Cell Separation Technology Market Overview, Growth Forecast, Demand and Development Research Report to 2027 – VaporBlash
Posted: December 13, 2019 at 3:48 pm
Transparency Market Research (TMR)has published a new report on the globalcell separation technology marketfor the forecast period of 20192027. According to the report, the global cell separation technology market was valued at ~US$ 5 Bnin 2018, and is projected to expand at a double-digit CAGR during the forecast period.
Overview
Cell separation, also known as cell sorting or cell isolation, is the process of removing cells from biological samples such as tissue or whole blood. Cell separation is a powerful technology that assists biological research. Rising incidences of chronic illnesses across the globe are likely to boost the development of regenerative medicines or tissue engineering, which further boosts the adoption of cell separation technologies researchers.
Expansion of the global cell separation technology market is attributed to an increase in technological advancements and surge in investments in research & development, such asstem cellresearch and cancer research. The rising geriatric population is another factor boosting the need for cell separation technologies Moreover, the geriatric population, globally, is more prone to long-term neurological and other chronic illnesses, which, in turn, is driving research to develop treatment for chronic illnesses. Furthermore, increase in the awareness about innovative technologies, such as microfluidics, fluorescent-activated cells sorting, and magnetic activated cells sorting is expected to propel the global cell separation technology market.
Want to know the obstructions to your companys growth in future? Request a PDF sample here
North America dominated the global cell separation technology market in 2018, and the trend is anticipated to continue during the forecast period. This is attributed to technological advancements in offering cell separation solutions, presence of key players, and increased initiatives governments for advancing the cell separation process. However, insufficient funding for the development of cell separation technologies is likely to hamper the global cell separation technology market during the forecast period. Asia Pacific is expected to be a highly lucrative market for cell separation technology during the forecast period, owing to improving healthcare infrastructure along with rising investments in research & development in the region.
Rising Incidences of Chronic Diseases, Worldwide, Boosting the Demand for Cell Therapy
Incidences of chronic diseases such as diabetes, obesity, arthritis, cardiac diseases, and cancer are increasing due to sedentary lifestyles, aging population, and increased alcohol consumption and cigarette smoking. According to the World Health Organization (WHO), 2020, the mortality rate from chronic diseases is expected to reach73%, and in developing counties,70%deaths are estimated to be caused chronic diseases. Southeast Asia, Eastern Mediterranean, and Africa are expected to be greatly affected chronic diseases. Thus, the increasing burden of chronic diseases around the world is fuelling the demand for cellular therapies to treat chronic diseases. This, in turn, is driving focus and investments on research to develop effective treatments. Thus, increase in cellular research activities is boosting the global cell separation technology market.
To Obtain All-Inclusive Information On Forecast Analysis Of Global Market, Request A PDF Brochure Here.
Increase in Geriatric Population Boosting the Demand for Surgeries
The geriatric population is likely to suffer from chronic diseases such as cancer and neurological disorders more than the younger population. Moreover, the geriatric population is increasing at a rapid pace as compared to that of the younger population. Increase in the geriatric population aged above 65 years is projected to drive the incidences of Alzheimers, dementia, cancer, and immune diseases, which, in turn, is anticipated to boost the need for corrective treatment of these disorders. This is estimated to further drive the demand for clinical trials and research that require cell separation products. These factors are likely to boost the global cell separation technology market.
According to the United Nations, the geriatric population aged above 60 is expected to double 2050 and triple 2100, an increase from962 millionin 2017 to2.1 billionin 2050 and3.1 billion2100.
Productive Partnerships in Microfluidics Likely to Boost the Cell Separation Technology Market
Technological advancements are prompting companies to innovate in microfluidics cell separation technology. Strategic partnerships and collaborations is an ongoing trend, which is boosting the innovation and development of microfluidics-based products. Governments and stakeholders look upon the potential in single cell separation technology and its analysis, which drives them to invest in the development ofmicrofluidics. Companies are striving to build a platform utilizing their expertise and experience to further offer enhanced solutions to end users.
