Services

In Vivo Services

At Anabiosi-Data, we are committed to providing high-quality in vivo services, ensuring precision, accuracy, and the utmost care in every procedure. Our team of experts is trained in a wide range of treatment techniques to meet your specific research needs.

- Intraperitoneal (IP): Our skilled team is proficient in intraperitoneal administration, a technique that involves injecting substances into the peritoneal cavity. This method is favored for its rapid absorption and ability to handle larger volumes, making it ideal for systemic effects.

- Intravenous (IV): We offer intravenous administration, a method that ensures immediate availability of substances to the body. This technique is perfect for situations where a rapid onset of action is required or when substances are too irritating to be administered by other routes.

- Subcutaneous (SC): Our subcutaneous administration service involves injecting substances under the skin, but not into any muscle. This method is typically used for substances that need to be absorbed into the body slowly, such as vaccines and medications that need to be administered over a longer period.

- Intranasal: We provide intranasal administration, a non-invasive method that involves the delivery of substances through the nose. This technique is often used for local effects within the nasal passages, but can also be used for systemic effects.

- Oral (Gavage, via food pellets or drinking water): Our oral administration services are versatile and convenient. We offer gavage, which involves the direct placement of substances into the stomach using a feeding needle or tube. Alternatively, we can incorporate substances into food pellets or drinking water for easier administration.

- Intramuscular (IM): We specialize in intramuscular administration, a technique that involves injecting substances directly into a muscle. This method allows for the slow, steady release of substances into the bloodstream, making it ideal for vaccines and substances that are too irritating to be given subcutaneously.

- Intradermal: Our intradermal administration service involves injecting substances into the dermis, the layer of skin below the epidermis. This technique is typically used for sensitivity tests and local anesthesia.

- Intratracheal: We offer intratracheal administration, a method that involves the delivery of substances directly into the trachea. This technique is often used in research for the direct application of substances to the lower respiratory tract, and can be used for local or systemic effects.

Analysis image

Comprehensive Spatial Analysis of Tumor Biology through Image Analysis. Utilizing state-of-the-art computational pathology techniques, our team of skilled image and data analysis experts can assist you in uncovering the crucial insights from your images. Identify the existing phenotypes, discover regional variations in immune response, and comprehend the fundamental biology to guide your study design

Biomarker Performance

This service aims to provide you with insights on the potential of a biomarker as a diagnostic tool to differentiate between healthy and diseased states, a predictive tool to forecast the impact of treatment on the disease, or a prognostic marker to predict the progression of the disease regardless of treatment. The performance of a biomarker can be evaluated either individually or as a panel of multiple biomarkers. Our bioinformatics team will employ a variety of techniques, including ROC analysis, PCA, clustering, and state-of-the-art machine learning methods, to determine the optimal biomarkers. While we utilize cutting-edge computational methods, we communicate our findings in plain language for your scientific team and aim to provide biomarkers with the highest diagnostic accuracy.

Simulation & Modelling

Simulation and mathematical modeling are powerful tools that can help us better understand complex systems, including biological systems. By developing mathematical models, AnaBioSi-Data Ltd can gain insights into the behavior of biological systems and make predictions about how they will respond to different stimuli or interventions. Mathematical models can be used to simulate the behavior of a system under different conditions, allowing researchers to test hypotheses and explore different scenarios. Statistical models can be used to analyze experimental data and identify patterns and trends that may be difficult to see with the naked eye. In the context of AnaBioSi-Data Ltd, these tools could be used in a variety of ways. For example, they could be used to: Model the behavior of a particular biological system, such as a cell or a tissue, in response to different drugs or environmental conditions Develop predictive models that can be used to optimize drug dosing or treatment strategies Analyze large data sets to identify biomarkers that could be used to diagnose or monitor disease Design experiments that are more efficient and effective, by using simulations to identify the most informative conditions to test Overall, the use of mathematical and statistical models can be a powerful way to gain new insights into biological systems and improve our ability to diagnose, treat, and prevent disease.

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Pathway Enrichment Analysis

The Pathway Enrichment Analysis component employs data obtained from Proteomics or RNA or ChIP sequencing to determine functional pathways that are either upregulated or downregulated. The analysis provides a visual representation of the effect of specific treatments or conditions on the overall functional mechanisms in the target organism. The pathway analysis component is limited to commonly studied eukaryotic model organisms (e.g. human, mouse, rat) for which pathway information is accessible.