Life Science & Tissue Engineering

At Matexcel, we transform scientific vision into tangible biomedical solutions. Our comprehensive service platform supports every stage of development—from early-stage academic research to industrial product validation—delivering the technical precision and scientific rigor you need to advance confidently.

Biocompatibility & Safety Validation

Ensure your materials perform safely and predictably with our rigorous testing suite, trusted by research institutions and medical device innovators worldwide:

• Cytocompatibility Test – Quantify cellular viability, proliferation, and morphology to understand how your materials interact with living systems. You'll need this when screening novel polymers in academic labs, optimizing surface chemistries for industrial prototypes, or ensuring batch-to-batch consistency in manufacturing.
• Hemocompatibility Test – Analyze blood-material interactions including hemolysis, platelet activation, and coagulation response. Critical for developing cardiovascular devices, vascular grafts, or any implant contacting blood—whether you're publishing mechanistic studies or validating a commercial product design.
• Skin Irritation Test – Evaluate dermal safety through standardized in vitro and in vivo sensitization studies. Essential for companies developing wound dressings, dermatological implants, or researchers creating transdermal delivery systems where patient safety is non-negotiable.
• Material Biodegradation Testing – Characterize degradation kinetics, byproduct safety, and mechanical retention under simulated physiological conditions. vital when designing resorbable sutures, orthopedic fixation devices, or tissue engineering constructs where degradation timing determines success.

Custom Scaffold Engineering

Recreate native tissue microenvironments with our advanced manufacturing platforms, offering unmatched architectural control for diverse applications:

• Tissue Engineering Scaffold – Leverage our biomaterial fabrication expertise to produce custom-engineered scaffolds tailored to your research specifications. We offer multi-technique manufacturing—including freeze-drying, electrospinning, and 3D printing—using a comprehensive library of biocompatible polymers (e.g., PCL, PLGA, collagen, gelatin, chitosan). Define your critical parameters: porosity, pore size, mechanical properties, degradation kinetics, and macroscopic geometry.
• Tissue Engineering Scaffold Customization – Collaborate with our engineers to tailor material composition, degradation profiles, and biofunctionalization (e.g., peptide sequences, growth factor loading). Ideal when off-the-shelf products don't match your requirements—whether you're studying tumor microenvironments in a university lab or developing patient-specific implants for clinical translation.
• Electrospinning Scaffold Customization – Fabricate nanofibrous structures with precise fiber diameter control (50–1000 nm), alignment patterns, and multi-layer composites. Researchers use this for mimicking ECM topography in neural regeneration studies; industry partners leverage it for high-performance wound dressings and filtration membranes where nanoscale architecture is critical.

Research-Grade Implant Development

Bridge the gap from concept to preclinical evaluation with our Research Use Biomedical Implant Customization service. We transform your designs into sterile, traceable prototypes through our quality-managed development pathway. University spinouts rely on us to refine device geometry before investor pitches; medtech companies partner with us for small-batch production of pilot study implants; research consortia depend on our standardized devices for multi-site comparative studies. When you need professional-grade implants that reflect final specifications—not lab-made prototypes—this service accelerates your translational timeline.

Preclinical In Vivo Validation

Advance beyond the bench with our In Vivo Implantation Animal Testing services, delivering robust performance data in physiologically relevant environments. Our experienced veterinary surgical team performs precise implantations—from subcutaneous screening to complex orthotopic defect models—with comprehensive health monitoring and endpoint analysis including histopathology, micro-CT, and mechanical testing.

When you need this service:

• Understanding real-time degradation and tissue integration kinetics that can't be simulated in vitro
• Generating high-impact publication data demonstrating regenerative efficacy
• Comparing material candidates for internal R&D decision-making
• Supporting grant applications with definitive proof-of-concept evidence

Academic labs value our expertise for reproducible, publication-quality studies; industry partners trust our data for portfolio prioritization and development milestones.

Why Partner with ME?

• Scientific Depth: Our team's cross-disciplinary expertise in polymer chemistry, cell biology, and surgical models ensures insightful experimental design and data interpretation
• Flexible Collaboration: Whether you need a single validation test or a multi-year development program, we adapt our engagement model to your project's scope and budget
• Quality Without Compromise: ISO-accredited labs, ethical animal care standards, and full traceability documentation provide confidence at every step
• Commercial Translation Focus: We understand both the curiosity-driven nature of academic research and the performance demands of industrial product development

Let Matexcel accelerate your journey from scientific discovery to biomedical innovation—engineering solutions that advance regenerative medicine and improve patient outcomes.

For Research or Industrial Raw Materials, Not For Personal Medical Use!