Thursday, 31 December 2020

Global Healthcare Personal Protection Equipment Market Trend, Industry Overview, Competitive Analysis And Foreseen By 2027

 Global Healthcare Personal Protection Equipment Market is expected to cross USD 10.116 Billion by 2027 at a CAGR of 9.17%.  

Market Synopsis

Personal Protective Equipment (PPEs) are protective gear designed to safeguard the health of workers by minimizing the exposure to a biological agent. It is one of the necessary tools in preventing transmission of infectious diseases not only in treatment centers but also in various activities, e.g. cleaning, waste management and safe burials, and community care related to the outbreak. Components of PPE are goggles, face-shield, mask, gloves, coverall/gowns (with or without aprons), head cover, shoe cover, and others.

Impact of Covid-19 Outbreak on Healthcare Personal Protection Equipment Market

Healthcare Personal Protection Equipment (PPE) are protective gears that are designed to safeguard the workers by minimizing the exposure to a biological agent. PPE helps healthcare workers to fight against novel coronavirus (COVID-19). The World Health Organization (WHO) has recommended several governments worldwide to increase the production of masks, gloves, respirators, and coveralls/gowns. It also recommended that PPE manufacturers must increase their production by 40% and prioritizing their orders to countries with a high demand-supply gap.   

Several countries, including India, have considered importing PPE kits to meet its requirements from China, Singapore, and South Korea. Although a tender was rolled out last week by the government’s nodal procurement agency HLL Lifecare, the government has chosen not to wait for the bids to be released, rather than source it from other countries. As of the 3rd week of April, the coronavirus (COVID-19) pandemic crossed two million cases globally. The increasing demand for hand protection, respiratory protection, and protective clothing in the healthcare industry to ensure people’s safety during the ongoing COVID-19 pandemic is expected to boost the demand for PPE.  Furthermore, the increasing government initiatives to facilitate the import of PPE is expected to drive the market growth. For instance, in March 2020, in response to the COVID-19 outbreak, the Food and Drug Administration (FDA) initiated numerous steps to improve the US stocks of PPE. A few of its measures include adjustments in import screening, flexibility to manufacturers, and creation of special mailbox service, among other provisions.

We have observed the massive impact of novel coronavirus on people’s lives over the last five months. It has also impacted various industries across the globe, eventually affecting the global economy. Some industries have experienced negative growth, whereas some industries have experienced tremendous demand and have generated massive revenues in this period. Covid 19 Impact on Healthcare Personal Protection Equipment market is the one of the positive impact sector on global industry

Healthcare Personal Protection Equipment Market Influencer

PPE helps healthcare workers to fight against novel coronavirus (COVID-19). The World Health Organization (WHO) has recommended the governments across the world to increase the production of masks, gloves, respirators, and coveralls/gowns. It also recommended that PPE manufacturers must increase their production by 40% and prioritizing their orders to the countries with a high demand-supply gap.

Market Drivers

  • As of the 3rd week of April, coronavirus (COVID-19) pandemic crossed 2 million cases globally. The increasing demand for hand protection, respiratory protection, and protective clothing in the healthcare industry to ensure the people’s safety during the ongoing COVID-19 pandemic is expected to boost the demand for Personal Protective Equipment (PPE).
  • Rapid technological advancements in the field of surgery such as High-Reliability Organizing (HRO), technical advancements, and standardizing procedures are expected to have a positive impact on the hospital sector, thereby impacting the demand for personal protective equipment positively.
  • Increasing government initiatives to facilitate the import of personal protective equipment is expected to drive the market growth. For instance, in March 2020, in response to the COVID-19 outbreak, the Food and Drug Administration (FDA) initiated numerous steps to improve US stocks of personal protective equipment. The measures include adjustments in import screening, flexibility to manufacturers, and creation of special mailbox service, among other provisions.
  • The emergence of local PPE manufacturers, increasing end user demand, and the rising production of cost-effective and integrated PPE is expected to boost the market growth. For instance, in India, the Union Textiles Ministry and the Health Ministry has said the government is augmenting the supplies of personal protective equipment (PPEs), including body coveralls, N-95 masks and 2-ply/3-ply surgical masks required for healthcare professionals dealing with COVID-19 cases. Furthermore, more than 130 Australian companies have responded to an urgent call to dramatically boost the manufacturing of face masks, gowns, and gloves to deal with the COVID-19 crisis.