Stem Cell Research to Account for a Prominent Share
Stem cell is a prominent cell therapy utilized in the development of regenerative medicine, which is employed in the replacement of tissues or organs, rather than treating them. Thus, stem cell accounted for a prominent share of the global market. The geriatric population is likely to increase at a rapid pace as compared to the adult population, 2030, which is likely to attract the use of stem cell therapy for treatment. Stem cells require considerably higher number of clinical trials, which is likely to drive the demand for cell separation technology, globally. Rising stem cell research is likely to attract government and private funding, which, in turn, is estimated to offer significant opportunity for stem cell therapies.
Biotechnology & Pharmaceuticals Companies to Dominate the Market
The number of biotechnology companies operating across the globe is rising, especially in developing countries. Pharmaceutical companies are likely to use cells separation techniques to develop drugs and continue contributing through innovation. Growing research in stem cell has prompted companies to own large separate units to boost the same. Thus, advancements in developing drugs and treatments, such as CAR-T through cell separation technologies, are likely to drive the segment.
As per research, 449 public biotech companies operate in the U.S., which is expected to boost the biotechnology & pharmaceutical companies segment. In developing countries such as China, China Food and Drug Administration(CFDA) reforms pave the way for innovation to further boost biotechnology & pharmaceutical companies in the country.
Global Cell Separation Technology Market: Prominent Regions
North America to Dominate Global Market, While Asia Pacific to Offer Significant Opportunity
In terms of region, the global cell separation technology market has been segmented into five major regions: North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa. North America dominated the global market in 2018, followed Europe. North America accounted for a major share of the global cell separation technology market in 2018, owing to the development of cell separation advanced technologies, well-defined regulatory framework, and initiatives governments in the region to further encourage the research industry. The U.S. is a major investor in stem cell research, which accelerates the development of regenerative medicines for the treatment of various long-term illnesses.
The cell separation technology market in Asia Pacific is projected to expand at a high CAGR from 2019 to 2027. This can be attributed to an increase in healthcare expenditure and large patient population, especially in countries such as India and China. Rising medical tourism in the region and technological advancements are likely to drive the cell separation technology market in the region.
Launching Innovative Products, and Acquisitions & Collaborations Key Players Driving Global Cell Separation Technology Market
The global cell separation technology market is highly competitive in terms of number of players. Key players operating in the global cell separation technology market include Akadeum Life Sciences, STEMCELL Technologies, Inc., BD, Bio-Rad Laboratories, Inc., Miltenyi Biotech, 10X Genomics, Thermo Fisher Scientific, Inc., Zeiss, GE Healthcare Life Sciences, PerkinElmer, Inc., and QIAGEN.
These players have adopted various strategies such as expanding their product portfolios launching new cell separation kits and devices, and participation in acquisitions, establishing strong distribution networks. Companies are expanding their geographic presence in order sustain in the global cell separation technology market. For instance, in May 2019, Akadeum Life Sciences launched seven new microbubble-based products at a conference. In July 2017, BD received the U.S. FDAs clearance for its BD FACS Lyric flow cytometer system, which is used in the diagnosis of immunological disorders.
