Gene Expression Analysis Market Professional Overview 2019-2023 With Major Vendors Size, Shares And Worldwide Demand

Gene Expression Analysis Research Report: Information by Product (Consumables & Instruments), Service (Gene Expression Profiling & Others), Application (Drug Discovery & Others), End User (Academic & Research Institutes & Others) - Forecast till 2023

Market Scenario:

Gene expression analysis is research dedicated towards functional genomics extending the application purview of studying genes and gene transcripts. Synthesizing functional gene products such as functional RNAs and protein species offers insights on how an intact organism survives when a particular gene goes missing. Growth in personalized medicine and technological developments are driving market growth. According to a data published by the Foley & Lardner LLP, Food and Drug Administration (FDA) approved 16 new personalized medicines in 2017. Moreover, the development of genomic databases and increased government funding towards genomics is fueling market growth.

However, the lack of skilled labor and the high cost of instruments may hamper market growth during the assessment period.

The Global Gene Expression Analysis Market Size is expected to grow significantly over the forecast period. It is estimated that the global gene expression analysis market is expected to hold a market value of USD 3.250 million and register a CAGR ~9.1% during the forecast period of 2018 to 2023.

Segmentation

The global gene expression analysis market has been segmented into product, services, application, end-user, and region.

The market, on the basis of product, has been segmented into consumables and instruments.

The market, based on consumables, has been further segmented into reagents and DNA chips.

The market, based on instruments, has been further segmented into polymerase chain reaction (PCR), next-generation sequencing (NGS), microarray, Sanger sequencing, and others.

The market, by services, has been segmented into gene expression profiling services, sequencing services, bioinformatics solutions, and others.

The market, by application, has been segmented into drug discovery, diagnosis, research, and others.

The market, by end-user, has been segmented into pharmaceutical & biotechnology companies, academic & research institutes, contract research organizations, and others.

The market has been segmented, by region, into the Americas, Europe, Asia-Pacific, and the Middle East & Africa. The gene expression analysis market in the Americas has further been segmented into North America and South America, with the North American market divided into the US and Canada.

The European gene expression analysis market has been segmented into Western Europe and Eastern Europe. Western Europe has further been classified as Germany, France, the UK, Italy, Spain, and the rest of Western Europe. 

The gene expression analysis market in Asia-Pacific has been segmented into Japan, China, India, South Korea, Australia, and the rest of Asia-Pacific. The gene expression analysis market in the Middle East & Africa has been segmented into the Middle East and Africa.

Key Players

Some of the key players in the global gene expression analysis market are GENERAL ELECTRIC COMPANY, Illumina, Inc., Thermo Fisher Scientific, Bio-Rad Laboratories, Inc., F. Hoffmann-La Roche Ltd, Pacific Biosciences of California, Inc., BGI, PerkinElmer Inc., Agilent Technologies, Inc., QIAGEN, Oxford Gene Technology, Eurofins Scientific, Danaher, Genotypic Technology Pvt Ltd, Macrogen Inc.

Regional Market Summary

Geographically, the Americas is anticipated to dominate the global gene expression analysis market owing to the increasing research activities and the rising popularity of gene expression tests. Additionally, the well-developed healthcare sector is anticipated to boost the American gene expression analysis market.

Asia-Pacific is anticipated to be the fastest growing region in the market due to the growing investment from governments in the field of genomics, and continuously developing economies. According to a report published by the International Journal of Social and Developmental Concerns in October 2017, in Malaysia, the growth of the public primary, as well as secondary care facilities, has decreased in the past few years, and it has not kept pace with the rapid urbanization. Thus, such factors restraint the growth of the market in this region. On the other hand, the Middle East & Africa has the least share of the market.

Europe is expected to hold the second largest position in the global gene expression analysis market. The market growth in this region is attributed to the availability of funds for research.