Market Restraints

  • The current global stockpile of PPE is inadequate to handle the existing and expected cases in different parts of the world, particularly for medical masks and respirators. The supply of gowns and goggles is also expected to be insufficient as the disease is spread. Surging global demand is not only driven by the increasing number of COVID-19 cases but also by misinformation, hoarding, and panic buying. The lockdown in a significant portion of the world is hampering the manufacturing of PPE.
  • The high cost of raw materials (specialized clothing and other related products) is hindering the demand for PPEs in economically weak countries.

Healthcare Personal Protection Equipment Market Segmentation

By Product

  • Protective Clothing: The protective clothing is further segmented into coveralls, gowns, and others. Coverall/gowns are designed to protect the torso of healthcare providers from exposure to the virus.
  • Respiratory Protection: Respiratory protection is bifurcated into surgical masks, respirator masks, and others. The healthcare professionals are recommended to use surgical N95 respirators or medical respirators to protect them from the direct exposure to the COVID-19 virus.
  • Head, Eye, and Face Protection: The largest segment. To prevent exposure of the eye and face from the virus, goggles or a face shield should be considered. High risk of COVID-19 and other infections through nose, eyes, and ears is among the primary reason driving the growth for this segment. The goggles must fit the contours of the user’s face and are compatible with the respirator. The use of face shields/ goggles is an integral part of standard and contact precautions for the people most at risk of COVID-19 infection.
  • Protective Footwear: The use of protective footwear such as washable and disposable footwear is essential to avoid self-contamination.
  • Hand protection: Hand protection is further sub-segmented into general-purpose, chemical handling, sterile gloves, and surgical. The rising awareness about hygiene and prevention from the transmission of pathogens in healthcare facilities is increasing the demand for medical gloves.
  • Others

By End Use

  • Hospitals & Clinics: The largest segment and expected to grow at the highest CAGR during the forecast period. The rising awareness regarding the hand protection during a viral outbreak is increasing the demand for PPEs in hospitals.
  • Ambulatory Surgical Centers: The increasing number of patients visiting surgical centers is facilitating the demand for PPEs in ambulatory surgical centers.
  • Academic and Research Institutes: PPEs are very effective in minimizing occupational injuries, accidents, and other hazards which otherwise result in substantial manpower and financial losses. The use of basic PPE is a must in research institutes as they protect from skin contact and contamination.
  • Diagnostic Laboratories: The use of protective equipment is necessary for diagnostic laboratories to protect healthcare workers from specific hazards and hazardous materials.
  • Others

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By Region

  • Americas: The largest regional market. The increasing government initiatives and rising concerns in terms of health and safety of healthcare professionals is boosting the demand for the same. Moreover, the rising prevalence of COVID-19 infection is majorly contributing to the growth of this region.
  • Europe: The healthcare market in Northern European economies, such as Germany, U.K., and Sweden, is expected to exhibit an increase in healthcare expenditure, thereby leading to the growth in production as well as the consumption of medical devices and products.
  • Asia-Pacific: The fastest-growing regional market. Emerging market players in the region, technological advancements, rising focus of government towards healthcare facilities, and high target population in the region are among the key factors driving the market growth in the region.   
  • Middle East & Africa: The high penetration of personal protective equipment in developed healthcare industries of UAE, South Africa is expected to drive the growth of the market in this region.

Particle Counter Market 2025 Forecasts By Global Industry Analysis In 2020 Report

 Market Highlights

According to MRFR analysis, the global particle counter market is expected to register a CAGR of ~7.1% during the forecast period of 2019 to 2025 and was valued at USD 89.23 million in 2018.

