Next-generation sequencing or high throughput
sequencing are advanced DNA sequencing technologies, including
Illumina (Solexa) sequencing, Roche 454 sequencing, and Ion torrent:
Proton/ PGM sequencing, SOLiD sequencing. Next-generation sequencing
technologies have a number of advantages such as high speed,
flexibility, high throughput, and reduced sequencing cost.
Next-generation sequencing has ability to produce terabytes of
nucleotide sequence data in a lone sequencing procedure. The NGS
technology is developing at a rapid rate, owing to its rising
adoption in scientific applications as it enables scanning of
targeted genomes or whole genomes in lesser time. Moreover, decrease
in cost of sequencing has also extended the procedure of next
generation sequencing in various clinical applications. The technique
has a variety of usages in diverse clinical applications such as
inherited genetic disorders, cancer, identification of infectious
diseases and HLA typing. For example, next-generation sequencing has
been in use for tracing tuberculosis outbreaks and hospital acquired
infections. These factors are projected to propel growth of the
next-generation sequencing market over the forecast period
(2016-2024).
According to an article published in the magazine
Scientific American, whole genome testing might not give accurate
results all the time. A low risk disease might take a shape and
affect the person in his lifetime. However, gene sequencing is
helpful in predicting diseases and in most cases, preventing them. In
the era of increased health awareness and advanced technologies,
people around the world are embracing the early detection techniques
so that they can take care of the diseases such as cancer from an
early stage. Next generation sequencing is primarily used to predict
the diseases which are hereditary in nature.
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Next-generation Sequencing Market Taxonomy
On the basis of technology, the global is
classified into:
Sequencing By Synthesis (SBS)
Sequencing By Ligation (SBL)
ION Semiconductor Sequencing
Single-Molecule Real-Time Sequencing (SMRT)
Pyrosequencing
Genomics
Whole Genome Sequencing
Exome Sequencing
De Novo Sequencing
Targeted Sequencing
Transcriptomics
Total RNA and mRNA Sequencing
Targeted RNA Sequencing
Small RNA and Non coding RNA SEQUENCIMG
Epigenomics
Methylation Sequencing
CHIP Sequencing
Ribosome Profiling
Other
On the basis of application, the global is
classified into:
Diagnostics
Drug Discovery
Agriculture & Animal Research
Personalized Medicine
Biomarker Discovery
Others
On the basis of end user, the global is classified
into:
Research Centers & Academic/Government
Institutes
Hospitals & Clinics
Pharmaceutical & Biotechnology Companies
Others
According to global genes, there are 7,000 types
of rare diseases in the world and 80% of these diseases are genetic
in order. Moreover, as of 2013, 30 million people in the U.S. have
rare diseases that accounts for around 10% of the total population of
the country. It is estimated that 24 million people in the U.S.
suffer from genetic or hereditary diseases. Since next-generation
sequencing can be linked to a variety of diseases, its role in
treatment is of utmost importance which will fuel the market growth
of the market in the region. Moreover, technological advancements as
well as development of efficient diagnostic tests will ensure early
detection of these diseases, thereby augmenting growth of
next-generation sequencing market.
Growing prevalence of hereditary diseases
and government initiatives will drive the overall next-generation
sequencing market
According to a report by Global Genes, in 2009,
Europe accounted for around 30 million people of the 350 million
people worldwide who suffered from some rare disease. Moreover,
children accounted for around half the population affected by rare
diseases. According to Net Wellness, more than 20% of the infant
deaths are caused due to genetic disorder. These statistics are truly
mind boggling and this would increase the demand for gene sequencing
techniques thereby augmenting the overall growth of the
next-generation sequencing market.
During the estimated period, Asia-Pacific market
is likely to grow at the maximum rate owing technological innovation,
rising drug discovery programs by healthcare companies, and growing
adoption of pioneering treatment models are some of the prime factors
that will drive the growth of market in the region. Moreover
governments in these region are increasing their overall healthcare
spends in their budgets owing to high prevalence of these diseases.
This would result in increased initiatives by the healthcare
companies and research organizations, in turn fueling growth of the
next-generation sequencing market.
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Some of the companies operating in the
next-generation sequencing market in the current scenario are Life
Sciences Corporation (Roche Holding Ag), Agilent Technologies, Life
Technologies Corporation, Perkin Elmer, Genomatix Software Gmbh,
Illumina, Inc., Genomatix Software Gmbh, Macrogen, Inc., Oxford
Nanopore Technologies, Ltd., Gatc Biotech Ag, Dnastar, Inc.,
IncPartek Incorporated, Knome, Inc., and Qiagen N.V.
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