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Robot-Assisted Surgical Systems Market Overview By Trends, Industry Top Manufactures, Size, Industry Growth Analysis & Forecast Till 2023

Global Robot-Assisted Surgical Systems Market Research Report, by Product (Surgical Robot, Rehabilitation Robot, Non-Invasive Radiosurgery Robot), Application (Neurology, Orthopedic, Laparoscopy), End User (Healthcare Provider, Payer) –Forecast Till 2023

Market Insights:

The increasing need for automation in the healthcare industry and the shifting trend towards advanced robotic surgeries is anticipated to fuel the growth of the market. The high initial costs and adverse reports stand is expected to hamper the growth of the market.

Robot-assisted surgical systems industry will witness a widespread adoption since the introduction of the da Vinci surgical system by Intuitive Surgical Inc. After the system got FDA approval in 2000, da Vinci surgical system became the most widely-used surgical robot in the United States and Europe helping many cases to witness reduced length of hospital stays and lower rates of infection.

The Global Robot-Assisted Surgical Systems Market is projected to grow significantly over the forecast period. It is estimated that the global robot-assisted surgical systems market is expected to register a CAGR of ~10% during the forecast period of 2018–2023.

The global robot-assisted surgical systems market is conquered by several players. The key players are involved in new product launches, as well as strategic collaborations to brace their position in the market. For instance, in May 2015, Medtech expanded its presence in Asia with the sales of three ROSA Surgical Robots during April. This initiative is anticipated to open new avenues for the firm to cater to the untapped markets in this region.

Key Players

• Stryker Corporation (MAKO Surgical Corp.),
• Renishaw Plc,
• Varian,
• Accuray,
• Intuitive Surgical Inc,
• Health robotics S.R.L,
• Smith & Nephew Plc. (Blue Belt Technologies, Inc.),
• Auris Surgical Robotics, Inc. (Hansen Medical Inc.),
• KUKA AG,
• Mazor Robotics,
• Medtronic plc,
• THINK Surgical Inc.,
• Zimmer Biomet Holdings Inc.,
• Transenterix,
• Verb Surgical,
• Titan Medical,
• Microbot Medical,
• Medrobotics

Segmentation

The Global Robot-Assisted Surgical Systems Market is segmented on the basis of product, application, and end user.

Surgical robots are divided into orthopedic surgical robots, robotic neurosurgical systems, and laparoscopy robotic systems. Orthopedic Surgical Robots is divided into an iBlock surgical system, Robodoc surgical system, Navio PFS surgical system, MAKO RIO surgical system, and Stanmore Sculptor surgical system. Neurosurgical Robotic Systems is divided into Pathfinder surgical system, NeuroMate surgical system, and Renaissance surgical system. Laparoscopy Robotic Systems is divided into FreeHand endoscope holder system, Da Vinci robotic surgery system, Telelap ALF-X surgical system, and Steerable Robotic Catheters.

The robot-assisted surgical systems market by product is categorized into surgical robots, rehabilitation robots, non-invasive radiosurgery robots, hospital and pharmacy robots, and emergency response robotic systems.

Rehabilitation robots are categorized into assistive robots, prosthetics, orthotics, therapeutic robots, and robotic exoskeleton systems. Hospital and pharmacy robots are categorized into telemedicine robots, IV robots, pharmacy robots, and cart transportation robots.

Based on application, the robot-assisted surgical systems market is segmented into neurology, orthopedics robotic systems, laparoscopy, and special education.

On the basis of end user, the market is segmented into healthcare providers, healthcare payers, and others.

On the basis of region, the global robot-assisted surgical systems market is segmented into the Americas, Europe, Asia-Pacific, and the Middle East and Africa. The Americas is sub-segmented into North America and Latin America. The North American region is further segmented into the US and Canada. The European region is divided into two, namely, Western Europe and Eastern Europe. Western Europe is further classified into Germany, Italy, France, the UK, Spain, and the rest of Western Europe. The Asia-Pacific region is sub-segmented into Japan, China, India, Australia, South Korea, and the rest of Asia-Pacific. The robot-assisted surgical systems market in the Middle East and Africa has been segmented into the Middle East and Africa.