A particle counter is a tool for monitoring indoor air quality to understand the concentration of particles in the air in cleanrooms and workplaces. This device would not identify specifically what kinds of dust particulates are present in the air, but it will identify how many airborne particles of a certain size are present in the environment.

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The growth of the global particle counter market is determined by numerous factors such as increasing incidence of chronic disorders, stringent regulatory scenario, and the adoption of particle counters to maintain air quality. However, the high cost of particle counters and technical limitations of particle counters is projected to restrain the growth of the market during the forecast period.

The global particle counter market is currently dominated by several market players. The key players are involved in expansion, acquisition, and strategic collaborations to strengthen their market positions.

Regional Analysis

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

The market in the Americas region is anticipated to hold the largest market share owing to the high health care spending, well-developed technology, and growing geriatric population. Additionally, stringent protocol and guidelines by the FDA for the maintenance of the cleanroom environment are driving the market growth. The particle counter 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 particle counter market has been categorized into 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 Particle counter 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 huge patient population, rapid development in technology and the expansion of healthcare facilities, the market in Asia-Pacific is expected to be the fastest-growing during the forecast period. The particle counter market in the Middle East & Africa has been divided into the Middle East and Africa.

Segmentation

The global particle counter market has been segmented based on product type, modularity, technology, and end-user.

The market, based on product type, has been divided into airborne particle counters and liquid particle counters. The airborne particle counters are likely to hold maximum market share in the global particle counter market due to the increasing use of these particle counters for cleanroom monitoring and the growing stringency of air pollution monitoring.

The global particle counter market based on technology has been segregated into online particle counters and offline particle counters. The online particle counters segment is anticipated to hold the largest share in the market due to its ability to monitoring solutions in hydraulic and lubricating systems.

The global particle counter market based on modularity has been segregated into portable particle counters, remote particle counters, and handheld particle counters. The portable particle counters segment is anticipated to hold the largest share as they are easy to carry and are designed to save time and money.

The end-user segments of the market are the medical device industry, the pharmaceutical industry, research laboratories, and others. The medical device industry segment is expected to hold the largest share of the market, due to increased R&D expenditure and the establishment of new manufacturing facilities by global pharmaceutical giants in newer geographies.

Key Players

Some of the key players in the global particle counter market are Particle Measuring Systems, Inc. (A Spectris Company), Beckman Coulter (A Danaher Corporation Company), Rion Co., Ltd., Lighthouse Worldwide Solutions, Inc., TSI Incorporated, Climate Instruments Company, Setra Systems, Met One Instruments, Inc., and Chemtrac, Inc.

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Global Whole Exome Sequencing Market Solid Segment Analyzed By Latest Trends, Growth Rate And 2025 Insight

 Market Highlights

Global Whole Exome Sequencing Market is estimated to be valued at USD 2,696.03 Million by 2025 and is expected to register a CAGR of 19.80% during the forecast period.

Whole exome sequencing is a widely used next-generation sequencing (NGS) method to determine the nucleotide sequence primarily of the protein-coding regions of an individuals related sequences, representing approximately 1% of the complete DNA sequence. The human exome represents less than 2% of the genome but contains ~85% of known disease-related variants, which makes it major usage in the identification and the determination of genetic variants causing various diseases such as Miller syndrome and Alzheimer’s.

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Segment Analysis

The global whole exome sequencing market has been segmented on the basis of product, technology, application, and end user. The market, based on product, has been segmented into kits, sequencer, and services. Kits are further segmented into DNA Fragmentation, End Repair, A-Tailing, And Size Selection Kits, Library Preparation, and Target Enrichment. Services are further sub-segmented into Sequencing Services, Data Analysis (Bioinformatics), and Others. The global whole exome sequencing market, by technology, has been categorized as Sequencing by Synthesis (SBS), ION Semiconductor Sequencing, and others. The market by application is segmented into diagnostics, drug discovery and development, agriculture and animal research, others. Based on end user, the market is segmented into research centers and government institutes, hospitals and diagnostics centers, pharmaceutical & biotechnology companies, and others.

