Polycaprolactone Microspheres
Advanced Solutions for Tissue Engineering and Drug Delivery

Our Polycaprolactone (PCL) microspheres are meticulously designed spherical particles with an average size ranging from 25 to 50 micrometers. Made from high-quality polycaprolactone, these microspheres offer exceptional biocompatibility, biodegradability, and a unique porous structure, making them ideal for a wide range of biomedical applications. The porous architecture of these microspheres provides an excellent platform for cell adhesion, growth, and proliferation, making them particularly valuable for tissue engineering and regenerative medicine.
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Key Features

Material Composition

100% pure polycaprolactone for consistent performance.

Particle Size

Uniform distribution with an average diameter of 25–50 µm, optimized for cell interactions.

Porous Structure

Supports cell adhesion and growth, enhancing tissue regeneration.

Biocompatibility

Safe for various biomedical applications.
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Applications

Tissue Engineering

Serves as scaffold materials that promote cell adhesion and proliferation, essential for regenerating tissues such as skin and bone.

Drug Delivery Systems

Capable of encapsulating various bioactive substances enabling controlled and sustained release profiles tailored to therapeutic needs.
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Advantages

Natural and Safe

Derived from biocompatible polymers, minimizing adverse reactions.

Durability

Long-lasting effects through the incorporation of polycaprolactone microspheres.

Adaptable

Suitable for diverse patient needs and treatment areas.

Hydrophilic Excellence

Maximized hydration for superior results.
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Product Variants

Blank Microspheres

Unloaded particles suitable for various research and development purposes.

Loaded Microspheres

Customizable with specific bioactive compounds to achieve targeted therapeutic goals.
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Biologically derived Growth Factors (e.g. VEGF) have a very short half-life which makes them susceptible to long fabrication method. Polycaprolactone Microspheres can be an excellent carrier for such biological ingredients. Our propriety synthesis method can enhance the longevity of such ingredient so that they can last time spending synthesis processes such as electrospinning or 3D printing. This product is available both in blank configuration (without loaded ingredients) or pre-loaded with your specified biological or therapeutic compounds.

These particles average between 25 to 50 micrometers in size. Crafted from high-quality polycaprolactone, these microspheres exhibit exceptional biocompatibility, biodegradability, and a unique porous structure. The porous architecture of these microspheres provides an excellent platform for cell attachment, growth, and proliferation, making them particularly valuable in tissue engineering and regenerative medicine.

Blank PCL Microsphers

These microparticles serve as versatile fillers and can be utilized in various applications. Notably, they are used in our Hydrogel Skin Filler product, enhancing its texture and performance.

PCL Microsphers Loaded with hydroxyapatite Nanoparticles

This combination promotes excellent osteoconductivity, making it suitable for bone tissue engineering.

PCL Microsphers Loaded with Doxorubicin

Designed for controlled drug release, these microparticles can be utilized in cancer therapy to improve treatment outcomes.

PCL Microsphers Loaded with BMP-2 Protein

These microparticles support bone formation and regeneration, offering promising results in various reconstructive procedures

PCL Microsphers Loaded with Fe3O4 Nanoparticles

These particles offer magnetic properties, making them ideal for targeted drug delivery and imaging applications.

PCL Microsphers Loaded with Magnesium Hydroxide Nanoparticles

Known for their biocompatibility and potential to enhance bone regeneration, these microparticles are perfect for orthopedic applications

Our polycaprolactone microspheres provide a versatile platform for advancing biomedical research and therapeutic applications, ensuring reliable performance in both tissue engineering and drug delivery solutions.