We make personalized therapy affordable for everyone
In domains like personalized medicine, precision oncology treatments, and the battle against rapidly evolving viruses, DNA sequencing stands as the pivotal technology.
Key applications
Personalized medicine: Revolutionizing healthcare
Personalized medicine is rapidly reshaping the landscape of healthcare, biotechnology, and pharmaceuticals, with Whole Human Genome Sequencing (WHGS) playing a pivotal role.
Personalized medicine is rapidly reshaping the landscape of healthcare, biotechnology, and pharmaceuticals, with Whole Human Genome Sequencing (WHGS) playing a pivotal role.
Better treatments
By providing better decision-making tools, this technology empowers medical professionals to make precise treatment recommendations, improving patient outcomes.
Early detection of health risks
One of the most significant breakthroughs is the development of population-specific reference genomes. These genomes allow the early detection of health risks before they become acute, enabling preventive interventions.
Targeting the root cause
Personalized medicine initiatives focus on the detection of specific genes or mutations associated with human diseases. This information is a cornerstone for fundamental research and development in gene therapy.
Viral WGS: Fighting infectious diseases
Viral Whole Genome Sequencing (WGS) is revolutionizing the response to infectious diseases. Its applications allow us to combat emerging viruses with unprecedented speed and precision.
Viral Whole Genome Sequencing (WGS) is revolutionizing the response to infectious diseases. Its applications allow us to combat emerging viruses with unprecedented speed and precision.
Rapid identification
Viral WGS enables the swift identification of infectious agents. This rapid identification accelerates the development of targeted treatments, leading to more effective therapies.
Effective tracking
Viral WGS helps authorities track epidemiological clusters and outbreaks in real-time. This data empowers informed decision-making, allowing for proactive measures to curb the spread of infections.
Faster development of vaccines
Viral WGS facilitates large-scale genetic data acquisition, making it indispensable for the development of vaccines. With this technology, it is possible to respond swiftly and effectively to infectious threats.
Faster reaction to pandemics
Thanks to LSPR’s technology, viral WGS will become much faster. This way, we will be able to combat epidemics and pandemics more effectively as a society.
AgriGenomics: Boosting plant protection
AgriGenomics focuses on plant protection. Key to this innovation is genome sequencing, unveiling the genetic makeup of plants and enhancing crop management through optimized production chemistry.
AgriGenomics focuses on plant protection. Key to this innovation is genome sequencing, unveiling the genetic makeup of plants and enhancing crop management through optimized production chemistry.
Disease-resistant coffee
AgriGenomics finds a crucial application in coffee production. Coffee faces challenges like diseases and climate shifts. AgriGenomics offers genetic insights to develop disease-resistant coffee varieties, ensuring the industry's sustainability.
Higher food security
AgriGenomics extends beyond coffee to various crops, contributing to food security and agricultural sustainability. As it continues to advance, its impact on plant protection and food industries will only strengthen, addressing present challenges and future demands.
More protected plants
Thanks to LSPR’s technology, genome sequencing of plants will become much faster. Thus, we will be able to protect more crops and enhance food security as a society.