- The Beating Heart (Cardiac) Cells [Last Updated On: June 24th, 2011] [Originally Added On: June 24th, 2011]
- cellalign [Last Updated On: June 24th, 2011] [Originally Added On: June 24th, 2011]
- Okamoto placenta-derived cardiomyocytes [Last Updated On: June 25th, 2011] [Originally Added On: June 25th, 2011]
- Cardiac Stem Cell Therapy [Last Updated On: June 26th, 2011] [Originally Added On: June 26th, 2011]
- Wow! UW Research labs [Last Updated On: June 26th, 2011] [Originally Added On: June 26th, 2011]
- Cardiac Stem Cell Therapy [Last Updated On: June 28th, 2011] [Originally Added On: June 28th, 2011]
- cellalign [Last Updated On: July 3rd, 2011] [Originally Added On: July 3rd, 2011]
- Insidermedicine In 60 - August 4, 2011 [Last Updated On: August 25th, 2011] [Originally Added On: August 25th, 2011]
- Cardiac Stem Cells in End-Stage Human Failing Hearts: Are they functional? [Last Updated On: August 28th, 2011] [Originally Added On: August 28th, 2011]
- Did you have a Heart Attack and Need to Recover your Cardiac Muscle? [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Heart repair using own stem cells after heart attack: Future Health keynote speaker [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Cardiac Stem Cell Therapy at Rostock University [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Cardiovascular Therapies: Spotlight on Stem Cell Research - Douglas Boyd [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Davos Question: Stem Cell Answer [Last Updated On: September 5th, 2011] [Originally Added On: September 5th, 2011]
- Stem Cell operation in Cardiac Surgery-Al-Jazeerah [Last Updated On: September 6th, 2011] [Originally Added On: September 6th, 2011]
- Stem Cell Therapy in Cardiac Disease [Last Updated On: September 6th, 2011] [Originally Added On: September 6th, 2011]
- Designer Life: repair brain, heart with stem cells - Future Health keynote speaker [Last Updated On: September 7th, 2011] [Originally Added On: September 7th, 2011]
- Stem Cells: Mending a broken heart? [Last Updated On: September 7th, 2011] [Originally Added On: September 7th, 2011]
- Cardiac Stem Cells in End-Stage Human Failing Hearts: Are they functional? [Last Updated On: September 8th, 2011] [Originally Added On: September 8th, 2011]
- Oral Surgeon utilizes StemSave to preserve stem cells in wisdom teeth to combat cardiac disease [Last Updated On: September 9th, 2011] [Originally Added On: September 9th, 2011]
- Cardiac Recovery Points to Adult Stem Cells [Last Updated On: September 9th, 2011] [Originally Added On: September 9th, 2011]
- Oral Surgeon utilizes StemSave to preserve stem cells in wisdom teeth to combat cardiac disease [Last Updated On: September 10th, 2011] [Originally Added On: September 10th, 2011]
- Stem Cell operation in Cardiac Surgery-Al-Jazeerah [Last Updated On: September 10th, 2011] [Originally Added On: September 10th, 2011]
- Cardiovascular Derivatives of Embryonic Stem Cells in Cardiac Repair and Drug Discovery [Last Updated On: September 10th, 2011] [Originally Added On: September 10th, 2011]
- Stem Cell Therapy in Cardiac Disease [Last Updated On: September 11th, 2011] [Originally Added On: September 11th, 2011]
- Cardiovascular Derivatives of Embryonic Stem Cells in Cardiac Repair and Drug Discovery [Last Updated On: September 12th, 2011] [Originally Added On: September 12th, 2011]
- Stem Cells and Cardiac Regeneration [Last Updated On: September 12th, 2011] [Originally Added On: September 12th, 2011]
- Cardiomyogenic differentiation of Mesenchymal Stem cells (KUM2/9-15c) [Last Updated On: September 12th, 2011] [Originally Added On: September 12th, 2011]
- Mark Mercola: Differentiating embryonic stem cells into adult tissues [Last Updated On: September 15th, 2011] [Originally Added On: September 15th, 2011]
- Cardiovascular Therapies: Spotlight on Stem Cell Research - Douglas Boyd [Last Updated On: September 20th, 2011] [Originally Added On: September 20th, 2011]
- Stem Cell #8 Vas Cath Removal 04/28/11 [Last Updated On: September 20th, 2011] [Originally Added On: September 20th, 2011]
- Adult Stem Cells Used To Rebuild Heart Tissue Video. More at http://www.stemcellfusion.com [Last Updated On: September 20th, 2011] [Originally Added On: September 20th, 2011]
