We help Pharma & Biotech companies fulfill their flowcytometry experimental needs supporting up to 64 reagents with comprehensive data reporting within 5 business days.

CRO Services

Our dynamicCRO Services initiatives and our team lead advancements across various fields to create impactful Results.

01

Immunophenotyping

Multiple immunophenotyping
Panels

. Multichannel
. 20 parameters
. 25 colors

02

Cell cycle Analysis

. Analysis of cyclins and CDKS
. Live-cell cycle analysis
. Propidium iodide

03

Phospho Flow Cytometry

. Single Cell Resolution
. Multiplexing
. High-Throughput
. Post-translational modifications

04

Apoptosis Analysis

.Annexin V/PI Staining
.Poly caspase
.MMP Assay
.TUNEL assay

05

Intracelleular Staining

. Fixation & Permeabilization
. Cytokine detection
. TF detection

06

DNA content Analysis

Flow cytometry CRO Services

  1. In-Depth Cell Analysis: Flow cytometry allows for the detailed study of specific cell types or single cells, offering profound insights into biological processes and immune profiling.
  2. Comprehensive Study Levels: Beyond clinical studies, we also extend our expertise to pre-clinical levels, ensuring thorough research and analysis across various stages.
  3. Cost-Effective Solutions: We offer a range of affordable flow cytometry services, including:
    • Cell Profiling/Cell Analysis: Characterizing cell populations based on various biomarkers.
    • Immunophenotyping: Identifying and quantifying distinct immune cell subsets.
    • Cell Sorting: Isolating specific cell types for further analysis or experimentation.
    • Apoptosis and Viability (Programmed Cell Death): Assessing cell health and programmed cell death.
    • DNA Content Analysis: Evaluating the DNA content of cells for cell cycle studies.
    • Functional Assays: Measuring cellular functions such as intracellular cytokine production and phagocytosis.
    • Drug Screening: Testing the effects of pharmaceutical compounds on cell populations.
    • Hematology: Analyzing blood cell populations and characteristics.
    • Caspase Activity Assays: Detecting caspase enzyme activation, a hallmark of apoptosis, using colorimetric or fluorometric substrates.
    • Annexin V Staining: Identifying apoptotic cells by their externalized phosphatidylserine.
    • TUNEL Assay: Labeling DNA fragments generated during apoptosis to identify apoptotic cells
  4. Advanced Techniques for Accurate Results: Our dedicated team employs cutting-edge techniques, including:
    • Multi-Parametric Analysis: Simultaneously measuring multiple parameters for comprehensive data.
    • High Throughput Screening: Rapidly analyzing large sample volumes for efficient data collection.
    • Single Cell Analysis: Investigating the properties and behaviors of individual cells for precision studies.
  5. Collaborative Research Approach: Our team of researchers will work closely with you, forming a collaborative partnership to help you achieve your research goals. We offer:
    • Custom Assay Development: Tailoring assays to meet specific research needs.
    • Data Analysis and Interpretation: Providing detailed analysis and expert interpretation of flow cytometry data.
    • Consultation and Training: Offering consultation services and training sessions to enhance your understanding and application of flow cytometry techniques.
  6. Secure Sample Transportation: We provide reliable transportation services, treating your samples with the utmost care and ensuring their safe and careful handling.
  7. Regulatory Compliance and Quality Assurance: We adhere to stringent regulatory standards and maintain rigorous quality control measures to ensure the integrity and reliability of our flow cytometry services.
  8. Technological Integration: Incorporating the latest flow cytometry technologies and software to enhance data acquisition, analysis, and visualization, providing you with comprehensive and actionable insights.Bottom of from

