Bioinformatics
Providing comprehensive shotgun microbiome analysis to investigate microbial communities at a detailed genomic level. This service includes whole-genome sequencing of all microbial DNA within a sample, allowing for the identification and characterisation of bacteria, viruses, fungi, and other microorganisms. Advanced bioinformatics tools are utilised to analyse the data, offering insights into alpha diversity (within-sample diversity) and beta diversity (between-sample diversity). This approach enables a deeper understanding of microbial composition, functional potential, and interactions, supporting research in health, disease, environmental studies, and more.
Delivering metabolomics services to analyse and interpret the complete set of metabolites within biological samples. This service includes the extraction, identification, and quantification of metabolites using advanced techniques such as mass spectrometry and nuclear magnetic resonance (NMR). Detailed metabolic profiling and pathway analysis are performed to offer insights into biochemical processes and metabolic changes associated with health, disease, and treatment responses. Supporting research in systems biology, pharmacology, and clinical studies, these services enable a deeper understanding of metabolic networks and their role in physiological and pathological conditions
Providing comprehensive multiomics services that integrate various omics data, including genomics, transcriptomics, proteomics, and metabolomics. This service combines advanced analytical techniques to offer a holistic view of biological systems, enabling the study of complex interactions and regulatory networks. By integrating different omics layers, insights into gene expression, protein function, metabolic pathways, and cellular processes are achieved. Supporting research in personalised medicine, disease mechanisms, and systems biology, these services facilitate a deeper understanding of biological complexity and drive innovative solutions in health and disease
Supplying comprehensive whole genome analysis of SARS-CoV-2 to support research and public health efforts. This service includes sequencing the entire genome of the virus, identifying mutations, and tracking variants. Advanced bioinformatics tools are utilised to analyse the genetic data, providing insights into the virus's evolution, transmission patterns, and potential impact on vaccine efficacy. By leveraging cutting-edge technologies, this service enables researchers and healthcare professionals to better understand the behavior of SARS-CoV-2, inform public health strategies, and contribute to the development of effective treatments and vaccines.
Whole genome analysis for studying resistance and virulence of Staphylococcus aureus, tuberculosis, Klebsiella pneumoniae
Delivering whole genome analysis to study the resistance and virulence of pathogens such as Staphylococcus aureus, Mycobacterium tuberculosis, and Klebsiella pneumoniae. This service includes sequencing the complete genomes of these bacteria, identifying genetic mutations associated with antibiotic resistance and virulence factors. Advanced bioinformatics tools are used to analyse the genetic data, offering insights into the mechanisms driving resistance and pathogenicity. By leveraging cutting-edge genomic technologies, this service supports researchers and healthcare professionals in developing targeted treatment strategies, enhancing infection control measures, and improving patient outcomes
Offering comprehensive 16S rRNA microbiome analysis to explore microbial communities and their diversity. This service includes sequencing the 16S rRNA gene to identify and classify bacteria within a sample. Advanced bioinformatics tools are used to analyse the data, providing detailed insights into alpha diversity (within-sample diversity) and beta diversity (between-sample diversity). By examining the composition and diversity of microbial communities, this service supports research in health, disease, environmental studies, and more, enabling a deeper understanding of microbiome dynamics and their implications.
Offering gene expression analysis services utilising microarrays, qPCR, and Nanostring technologies to study RNA and microRNAs. This service includes the extraction and quantification of RNA or microRNAs, followed by precise measurement of gene expression levels. Advanced analytical tools are employed to interpret the data, providing insights into gene regulation, cellular responses, and disease mechanisms. By leveraging these cutting-edge technologies, this service supports research in genomics, oncology, developmental biology, and more, enabling a deeper understanding of gene expression patterns and their biological implications
Transcriptomic analysis including differential expression analysis and metabolic pathways via GO enrichment
Providing comprehensive transcriptomic analysis services to explore gene expression and metabolic pathways. This service includes differential expression analysis to identify genes with significant changes in expression between conditions, as well as Gene Ontology (GO) enrichment analysis to uncover relevant biological processes and metabolic pathways. Advanced bioinformatics tools are used to analyse and interpret the data, offering insights into gene function, regulatory mechanisms, and cellular responses. Supporting research in genomics, molecular biology, and systems biology, this service enables a deeper understanding of the transcriptome and its role in health and disease.
