the market outcome in the targeted years.
The market report offers a concise overview of the segments and sub-segments including the product types, applications, players, and regions to provide the key aspects of the market. The report focuses on the COVID-19 pandemic and its impact on the current market and provides an in-depth explanation about the market situation in the coming years. The report thoroughly studies the market dynamics, changing consumer behavior, and the flow of the global supply chain of the market, impacted by the ongoing pandemic. These critical insights of the report aim to present a robust guideline for the clients to arrive an informed business decision about their investment in the market since it evaluates the factors that are likely to influence the current and future market situation.
The global Induced Pluripotent Stem Cells (iPSCs) market includes
Fujifilm Holding Corporation (CDI)NcardiaSumitomo Dainippon PharmaAstellas Pharma IncFate Therapeutics, IncPluricell BiotechCell Inspire BiotechnologyReproCELLInduced Pluripotent Stem Cells (iPSCs
** Additional companies can be provided at the request of clients.
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Segmentation Insight
The report offers an in-depth analysis of segments and sub-segments of the Induced Pluripotent Stem Cells (iPSCs) market. It provides a broad outlook regarding the performance, market valuation, and growth opportunities of each segment along with the expected CAGR including various sub-segments of each segment during the forecast period. Moreover, the segment part includes both drivers and restraining factors to explain the potential expansion of the market. The report covers the major industries that extensively use the product for their various applications. A detailed explanation is provided in the report about the areas of applications describing where the product is adopted by key industries to leverage their business portfolio.
The global Induced Pluripotent Stem Cells (iPSCs) market is segmented into
By Types/Product
Human iPSCsMouse iPSCsHuman iPSCs had a market share of 89% in 2018, followed by Mouse iPSCs.Induced Pluripotent Stem Cells (iPSCs
By Applications/End-Users
Academic ResearchDrug Development and DiscoveryToxicity ScreeningRegenerative Medicine
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Regional Markets
The report conducts a compressive study about potential growth opportunities, revenue share, and major challenges of five major regions namely Asia Pacific, Europe, North America, Latin America, and Middle East & Africa (MEA) of Induced Pluripotent Stem Cells (iPSCs) market. A wide range of information is included in the report about the performance and potential market destination in sub-regions and countries within a region. North America includes countries such as the U.S., and Canada. Europe as a region is further categorized as the U.K., France, Germany, Italy, Spain, Russia, and Rest of Europe. Asia Pacific is classified as China, Japan, South Korea, India, Australia, South East Asia, and Rest of Asia Pacific. Latin America as a region is further segmented into Brazil, Mexico, and Rest of Latin America, and the MEA region includes GCC, Turkey, South Africa, and Rest of MEA.
Additionally, the COVID-19 pandemic and its impacts on these regional markets comprises a major part of the chapter to understand a broad picture of the overall market development. Meanwhile, this report can be customized and available for any specific region as per the need of the clients.
Competitive Landscape
The report covers key players of the Induced Pluripotent Stem Cells (iPSCs) market and their market position as well as performance over the years. It offers a detailed insight about the latest business strategies such as mergers, partnerships, product launch, acquisitions, expansion of production units, and collaborations, adopted by some major global players. In this chapter, the report explains about the key investment on R&D activities from key players to help expand their existing business operations and geographical reach. Additionally, the report evaluates the scope of growth and market opportunities of new entrants or players in the market.
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Reasons to buy this report
This report offers a broad and concise analysis of the Induced Pluripotent Stem Cells (iPSCs) market using a robust research methodology and focusing on various data available for the historical period of past two years. It also covers some key segments and potential regional market in details that are expected to boost the overall market significantly during the forecast period. Moreover, this report is prepared with an objective to ease the understanding of contents as it provides a range of concise graphical representations, tables, and figures.
