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Cancer Gene Therapy Industry is Rising Rapidly Up to USD 18.11 Bn by 2033 – BioSpace
The global cancer gene therapy market size was accounted for USD 2.95 billion in 2023 and it is increasing around USD 18.11 billion by 2033 with a CAGR of 19.9% from 2024 to 2033, according to a new report by Nova One Advisor.
Cancer Gene Therapy Market Overview
Cancer is a group of diseases that involve abnormal cell growth which can spread to respective parts of the body. Cancer can spread throughout the human body.Gene therapyis a kind of treatment in which the genes that are not normal or are missing in the patients cells are replaced with normal genes. Cancer gene therapy is a technique for treating cancers where the therapeutic DNA is introduced in the gene of the individual suffering from cancer.
Due to a high success rate in preclinical as well asclinical trials, cancer gene therapy is gaining high popularity all over the world. There are numerous techniques utilized in cancer gene therapy. In one of the gene therapy techniques, either the mutated gene is replaced with a healthy gene, or the gene is inactivated if its function is abnormal. In a newly developed technique, new genes can be introduced in the body of the patient to help fight against cancer cells.
Further, the ongoing extensive research and development (R&D) strategies implemented bybiopharmaceuticalfirms for producing novel therapeutic drugs are driving the market growth notably.
The market players can aim towards expansions, collaborations, joint ventures, acquisitions, and partnerships to advance capabilities in gene therapy. This would help in yielding effective therapeutic drugs for treating different kinds of cancers. In April 2022, GSK plc announced the acquisition of Sierra Oncology for 1.6 billion ($1.9 billion). This acquisition would help GSK plc in enhancing its capabilities with respect to targeted therapies for treating rare forms of cancer.
Biotechnologyfirms are evaluating novel gene therapy vectors for increasing levels of protein production/gene expression, reducing immunogenicity, and improving durability.
The top cancers in terms of the count of new cases in 2020 all over the world were Lung Cancer (2,206,771 cases),Breast Cancer(2,261,419 cases),Prostate Cancer(1,414,259 cases), Colorectal Cancer (1,931,590 cases), Stomach Cancer (1,089,103 cases), and Liver cancer (905,677 cases). In 2018, there were around 134,632 new cancer cases and 89,042 cancer-related fatalities. Breast and liver cancers were among the most common tumors in terms of incidence and mortality. The high prevalence of breast cancer cases enhances the scope for CRISPR/Cas9-based gene editing for breast cancer therapy and VISA-claudin4-BikDD gene therapy.
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Key Takeaways:
Cancer Gene Therapy Market Size in U.S. 2024 to 2033
The U.S. cancer gene therapy market size was valued at USD 1.25 billion in 2023 and is anticipated to reach around USD 7.94 billion by 2033, growing at a CAGR of 20.31% from 2024 to 2033.
North America accounted for the largest share of over 61.15% in 2023. This is attributed to the conducive environment facilitated by the government and the National Cancer Institute that supports research and development activities to enhance cancer therapeutics. Further, the presence of key market players in the region, their research efforts in devising gene therapy for cancer treatment, and collaborative efforts among market players to enhance research are boosting the market growth in the region. For instance, in August 2022, Merck & Co., Inc., collaborated with Orna Therapeutics Inc., for discovery, development, and commercialization of multiple programs, inclusive of utilization of mRNA for cancer gene therapy.
Europe is estimated to be the fastest-growing region over the forecast period due to increase in research funding for novel therapeutics by government bodies and increasing demand for novel therapeutics that could help combat the growing incidence of cancer cases across the region. Moreover, The European Unions Horizon Europe Mission on Cancer was launched in September 2023 so as to offer funds to a broad spectrum of activities that are intended to lower Europes cancer burden by accelerating research and innovation in cancer therapeutics. The mission is anticipated to help over 3 million cancer survivors by the year 2033.
The cancer gene therapy market in the Asia Pacific (APAC) region is segmented into India, China, Japan, South Korea, and the rest of the Asia Pacific (APAC) region. China dominated the Asia Pacific region followed by Japan and India in 2023.
The Latin America, Middle East, and African (LAMEA) cancer gene therapy market is segmented into North Africa, South Africa, Saudi Arabia, Brazil, Argentina, and the Rest of LAMEA. The Middle East and the Latin America region are anticipated to have notable growth in the cancer gene therapy market during the forecast period. Brazil held the largest share in the LAMEA region in 2023. Due to low literacy, uncertainty, and civil war in African countries, the cancer gene therapy market in Africa is expected to grow at a comparatively slow rate.
What are the importance of Cancer Gene Therapy?
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Types of gene therapy for cancer
Gene therapy aims tocontrolthe altered genesor genetic mutationsof a cancertoprevent the cancers growth.This approach to using our own cells and genes to treat cancer is called somatic gene therapy.Thistype of gene therapydoes not impact germ-line cells in the reproductive system, meaning none of the genetic changescan bepassedon to otherfamily members.
There are four types of somatic gene therapy: gene editing; gene replacement; gene addition; and gene inhibition.
Gene editing is correcting the cells gene to fix the imbalance by snipping out the faulty part of the gene and changing the cancers DNA. This type of gene therapy may correct the alteration rather than trying to remove it. Gene replacement is just that: replacing the faulty or nonworking gene with a healthy copy of it. This type of gene therapy is another form of trying to fix the genetic change rather than trying to remove it.