Regional Market Summary

It is projected that the Americas dominated the global robot-assisted surgical systems market owing to the growth of the market in the North American region. This is largely attributed to factors such as well-established healthcare infrastructure and the increase in adoption of robotic surgical systems across various healthcare settings will support market growth in this region. Europe is expected to hold the second largest share in the robot-assisted surgical systems market owing to the introduction of advanced robot-assisted laparoscopic procedures and quality of treatment of existing and new medical indications.

Asia-Pacific was projected to be the fastest growing region for the global robot-assisted surgical systems market. With the growth of the overall robotics market in the region headed by technology giants like Japan and China, the availability of medical robots has also increased. In 2017, a robot performed the world’s first automated dental implant in China. The Middle East and Africa holds the least share in the global robot-assisted surgical systems market due to the presence of economically diverse countries, and fewer initiatives taken by the government.

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Live Cell Encapsulation Market Worldwide Key Players Forecasts By Revenue, Growth Rate Till 2023

The Global Live Cell Encapsulation Market is expected to grow significantly over the forecast period. It is estimated that the global live cell encapsulation market is expected to register a CAGR ~ 3.22% during the forecast period of 2018 to 2023, with an estimated market value of USD 249.87 million in 2017.

The global market is driven by factors such as rising demand for clinical efficacy of cell encapsulation technologies and growing awareness related to the clinical role of encapsulated cells to treat different chronic diseases. Additionally, encapsulation provides the durability and stability of the nutrient during handling and storage. Thus, such benefits of this technique are luring the competitors to enter the market.

On the other hand, the lack of skilled technicians, ethical issues, and unaffordability of research organizations and small-scale companies in certain economies is restraining the growth of live cell encapsulation market. Moreover, the availability of high-quality raw material is also restraining the growth of the market. Nevertheless, changes in regulatory policies and rise in demand for effective therapies to treat complicated disorders is expected to reduce the impact of barriers over the forecast period.

Moreover, major companies in the market are involved in strategic collaborations to brace their position in the market. For instance, in August 2018, Balchem Italia S.r.l., a wholly owned subsidiary of Balchem Corporation, acquired Bioscreen Technologies, S.r.l., a privately held manufacturer of encapsulated and fermented feed nutrition ingredients. With this, the company aims to expand its position in the market.

Segmentation

The Global Live Cell Encapsulation Market has been segmented into manufacturing technique, polymer type, and application. The market, based on manufacturing technique, has been segmented into simple dripping, electrostatic dripping, coaxial airflow, rotating disk atomization, and others. The market, by polymer type, has been further segmented into alginate, HEMA-MMA, Chitosan, silica, cellulose sulfate, PAN-PVC, and others. The market, by application, has been segmented into drug delivery, regenerative medicine, cell transplantation, and others. The drug delivery segment is expected to hold a major share owing to the increasing use of live cell encapsulation techniques in drug delivery systems. The segment of regenerative medicine is expected to be the fastest growing segment due to the rising trend and benefits of encapsulation in the tissue engineering field.

The market has been segmented, by region, into the Americas, Europe, Asia-Pacific, and the Middle East & Africa. The live cell encapsulation market in the Americas has further been segmented into North America and Latin America, with the North American market divided into the US and Canada. The European live cell encapsulation market has been segmented into Western Europe and Eastern Europe. Western Europe has further been classified as Germany, France, the UK, Italy, Spain, and the rest of Western Europe. The live cell encapsulation market in Asia-Pacific has been segmented into Japan, China, India, South Korea, Australia, and the rest of Asia-Pacific. The live cell encapsulation market in the Middle East & Africa has been segmented into the Middle East and Africa.

Key Players

Balchem Corporation, Evonik Industries, Merck KGaA, BÜCHI Labortechnik AG, Lycored, Blacktrace Holdings Ltd., Living Cell Technologies, Reed Pacific Pty Limited, MiKroCaps, Biotime, Inc., Neurotech Holdings, LLC, Sernova Corporation, Encapsys, LLC, Sigilon Therapeutics, Inc., and Viacyte, Inc. are some of the key players in the global live cell encapsulation market.