Additionally, the report answers some of these main questions of the market:
Major Points Covered In This Report:
Chapter 1. Report Overview
Chapter 2. Global Growth Trends
Chapter 3. Market Share by Key Players
Chapter 4. Breakdown Data by Type and Application
Chapter 5. Market by End Users/Application
Chapter 6. COVID-19 Outbreak: Induced Pluripotent Stem Cells (iPSCs) Industry Impact
Chapter 7. Opportunity Analysis in Covid-19 Crisis
Chapter 9. Market Driving Force
And Many More
Contact Info: Name: Alex MathewsAddress: 500 East E Street, Ontario,CA 91764, United States.Phone No: USA: +1 909 414 1393Email: [emailprotected]Website: https://industrygrowthinsights.com
Excerpt from:
- Detection of biomagnetic signals from induced pluripotent stem cell-derived cardiomyocytes using deep learning with ... - Nature.com - April 1st, 2024
- Researchers discover new microRNA-regulated pathway to boost iPS cell-derived platelet production - Phys.org - March 30th, 2024
- Standardized production of hPSC-derived cardiomyocyte aggregates in stirred spinner flasks - Nature.com - March 28th, 2024
- Synthetic Circuits Reveal the Key to Rewinding the Cellular Clock - The Scientist - March 13th, 2024
- synNotch-programmed iPSC-derived NK cells usurp TIGIT and CD73 activities for glioblastoma therapy - Nature.com - March 3rd, 2024
- Breaking through new research barriers with iPSC technology - News-Medical.Net - February 15th, 2024
- Abu Dhabi Stem Cells Centre partners with Rege Nephro and Kyoto University's Center for iPS Cell Research and ... - Abu Dhabi Media Office - January 12th, 2024
- Abu Dhabi Stem Cells Center partners with Japan-based Kyoto University and Rege Nephro - ZAWYA - January 12th, 2024
- Efficient and reproducible generation of human induced pluripotent stem cell-derived expandable liver organoids for ... - Nature.com - December 23rd, 2023
- Mechanisms, pathways and strategies for rejuvenation through epigenetic reprogramming - Nature.com - December 15th, 2023
- Shinobi Therapeutics Launches with Completion of $51M Series A to Advance Hypoimmune iPS-T Cell Therapy Platform - PR Newswire - December 13th, 2023
- CRISPRi gene modulation and all-optical electrophysiology in post-differentiated human iPSC-cardiomyocytes ... - Nature.com - December 7th, 2023
- World Hindu Congress 2023: Know all about the sessions and speakers - Organiser - November 23rd, 2023
- VCCT Inc., Leading the Field of Retinal Regeneration through iPS ... - Business Wire - November 21st, 2023
- Efficient protocol for the differentiation of kidney podocytes from ... - Nature.com - November 17th, 2023
- Vitamin B12 is a limiting factor for induced cellular plasticity and ... - Nature.com - November 17th, 2023
- Study reveals the critical role of microglia in human brain development - Medical Xpress - November 15th, 2023
- VCCT Inc., Leading the Field of Retinal Regeneration through iPS Cells, Raises 600 million Japanese yen (approximately $4 million USD) through... - November 15th, 2023
- Who are the leading innovators in iPSCs for the pharmaceutical ... - Pharmaceutical Technology - November 7th, 2023
- Using iPS Cells from I Peace, Heartseed Succeeds in Stable Production of High Purity Cardiomyocytes, A Major Step Forward in Advancing Autologous... - November 5th, 2023
- Systematic differences in discovery of genetic effects on gene ... - Nature.com - October 21st, 2023
- Pairwise biosynthesis of ion channels stabilizes excitability and ... - pnas.org - October 11th, 2023
- Scientists find multitude of genes associated with autism - The Statesman - October 9th, 2023
- Stem Cell Banking Market is Expected to Reach USD 16,474.30 ... - Digital Journal - October 7th, 2023
- Probing the individuality of cells and molecules - Open Access Government - October 5th, 2023
- Thymmune Therapeutics Receives $37M in Funding from the ... - Manchestertimes - October 3rd, 2023
- Thymmune Therapeutics Receives $37M in Funding from the ... - Business Wire - September 29th, 2023
- Less Funding to More Researchers Gets Nobel-level Results, Study ... - The Japan News - September 27th, 2023
- Brentuximab Vedotin Plus AVD Gets Positive CHMP Opinion for ... - OncLive - September 20th, 2023
- DKMS BMST Foundation India and Kokilaben Hospital unite to spread awareness about the Importance of Stem Cell Donation on World Marrow Donor Day - APN... - September 18th, 2023
- Vitamin B6 is governed by the local compartmentalization of ... - Science - September 14th, 2023
- Dolly the sheep creator Ian Wilmut dies aged 79 - BBC - September 14th, 2023
- Scientist who created Dolly the sheep dies aged 79: Professor Sir Ian Wilmut passes away five years after reve - Daily Mail - September 11th, 2023
- The global kits market is expected to grow at a CAGR of 7.4% from ... - Digital Journal - September 8th, 2023
- Eterna Therapeutics Announces Initiation of Development Activities ... - PipelineReview.com - September 8th, 2023
