Strand Displacement Amplification (SDA) Market

Strand Displacement Amplification (SDA) Market - Global Industry Analysis 2014-2018 and Opportunity Assessment 2019 - 2029

Strand Displacement Amplification (SDA) Market Segmented By Application such as Tuberculosis, Hepatitis, Pneumonia, Malaria and Cancer

Industry: Healthcare

Format: PPT*, PDF, EXCEL

Delivery Timelines: Contact Sales

Report Type: Ongoing

Report ID: PMRREP31420

Report Price

$ 4900*

Pre Book

Introduction

Strand Displacement Amplification (SDA) allows in-vitro nucleic acid amplification using isothermal technique. Nucleic acids being the encoding information in all living forms, used in detecting hereditary diseases, cancers and pathogens. Isothermal strand displacement amplification is a method alternative to PCR-based nucleic acid amplification.

PCR requires separate thermocycling apparatus whereas, strand displacement amplification allows 10(10)-fold amplification of a target DNA sequence without the use of external apparatus, making it robust and cost effective. Strand displacement amplification was the first amplification technology to be coupled with real-time homogeneous fluorescence-based detection for detecting various clinical conditions.

Thus, strand displacement amplification technique overcomes disadvantages of PCR. Isothermal strand displacement polymerase reaction (ISDPR) an advanced form of strand displacement amplification, is being widely used having more detection platforms.

Strand Displacement Amplification (SDA) Market: Drivers and restraints

Increasing cases of infectious diseases is one of the major cause of deaths. Tuberculosis, syphilis, malaria, pneumonia are most prevalent diseases. These conditions keeping its prevalence in current scenario also due to poor or late diagnosis.

The Rapid amplification technique like strand displacement amplification technique without the use of thermocycling process, the technique is being opted by most of the countries.  Strand displacement amplification technique provides more significant results compared to culturing in cases of bacteremia due to early detection of organisms, thus increasing the demand of strand displacement amplification technique.

Moreover smear based diagnosis where results can be missed due to low levels of bacteria, strand displacement amplification technique is useful in making the diagnosis more sensitive leading the growth of strand displacement amplification market.

Strand displacement amplification technique is emerging in agriculture and forensic, helping in the wide spread use of strand displacement amplification technique.

The multiple strand displacement amplification technique is also being evaluated in various developed countries which can provide results more efficiently.

The strand displacement amplification technique require sample preparation, also cannot amplify long nucleotide sequences making it less efficient there by hampering the growth of strand displacement amplification market.

The results by strand displacement amplification technique can sometimes show false positive results which can be the major reason which can decline the use of strand displacement amplification technique.

Also lack of skilled professionals can majorly restrict the demand for Strand displacement amplification market. 

Strand Displacement Amplification (SDA) Market: Segmentation

Based on application
  • Tuberculosis
  • Hepatitis
  • Pneumonia
  • Malaria
  • Cancer
Based on end user
  • Research institutes
  • Hospitals
  • Diagnostic laboratories

Strand Displacement Amplification (SDA) Market: Overview

The market for tuberculosis diagnosis is highly valued making it most rapid diagnosis due to sensitive results, rising health awareness are the factors responsible to increase the growth of strand displacement amplification market over forecast period.

Based on end user the global strand displacement amplification market will be dominated by diagnostic laboratories over the coming year as nucleic acid amplification has many values in the healthcare sector.  Also, strand displacement amplification technique is used by research laboratories, majorly in the forensic labs, lead the growth of strand displacement amplification market.

Strand Displacement Amplification (SDA) Market: Regional overview

Globally the Strand displacement amplification market especially includes in North America, Europe and Asia-Pacific, South America, and Africa. North America holds the maximum share in Strand displacement amplification market globally.

Strand displacement amplification market will experience rapid growth during the forecast period in APAC. Due to emergence of new small players ultimately increasing the growth of Strand displacement amplification market in Middle East and Africa. 

Strand Displacement Amplification (SDA) Market: Key players

Some of the profiled key players in Strand displacement amplification market that are prevalent globally include New England Biolabs, Hopax Fine Chemicals, Nippon Genetics .Co .Ltd, G Biosciences, BioRad. Proteon Pharmaceuticals, usually deals with the manufacturing of polymerase enzyme manufacturing used in Strand displacement amplification market.

The report covers exhaustive analysis on:

  • Market Segments
  • Market Dynamics
  • Historical Actual Market Size, 2014 - 2018
  • Market Size & Forecast 2019 to 2029
  • Market Current Trends/Issues/Challenges
  • Competition & Companies involved
  • Market Drivers and Restraints

Regional analysis includes

  • North America
  • Latin America
  • Europe
  • Asia Pacific
  • Middle East & Africa

Report Highlights:

  • Shifting Industry dynamics
  • In-depth market segmentation
  • Historical, current and projected industry size recent industry trends
  • Key Competition landscape
  • Strategies for key players and product offerings
  • Potential and niche segments/regions exhibiting promising growth
  • A neutral perspective towards market performance

To know more about delivery timeline for this report Contact Sales

Companies Covered in This Report

Thank you for taking time to visit our website, click like if you found the information on this page useful?

This site uses cookies, including third-party cookies, that help us to provide and improve our services.
Google translate