Supplying comprehensive single-cell RNA sequencing (RNAseq) analysis to explore gene expression at the individual cell level. This service includes detailed cell annotation to identify and classify distinct cell populations, as well as differential gene expression analysis to detect significant changes in gene activity between cell types or conditions. Advanced bioinformatics tools are employed to analyse the data, providing deep insights into cellular heterogeneity, developmental processes, and disease mechanisms. Supporting cutting-edge research in genomics, immunology, and developmental biology, this service enables a granular understanding of the transcriptome at single-cell resolution.
Providing viral mutation analysis to identify genetic variations and generate consensus sequences. This service includes sequencing viral genomes to detect mutations, track their evolution, and understand their implications for viral behavior and pathogenicity. Advanced bioinformatics tools are used to analyse the data and create consensus sequences that represent the most common viral genetic variants. Supporting research in virology, epidemiology, and vaccine development, this service offers valuable insights into viral mutations and their impact on transmission, immune evasion, and treatment efficacy
Machine learning
Health
Premium Research utilises advanced predictive models to support disease diagnosis, foresee clinical outcomes, and personalise treatments. Our algorithms analyse large volumes of medical data to identify patterns and provide healthcare professionals with valuable tools to make more informed and precise decisions
Utilising predictive models to personalise treatments for chronic diseases such as diabetes and hypertension. By analysing individual patient data, these models can recommend specific adjustments in medication and lifestyle to maximise treatment efficacy. This service helps healthcare providers tailor interventions to each patient's unique needs, improving health outcomes and enhancing the overall effectiveness of chronic disease management.
Developing predictive models to identify patients at high risk of readmission. By analysing clinical and demographic data, these models assist healthcare professionals in implementing preventive interventions and personalised follow-up plans to reduce readmission rates. This service enhances patient care by enabling timely and targeted actions, ultimately improving health outcomes and reducing healthcare costs.
Developing algorithms to analyse clinical trial data and patient records to evaluate the efficacy and side effects of new medications. This service enables pharmaceutical companies and healthcare professionals to make informed decisions about the adoption of new treatments. By leveraging advanced analytics, the evaluation process ensures accurate assessment of therapeutic benefits and risks, supporting the development of safer and more effective medications.
Applying machine learning to analyse genomic sequences and identify genetic predispositions to diseases. This service facilitates the development of personalised genetic therapies and the implementation of preventive medicine programs based on the patient's genetic profile. By leveraging advanced analytics, genomic analysis provides insights into individual health risks, enabling tailored interventions and enhancing the effectiveness of healthcare strategies
Developing predictive models to manage and monitor chronic diseases by analysing patient data, including lifestyle habits and treatment adherence. This service helps physicians provide proactive and personalised care, improving the quality of life for patients. By leveraging data-driven insights, healthcare providers can tailor interventions to each patient's unique needs, enhancing disease management and patient outcomes.
Utilising machine learning algorithms to detect anomalies in medical images such as X-rays, MRIs, and CT scans. These systems can accurately identify lesions, tumors, and other conditions, enhancing the speed and precision of radiological diagnosis. This service supports healthcare professionals by providing reliable and efficient tools for early detection and accurate assessment of medical abnormalities, ultimately improving patient care outcomes.
Business & consumers
Premium Research utilises advanced predictive models to support disease diagnosis, foresee clinical outcomes, and personalise treatments. Our algorithms analyse large volumes of medical data to identify patterns and provide healthcare professionals with valuable tools to make more informed and precise decisions
Utilising predictive models to personalise treatments for chronic diseases such as diabetes and hypertension. By analysing individual patient data, these models can recommend specific adjustments in medication and lifestyle to maximise treatment efficacy. This service helps healthcare providers tailor interventions to each patient's unique needs, improving health outcomes and enhancing the overall effectiveness of chronic disease management.