Gene addition is adding novel genetic code to a different cell usually an immune system fighter cell to help it combat the protein linked to the damaged gene. CAR T-cell therapy is an example of gene addition. This form of gene therapy isnt adding a copy of an already-existing gene but rather an entirely new gene usually with the intent of killing the cancer cell via the immune system. Doctors may also add a new gene directly to the cancer cell that causes the cancer cell to commit apoptosis (kill itself).
Gene inhibition simply shuts down the faulty gene. This can either kill the cell or prevent it from acting in a cancerous manner, such as growing and replicating exponentially.
Steps of gene therapy
Gene therapy is a new and potentially curative approach to treating cancer, but researchers still have so much to learn. While the steps below may seem straightforward, each part of the process requires years of study to develop the technologies.
Researchers must first identify the gene and protein linked to the cancer. The next steps are:
Steps of CAR T-cell therapy
CAR T-cell therapy has a slightly different process than more direct forms of gene therapy. CAR T cells are lab-generated fighter cells with specific, anti-cancer genetic code. Adding this genetic code is the gene therapy component of CAR T-cell therapy. CAR stands for chimeric antigen receptor, which is the new genetic code added to the T cells.
There are six CAR T-cell therapy agents approved by the U.S. Food and Drug Administration for different blood cancers. These approvals validate CAR T cells as an effective form of cancer gene therapy to improve patient life expectancy.
Doctors first draw blood from a patient and separate the T cells, which are white blood cells leading the immune systems defense against viruses, diseases and more unwanted intruders. T cells aim to protect the body from cancer, but theyre often ineffective at doing so.
The process of drawing blood from patients and separating the T cells is called apheresis.
After removing T cells from the body, the steps of CAR T-cell therapy are:
A similar process occurs for CAR NK-cell therapy. Scientists create chimeric antigen receptors to strengthen natural killer (NK) cells, another white blood cell of the immune system.
How long does CAR T-cell therapy take?
There are six CAR T-cell therapies approved for types of three blood cancers: myeloma, leukemia and lymphoma. CAR T-cell therapy infusions can take place in an inpatient or outpatient care setting, but the patient must be closely monitored at all times.
CAR T-cell therapy can lead to side effects, most notable cytokine release syndrome.
The entire CAR T-cell process lasts approximately one month, not including the recovery time after treatment:
For the first seven days after receiving the CAR T-cell infusion, patients must remain under medical supervision. For weeks 2-4 of the post-infusion timeline, patients must remain within a short drive of their medical facility to respond to any issues.
The total recovery period from CAR T-cell therapy is usually 2-3 months following infusion, according to the Dana-Farber Cancer Institute.
There are several studies for CAR T-cell therapies for cancer. Participating in a clinical trial helps advance cell and gene therapy research and can advance much-needed therapies to more patients in need.
Therapy Insights
Gene induced immunotherapy dominated the market with a revenue share of over 41.9% in 2023. The dominance of the segment can be attributed to research studies aiming to lower the proliferation of various types of cancer by strengthening the immune system. Many gene therapies for cancers are designed on the basis of immunotherapy elements. For instance, PROVENGE (by Dendreon Corporation) is an autologous cellular immunotherapy designed to stimulate a subjects immune system against prostate cancer.
Oncolytic virotherapy is expected to grow at the fastest rate over the forecast period owing to the favorable outcomes and the level of efficacy offered by oncolytic virotherapy. Oncolytic viruses can combat cancer cells without disturbing the healthy cells in vicinity by stimulating natural killer cells. Moreover, there are lucrative research grants for the research on oncolytic virotherapy. For instance, in July 2022, the researchers at the Center for Nuclear Receptors and Cell Signaling at the University of Houston received a USD 1.8 million grant from the National Institutes of Health to work on oncolytic virotherapy.
End-use Insights
Biopharmaceutical companies led the market with a revenue share of over 50.0% in 2023. This is attributed to the increasing global prevalence of different types of cancers owing to various hereditary, environmental, and lifestyle risk factors. Moreover, the market is driven by increasing adoption of elemental gene therapy options by biopharmaceutical giants to design cancer therapeutic regimes. Many novel therapeutic drugs are under different phases of trials and firms are striving to market them in different regions across the globe. For instance, in January 2020, bluebird bio, Inc. launches its drug, ZYNTEGLO in Germany to be used as a one-time gene therapy solution for patients aged 12 years and above.
The biopharmaceutical companies segment is projected to grow at the fastest rate over the forecast period. The increasing global prevalence of malignant tumors is a key factor driving the market. Moreover, an increased interest in oncology therapeutics research and development is resulting in a rise in the number of FDA approvals of gene therapy drugs. For instance, there are 6 FDA-approved cancer gene therapy drugs with Tecratus, Abcema, and Kymriah being the recent approvals.
Recent Developments:
Some of the prominent players in the Cancer gene therapy market include:
Segments Covered in the Report
This report forecasts revenue growth at global, regional, and country levels and provides an analysis of the latest industry trends in each of the sub-segments from 2023 to 2033. For this study, Nova one advisor, Inc. has segmented the global cancer gene therapy market.