Cell Culture-Based Services for CRO

  1. Comprehensive Cell Culture Solutions: We offer a wide range of cell culture services, providing essential tools and expertise for various research and development projects in both clinical and pre-clinical settings.
  2. Cell Line Authentication
    • Verifying the identity and purity of cell lines to ensure experimental integrity.
  3. Primary Cell Isolation and Culture:
    • Isolation of Primary Cells: Extracting and culturing primary cells from various tissues, including blood, skin, and organs.
    • Custom Primary Cell Cultures: Developing primary cell cultures customized to your specific research requirements.
  4. 3D Cell Culture Models:
    • Spheroid and Organoid Culture: Creating 3D cell culture models that mimic in vivo environments for more physiologically relevant data.
    • Bioprinting and Scaffold-Based Cultures: Utilizing advanced techniques for tissue engineering and regenerative medicine studies.
  5. Cell-Based Assays:
    • Cell Proliferation: Assessing cell growth rates by measuring DNA synthesis (e.g., BrdU incorporation, EdU staining) or metabolic activity (e.g., MTT, WST-1, and Alamar Blue assays).
    • Cell Cytotoxicity Assays: Evaluating the toxic effects of compounds on cell viability using assays like LDH release, and Annexin V/PI staining.
    • Wound Healing Assays Wound Healing Assays: Studying cell migration by creating a “wound” in a cell monolayer and monitoring cell movement to close the gap.
    • Transwell Migration Assays: Assessing the ability of cells to migrate through a membrane toward a chemoattractant.
    • Matrigel Invasion Assays: Evaluating the invasive potential of cells by measuring their ability to penetrate a Matrigel-coated membrane.
    • Drug Combination Studies: Evaluating the synergistic, additive, or antagonistic effects of drug combinations on cell viability and function.
    • Compound Screening: Rapidly screening large libraries of chemical compounds or natural products to identify potential drug candidates.
  1. Advanced Techniques for Accurate Results: Our team employs state-of-the-art techniques, including Fluorescence and Live-Cell Imaging
  2. Collaborative Research Approach: Our team of researchers will work closely with you, forming a collaborative partnership to help you achieve your research goals. We offer:
    • Custom Assay Development: Tailoring assays to meet specific research needs.
    • Data Analysis and Interpretation: Providing detailed analysis and expert interpretation of cell culture data.
    • Consultation and Training: Offering consultation services and training sessions to enhance your understanding and application of cell culture techniques.
  3. Customized Reporting: Delivering detailed and customized reports that meet your specific requirements, including graphical representations, statistical analysis, and comprehensive summaries of findings.

Flow Cytometry

Highly accurate and rapid flow cytometry analysis for precise research results.

Data Analysis

Comprehensive data interpretation with actionable insights for informed decisions.

Assay Development

Customized flow cytometry assays designed to meet unique experimental requirements.

Consultation Services

Expert guidance and collaboration to optimize flow cytometry experiments and results.

Research & Development

Our dynamic R&D initiatives and our team lead advancements across various fields to create impactful solutions.

AI-Based Drug Discovery Services

  1. Expert Team and Advanced Technology: Our accomplished team of AI experts, data scientists, and researchers harnesses cutting-edge artificial intelligence to revolutionize drug discovery.
  2. Customized Solutions: Recognizing the uniqueness of each research endeavor, we tailor our AI-based drug discovery services to meet your specific objectives and challenges.
  3. Data-Driven Insights: Our unwavering commitment to data ensures that every discovery is underpinned by robust scientific evidence, providing comprehensive insights into potential therapeutic candidates.
    • Expedited Drug Discovery: Leveraging AI, we accelerate the drug discovery process, reducing time-to-market and lowering development costs by streamlining and optimizing the drug development pipeline. We deliver top-tier information using AI across various fields, including:
    • Protein Structure Prediction: Understanding the critical importance of protein structure prediction for drug development and diagnosis, we provide advanced AI-driven insights in this area.
    • Target Identification and Validation: Our AI-driven analysis accurately identifies and validates potential drug targets with precision and efficiency.
    • Lead Compound Prediction: AI models predict lead compounds, delivering significant time savings during the lead discovery process.
    • Toxicity Assessment: AI assesses the potential toxicity of drug candidates, expertly screening out unsafe compounds in the early stages of development.
    • Optimized Clinical Trial Design: AI optimizes the design of clinical trials, increasing the chances of success while minimizing development expenses.
    • Drug Repurposing: We uncover existing drugs with untapped therapeutic potential, presenting a cost-effective avenue for drug development.
  1. Collaborative Research Approach: Our researchers will engage with you to ensure that your results are perfect in all aspects, fostering a collaborative and supportive environment.
  2. Time and Resource Efficiency: We are dedicated to saving your time and ensuring timely delivery of results, enhancing efficiency and productivity in your research endeavors.

