Empowering Science,
Impacting Health & Longevity

Syrelix is built with artificial intelligence acquiring and analysing the world’s knowledge, augmenting a universal ontology and rendering it for researchers to gain insight.

Syrelix enables pharmaceutical, biotechnology, and life sciences professionals to accelerate research and development, with real-time insights at their fingertips. Syrelix modules and dashboards significantly accelerate processes throughout the drug development cycle.

Data Aggregation & Analysis
Aggregates unstructured and structured data from public and proprietary sources in real-time. Provide actionable insights using AI and ML.

Clinical Trial Optimization
Helps in patient recruitment, site selection, and trial monitoring by analyzing patient data and trial history.

Drug Discovery
Facilitates target identification, lead optimization, and biomarker discovery. Employs predictive analytics to identify drug candidates faster and reduce development timelines.

Knowledge Graph
Builds detailed ontologies for life sciences, enabling researchers to understand complex biological relationships and pathways.

Our Data Ocean
for all Life-Science
information


Acquired and analysed data from multiple sources such as publications, clinical trials, congresses, patents, grants, drug profiles, gene profiles and many more. The content and data points are disambiguated, normalized, structured, and augmented into a knowledge base.

AI / Machine Learning

An AI-driven platform for pharma and life sciences research, designed to acquire, analyze, and render global knowledge, augmenting a universal ontology to provide researchers with valuable insights.

Ontology

Mapping all identifiable concepts from major data sources, while employing self-learning mechanisms to recognize and validate new concepts through random checks.

Normalisation

Harmonizing entities across diverse sources by resolving name variations and enhancing precision, allowing for the accurate identification of entities even with limited metadata.

Computer Vision

Utilizes advanced image processing to extract critical information from PDFs and images, featuring enhanced OCR capabilities designed to accurately interpret special characters with high precision.