Therapy
End-use
By Region
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Cancer Gene Therapy Industry is Rising Rapidly Up to USD 18.11 Bn by 2033 - BioSpace
Revolutionary CRISPR Technology Is Helping Make Crops More Resilient to the Climate Crisis – VegNews
The discovery of Clustered Regularly Interspaced Short Palindromic Repeats (widely known as just CRISPR) has been revolutionary in many ways. For one, it has transformed disease research. Just recently, scientists revealed they could cut HIV out of cells using the gene-editing technology, and it also has the potential to completely change the way cancer is treated, too. But CRISPRs abilities dont end there. It could also change the way that food tastes (making healthier foods more appealing to children, for example), and even save the food system from the brutal impact of the climate crisis.
Right now, extreme weather events, including drought, heatwaves, and floods, threaten essential crops all over the world. In fact, one 2021 study from NASA suggested that the impact of global climate change could impact crops within the decade. Maize yields are a particular concern, as the research suggested they could drop by 24 percent. A 20 percent decrease from current production levels could have severe implications worldwide, Jonas Jgermeyr, crop modeler and climate scientist, said at the time.
But, by improving their resilience, CRISPR could help to save more crops from falling foul to extreme weather events, which, as the human-driven climate crisis intensifies, are only set to become more common over the coming years.
Pexels
CRISPR is, essentially, a revolutionary gene-editing technology. Adapted from a naturally occurring defense mechanism found in bacteria, the system enables scientists to make precise changes to the DNA of organisms. In 2020, Emmanuelle Charpentier and Jennifer Douda were awarded the Nobel Prize in Chemistry for pioneering CRISPR-Cas9. The technology is also known as genetic scissors, because of the way it can help researchers cut DNA.
The statement from The Nobel Prize at the time noted that, since 2012, when Charpentier and Doudna first discovered the CRISPR-Cas9 genetic scissors, it has contributed to many important discoveries in basic research, adding that as well as leading to major breakthroughs in curing inherited diseases, plant researchers have been able to develop crops that withstand mold, pests, and drought.
In terms of crops, CRISPR can help scientists change and insert DNA into plants to make them more resistant to harsher surroundings. It could help make them less vulnerable to extreme temperatures, for example, and even help increase crop yield to produce more food for more people.
Pexels
CRISPR is already helping scientists to overcome major challenges in the food system. In January 2024, for example, a paper published in Nature revealed that researchers in Kenya are working on making sorghuma staple food across many African countriesmore resilient to a parasitic weed, called Striga, using the gene-editing technology.
In Singapore, a company called Singrow launched the worlds first climate-resilient strawberry last year, which was also created with the help of CRISPR. In North Carolina, the scientists behind the food startup Pairwise are developing more nutritious crops, produce higher yields, and require fewer resources to grow with the technology. Earlier this year, the company was even acknowledged by Time Magazine as one of Americas Top Greentech Companies.
These companies are far from alone. According to the food innovation platform Forward Fooding, more than 50 companies around the world are currently using DNA technology to improve crops. It notes that since 2013, they have raised around 2.3 billion in funding.
CRISPR is not perfect. Its important to note that this technology is still new, and more research is needed into the long-term effects of gene-editing crops. But so far, the progress is promising.
As well as a move away from animal agriculture, which is widely considered by scientists to be depleting the earth of natural resources and driving up emissions, CRISPR could be one of the key factors in building a more sustainable, resilient, nutritious food system, which may also be able to feed more people than ever.
Charlotte is a writer and editor based in sunny Southsea on England's southern coast.
Original post:
Revolutionary CRISPR Technology Is Helping Make Crops More Resilient to the Climate Crisis - VegNews
Cell and Gene Therapy Market Size to Reach USD 97.33 Bn by 2033 – BioSpace
According to the latest research by nova one advisor, the global cell and gene therapy market size was valued at USD 18.13 billion in 2023 and is anticipated to reach around USD 97.33 billion by 2033, growing at a CAGR of 18.3% from 2024 to 2033.
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The cell and gene therapy market provides therapeutic solutions related to genes and cells. The market deals with research & development, testing, production, and distribution of products and treatment procedures related to genes and cells. Hospitals, research laboratories, pharmaceutical companies, pharmacies, research institutions, and universities are involved in delivering the applications associated with gene and cell therapies. Gene and cell therapies are developed to prevent, treat, or potentially cure numerous diseases. The potential of these therapies to cure, treat, or prevent diseases that are life-threatening increases the demand and boosts the growth of the market. Gene and cell therapies are used in blood stem cell transplantation, gene editing, engineering of the immune system, tissue regeneration, in-vivo gene transfer, cancer treatment, and treatment of different disorders. These therapies can provide better results and enhance quality of life.
North America dominated the cell and gene therapy market in 2023. North America is a developed region that has developed healthcare and research infrastructure, better facilities, and government support that boosts the growth of the market. Governments in the North American region have a huge national budget for healthcare and research. Countries like the U.S. and Canada contribute to the growth of the market in the North American region. As of now, the FDA has approved 37 products for gene and cell therapy. The U.S. has the American Society of Gene & Cell Therapy (ASGCT) for professionals, scientists, physicians, and patient advocates that help advance knowledge, education, and awareness for discovering and developing clinical applications of gene and cell therapy.
The Canadian government is also focusing on improving health with the help of genes and therapies and is launching various programs to help with this. The government launched Disruptive Technology Solutions, which will help tackle the challenges associated with gene and cell therapies. The treatment procedures will be done to cure rare genetic disorders and chronic diseases.