Developing predictive models to identify patients at high risk of readmission. By analysing clinical and demographic data, these models assist healthcare professionals in implementing preventive interventions and personalised follow-up plans to reduce readmission rates. This service enhances patient care by enabling timely and targeted actions, ultimately improving health outcomes and reducing healthcare costs.
By leveraging advanced analytics, the evaluation process ensures accurate assessment of therapeutic benefits and risks, supporting the development of safer and more effective medications.
Applying machine learning to analyse genomic sequences and identify genetic predispositions to diseases. This service facilitates the development of personalised genetic therapies and the implementation of preventive medicine programs based on the patient's genetic profile. By leveraging advanced analytics, genomic analysis provides insights into individual health risks, enabling tailored interventions and enhancing the effectiveness of healthcare strategies
Developing predictive models to manage and monitor chronic diseases by analysing patient data, including lifestyle habits and treatment adherence. This service helps physicians provide proactive and personalised care, improving the quality of life for patients. By leveraging data-driven insights, healthcare providers can tailor interventions to each patient's unique needs, enhancing disease management and patient outcomes.
Utilising machine learning algorithms to detect anomalies in medical images such as X-rays, MRIs, and CT scans. These systems can accurately identify lesions, tumors, and other conditions, enhancing the speed and precision of radiological diagnosis. This service supports healthcare professionals by providing reliable and efficient tools for early detection and accurate assessment of medical abnormalities, ultimately improving patient care outcomes.
Circular Economy
Premium Research utilises advanced predictive models to support disease diagnosis, foresee clinical outcomes, and personalise treatments. Our algorithms analyse large volumes of medical data to identify patterns and provide healthcare professionals with valuable tools to make more informed and precise decisions
Utilising predictive models to personalise treatments for chronic diseases such as diabetes and hypertension. By analysing individual patient data, these models can recommend specific adjustments in medication and lifestyle to maximise treatment efficacy. This service helps healthcare providers tailor interventions to each patient's unique needs, improving health outcomes and enhancing the overall effectiveness of chronic disease management.
Developing predictive models to identify patients at high risk of readmission. By analysing clinical and demographic data, these models assist healthcare professionals in implementing preventive interventions and personalised follow-up plans to reduce readmission rates. This service enhances patient care by enabling timely and targeted actions, ultimately improving health outcomes and reducing healthcare costs.
Developing algorithms to analyse clinical trial data and patient records to evaluate the efficacy and side effects of new medications. This service enables pharmaceutical companies and healthcare professionals to make informed decisions about the adoption of new treatments. By leveraging advanced analytics, the evaluation process ensures accurate assessment of therapeutic benefits and risks, supporting the development of safer and more effective medications.
Applying machine learning to analyse genomic sequences and identify genetic predispositions to diseases. This service facilitates the development of personalised genetic therapies and the implementation of preventive medicine programs based on the patient's genetic profile. By leveraging advanced analytics, genomic analysis provides insights into individual health risks, enabling tailored interventions and enhancing the effectiveness of healthcare strategies
Developing predictive models to manage and monitor chronic diseases by analysing patient data, including lifestyle habits and treatment adherence. This service helps physicians provide proactive and personalised care, improving the quality of life for patients. By leveraging data-driven insights, healthcare providers can tailor interventions to each patient's unique needs, enhancing disease management and patient outcomes.
Utilising machine learning algorithms to detect anomalies in medical images such as X-rays, MRIs, and CT scans. These systems can accurately identify lesions, tumors, and other conditions, enhancing the speed and precision of radiological diagnosis. This service supports healthcare professionals by providing reliable and efficient tools for early detection and accurate assessment of medical abnormalities, ultimately improving patient care outcomes.
Biostatistics
Providing comprehensive shotgun microbiome analysis to investigate microbial communities at a detailed genomic level. This service includes whole-genome sequencing of all microbial DNA within a sample, allowing for the identification and characterisation of bacteria, viruses, fungi, and other microorganisms. Advanced bioinformatics tools are utilised to analyse the data, offering insights into alpha diversity (within-sample diversity) and beta diversity (between-sample diversity). This approach enables a deeper understanding of microbial composition, functional potential, and interactions, supporting research in health, disease, environmental studies, and more.