Regional Market Summary

Geographically, the Americas is expected to dominate the global live cell encapsulation market due to the increasing per capita healthcare expenditure, and the heavy adoption of new technology.

Furthermore, rising expenses in research and development by healthcare bodies and the government is anticipated to drive the growth of the market in this region. Apart from this, increasing applications of regenerative medicine in the US is expecting to push the growth of live cell encapsulation market. For instance, According to the National Institutes of Health (NIH), approximately 5,00,000 Americans benefit from a transplant each year.

Europe showed a considerable amount of growth in the global live cell encapsulation market. The market growth in this region is because of the presence of a well-established healthcare system and increase in chronic diseases. For instance, according to cancer research UK, there were approximately 9, 921 cases of cancer diagnosed in 2015. Such high rates of cancer are likely to increase demand for the use of next-generation sequencing as well as increase the market demands for monoclonal bodies and cellular research. These factors are expected to have a positive impact on the live cell encapsulation market.

Asia-Pacific is expected to have a sturdy growth rate during the forecast period owing to the huge patient pool of chronic diseases and government initiatives of healthcare reforms. However, less capital investment is restricting the market growth of this region.

On the other hand, the Middle East & Africa has the least share of the market due to the low disposable income. Moreover, the limited adoption of advanced healthcare facilities and limited access to treatment facilities is also expected to drive the growth of the market in the near future.

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The Soft Tissue Repair Market Staggering Double Digit Cagr Driven By Advanced & Cost Effective Technologies Forecasts Till 2023

Market Insights:

The Global Soft Tissue Repair Market is expected to grow significantly over the forecast period. It is anticipated that the market held a valuation of USD 5200 million in 2017 and is projected to register a CAGR of 6.2% over the forecast period.

Various other factors such as increasing awareness about orthopedic disorders and other related conditions, improvement in reimbursement policies, untapped emerging markets, and increasing healthcare expenditure are also expected to propel the growth of the market.

The xenograft implant is designed for the surgical repair of damaged or ruptured membranes. The rising cases of sports-related injuries and technological advancements are some of the key factors driving the soft tissue repair market growth. For instance, in 2016, Colorado Therapeutics received FDA approval for its xenograft implant.

However, the high cost of advanced equipment and a shortage of physicians in emerging markets can hamper market growth over the forecast period.

Key Players

Some of the key players in the global soft tissue repair market are Stryker Corporation, C.R. Bard, Inc., Arthrex, Inc., Integra LifeScience Corporation, Depuy Synthes, Smith & Nephew plc, Allergan Plc., Athersys, Inc., CryoLife, Inc., Medtronic Plc., Organogenesis Inc., Zimmer Biomet Holdings, Inc., Lifenet Health, Inc., American Medical Systems Inc., U.S. Stem Cell, Inc., Wright Medical Group, Inc., Isto Biologics, and others.

Segmentation

The global soft tissue repair market is segmented based on product, application, end user, and region.

the global market for soft tissue repair, by product, is segmented into fixation products, tissue patch/match, laparoscopic instrument, and others. The fixation products segment is further classified as a suture, suture anchors, and interference screw. The tissue patch/match segment is further classified as biological, and synthetic. The biological segment includes allograft and xenograft.

Based on application, the market is segmented into orthopedic surgery, skin repair, hernia repair, vaginal sling repair, dental reconstruction, cardiovascular surgery, breast reconstruction, and others.

Based on end user, the market is segmented into hospitals, clinics, research & academic institutes, and others.

In the current scope of the study, the segments mentioned above are covered into the four global regions, namely, the Americas, Europe, Asia-Pacific, and the Middle East and African region.

The soft tissue repair market in the Americas has further been segmented into North America and South America, with the North American market divided into the US and Canada.