Key Takeaways:
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The cell and gene therapy market is exploding globally
Ground-breaking developments in next-generation cell and gene therapies (CGTs) offer curative value for patients with few to no other therapeutic interventions for either maintenance or cure within specific disease areas, many of which include rare and ultra-rare diseases.The largest therapeutic area is cancer, followed by musculoskeletal diseases and eye diseases.Multiple approved products have been launched in global markets and the number of clinical trials continues to grow. In Europe, these therapies are classified under Advanced Therapeutic Medicinal Products (ATMPs) and are driven by a diverse set of scientific advancements including CAR-T, TCR-T, stem cells, siRNA, oligonucleotides, gene editing (CRISPR, Zinc Fingers, TALENs) and viral transfection.
The global CGT market is projected to grow at a compound annual growth rate of over 36 percent from 2019-2025, to ~ 10 billion. With more than 900 companies globally focusing on CGTS and over 1,000 clinical trials being conducted, the industry could see numerous approvalsas many as 10 to 20 new advanced therapies per year starting in 2025. Moreover, 33% of these clinical trials is being conducted in Europe.1
Global biopharma companies as well as smaller, venture backed-up start-ups are rapidly investing in this complex space. In 2018, about $13 billion has been invested globally in advanced therapies such as cell, gene and gene modifying therapies. In 2019, 19 CGT-related M&A deals worth over $156 billion were completed.
As with any innovative and disruptive technology, CGT developers face challenges along several key stages of the product life cycle. Compared to chemical-based pharmaceuticals, key success factors such as enabling patient access, managing supply chain and manufacturing operations, evidencing compliance with increasingly complex regulatory requirements and alternate business models impose a greater burden.
Segments Insights:
By Therapy Insights
The market for cell and gene treatments consists of companies (organizations, sole proprietors, and partnerships) that sell the therapies they have developed. Cell therapy is the transfer of whole, living cells derived from allogeneic or autologous sources, while gene therapy is the introduction, deletion, or alteration of the genome to treat disease. The market is made up of the money that businesses creating goods for cell and gene therapy make from the sales of those items.
Cell treatment and gene therapy are the two primary product categories in this field. Gene therapy is a field of medicine that focuses on altering cells' genetic make-up to treat disease or reverse it by repairing or replacing genetic material that has been damaged. Oncology, dermatological, musculoskeletal, and other applications are among the many that are used in hospitals, ambulatory surgery centers, cancer treatment facilities, wound care facilities, and other industries.
Cell & Gene Therapy Market Revenue, By Therapy Type, 2022-2032 (USD Million)
By Therapy Type
2022
2023
2027
2031
2032
Cell Therapy
13,396.01
15,621.48
29,433.95
57,138.21
67,757.69
Gene Therapy
2,067.97
2,502.14
5,406.11
11,864.27
14,480.51
By Therapeutic class
Based on application, the market is divided into cardiovascular disease, cancer, genetic disorder, rare diseases, oncology, hematology, ophthalmology, infectious disease, neurological disorders. Among these, the infectious disease segment dominates the market in 2023. The oncological disorder segment held a revenue share of 13.53% in 2023. Research and treatment in the biomedical domains of cell therapy and gene therapy. Both treatments have the ability to lessen the underlying cause of hereditary disorders and acquired diseases. Both therapies aim to treat, prevent, or perhaps cure diseases. By repairing or changing specific cell types, or by employing cells to transport a medication across the body, cell therapy tries to treat diseases. Cell therapy involves growing or modifying cells outside of the body before injecting them into the patient. The cells may come from a donor (allogeneic cells) or the patient (autologous cells)6. By replacing, deactivating, or introducing genes into cells, either inside the body (in vivo) or outside the body, gene therapy seeks to treat disorders (ex vivo).
The market for genetic disorders is expanding as a result of factors like the high prevalence of genetic and chronic disease cases and the growing government initiatives to raise public knowledge of genetic testing and diagnosis. Researchers are developing novel techniques for screening, diagnosing, and treating patients for a variety of cardiac diseases as they investigate the genetic roots of heart and vascular illness. Some researchers are looking for new ways to nine patients who are at risk for sudden cardiac death. Others are examining how medicines that could postpone or obviate the need for cardiac surgery could benefit patients with uncommon illnesses.
The intricacy of mitochondrial genetics and the diverse clinical and biochemical symptoms of primary mitochondrial disorders (PMDs) have shown to be a significant obstacle to the development of effective disease-modifying medications. A successful clinical transition of genetic medicines for PMDs is possible, according to encouraging evidence from gene therapy trials in patients with Leber hereditary optic neuropathy and improvements in DNA editing tools.
Cell & Gene Therapy Market Revenue, By Therapeutic Class, 2022-2032 (USD Million)
By Therapeutic Class
2022
2023
2027
2031
2032
Cardiovascular Disease
744.36
882.84
1,780.08
3,697.84
4,460.03
Genetic Disorder
1,643.41
1,922.21
3,665.70
7,202.20
8,566.52
Oncology
1,936.87
2,272.26
4,385.58
8,720.66
10,403.81
Hematology
1,196.56
1,396.75
2,642.34
5,150.06
6,113.36
Ophthalmology
835.60
972.46
1,817.62
3,500.15
4,142.33
Infectious Disease
4,420.18
5,206.30
10,210.05
20,628.98
24,708.86
Neurological Disorders
658.61
777.29
1,536.51
3,129.23
3,755.58
Others
4,028.39
4,693.50
8,802.17
16,973.35
20,087.70
By Delivery Method
The market is split into In Vivo therapy and Ex Vivo therapy according to the type of therapy. In vivo therapy market is anticipated to grow exponentially throughout the projected period. When it comes to gene therapy, there are two different methods: ex vivo and in vivo, setting aside cell therapies. The altered human gene must first enter the diseased person's cells for gene therapy to take effect. There are two methods for doing this; Genetic material is supplied in vivo to afflicted cells (cancer cells or other cells) that are still present within an individual's body. After cells are collected and exposed to the genome in Ex vivo, altered genes are transferred to a person's body.