- Stem Cell Therapy and Stem Cell Treatment with Dell [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- First US Patient In Stem Cell Transplant [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Stem Cell Heart Surgery must see [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Beating cardiac myocytes from differentiated mouse iPSC. [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- heart cell generation from human ES and iPS cells (embryonic and induced pluripotent stem cells).flv [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Advanced Cell Technology OneMedForum 2011 [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- 20100804_axiogenesis.wmv [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Pt. 1--Dr. Ali Denktas--Stem Cells as Markers after Myocardial Infarctions [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Cardiac Tissue Can Regenerate [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Adult Stem Cell [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Beating cardiomyocyte monolayer [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Valentine's Day Stem Cell Wish: Mending Broken Hearts [Last Updated On: September 23rd, 2011] [Originally Added On: September 23rd, 2011]
- Cardiomyocytes derived from mouse Embryonic stem cells [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- UCD Med Student Receives Fulbright Award [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- Mouse GEN cells overexpressing Csx/Nkx2.5 and GATA4 behave like transient amplifying cells [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- 2010 - 2011 UConn Highlight Reel [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- William F. Testimonial of Treatment Stem Cell [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- BeatingCM_on_MEA.wmv [Last Updated On: September 24th, 2011] [Originally Added On: September 24th, 2011]
- Breakthrough in Stem cell technology [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- stem cell derived cardiomyocytes [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Mark Mercola: Differentiating embryonic stem cells into adult tissues [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Cadiomyogenesis of human mesenchymal stem cells [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Adult Stem Cell vs Embryonic Stem Cell Research Ethics Video [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Heart Failure Patient After Adult Stem Cell Therapy [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Affordable Stem Cell Therapy in Guatemala (2hrs from Miami) [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Kevin's 2 Heart Transplants and Stem Cell Transplant [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Immune Control of Stem Cell Mobilization [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Patel Stem Cell Heart Failure [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Better Drugs Through Stem Cells [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Heart Disease Patient Describes His Stem Cell Treatment [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Turning Adult Stem Cells into Medicine - Zannos Grekos, MD [Last Updated On: September 25th, 2011] [Originally Added On: September 25th, 2011]
- Cardiomyocytic differentiation of endometrial stem cells. [Last Updated On: September 26th, 2011] [Originally Added On: September 26th, 2011]
- Turning Adult Stem Cells into Medicine - Zannos Grekos, MD [Last Updated On: September 26th, 2011] [Originally Added On: September 26th, 2011]
- Stem Cells: Heart cells grown from mouse stem cells [Last Updated On: September 26th, 2011] [Originally Added On: September 26th, 2011]
- Beating cells [Last Updated On: September 28th, 2011] [Originally Added On: September 28th, 2011]
- Repairing Damaged Hearts with Stem Cells [Last Updated On: September 28th, 2011] [Originally Added On: September 28th, 2011]
- Heart cells grown from human embryonic stem cells [Last Updated On: September 28th, 2011] [Originally Added On: September 28th, 2011]
- CytoTune iPSCs - Cardiomyocytes [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- Becoming Bionic: The Little Book of Hope for Heart Patients Runblog ("Dress the Part") [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- H9 Cardiac EBs.mov [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- Beating Cardiomyocytes from E14 Cells [Last Updated On: September 29th, 2011] [Originally Added On: September 29th, 2011]
- Human 2.0: The Helix of Our Future [Last Updated On: September 30th, 2011] [Originally Added On: September 30th, 2011]
- Beating Human Heart Cells from Embryonic Stem Cells [Last Updated On: October 1st, 2011] [Originally Added On: October 1st, 2011]
- Be still my beating stem cell heart [Last Updated On: October 1st, 2011] [Originally Added On: October 1st, 2011]
- Doctors To Use 'Trained' Stem Cells To Heal Heart [Last Updated On: October 2nd, 2011] [Originally Added On: October 2nd, 2011]
- Spontaneously and rhythmically beating engineered human heart tissue from pluripotent stem cells [Last Updated On: October 3rd, 2011] [Originally Added On: October 3rd, 2011]
- Cardiac Stem Cell Therapy - How it works [Last Updated On: October 4th, 2011] [Originally Added On: October 4th, 2011]
- Doctors To Use 'Trained' Stem Cells To Heal Heart [Last Updated On: October 4th, 2011] [Originally Added On: October 4th, 2011]