The European soft tissue repair market has been segmented into Western Europe and Eastern Europe. Western Europe has been classified as Germany, France, the UK, Italy, Spain, and the rest of Western Europe.  The soft tissue repair market in Asia-Pacific has been segmented into Japan, China, India, South Korea, Australia, and the rest of Asia-Pacific. The soft tissue repair market in the Middle East & Africa has been segmented into the Middle East and Africa.

Regional Market Summary

The Americas dominated the global market for soft tissue repair owing to the increasing healthcare expenditure presence of major market players and rising geriatric population within the region. As per the data suggested by the United Census Bureau, by 2060, the US is projected to grow by 79 million people, from about 326 million today to 404 million. The population is projected to cross the 400-million threshold in 2058.

In 2017, it was estimated that Europe stood second in the global soft tissue repair market. Robust research and development (R&D) sector along with the availability of funding opportunities in research and innovation will support the market growth.

Asia-Pacific (APAC) is expected to represent the phenomenal market growth throughout the forecast period due to increasing demand for medical technology, growing health awareness, and growing aging population coupled with the rising prevalence of orthopedic diseases in India, Japan, and Australia. For instance, according to the United Nations Economic and Social Commission for Asia and the Pacific (ESCAP), in 2016, around 12.4% of the population in the region was 60 years or older and is projected to reach to more than 1.3 billion by 2050.

On the other hand, the Middle East and Africa held the least share in the global soft tissue repair market due to the low economic development, especially within the African region.

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4D Printing in Healthcare Industry Growth, Trends And Forecast Till 2025 By Marketresearchfuture.Com

Market Overview

Global 4D Printing in Healthcare Market is expected to register a CAGR of 29.4% during the forecast period from 2019 to 2025 and expected to reach USD 30.4 Million by 2025.

In the past decade, there has been increasing use of 3D printing in the field of healthcare. The introduction of 4D printing and its shape-changing material property in the field of dentistry, implants, and prosthetics, among others will further enhance the 3D products used for these applications. The shape-changing property of the material used for 4D printing has been one of the major factors influencing the growth of the market.

Moreover, factors such as increasing research and development, rising investment by chemical companies. These chemical companies are keen on grabbing the opportunity for the development of smart materials in 4D printing, which in turn is directly enhancing the growth of the 4D Printing in Healthcare market size.

Factors such as stringent regulatory policies for the approval of 4D printing medical devices market trends and limited skilled professionals have been major challenges for 4D printing in the healthcare market.  

Market Drivers

• Increasing application of 4D printing in healthcare verticals such as dentistry, implants, and prosthetics.
• The dental industry is one of the major applications of 4D printing. Clear aligners have been the most manufactured products via 3D printing in the dental industry.
• Align technology, the leader in global clear aligners market, accounts for about 80% of the market. The company uses 3D Systems to produce over 1.6 million custom aligners per week.
• Clear aligners can further be enhanced using 4D printing, as these products require shape altering properties according to the changing structure of the teeth on a weekly basis.
• 4D printers are also used to manufacture various dental implants, including dental implants, dentures, crowns, & bridges, among others.
• Increasing prevalence of dental diseases is further influencing the growth of the market. According to the MRFR research study in 2018, it was estimated that oral diseases affected more than 3.7 billion individuals that are around half of the world’s population.

• Rising research and development
• A research team from the US in March 2019, invented a new bio-ink that allows to print catalytically active live cells into several self-sustaining 3D geometries. These properties include tunable cell densities, fine filament thickness, and high catalytic productivity.

• Growing investment by chemical companies
• Various companies such as BASF Venture Capital GmbH and Evonik Venture Capital have invested in Chinese 3D printing companies

Market Challenges

• Stringent regulatory policies for the approval of 4D printing medical devices
• Limited skilled professionals

Segmentation

By Component

• Software & Services: Software and services accounted for the major market share in 2018. 3D printers have already been installed in numerous healthcare facilities across the globe. However, these machines would require updated software and also various services for the manufacturing of 4D products.