Regional Analysis

The Americas was the largest market for whole exome sequencing in 2019. The growth of the Americas market is due to the high prevalence rate of cancer and other chronic disorders and rising healthcare expenditure. Additionally, favorable initiatives by the government and other organizations for the development and adoption of whole-exome sequencing technologies are driving the market for whole-exome sequencing.  For instance, in 2018, All of Us Research Program, a part of the National Institutes of Health, awarded funds over USD 28.6 million to establish three genome centers in the US. These centers aim to produce genome data for researchers and the program’s precision medicine research platform, a national resource to support studies on a variety of important health questions.

Europe is the second-largest market for whole exome sequencing with Western Europe, holding the largest market share. The European market is expected to register a sturdy growth rate during the forecast period due to rising cases of cancer and increasing programs for the adoption of genome sequencing. According to the International Agency for Research on Cancer, in 2018, there were 4,229,662 cases of cancer in Europe. This increasing number of cases of cancer and rising genome mapping programs are expected to have a positive impact on the growth of the whole exome sequencing market.

Asia-Pacific is expected to represent the highest market growth potential over the forecast period due to the growing patient pool and increasing technological advancements. The fast growth of the Asia-Pacific region is due to the increasing per capita income along with government initiatives to enhance the quality of healthcare and rising diabetes being the major concern in this region. China, India, and Australia have a lucrative market for whole exome sequencing due to the growing older population. Moreover, according to the report published by the United Nations in 2015, the number of older people aged 60 years or above in the world is predicted to grow by 56% between 2015 and 2030. 66% of the older population out of the total global population would also reside in the Asia-Pacific region.

In the Middle East & Africa, the whole exome sequencing market is driven by increasing obesity issues, rising initiatives by governments to improve patient care, and favorable reimbursement policies.

Key Players

Market Research Future (MRFR) Illumina Inc.  (US), BGI (China), Eurofins Scientific (Belgium), Thermo Fisher Scientific (US), Agilent Technologies, Inc. (US), F. Hoffmann-La Roche Ltd (Switzerland), GENEWIZ (US), Ambry Genetics (US ), Macrogen, Inc. (South Korea), Integragen SA (France),  as the Key Players in the Global Whole Exome Sequencing Market.

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Global Digital 3D Printing Market Solid Segment Analyzed By Latest Trends, Growth Rate And 2025 Insight

 Digital 3D Printing Market size is expected to register a CAGR of 20.54% to reach USD 5,214.8 Million by 2025. 3D Printing is a process in which physical objects are created by depositing materials in layers based on a digital model. The creation of a 3D printed object is achieved using additive processes. In an additive process, an object is created by laying down successive layers of materials until the object is created. 3D Printing enables to produce complex shapes using less material than traditional manufacturing methods. Each 3D Printing process requires software, hardware, and materials to work together.

Market Dynamics

Increasing applications of Digital 3D Printing in healthcare industry is expected to boost market growth. 3D Printing techniques have empowered medical practitioners, manufacturers of medical devices, as well as researchers due to their use in dental & orthodontic treatments, orthopedic implants, tissue engineering, and drug development. As a result, the increasing benefits of the mentioned applications would boost digital 3d printing market growth. 3D Printing technique is useful to speed up procedures and helps to minimize the trauma faced by patients due to conventional treatment options. Technological advancements in digital 3D Printing, rising public-private funding for 3D Printing activities are the major drivers that contribute to the growth of the digital 3D Printing market.

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Segmentation

Global Digital 3D Printing Market analysis is segmented based on Component, Material, Technology, Application and End User.

The market, based on component, has been categorized as system/device and software/services. System/Device held 867.53 market value in 2018

Global digital 3D Printing market, based on material, has been segregated into polymers, metal & alloy, ceramics, and others.

Global digital 3D Printing market trends based on technology, has been segregated into stereolithography, deposition modeling, laser sintering, jetting technology, electron beam melting, and others.