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Cell and Gene Therapy Market Size to Reach USD 97.33 Bn by 2033 - BioSpace
Genetic Analysis Market Size to Attain Around USD 23.60 BN by 2033 – BioSpace
The global genetic analysis market was evaluated at USD 10.55 billion in 2023 and is expected to attain around USD 23.60 billion by 2033, growing at a CAGR of 8.39% from 2024 to 2033. The increasing demand for genetic testing services is driving growth within the genetic analysis market.
Market Overview
The genetic analysis market is experiencing significant transformation due to advances in genetic technology, which are fundamentally changing perceptions and practices within the healthcare industry. At the heart of this transformation lies the process of genetic analysis, which involves the examination of DNA samples to identify mutations that may influence disease susceptibility or treatment response. This analysis is pivotal for understanding the structure and function of genes, with techniques such as gene cloning playing a crucial role in isolating and replicating specific genes for detailed examination.
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One notable aspect of genetic analysis is its diverse clinical applications. It serves as a diagnostic tool, aiding in the confirmation of diagnoses in symptomatic individuals, while also facilitating the monitoring of disease prognosis and treatment response. Additionally, genetic analysis enables predictive or predisposition testing, allowing for the identification of individuals at risk of developing certain diseases before symptoms manifest.
The emergence of predictive genetic testing is creating new market opportunities, as it enables proactive disease prevention strategies and early interventions. As perceptions regarding genetic testing continue to evolve, the market for genetic analysis is expected to witness sustained growth, driven by its potential to revolutionize patient care and improve health outcomes.
Key Insights
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North America to sustain its position in the upcoming years with the U.S. being largest contributor
In 2023, North America emerged as the dominant force in the genetic analysis market, particularly in the United States. The US showcased a robust infrastructure with 200 laboratories actively conducting 37,124 clinical tests, underscoring the region's significant investment and adoption of genetic analysis technologies. Notably, 29 laboratories specialized in whole exome sequencing (WES), while 17 laboratories focused on whole genome sequencing (WGS), indicating a wide array of genetic testing capabilities available within the country.
The United States exhibits a proactive approach towards healthcare, as evidenced by mandatory newborn screening programs targeting a specific set of genetic diseases. Although the exact set of diseases screened may vary from state to state, the emphasis remains on conditions where early diagnosis is crucial for effective treatment or prevention strategies. This regulatory framework underscores the importance placed on leveraging genetic analysis for proactive healthcare management and disease prevention initiatives.
Beyond clinical applications, genetic analysis in North America extends to ecological and environmental contexts. The presence of invasive species such as Phragmites australis subsp. australis poses ecological challenges across multiple regions. The co-occurrence of this invasive subspecies with native counterparts and instances of hybridization necessitates precise differentiation methods for effective management strategies. Genetic analysis plays a pivotal role in distinguishing between phragmites subspecies or haplotypes, facilitating targeted management efforts to mitigate ecological harm and preserve native ecosystems.
Asia Pacific to witness lucrative opportunities in the upcoming years
Asia Pacific emerges as a pivotal region poised for substantial growth in the genetic analysis sector, driven by dynamic developments in genetic counselling and genome mapping initiatives. Forecasts indicate that Asia Pacific will experience the fastest growth rate in the genetic analysis market during the forecast period, underscoring the region's significance in shaping the future of genetic healthcare services.
A recent milestone in the region's genetic counselling landscape is the establishment of the Professional Society of Genetic Counsellors in Asia (PSGCA). Formed as a special interest group of the Asia Pacific Society of Human Genetics, PSGCA aims to spearhead the advancement and integration of the genetic counselling profession across Asia. With a vision to become the premier organization driving genetic counselling mainstream adoption in the region, PSGCA endeavors to ensure equitable access to genetic counselling services for individuals. Its mission centers on elevating standards of practice, curriculum, research, and continuing education to promote quality genetic counselling services throughout Asia.
The rapid evolution of genetic and genomic technologies has significantly transformed healthcare services in low- and middle-income countries (LMICs) across the Asia-Pacific region. Initially focused on population-based disease prevention strategies, genetic services have transitioned towards clinic-based and therapeutics-oriented approaches. Notably, the region's genetic diversity, exemplified by populous and genetically varied countries such as China, India, Japan, and Indonesia, positions them as prime candidates for genome mapping research endeavors.
How the genetic analysis market in Asia Pacific
Report Highlights
By Product
The reagents & kits segment asserted dominance in the genetic analysis market in 2023. DNA reagents play a pivotal role in various DNA-related processes and techniques, including sequencing, synthesis, cloning, and mutagenesis. These products encompass a diverse range, such as plasmids, buffers, labeling technology, columns, and comprehensive test kits utilized in DNA testing, including direct-to-consumer (DTC) genetic tests. While offering accessible information about the scientific basis of tests, the usage of DTC genetic tests carries inherent risks due to the absence of personalized guidance concerning the results.