Delivering metabolomics services to analyse and interpret the complete set of metabolites within biological samples. This service includes the extraction, identification, and quantification of metabolites using advanced techniques such as mass spectrometry and nuclear magnetic resonance (NMR). Detailed metabolic profiling and pathway analysis are performed to offer insights into biochemical processes and metabolic changes associated with health, disease, and treatment responses. Supporting research in systems biology, pharmacology, and clinical studies, these services enable a deeper understanding of metabolic networks and their role in physiological and pathological conditions
Providing comprehensive multiomics services that integrate various omics data, including genomics, transcriptomics, proteomics, and metabolomics. This service combines advanced analytical techniques to offer a holistic view of biological systems, enabling the study of complex interactions and regulatory networks. By integrating different omics layers, insights into gene expression, protein function, metabolic pathways, and cellular processes are achieved. Supporting research in personalised medicine, disease mechanisms, and systems biology, these services facilitate a deeper understanding of biological complexity and drive innovative solutions in health and disease
Providing comprehensive multiomics services that integrate various omics data, including genomics, transcriptomics, proteomics, and metabolomics. This service combines advanced analytical techniques to offer a holistic view of biological systems, enabling the study of complex interactions and regulatory networks. By integrating different omics layers, insights into gene expression, protein function, metabolic pathways, and cellular processes are achieved. Supporting research in personalised medicine, disease mechanisms, and systems biology, these services facilitate a deeper understanding of biological complexity and drive innovative solutions in health and disease
Supplying comprehensive whole genome analysis of SARS-CoV-2 to support research and public health efforts. This service includes sequencing the entire genome of the virus, identifying mutations, and tracking variants. Advanced bioinformatics tools are utilised to analyse the genetic data, providing insights into the virus's evolution, transmission patterns, and potential impact on vaccine efficacy. By leveraging cutting-edge technologies, this service enables researchers and healthcare professionals to better understand the behavior of SARS-CoV-2, inform public health strategies, and contribute to the development of effective treatments and vaccines.
Lab Support
Protocols Design & Execution
Applying machine learning to analyse genomic sequences and identify genetic predispositions to diseases. This service facilitates the development of personalised genetic therapies and the implementation of preventive medicine programs based on the patient's genetic profile. By leveraging advanced analytics, genomic analysis provides insights into individual health risks, enabling tailored interventions and enhancing the effectiveness of healthcare strategies
Developing predictive models to manage and monitor chronic diseases by analysing patient data, including lifestyle habits and treatment adherence. This service helps physicians provide proactive and personalised care, improving the quality of life for patients. By leveraging data-driven insights, healthcare providers can tailor interventions to each patient's unique needs, enhancing disease management and patient outcomes.
Utilising machine learning algorithms to detect anomalies in medical images such as X-rays, MRIs, and CT scans. These systems can accurately identify lesions, tumors, and other conditions, enhancing the speed and precision of radiological diagnosis. This service supports healthcare professionals by providing reliable and efficient tools for early detection and accurate assessment of medical abnormalities, ultimately improving patient care outcomes.
Animal Procedures
Premium Research utilises advanced predictive models to support disease diagnosis, foresee clinical outcomes, and personalise treatments. Our algorithms analyse large volumes of medical data to identify patterns and provide healthcare professionals with valuable tools to make more informed and precise decisions
Utilising predictive models to personalise treatments for chronic diseases such as diabetes and hypertension. By analysing individual patient data, these models can recommend specific adjustments in medication and lifestyle to maximise treatment efficacy. This service helps healthcare providers tailor interventions to each patient's unique needs, improving health outcomes and enhancing the overall effectiveness of chronic disease management.
Developing predictive models to identify patients at high risk of readmission. By analysing clinical and demographic data, these models assist healthcare professionals in implementing preventive interventions and personalised follow-up plans to reduce readmission rates. This service enhances patient care by enabling timely and targeted actions, ultimately improving health outcomes and reducing healthcare costs.