Global digital 3D Printing market based on application has been categorized into dental, prosthetics, orthopedics, medical components, tissue engineering, hearing aids, drug screening, and others.

Global digital 3D Printing market, based on end user, has been segregated into hospitals & surgical centers, dental clinics & laboratories (offices), pharmaceutical & biotechnology companies, and others.

Regional Analysis

Global Digital 3D Printing Market, based on region, has been divided into the Americas, Europe, Asia-Pacific, and the Middle East & Africa.

The Americas led the market and accounted for the largest share in 2018, owing to the existence of medical device companies and the rising prevalence of diseases along with increased adoption of treatment by patients. In North America, the US held the largest of the market share in 2018 owing to the presence of major market players, developed healthcare infrastructure, high awareness, and availability of advanced treatment options. For instance, in November 2015, a group of medical researchers from North Carolina’s Wake Forest University developed a method to print the 3D form of custom medications in the configuration of pills. As a result, increasing applications of 3D Printing is expected to drive the market growth.

Europe accounts for the second-largest share in the global digital 3D Printing market owing to the presence of favorable government initiatives & laws and target population base, rising prevalence of lifestyle-associated conditions, and the presence of developed economies such as Germany, the UK, and France. Since the ban on animal testing for cosmetics in 2013, the wellness industry had been a significant supporter of 3D Printing in Europe.

Asia-Pacific is estimated to be the fastest-growing market during the forecast period due to the increasing per capita health spending, growing older population base, rising incidence of accidents, and developing the healthcare sector in China, Japan, India, and Australia.

The Middle East & Africa digital 3D Printing market is segmented into two major regions, namely the Middle East and Africa. In this region, the Middle East is anticipated to dominate owing to the presence of countries such as Egypt, Saudi Arabia, and others. The Middle East and Africa has less economic developments and extremely low-income due to which the region accounts for the least market share but is expected to grow with the increasing cases of chronic diseases and demand for better treatments in countries.

Key Players

The Prominent Players in the Global Digital 3D Printing Market are Stratasys Ltd (US), 3D Systems, Inc. (US), Carbon, Inc. (US), EnvisionTEC (US), Formlabs (US), ExOne (US), Materialise (Europe), General Electric (US), Micron Dental (US), Renishaw PLC (UK).

Some of the key strategies followed by players operating in the Global Digital 3D Printing Market were acquisitions, expansions, product launches, partnerships, mergers, collaborations, alliances, and product approvals.

  • In June 2019, Materialise received the FDA clearance for the cardiovascular planning software suite. Thus, the suite has helped clinicians to produce patient-specific 3D models for more than 20 years.
  • In November 2019, ExOne introduced the X1 160PRO metal 3D printer for high-volume production of quality parts.
  • In February 2019, EnvisionTEC and AvaDent digital dental solutions announced a new partnership. This partnership offered a complete digital workflow solution for digital dentures, from impressions and digital design to try-in and final restoration.

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Hyperspectral Imaging System Market Size, Share Analysis, Strategies, Revenue And Forecasts To 2025

 Global Hyperspectral Imaging System Market held a value of USD 10,700 Million in 2018, at a CAGR of 17.4% during the assessment period of 2019 to 2025.

Hyperspectral Imaging System Market Synopsis

Hyperspectral Imaging Systems (HIS) are also known as imaging spectroscopy. It was originated from remote sensing and has various applications in surveillance, remote sensing, machine vision/optical, and medical diagnostics. It can acquire 2D images across a wide range of the electromagnetic spectrum. Increasing applications for research in life sciences and the medical diagnostics sector in the past few years are responsible for a surge in demand for hyperspectral imaging systems. The key players involved in this market are actively focusing upon building partnerships, collaborations, and joint ventures with hospitals and ambulatory centers to strengthen their position in the market. Moreover, there is an increasing growth in various chronic diseases, which pushes the need for efficient hyperspectral imaging systems in the developing as well as underdeveloped regions.