The instruments segment emerged as the fastest-growing sector within the genetic analysis market. Core laboratory instruments constitute essential tools in genetic engineering research, facilitating precise and reliable experimentation. Polymerase Chain Reaction (PCR) machines, also known as thermal cyclers, stand as indispensable equipment in genetic engineering labs, enabling the amplification of specific DNA segments crucial for detailed analysis.
By Test
In 2023, the disease diagnostic testing segment emerged as the dominant force in the genetic analysis market. This segment specializes in identifying whether individuals harbor specific genetic diseases by detecting alterations in particular genes. While these tests excel at pinpointing gene mutations, they often fall short in determining disease severity or age of onset. Thousands of diseases stem from mutations in a single gene, making diagnostic testing pivotal in confirming or ruling out genetic diseases and chromosomal abnormalities. Frequently utilized during pregnancy or when symptomatic, diagnostic genetic testing offers crucial insights for accurate diagnosis and timely intervention.
The prenatal and newborn testing segment emerged as the fastest-growing sector in the genetic analysis market during the forecast period. Prenatal genetic testing provides prospective parents with vital information regarding potential genetic disorders in the fetus. Prenatal screening tests assess the likelihood of fetal aneuploidy and select disorders, while prenatal diagnostic tests definitively ascertain the presence of specific disorders. These tests, conducted on fetal or placental cells obtained through procedures like amniocentesis or chorionic villus sampling (CVS), play a pivotal role in informed decision-making during pregnancy.
Newborn screening, a subset of prenatal and newborn testing, comprises a set of laboratory tests performed on newborns to detect known genetic diseases. Typically conducted via a heel prick within the first few days of life, newborn screening enables early identification and intervention for treatable genetic conditions, thereby improving health outcomes. As the demand for early detection and preventive measures rises, the prenatal and newborn testing segment is poised for continued growth, bolstering the comprehensive landscape of genetic analysis.
By Technology
In 2023, the real-time PCR system segment emerged as the dominant force in the genetic analysis market. Real-time PCR (RT-PCR) systems offer unparalleled capabilities for quantitative genotyping and detection of single nucleotide polymorphisms (SNPs), allelic discrimination, and genetic variations even in samples with minimal mutation carriers. Multiplex PCR systems, a subset of RT-PCR, are gaining prominence, particularly in plant/microbe associations, where standard PCR methods prove inadequate. Multiplex RT-PCR facilitates the identification of multiple genes through the utilization of fluorochromes and analysis of melting curves, providing enhanced accuracy and efficiency in genetic analysis.
The next-generation sequencing (NGS) segment emerged as the fastest-growing sector in the genetic analysis market. NGS technology revolutionizes DNA sequencing and RNA sequencing and variant/mutation detection by enabling high-throughput sequencing of hundreds to thousands of genes or whole genomes within a short timeframe. The sequence variants/mutations detected by NGS hold profound implications for disease diagnosis, prognosis, therapeutic decision-making, and patient follow-up, paving the way for personalized precision medicine initiatives.
By Application
In 2023, the infectious diseases segment asserted dominance in the genetic analysis market, offering molecular genetic tests capable of identifying common viruses or bacteria responsible for respiratory infections and infectious diarrhea. These tests, conducted on samples collected from the nose and throat or a single stool sample, facilitate rapid and accurate diagnosis, enabling timely treatment and containment of infectious outbreaks.
The genetic diseases segment emerged as the fastest-growing sector in the genetic analysis market during the forecast period. The extent to which genes contribute to diseases varies, presenting opportunities for advancements in understanding genetic mechanisms underlying various conditions. This progress facilitates the development of early diagnostic tests, novel treatments, and preventive interventions to mitigate disease onset or severity.
By End Use
In 2023, the research & development laboratories segment emerged as the dominant force in the genetic analysis market, actively driving advancements in genetic disease study and testing technology. These laboratories are pivotal in enhancing clinical patient care by conducting rigorous research and development activities aimed at improving test strategies and introducing novel genetic tests. Board-certified directors and genetic counsellors collaborate closely with laboratory supervisors and technologists to ensure the delivery of accurate and reliable results within stipulated timelines. With a focus on meeting stringent validation standards, approved tests undergo thorough evaluations of methodology and clinical utility. Research programs within these laboratories leverage collective expertise to propel the field of genetics and genetic testing forward.
The diagnostic centers segment is poised for significant growth in the genetic analysis market during the forecast period. Diagnostic centers offer a comprehensive range of testing services crucial for diagnosing diverse medical conditions. By providing accurate and informed diagnoses, diagnostic centers enable physicians to develop effective treatment plans, ultimately enhancing patient outcomes. Leveraging advanced diagnostic technologies and techniques, these centers play a vital role in identifying underlying causes of diseases, monitoring disease progression, and devising personalized treatment approaches. Collaborating with healthcare providers like primary care physicians, specialists, and hospitals, diagnostic centers ensure accurate and timely diagnoses across a spectrum of medical conditions, reinforcing their indispensable role in modern healthcare delivery.
Market Dynamics
Driver: Advances in Genetic Sequencing and Gene Therapy
Significant strides in genetic sequencing, human genome analysis, and medical genetics have revolutionized disease understanding, diagnostic accuracy, and drug development targets. A pivotal breakthrough in medical genetics is the emergence of gene therapy, which involves modifying or replacing genes to treat or prevent diseases. Already applied successfully in treating conditions like inherited blindness and severe combined immunodeficiency (SCID), gene therapy is poised to expand its impact further.