Cell Culture
Offering expert lab support in cell culture techniques. This service includes the support to establish, maintain, and optimise cell cultures for various research applications. Leveraging extensive expertise in cell culture methodologies, this support ensures the growth of healthy and contaminant-free cell lines. This service is essential for a wide range of biomedical research, including drug testing, genetic studies, and cellular biology, ensuring reliable and reproducible experimental outcomes.
Lab Strategic Planning
Premium Research utilises advanced predictive models to support disease diagnosis, foresee clinical outcomes, and personalise treatments. Our algorithms analyse large volumes of medical data to identify patterns and provide healthcare professionals with valuable tools to make more informed and precise decisions
Utilising predictive models to personalise treatments for chronic diseases such as diabetes and hypertension. By analysing individual patient data, these models can recommend specific adjustments in medication and lifestyle to maximise treatment efficacy. This service helps healthcare providers tailor interventions to each patient's unique needs, improving health outcomes and enhancing the overall effectiveness of chronic disease management.
Developing predictive models to identify patients at high risk of readmission. By analysing clinical and demographic data, these models assist healthcare professionals in implementing preventive interventions and personalised follow-up plans to reduce readmission rates. This service enhances patient care by enabling timely and targeted actions, ultimately improving health outcomes and reducing healthcare costs.
Developing algorithms to analyse clinical trial data and patient records to evaluate the efficacy and side effects of new medications. This service enables pharmaceutical companies and healthcare professionals to make informed decisions about the adoption of new treatments. By leveraging advanced analytics, the evaluation process ensures accurate assessment of therapeutic benefits and risks, supporting the development of safer and more effective medications.
Scientific Production & Communication
Scientific Reports
Offering expert lab support in cell culture techniques. This service includes the support to establish, maintain, and optimise cell cultures for various research applications. Leveraging extensive expertise in cell culture methodologies, this support ensures the growth of healthy and contaminant-free cell lines. This service is essential for a wide range of biomedical research, including drug testing, genetic studies, and cellular biology, ensuring reliable and reproducible experimental outcomes.
Bibliography
Offering expert lab support in cell culture techniques. This service includes the support to establish, maintain, and optimise cell cultures for various research applications. Leveraging extensive expertise in cell culture methodologies, this support ensures the growth of healthy and contaminant-free cell lines. This service is essential for a wide range of biomedical research, including drug testing, genetic studies, and cellular biology, ensuring reliable and reproducible experimental outcomes.
Scientific Writing
Providing comprehensive shotgun microbiome analysis to investigate microbial communities at a detailed genomic level. This service includes whole-genome sequencing of all microbial DNA within a sample, allowing for the identification and characterisation of bacteria, viruses, fungi, and other microorganisms. Advanced bioinformatics tools are utilised to analyse the data, offering insights into alpha diversity (within-sample diversity) and beta diversity (between-sample diversity). This approach enables a deeper understanding of microbial composition, functional potential, and interactions, supporting research in health, disease, environmental studies, and more.
Delivering metabolomics services to analyse and interpret the complete set of metabolites within biological samples. This service includes the extraction, identification, and quantification of metabolites using advanced techniques such as mass spectrometry and nuclear magnetic resonance (NMR). Detailed metabolic profiling and pathway analysis are performed to offer insights into biochemical processes and metabolic changes associated with health, disease, and treatment responses. Supporting research in systems biology, pharmacology, and clinical studies, these services enable a deeper understanding of metabolic networks and their role in physiological and pathological conditions
Providing comprehensive multiomics services that integrate various omics data, including genomics, transcriptomics, proteomics, and metabolomics. This service combines advanced analytical techniques to offer a holistic view of biological systems, enabling the study of complex interactions and regulatory networks. By integrating different omics layers, insights into gene expression, protein function, metabolic pathways, and cellular processes are achieved. Supporting research in personalised medicine, disease mechanisms, and systems biology, these services facilitate a deeper understanding of biological complexity and drive innovative solutions in health and disease
Providing comprehensive multiomics services that integrate various omics data, including genomics, transcriptomics, proteomics, and metabolomics. This service combines advanced analytical techniques to offer a holistic view of biological systems, enabling the study of complex interactions and regulatory networks. By integrating different omics layers, insights into gene expression, protein function, metabolic pathways, and cellular processes are achieved. Supporting research in personalised medicine, disease mechanisms, and systems biology, these services facilitate a deeper understanding of biological complexity and drive innovative solutions in health and disease
Supplying comprehensive whole genome analysis of SARS-CoV-2 to support research and public health efforts. This service includes sequencing the entire genome of the virus, identifying mutations, and tracking variants. Advanced bioinformatics tools are utilised to analyse the genetic data, providing insights into the virus's evolution, transmission patterns, and potential impact on vaccine efficacy. By leveraging cutting-edge technologies, this service enables researchers and healthcare professionals to better understand the behavior of SARS-CoV-2, inform public health strategies, and contribute to the development of effective treatments and vaccines.