- Tokyo: 100 Years of Urban Regeneration / Tokyo's Nihonbashi Area ... - The Japan News - August 31st, 2023
- Transcriptome-based prediction of drugs, inhibiting ... - Nature.com - August 30th, 2023
- From the birds and the bees to IVG - The Gauntlet - August 26th, 2023
- Breakthrough creates stem cells without any memories - Freethink - August 26th, 2023
- Aging impairs the neurovascular interface in the heart - Science - August 26th, 2023
- For This Venture Capitalist, Research on Aging Is Personal; 'Bob ... - The Wall Street Journal - August 22nd, 2023
- Unleashing Potential: Illuminating the Future of Healthcare through Revolutionary Induced Pluripotent Stem Cel - openPR - August 18th, 2023
- A 'memory wipe' for stem cells may be the key to better therapies - The Conversation - August 16th, 2023
- Erasing epigenetic 'memory' to improve the quality of stem cells - FierceBiotech - August 16th, 2023
- HebeCell and Logomix Announce Collaboration for the ... - Business Wire - August 16th, 2023
- HebeCell and Logomix Announce Collaboration for the ... - Valdosta Daily Times - August 11th, 2023
- Advancing Clinical Trials with iPSC-Derived Liver Organoids - Microbioz India - August 11th, 2023
- Activation of cAMP (EPAC2) signaling pathway promotes hepatocyte ... - Nature.com - August 1st, 2023
- IPS HEART Announces Peer-Reviewed Publication in Cells of Aging Damage Reversal Showing GIVI-MPC Stem Cell Therapys Ability to Create New Skeletal... - July 30th, 2023
- Femtech in Japan: An Industry on the Rise - Femtech Insider - July 28th, 2023
- Association between enhanced carbonyl stress and decreased ... - Nature.com - July 28th, 2023
- Defects in early synaptic formation and neuronal function in Prader ... - Nature.com - July 27th, 2023
- IPS HEART Announces Peer-Reviewed Publication in Cells of ... - Business Wire - July 25th, 2023
- Cure to Autism and Alzheimer's May Be in Space, Says 1st Brazilian Scientist who Will Be on The ISS - Folha de S.Paulo - July 25th, 2023
- Futurama's Resurrection Ruins The Perfect Ending (& Shows Must ... - Looper - July 25th, 2023
- University Of Massachusetts Amherst's Team Bags Honour Of 2023 Armstrong Fund For Science Award - India Education Diary - July 20th, 2023
- Scientists working on IVG, a new reproductive method that can make human babies in labs - IndiaTimes - July 19th, 2023
- Co-transplantation of autologous Treg cells in a cell therapy for ... - Nature.com - July 13th, 2023
- Magic Valley and Biocellion Join Forces to Improve Bioreactor Tech ... - vegconomist - the vegan business magazine - July 13th, 2023
- IPS HEART Receives U.S. FDA Rare Pediatric Drug Designation for ... - Tullahoma News and Guardian - July 10th, 2023
- Hitachi : forms strategic research collaboration with Mass General Brigham in the field of regenerative medicine and GCT - Marketscreener.com - July 6th, 2023
- Cell therapy limitations with iPS-based multi-cell therapeutics - Drug Target Review - July 6th, 2023
- Remembering Dolly- The Clone Sheep On Her Birth Anniversary - Free Press Journal - July 4th, 2023
- Labs and Translational Research - UMass Medical School - June 28th, 2023
- Cellusion raises 2.83B series C round to progress iPS cell-derived ... - BioWorld Online - June 14th, 2023
- Japan-based Fujifilm introduces first-of-its-kind human iPSC-derived ... - BSA bureau - June 6th, 2023
- ALS: Parkinson's drug ropinirole may be an effective treatment - Medical News Today - June 4th, 2023
- Scientists predict lab-grown babies in five years - Kidspot - June 4th, 2023
- Lab-grown babies could become a reality within five years - Earth.com - May 26th, 2023
- Leading healthcare experts from MENA and beyond to explore the future of precision medicine in the region at PMES 23 this month - ZAWYA - May 24th, 2023
- Long-Awaited Ax-2 Mission Launches, Heads to Space Station - AmericaSpace - May 22nd, 2023
- Eterna Therapeutics and Factor Bioscience Announce New Data on ... - GlobeNewswire - May 17th, 2023
- Research Assistant job with UNITED ARAB EMIRATES ... - Times Higher Education - May 10th, 2023
- Regulation of synaptic connectivity in schizophrenia spectrum by ... - Nature.com - April 29th, 2023
- Researchers Discover Key Role of Glucose in Brain Activity - Laboratory Equipment - April 25th, 2023
- Structure of Huntington's Protein Revealed - Technology Networks - April 21st, 2023
- Study of brain immune cell infection may explain long COVID ... - NHK WORLD - April 19th, 2023
- The Mechanism That Regulates Activity of Memory Gene - Neuroscience News - April 19th, 2023
- The IPO Buzz: CytoMed Therapeutics Prices its Micro-Cap IPO at ... - IPOScoop - April 19th, 2023
- Macomics Presents its ENIGMAC Discovery Platform for Gene to Function Target Validation of Novel Macrophage Therapies at AACR - Yahoo Finance - April 19th, 2023
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