Future projections indicate that gene therapy will play an increasingly vital role in medical genetics, offering treatments for previously untreatable diseases. This trajectory is expected to fuel the growth of the genetic analysis market, as the demand for advanced genetic testing and analysis escalates to support the development and implementation of gene therapy treatments.
Restraint: Privacy Concerns in Genetic Analysis
Privacy concerns poses a major challenge in the genetic analysis domain due to the inherent uniqueness of genomic data, hindering true anonymization efforts. Additionally, security measures are crucial to restrict access to data based on authorized clearance levels, safeguarding against unauthorized breaches. Confidentiality emerges as a key ethical consideration, dictating the responsible sharing of genetic data. These privacy concerns, among others, including consent and data ownership, serve as significant restraints in the genetic analysis market. Addressing these challenges effectively is essential to ensure ethical practices and foster trust among stakeholders, thereby mitigating the barriers to market growth.
Opportunity: Integration of Artificial Intelligence in Genetic Analysis
The integration of artificial intelligence (AI) is revolutionizing clinical genetics, offering unprecedented opportunities for advancement. AI algorithms possess the capability to analyse vast volumes of genetic data rapidly and accurately, facilitating more precise diagnoses and tailored treatment plans. Furthermore, AI empowers predictive analysis of disease risk, enabling the development of proactive disease prevention strategies. In genetic engineering and gene therapy research, AI serves as a powerful tool, aiding in hypothesis generation and experimental techniques. Leveraging AI, researchers can detect hereditary and gene-related disorders with greater efficiency.
Moreover, AI-driven developments hold immense promise for rational drug discovery and design, ultimately impacting humanity's well-being. As AI and machine learning (ML) technologies continue to drive innovation in drug development, genetics emerges as a prime beneficiary, with AI expected to influence every facet of the human experience. This presents a compelling opportunity for the genetic analysis market to capitalize on AI-driven advancements and propel transformative growth.
Recent Developments
Key Players in the Clinical Trials Market
Segments Covered in the Report
By Product
By Test
By Technology
By Application
By End-use
By Geography
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Genetic Analysis Market Size to Attain Around USD 23.60 BN by 2033 - BioSpace
Advanced Therapy Medicinal Products CDMO Industry is Rising Rapidly – BioSpace
According to latest study, the global advanced therapy medicinal products CDMO Market size was valued at USD 6.10 billion in 2023 and is projected to reach USD 34.53 billion by 2033, growing at a CAGR of 18.93% from 2024 to 2033.
Key Takeaways:
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owing to risingclinical trialsfor advanced therapy medicinal products and the increasing awareness among researchers about the benefits of advanced therapies, driving the advanced therapy medicinal products (ATMP) CDMO market growth. Tissue engineering has greatly benefited in recent years from technological development. The damaged tissues and organ function are replaced or restored using this technique. Similarly, gene and cell therapy are attracting a lot of patients for the treatment of rare diseases, whose incidence is rising globally.
With rising demand for robust disease treatment therapies, key players have focused their efforts to ramp up research and development for effective gene therapies that target the cause of disorder at a genomic level. According to ASGCT, the number of cell and gene therapies in the U.S. pipeline programs (phase I-III trials) increased from 483 in 2021 to 529 in 2022. Furthermore, the FDA delivers constant support for innovations in the gene therapy field via a number of policies with regard to product manufacturing. In January 2020, the agency released six final guidelines on the manufacturing and clinical development of safe & efficient gene therapy products.
Moreover, awareness about ATMP treatment options is being driven by initiatives aimed at informing the public about the benefits of these products, which, in turn, is leading to increased adoption of advanced therapies and fueling market growth for CDMOs. For instance, Alliance for Regenerative Medicine Foundation for Cell and Gene Medicine prioritizes activities for increasing public awareness through educational programs, underlining the clinical & societal benefits of regenerative medicine.
Increasing clinical trial activity along with new product launches generates growth opportunities for the market. As of 2022, there are 1451 ATMPs in preclinical stages and 535 are being studied in Phase 1 to 3 studies. Since August 2020, EMA has approved six of these additional ATMPs, and five more will be approved by 2023. In the UK, there were approximately 168 advanced therapy medicinal product trials underway in 2021, up from the 154 studies reported the year before, which is a 9% increase. 2021 saw a 32% increase in phase 1 trials, indicating a significant shift from experimental medicines to first-in-human studies.
On the other hand, key players are undertaking various strategic initiatives to introduce novel products, which is expected to propel market growth. For instance, in March 2021, CureVac N.V. signed a partnership agreement with Celonic Group, engaged in the manufacture of CVnCoV, CureVacs mRNA-based COVID-19 vaccine candidate. CureVac's COVID-19 vaccine candidate is manufactured at Celonic's commercial manufacturing unit for ATMPs and biologics in Heidelberg, Germany. Under the terms of the commercial supply agreement, the Celonic facility could produce over 100 million doses of CVnCoV.