• Smart Material: Smart Material segment is expected to grow at the fastest growth rate due to continuous advancements for the materials in 4D printing. Investment by chemical companies for the development of smart material is further influencing the market growth.

By Technology

• Fused Deposition Modeling: Accounted for the largest market share due to its wide choice of raw materials and cost-effective process

• Direct Inkjet Cure: Expected to grow at the fastest growth rate majorly due to its dimensional accuracy, multi-material, and full-color printing properties

By Application

• Dental: accounted for the largest market share owing to the use of 4D printing for manufacturing of wide dental products including clear aligners, implants, and dentures among others

• Prosthetics: Expected to grow at the fastest growth rate due to increasing number of prosthetic procedures, accidental injuries, and sports injuries among others

By End-User

• Hospitals & Surgical Centers: Accounted for the leading market share owing to the increasing number of hospital & surgical centers. According to a study published by the American Hospital Association, there were 5,534 registered hospitals in the US in 2017.

• Dental Clinics & Laboratories (Offices): Use of 4D printing in dental clinics & laboratories, brings less complexity to existing procedures. Dental laboratories use 4D printing technologies that allow them to increase competitiveness and production, thus driving the growth of this segment.

By Region

• Americas: The Americas spearheaded the market in 2018 and is likely to continue to command during the assessment period. This is attributed to the existence of a large number of medical device companies, increasing research and development, and the presence of a large number of noticeable players engaged in manufacturing of 4D printing devices and software

• Europe: Reported for the second-largest share owing to increasing utilization of 3D & 4D printing in the field of healthcare. According to a study conducted in 2018, it was found that 65% of healthcare providers are implementing new printing technologies for medical products using custom made materials

• Asia-Pacific: The highest growth rate is attributed to the growing investment by government bodies and private & public companies. For instance, in November 2018, BASF Venture Capital GmbH invested in Chinese 3D printing company Prismlab.

Key Development

• In January 2019, Dentsply Sirona and Carbon announced a strategic collaboration to revolutionize digital denture materials. This strategic collaboration was announced to deliver denture materials for carbon digital 3D printing production solutions.

Key Players

• Stratasys Ltd (US)
• 3D Systems, Inc (US)
• EnvisionTEC (Germany)
• Poietis
• (France) 
• Organovo Holdings Inc. (US)
• Materialise NV (Belgium)
• Dassault Systèmes (France)  

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Meningococcal Vaccines Market Up To 2025: Top Companies, Growth Factors Details And Regional Overview By Types & Application

Global Meningococcal Vaccines Market Trends, Overview by Treatment (Meningococcal Conjugate Vaccine, Polysaccharide & Subcapsular Vaccine) and End User (Hospitals & Clinics, Research Laboratories and Academic Institutes) - Forecast till 2025

Market Forecast

Meningococcal Vaccines Market size has a demand for USD 172 Million doses in 2019. Further, the global estimated supply in 2019 is expected to be 203 Million doses.

Market Synopsis

Meningococcal meningitis is a bacterial infection caused by Neisseria meningitides. Disease incidence is high in West and Central Africa, where historically, serogroup A has been the most important cause of disease. More recently, meningitis outbreaks have gradually been associated with serogroup C, and to a lesser extent, serogroup W.

The meningococcal vaccines market is complex and diverse, with regional variations in serogroup distribution with substantial use outside routine immunization. The vaccine has approximately 29 marketed products targeting various combinations of the six serogroups (A, B, C, W, X, Y).

Market Influencer

Without an increase in production, the existing supply of conjugate MenACWY will be inadequate to meet the demand generated by the rising incidence of serogroups C and W, and the low availability of polysaccharide vaccines. Further, several multivalent, conjugate vaccines by Chinese and Indian manufacturers are in the pipeline, and, if prequalified they will be registered for use in many geographies. Moreover, if they are made available at acceptable prices it could increase global demand in Meningococcal Vaccines Market Trends.