Neuro-Discovery Research

Neuro-discovery services are pivotal in advancing our understanding and treatment of neurological disorders. This R&D report explores the various facets of neuro-discovery, detailing the methodologies, technologies, and collaborative approaches employed to drive innovations in neuroscience.

  1. In-Depth Neuroscience Research:
    • Neuronal Cell Culture: Developing and maintaining cultures of neurons and glial cells for various research applications.
    • Brain Tissue Analysis: Examining brain tissues using histological, biochemical, and molecular techniques.
  2. Neuropharmacology and Drug Development:
    • Target Identification and Validation: Utilizing advanced methods to identify and validate novel therapeutic targets for neurological disorders.
    • High-Throughput Screening: Rapidly screening large libraries of compounds to discover potential neuroactive drugs.
    • Lead Compound Optimization: Refining lead compounds to enhance their efficacy, selectivity, and safety profiles.
  3. Behavioral and Cognitive Assessments:
    • Animal Behavioral Studies: Assessing cognitive, motor, and sensory functions in animal models of neurological disorders.
  4. Stem Cell Research and Regenerative Medicine:
    • Neural Stem Cell Culture: Culturing and differentiating neural stem cells for research and therapeutic purposes.
    • Cell Therapy Development: Developing stem cell-based therapies for neurological disorders.
  5. Neurotoxicology and Safety Assessment:
    • Toxicity Testing: Evaluating the neurotoxic effects of compounds using in vitro and in vivo models.
    • Safety Pharmacology: Assessing the safety and side effects of neuroactive drugs.
  6. Advanced Techniques for Accurate Results:
    • CRISPR/Cas9 Gene Editing: Performing precise genetic modifications in neural cells for functional studies.
    • Single-Cell RNA Sequencing: Profiling gene expression at the single-cell level to understand cellular heterogeneity.
  7. Collaborative Research Approach: Our team of researchers will work closely with you, forming a collaborative partnership to help you achieve your research goals. We offer:
    • Custom Assay Development: Tailoring assays to meet specific research needs.
    • Data Analysis and Interpretation: Providing detailed analysis and expert interpretation of neuroscience data.
    • Consultation and Training: Offering consultation services and training sessions to enhance your understanding and application of neuro-discovery techniques.
  8. Regulatory Compliance and Quality Assurance: We adhere to stringent regulatory standards and maintain rigorous quality control measures to ensure the integrity and reliability of our neuro-discovery services.

Our neuro-discovery services integrate advanced technologies, comprehensive methodologies, and collaborative approaches to drive innovations in neuroscience. By adhering to rigorous standards and leveraging state-of-the-art tools, we aim to provide exceptional support and insights to advance the understanding and treatment of neurological disorders.

Comprehensive Cancer Research Services

Welcome to our cutting-edge cancer research division. We are dedicated to advancing the understanding, diagnosis, and treatment of cancer through innovative and collaborative research efforts. Explore our wide range of services designed to support your cancer research initiatives.