Hyperspectral Imaging System Market Influencer

Rising funding and investments for the development of hyperspectral medical imaging systems are likely to provide favorable conditions for the growth of the hyperspectral medical imaging system market during the forecast period.

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Hyperspectral Imaging System Market Drivers

  • The growing industrial applications of hyperspectral imaging is anticipated to drive the growth of the market during the forecast period. It has various applications in food & agriculture, healthcare, defense, mining, and metrology industries.
  • Innovative and easy to use product launched in recent years
  • Rising spending on scientific research and aerospace industry
  • The growing prevalence of cancer and increasing awareness of innovative diagnostics methods is providing favorable conditions for the growth of the market during the forecast period. According to the US Department of Health and Human Services, 1,735,350 new cases of cancer were detected in the US in 2018. It is expected to accelerate the demand for hyperspectral imaging systems during the study period
  • High investment in research and development for the development of efficient imaging solutions

Market Restraints

  • High costs associated with HIS are likely to hamper the market growth
  • Data storage-related issues associated with HIS

Hyperspectral Imaging System Market Segmentation

By Product

  • Visible/Near-Infrared (VNIR): These systems create a false-color composite image made using near-infrared, green, and blue wavelengths. They are used in healthcare and agriculture sectors. VNIR segment is estimated to hold the largest market share during the forecast period due to the ease in operating and high efficiency of VNIR products
  • Mid-Wave Infrared (MWIR): Mid-Wave Infrared (MWIR) systems operate in wavelengths ranging from 3µm to 5µm (3000nm to 5000nm). This segment is anticipated to be the fastest-growing segment owing to the rising adoption of MWIR systems in detecting volcanic vents, industrial gas leaks, or biomass burning events.
  • Short-Wave Infrared (SWIR): It operates in wavelengths between 1,050 and 2,500 nm and used in inspection, sorting, and quality control. It has various applications including surveillance and remote sensing.
  • Long-Wave Infrared (LWIR): Long-Wave Infrared (LWIR) systems are used in the detection of minerals such as quartz, adularia, albite, kaolinite, orthoclase, Na- and Ca-montmorillonite, calcite, opal, chalcedony, gypsum, alunite, jarosite, and other sulfates.

By Technology

  • Pushbroom: These devices are made up of digital micromirror devices (DMD), CMOS image sensors. It is also called a line scan. This segment is estimated to hold maximum market share during the forecast period. The growth of this segment is attributed to the growing popularity of push broom systems in computer vision, remote sensing, biomedicine, surveillance, precision agriculture, environmental studies, forensics, nanoparticle research, food science, mining, forestry, etc.
  • Snapshot: Snapshot hyperspectral imagers are fast as compare to other systems. This segment is expected to register the fastest CAGR during the forecast period.
  • Others: Others include whiskbroom, tunable filter, and other technologies.

By Application

  • Surveillance: The majority of the hyperspectral imaging systems are used for defense and surveillance. Additionally, it can detect satellites, high-altitude reconnaissance aircraft, medium-altitude commercial aircraft, and drones. The market growth of the segment is majorly attributed to the increasing adoption of innovative technologies in the defense sector, along with the rising applications of unmanned aerial vehicles for surveillance purposes.
  • Medical Diagnostics: Medical diagnostics segment is anticipated to be the fastest-growing segment owing to the increasing applications of the hyperspectral imaging system in healthcare, such as the detection of the chemical composition of human tissues. Additionally, it has potential applications in non-invasive diagnosis.
  • Remote Sensing: Remote sensing is likely to hold significant market share in the global hyperspectral imaging system market. It is also known as imaging spectroscopy. It is used for the detection and identification of minerals, terrestrial vegetation, and human-made materials and backgrounds.
  • Machine Vision/Optical: Various hyperspectral imaging systems are used for machine vision/optical purposes.