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Advanced Therapy Medicinal Products CDMO Market Trends
Segments Insights:
Product Insights
The gene therapy segment held the largest share of over 49.11% in 2023. Increase in financial support and rise in number of clinical trials for gene therapies are driving demand for gene therapy segment. In 2020, in the first three quarters, gene therapies attracted financing of over USD 12 billion globally, with around 370 clinical trials underway. Additionally, in mid-2022, approximately 2,000 gene therapies were in development, targeting several therapeutic areas, such as neurological, cancer, cardiovascular, blood, and infectious diseases.
The cell therapy segment is expected to show lucrative growth over the forecast period. The field of cellular therapeutics is constantly advancing with inclusion of new cell types, which, in turn, provides ample opportunities for companies to enhance their market positions. Furthermore, the market is attracting new entrants due to high unmet demand for cell therapy manufacturing, the recent approval of advanced therapies, and proven effectiveness of these products.
Indication Insights
The oncology segment accounted for the largest revenue share in 2023. The segments dominance is attributed to disease burden, strategic initiatives undertaken by key players, and availability of advanced therapies used for treating various cancer indications. In January 2021, around 18,000 to 19,000 patients and 124,000 patients were estimated to be potential patients for treating cancer using cell & gene therapy products Kymriah (Novartis AG) and Yescarta (Gilead Sciences, Inc.), respectively. Furthermore, a publication on PubMed reports that as of the conclusion of the first quarter of 2023, there have been over 100 distinct gene, cell, and RNA therapies approved globally, along with an additional 3,700-plus in various stages of clinical and preclinical development.
The cardiology segment is estimated to register the fastest CAGR over the forecast period. This is attributed to the increasing prevalence of cardiovascular diseases and research collaboration for development of advanced therapies. For instance, in October 2023, Cleveland Clinic administered a novel gene therapy to the first patient globally as part of a clinical trial, aiming to deliver a functional gene to combat the primary cause of hypertrophic cardiomyopathy (HCM). Similarly, in February 2021, Trizell GmbH entered into partnership with Catalent, Inc. for development of phase 1 cell therapy to treat micro- and macroangiopathy. Trizell's medication is an Advanced Therapy Medicinal Product (ATMP) that employs regulatory macrophagesa platform technology developed in Germany.
Phase Insights
The phase I segment dominated the market in 2023 due to growing R&D activities and increasing number of human trials for advanced therapies. Phase 1 helps ensure the safety levels of a drug at different doses and dosage forms administered to a small number of patients. This phase is mainly conducted to determine the highest dose a patient can take without any adverse effects. Around 70% of drugs in phase 1 move to the next phase.
The phase II segment has been anticipated to show lucrative growth over the forecast period. Phase II clinical studies comprise the largest number of developing ATMPs, due to the high clearance rate of phase I clinical studies. According to data published by Alliance for Regenerative Medicine, as of June 2022, more than 2,093 clinical trials are ongoing globally, out of which 1,117 are under phase II clinical trials accounting for 53%. Thus, the increase in number of products in phase II is driving the segment.
Regional Insights
North America dominated the overall market share of 49.11% in 2023. This can be attributed to increasing outsourcing activities and rising awareness about advanced therapy. North America has consistently been a leader in R&D for advanced treatments, and it is anticipated that it will keep this position during the forecast period. Recent approvals of products such as Kymriah and Yescarta have propelled investments in the regional market. Moreover, in March 2021, the U.S. FDA approved Abecma, the first approval of CAR-T cells to fight against cancer. Similarly, in December 2023, Casgevy and Lyfgenia, the initial cell-based gene therapies for sickle cell disease (SCD) in patients aged 12 and above, received approval from the U.S. Food and Drug Administration, marking a significant milestone.
The U.S. accounted for the largest share of the global market in the North America region in 2023. The U.S. maintains dominance in this sector due to the presence of a robust and highly advanced biopharmaceutical industry with a considerable focus on research and development. Additionally, the continuous presence of numerous pharmaceutical and biotechnology companies, along with academic and research institutions, generates a sustained demand for rigorous safety testing, further reinforcing the country's leadership in the field.
The Asia Pacific region is expected to grow at the fastest CAGR over the forecast period due to the increasing demand for novel ATMPs and rising R&D activities to develop novel therapies. Moreover, the market growth is driven by continuously expanding CDMO Cell Therapy in the country, a number of domestic players have collaborated with biotech companies from other countries involved in mesenchymal stem cell research and therapy development. In addition, in September 2022 Takara Bio, Inc. launched CDMO Cell Therapy for gene therapy products using siTCR technology for its genetically modified T-cell therapy products.
China accounted for the largest share of the global market in the Asia Pacific region in 2023 due to its strategic focus on advancing research and development capabilities, particularly in the pharmaceutical and biotechnology sectors. Additionally, with a rapidly growing biopharmaceutical industry and supportive government initiatives, China has become a key market for advanced therapy medicinal products (CDMO) market.
Recent Developments
Key Companies & Market Share Insights
Some of the key players operating in the market include AGC Biologics,WuXi Advanced Therapies and Celonic
Minaris Regenerative Medicine and BlueReg are some of the emerging market players in the global market.
Key Advanced Therapy Medicinal Products CDMO Companies:
Segments Covered in the Report
This report forecasts revenue growth at country levels and provides an analysis of the latest industry trends in each of the sub-segments from 2021 to 2033. For this study, Nova one advisor, Inc. has segmented the Advanced Therapy Medicinal Products CDMO market.
By Product
By Phase
By Indication
By Region
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Advanced Therapy Medicinal Products CDMO Industry is Rising Rapidly - BioSpace