Cancer Research: Working Towards a Cancer-Free Future

  • Unveiling the Mysteries of Cancer: Our expert team is dedicated to understanding the complexities of cancer biology. Together, we can contribute to groundbreaking research that aims to revolutionize our understanding of cancer. Your goals, combined with our researchers’ expertise, could unlock new treatments and improve lives by advancing cancer care and prevention.
  • Advancing Genomic Research: We are committed to advancing research in cancer genomics, exploring the genetic mutations and variations that drive cancer development. Our collaborative efforts can lead to innovations in precision medicine, targeted therapies, and personalized treatment plans, bringing us closer to eradicating cancer.
  • Innovating in Early Detection: Our focus on early detection aims to identify cancer at its earliest and most treatable stages. By combining your goals with our state-of-the-art technologies, we can develop new diagnostic tools and screening methods, ensuring timely interventions and better patient outcomes.
  • Transforming Immunotherapy: Our immunotherapy team is at the forefront of developing and testing new immune-based treatments for cancer. By harnessing your goals and our expertise, we can identify and validate novel therapeutic targets, translating research into effective immunotherapies that improve survival rates and quality of life.
  • Exploring the Frontiers of Tumor Biology: We dive deep into understanding the biology of tumors, including the tumor microenvironment, metastasis, and resistance mechanisms. Through collaborative research efforts, we aim to uncover the underlying mechanisms of cancer progression and develop strategies to overcome therapeutic resistance.
  • Enhancing Cancer Treatment: Our commitment to enhancing cancer treatment includes developing new chemotherapy drugs, radiation therapies, and combination treatments. By working together, we can create more effective and less toxic treatment options that improve patient outcomes and quality of life.
  • Personalizing Cancer Care: With a focus on personalized medicine, our research aims to tailor cancer treatments based on individual genetic and molecular profiles. By integrating your goals with our cutting-edge approaches, we can develop personalized therapies that maximize efficacy and minimize side effects, ensuring optimal cancer care for every patient.
  • Collaborating for a Cancer-Free Future: Join us in our mission to work towards a cancer-free future. By partnering with our dedicated researchers, you can be at the forefront of cancer research, driving innovations that improve survival rates and enhance the quality of life for cancer patients worldwide. Together, we can make a significant impact in the fight against cancer.

Our Cancer Research Strategies

1. Molecular and Cellular Oncology

  • Gene Expression Analysis:
    • Techniques: qPCR, RNA-Seq, microarray.
    • Applications: Investigate gene expression profiles in cancer cells and tissues.
  • Protein Analysis:
    • Methods: Western blot, ELISA, mass spectrometry.
    • Goal: Study protein expression, modifications, and interactions.

2. Cancer Genomics and Epigenomics

  • Next-Generation Sequencing (NGS):
    • Services: Whole genome, exome, and targeted sequencing.
    • Purpose: Identify genetic mutations and variations associated with cancer.
  • Epigenetic Profiling:
    • Techniques: DNA methylation analysis, ChIP-Seq.
    • Focus: Explore epigenetic modifications that influence cancer progression.

3. Immuno-Oncology

  • Immune Profiling:
    • Methods: Flow cytometry, multiplex cytokine assays.
    • Objective: Characterize immune cell populations and their functions in the tumor microenvironment.
  • Checkpoint Inhibitor Studies:
    • Services: In vitro and in vivo assays to evaluate the efficacy of immunotherapies.
    • Aim: Develop and optimize novel cancer immunotherapies.

4. Tumor Biology and Microenvironment

  • 3D Cell Culture and Organoids:
    • Technologies: Spheroid and organoid cultures.
    • Applications: Model tumor growth and drug response in a 3D context.
  • Tumor Microenvironment Studies:
    • Focus: Investigate interactions between cancer cells and their surrounding stromal and immune cells.

5. Preclinical and Translational Research

  • Animal Models:
    • Models: Xenograft, syngeneic, and genetically engineered mouse models (GEMMs).
    • Purpose: Evaluate tumor growth, metastasis, and therapeutic response.
  • Biomarker Discovery:
    • Techniques: Proteomics, metabolomics, and genomics.
    • Goal: Identify biomarkers for cancer diagnosis, prognosis, and therapy monitoring.
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