By Region

  • Americas: Americas is estimated to be the largest regional market owing to the presence of prominent players in the major countries in America. Major market players such as Headwall Photonics, Inc., Resonon, Inc., Corning Incorporated, Applied Spectral Imaging, and Surface Optics Corporation have a significant presence in the Americas. The region is anticipated to dominate the global hyperspectral imaging system market owing to the well-established healthcare sector and rising healthcare spending in the region. According to the Committee for a Responsible Federal Budget, in 2017, the US has spent more than USD 3.5 trillion on healthcare-related expenses.
  • Europe: The European region holds the second largest share as there is increasing support from regulatory authorities to control cancer. Moreover, the rising expenses on defense and surge in demand for innovative and easy to use hyperspectral imaging systems have led to an increase in demand for hyperspectral imaging systems in the region.
  • Asia-Pacific: The Asia-Pacific region is anticipated to be the fastest-growing region in the global hyperspectral imaging system market. This region is witnessing a surge due to the increasing mining activities, and growing biotechnology and agriculture sector in developing countries such as India. According to the India Brand Equity Foundation, the Indian biotechnology sector is likely to reach around USD 12 billion in the year 2018. The growing biotechnology sector is likely to provide favorable conditions and anticipated to drive growth in the market.
  • Middle East & Africa: The smallest market due to limited healthcare infrastructure and limited exposure to innovative solutions.

Key Players

  • Headwall Photonics, Inc.
  • Specim, Spectral Imaging Ltd.
  • Norsk Elektro Optikk as (NEO)
  • Resonon, Inc.
  • Corning Incorporated
  • Telops
  • Applied Spectral Imaging
  • Bayspec, Inc.
  • Surface Optics Corporation
  • Chemimage Corporation
  • Cubert GmbH
  • Raytheon
  • Galileo Group, Inc.
  • Hypermed Imaging, Inc.
  • Inno-Spec
  • Camlin Group Ltd.
  • IMEC
  • XIMEA GmbH
  • Others 

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Gene Panel Market Professional Overview 2020-2025 With Major Vendors Size, Shares And Worldwide Demand

 Market Scenario

The increasing prevalence of chronic diseases such as cancer, genetic diseases, and rare diseases, increase in adoption of genetic testing, rising company initiatives, technological advancements, need for efficient prenatal diagnosis, and increasing health awareness are estimated to drive the market during the forecast period. However, factors such as expensive tests, inaccuracy in results, and security concerns of the genes are estimated to restrain the market growth during the forecast period.

Global Gene Panel Market size is expected to register a CAGR of 12.16% to reach USD 4,347.32 Million by 2025.

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Segmentation

The global gene panel market is segmented on the basis of product and service, technique, design, application, and end-user. The gene panel market, by product and service, is segmented into test kits and testing services. The global gene panel market by technique is segmented into the amplicon-based approach and hybridization-based approach. The design segment is segmented into predesigned gene panels and customized gene panels. On the basis of application, the market is categorized into cancer risk assessment, pharmacogenetics, diagnosis of congenital disorders, and other applications. The cancer risk assessment segment is further sub-segmented into syndrome-specific gene panels, high-penetrance gene panels, high and moderate-penetrance gene panels, and comprehensive cancer risk panels. On the basis of end-user, the market is categorized into hospitals, diagnostic laboratories, research and academic institutes, and pharmaceutical and biotechnology companies.

Key players

Some of the key players for the global gene panel market are Thermo Fisher Scientific (US), F. Hoffmann-La Roche AG (Switzerland), Illumina, Inc., BGI (China), Agilent Technologies (US),  Integrated DNA Technologies (IDT) (US), Eurofins Scientific (US), QIAGEN (Germany), GENEWIZ, Novogene Corporation (China), Personalis (US), GATC Biotech AG (GATC Biotech) (Germany), ArcherDx (US), GeneDx., CENTOGENE AG, and others.