Supplying comprehensive whole genome analysis of SARS-CoV-2 to support research and public health efforts. This service includes sequencing the entire genome of the virus, identifying mutations, and tracking variants. Advanced bioinformatics tools are utilised to analyse the genetic data, providing insights into the virus's evolution, transmission patterns, and potential impact on vaccine efficacy. By leveraging cutting-edge technologies, this service enables researchers and healthcare professionals to better understand the behavior of SARS-CoV-2, inform public health strategies, and contribute to the development of effective treatments and vaccines.
Scientific Reading & Assessment
Offering expert lab support in cell culture techniques. This service includes the support to establish, maintain, and optimise cell cultures for various research applications. Leveraging extensive expertise in cell culture methodologies, this support ensures the growth of healthy and contaminant-free cell lines. This service is essential for a wide range of biomedical research, including drug testing, genetic studies, and cellular biology, ensuring reliable and reproducible experimental outcomes.
Scientific Curriculum Vitae
Offering expert lab support in cell culture techniques. This service includes the support to establish, maintain, and optimise cell cultures for various research applications. Leveraging extensive expertise in cell culture methodologies, this support ensures the growth of healthy and contaminant-free cell lines. This service is essential for a wide range of biomedical research, including drug testing, genetic studies, and cellular biology, ensuring reliable and reproducible experimental outcomes.
Scientific communication
Providing comprehensive shotgun microbiome analysis to investigate microbial communities at a detailed genomic level. This service includes whole-genome sequencing of all microbial DNA within a sample, allowing for the identification and characterisation of bacteria, viruses, fungi, and other microorganisms. Advanced bioinformatics tools are utilised to analyse the data, offering insights into alpha diversity (within-sample diversity) and beta diversity (between-sample diversity). This approach enables a deeper understanding of microbial composition, functional potential, and interactions, supporting research in health, disease, environmental studies, and more.
Delivering metabolomics services to analyse and interpret the complete set of metabolites within biological samples. This service includes the extraction, identification, and quantification of metabolites using advanced techniques such as mass spectrometry and nuclear magnetic resonance (NMR). Detailed metabolic profiling and pathway analysis are performed to offer insights into biochemical processes and metabolic changes associated with health, disease, and treatment responses. Supporting research in systems biology, pharmacology, and clinical studies, these services enable a deeper understanding of metabolic networks and their role in physiological and pathological conditions
Providing comprehensive multiomics services that integrate various omics data, including genomics, transcriptomics, proteomics, and metabolomics. This service combines advanced analytical techniques to offer a holistic view of biological systems, enabling the study of complex interactions and regulatory networks. By integrating different omics layers, insights into gene expression, protein function, metabolic pathways, and cellular processes are achieved. Supporting research in personalised medicine, disease mechanisms, and systems biology, these services facilitate a deeper understanding of biological complexity and drive innovative solutions in health and disease
Providing comprehensive multiomics services that integrate various omics data, including genomics, transcriptomics, proteomics, and metabolomics. This service combines advanced analytical techniques to offer a holistic view of biological systems, enabling the study of complex interactions and regulatory networks. By integrating different omics layers, insights into gene expression, protein function, metabolic pathways, and cellular processes are achieved. Supporting research in personalised medicine, disease mechanisms, and systems biology, these services facilitate a deeper understanding of biological complexity and drive innovative solutions in health and disease