Market Drivers

• Rise in prevalence of the meningococcal disease
• According to a document published by the U.S. Department of Health & Human Services, in 2017, there were approximately 350 cases of meningococcal disease reported. The disease has an incidence rate of 0.11 cases per 100,000 people in the United States. Any population group can be affected by the disease, with maximum prevalence in children younger than one-year-old and a second peak in adolescence. Adolescents and young adults, ranging from 16 to 23 years old, have the highest rates of meningococcal disease.
• Further, increasing incidence of meningococcal disease in West and Central Africa regions is expected to drive the demand in the African region
• Booming mortality of the meningococcal disease is leading to increasing demand for the vaccines
• Approximately 10 to 15 in 100 people affected with meningococcal disease will face mortality. Further, up to 1 in 5 survivors will have long-term disabilities, such as loss of limb, deafness, and damage to the nervous system brain among others
• Escalating positive results with the vaccines to boost the demand in the market
• Growing research and development activities by prominent players in the industry

Market Restraints

• Withdrawn production of polysaccharide vaccines has resulted in reduced country access, particularly for MICs in various regions. For example, Sanofi Pasteur, manufacturer of Menomune, declared in 2017 that the company is discontinuing the production of the vaccine. With the production of Menomune at hold, there were no polysaccharide vaccines approved for use in the United States

Meningococcal Vaccines Market Segmentation

By treatment, the market is segmented into Meningococcal Conjugate Vaccine, Polysaccharide, Subcapsular Vaccine.

Meningococcal A conjugate vaccine is significantly used in mass campaigns across affected regions like Africa. Since 2010, the vaccine has significantly decreased meningococcal disease incidence in the region. However, the demand for meningococcal A conjugate in the country remains uncertain given that national immunization program adoptions are based on the timing of Gavi funding decisions, the country’s readiness, and competing for vaccine introduction priorities.

In the polysaccharide segment, products such as MenACWY vaccines are in high demand. MenACWY vaccine is the most desirable combination, given its broader serotype coverage. MenACWY specifically has nine products that are available across polysaccharide and conjugate product segments, but conjugate products are suggested for use in routine immunization activities.

Moreover, the demand and supply of Subcap MenB vaccines is restricted to HICs and influenced by their acceptance into NIPs. Improved uptake of MenB vaccines is expected in the coming years but will likely be moderate and limited to high-income markets given the high price and competing interest of introducing MenACWY conjugate.

By end-user, the market is segmented into Hospital & Clinical, Research Laboratories, and Academic Institutes

Hospitals and clinics control the global market for meningococcal vaccines. The high growth of hospitals and clinics segment is attributed to the increasing application of vaccines in these healthcare facilities in conjunction with the growing prevalence and incidence of the meningococcal disease.

Moreover, research laboratories and academic institutes take up the second-largest share due to the boost in research and development in the market.

By region, the market is segmented into the Americas, Europe, Asia-Pacific, and the Middle East & Africa.

In the global market, China is expected to have the largest market share, which accounts for approximately 35% of the global demand. This is primarily due to polysaccharide products, which currently comprise 84% of China’s demand. Chinese suppliers presently focus only on meeting the demand of the domestic market, but some of the manufacturers have indicated interest in the global market as well. The dynamic product pipeline with several multivalent conjugate products in development may trigger changes in the future supply mix of the Chinese market. Moreover, in China, non-routine use (excluding campaigns) accounts for an estimated 9 million doses in 2019, which may help to sustain the huge market share in the forecast period.

UNICEF foresees all 26 African countries in the meningitis belt, which have completed mass campaigns in 2016. In 2015, seven countries in the region were introduced with meningococcal A conjugate vaccine through their mass campaigns and targeted a population of 233 million. Further, during 2016-2018, UNICEF introduced meningococcal A conjugate vaccine in 26 countries. Ghana was the first country to be introduced with the vaccine into its RI schedule in 2016. Also, four other countries including Mali, Niger, Nigeria, and Sudan introduced the vaccine into RI programs in 2016.