Regional Market Summary

The Americas dominates the global market for gene panel. The increase in the patient pool for chronic diseases, government initiatives for the development of cancer treatment, and presence of strong market players such as Thermo Fisher Scientific drive the market growth in this region. Europe (the U.K., Belgium, France, and the Netherlands) is second in the market owing to the increasing research and development activities for cancer and congenital diseases. Also, the high occurrence rate of cancer in Europe influences the market growth in Europe. According to WHO, there are 3.7 million cases of cancer in Europe every year. Furthermore, Germany is predicted to dominate the European market as there were 2, 24,089 number of deaths due to cancer in 2014. Also, technological advancements coupled with an early diagnosis of cancer is likely to drive market growth for gene panel in Germany. Asia Pacific is expected to observe growth for the global gene panel market owing to the growing prevalence of cancer and increasing health expenditure. The Middle East and Africa with the presence of low-income countries, low healthcare expenditures, and stringent government regulations accounted for the least market share.

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Facial Fat Transfer Market Swot Analysis, Major Key Players Revenue, Analysis And Forecasts To 2025

 Market Highlights

Facial Fat Transfer Market is estimated to be valued at USD 7789.1 Million by 2025 and is expected to register a CAGR of 11.05% during the forecast period.

Facial fat transfer is a minimally invasive surgical procedure to move fat from an area of the body where it is plentiful and transfer it to the face to restore lost volume. The fat is gently removed using modern liposuction techniques and is then prepared for injecting into the face. Several dermal fillers are available in the market, designed to improve different parts of the face.

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Segment Analysis

The Global Facial Fat Transfer Market has been segmented based on the target area, Treatment, End-User, and Region. Based on the target area, the market has been divided into naso-labial folds, lips, marionette folds, temples, chin, and under-eye area. Based on treatment, the market is further sub-segmented as dermal fillers, fat injections, and others. On the basis of end user, the market has been divided into hospitals, cosmetic surgery clinics, and others.

Regional Analysis

Geographically, the Global Facial Fat Transfer Market has been segmented into the Americas, Europe, Asia-Pacific, and the Middle East and Africa. As per MRFR analysis, Americas were the largest market for facial fat transfer in 2018 and is expected to remain dominant during the review period. Increasing awareness regarding body aesthetics and the introduction of advanced technology in the facial rejuvenation industry are major factors that drive the growth of the facial fat transfer market in the American region.

Europe accounted for a significant market share and is projected to be the second-largest market during the forecast period. The increasing demand for minimally invasive cosmetic procedures is fueling the facial fat transfer market growth in European countries. For instance, according to the British Association of Aesthetic Plastic Surgeons, in London, 2019, over 28,000 cosmetic procedures took place in 2018.

The market in Asia-Pacific is expected to register a significant growth rate during the forecast period. The majority of the companies in Asia-Pacific are committed to investing in research and development of facial fat transfer treatments, which will ultimately boost the growth of the market.

The growth of the Middle East and Africa facial fat transfer market is majorly attributed to developing healthcare infrastructure, and continuously increasing demand for facial fat transfer products. Africa holds the least share of the market due to the limited availability of funds and medical facilities

Market Players

Market Research Future (MRFR) recognizes DR. Korman (Israel), Galderma Laboratories, L.P. (US), Integra LifeSciences Corporation (Israel), Merz Pharma (Germany), Allergan (Ireland), SciVision Biotech Inc (Taiwan), Suneva Medical, Inc (US), Bausch Health Companies Inc (Canada), Teoxane Laboratories (Switzerland), Ipsen Pharma (France), Sinclair Pharma (UK) as the key players in the Global Facial Fat Transfer Market.

Key Findings of the Study:

  • The Global Facial Fat Transfer Market is projected to reach over USD 7789.1 Million by 2025 at an 05 % CAGR during the review period of 2019 to 2025.
  • North America accounted for the largest market share, with the US being the major contributor to the growth of the market.
  • Based on the target area, the naso-labial folds segment is projected to register the highest CAGR of 11.51% during the forecast period owing to the rising prevalence of facial fat transfer cases.
  • On the basis of treatment, the dermal fillers segment accounted for the largest market share of 49.76% in 2018.
  • Based on end user, the hospitals segment accounted for the largest market share of 49.20% in 2018

FOR MORE DETAILS – https://www.marketresearchfuture.com/reports/facial-fat-transfer-market-1780