Key Developments in the Global Meningococcal Vaccines Market

• In 2018, Pfizer granted FDA Breakthrough Therapy designation for Trumenba (Meningococcal Group B Vaccine). This vaccine plays a major role in the prevention of invasive meningococcal B disease in children aged 1 to 9 years

• In 2018, GSK’s meningitis B vaccine Bexsero received Breakthrough Therapy designation from the US FDA for prevention of Invasive Meningococcal Disease for children 2-10 years of age

• In 2015, Novartis Bexsero vaccine was approved by the FDA for the prevention of meningitis B. This vaccine is used as active immunization to prevent invasive meningococcal disease caused by serogroup B

Key Players

• Baxter international
• Pfizer Inc.
• Sanofi S.A.
• Novartis Pharmaceuticals Inc.
• JN-International Medical Corporation
• Serum Institute of India Ltd.
• GlaxoSmithKline
• BIO-MED
• Others

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Global Cell Counting Market Positive Growth And Forecasts By 2025

According to MRFR analysis, Cell Counting Market Size is expected to register a CAGR of 5.8% during the forecast period of 2019 to 2025 and was valued at USD 8.47 Billion in 2018.

Cell counting is important for research and serves as one of the major steps in the majority of experiments. It is effectively utilized for maintaining cell cultures. Moreover, another important application of cell counting can be seen in the diagnosis of chronic diseases like cancer. For instance, an increase in the number of white blood cells (WBC) may indicate the possibility of cancerous growth in the body. Thus, cell counting is important for microbiology, hematology and other medical specialties.

The growth of the global cell counting market is determined by numerous factors such as increasing R&D expenditure, rising prevalence of cancer, and product launches. However, the high cost of devices and product recalls are projected to restrain the growth of the market during the forecast period.

The Global Cell Counting Market is currently dominated by several market players. The key players are involved in product launches, expansion, and strategic collaborations to strengthen their market positions. Recently in April 2019, the Nexcelom Bioscience LLC launched Cellaca MX automated cell counter.

Regional Analysis

The market has been divided, by region, into the Americas, Europe, Asia-Pacific, and the Middle East & Africa.

The Americas is anticipated to hold the largest market share owing to the increase in the incidence of cancer and the presence of well-established pharmaceutical and biotechnology industry. The cell counting market in the Americas has further been branched into North America and Latin America, with the North American market divided into the US and Canada.

The European cell counting market has been categorized as Western Europe and Eastern Europe. The Western European market has further been classified as Germany, France, the UK, Italy, Spain, and the rest of Western Europe. The cell counting market in Asia-Pacific has been segmented into Japan, China, India, South Korea, Australia, and the rest of Asia-Pacific. Due to the presence of a large patient pool and expansion of healthcare facilities, the market in Asia-Pacific is expected to be the fastest-growing. The cell counting market in the Middle East & Africa has been divided into the Middle East and Africa.

Segmentation

The Global Cell Counting Market has been segmented based on product, application, and end-user.

The market, based on type, has been divided into consumables and instruments. The consumable segment is likely to hold maximum market share in the global cell counting market. This due to the repeated purchase of the consumable compared with instrument products.

The global cell counting market based on application has been segregated into research application, clinical & diagnostic application, and others. The research application segment is anticipated to hold the largest share in the market due to the rising funding for stem cell research.

The end-user segments of the market are pharmaceutical and biotechnology companies, hospitals, research institutes, and others. The pharmaceutical and biotechnology companies’ segment is expected to hold the largest share of the market, as these are used cell counting products in research and development of new drugs and therapies.

Key Players

Some of the Key Players in the Global Cell Counting Market are Thermo Fisher Scientific (US), Merck KGaA (Germany), Danaher Corporation (US), Bio-Rad Laboratories, Inc. (US), Logos Biosystems, Inc. (South Korea), Olympus Corporation (Japan), Agilent Technologies, Inc. (US), PerkinElmer, Inc. (US), Sysmex Corporation (Japan), Abbott Laboratories (US), and others.

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