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BONE REGENERATION, STRENGTH & INFECTION MITIGATION
Orthopaedic implants have revolutionised the way we treat musculoskeletal injuries and conditions. However, challenges such as poor biocompatibility, wear and tear, infection risk and mechanical failure still persist, affecting the longevity and effectiveness of implants. NANOARC’s Biomimetic Technologies in Nano-Orthopaedics is at the forefront of solving these issues by leveraging advanced nano-engineering solutions designed to mimic the natural properties of biological tissues.
At NANOARC, we are committed to advancing orthopaedic care by addressing the critical challenges faced by implant manufacturers. Through our ORTHO-Q nanoadditives, we provide cutting-edge solutions designed to help manufacturers achieve the highest standards in biocompatibility, wear resistance, infection prevention and mechanical durability, ultimately enhancing the performance and longevity of orthopaedic implants.
1. BIOCOMPATIBILIT & OSSEOINTEGRATION
1. BIOCOMPATIBILIT & OSSEOINTEGRATION
CHALLENGE: Traditional implants often struggle to integrate effectively with bone and surrounding tissue, resulting in complications such as rejection, poor healing or failure.
OUR SOLUTION: With ORTHO-QTM nanoadditives, implant surfaces are enhanced to promote superior osseointegration. These additives mimic the natural microstructure of bone, facilitating better bone growth onto the implant’s surface and fostering a stronger, more natural bond. By integrating nano-sized materials, ORTHO-Q ensures that implants achieve long-lasting stability and compatibility with the body’s biological processes.
2. WEAR & TEAR RESISTANCE
2. WEAR & TEAR RESISTANCE
CHALLENGE: Friction between the implant and bone leads to wear debris, causing inflammation, osteolysis and eventual implant failure.
OUR SOLUTION: ORTHO-Q nanoadditives are engineered to optimise wear resistance by creating nano-textured surfaces that reduce friction. This design significantly lowers wear rates, mimicking the smoothness of natural cartilage and thus extending the lifespan of the implant while minimising debris formation.
3. INFECTION PREVENTION
3. INFECTION PREVENTION
CHALLENGE: Infections from biofilm formation on implant surfaces are one of the leading causes of complications and revision surgeries.
OUR SOLUTION: ORTHO-Q nanoadditives incorporate antibacterial and antifungal properties that are seamlessly integrated into the implant’s surface. These advanced coatings resist microbial growth and prevent the adhesion of harmful bacteria in both illuminated and dark operation conditions, significantly reducing the risk of infection and enhancing recovery times for patients.
4. MECHANICAL STRENGTH & DURABILITY
4. MECHANICAL STRENGTH & DURABILITY
CHALLENGE: Orthopaedic implants are exposed to significant mechanical stress, which can lead to fatigue and failure, especially in weight-bearing joints.
OUR SOLUTION: ORTHO-Q nanoadditives are crafted to enhance the mechanical strength and durability of implants. By optimising load distribution at the nanoscale, our additives improve the overall toughness of the material, making implants more resistant to fatigue and ensuring they perform under the stress of daily use.
5. CUSTOM FIT & DESIGN FLEXIBILITY
5. CUSTOM FIT & DESIGN FLEXIBILITY
CHALLENGE: Each patient’s anatomy is unique and traditional implants may not provide a perfect fit, leading to complications.
OUR SOLUTION: Through the use of ORTHO-Q nanoadditives, manufacturers can optimise the design and manufacturing of customisable implants, allowing for a perfect fit tailored to the specific anatomical needs of each patient. Our solutions enhance precision, reducing complications and improving the overall success of the implant.
6. REDUCING REVISION SURGERIES
6. REDUCING REVISION SURGERIES
CHALLENGE: Implant failure often necessitates revision surgeries, which are more complex and carry higher risks.
OUR SOLUTION: ORTHO-Q nanoadditives contribute to the long-term performance of implants, ensuring they maintain their integrity over time. With enhanced durability, self-healing capabilities and resistance to mechanical wear, our additives reduce the need for revision surgeries and improve the overall lifespan of the implant.
7. COST-EFFECTIVENESS
7. COST-EFFECTIVENESS
CHALLENGE: The high costs associated with advanced implant technologies can limit access for many patients.
OUR SOLUTION: ORTHO-Q nanoadditives offer significant cost-effectiveness by increasing the longevity and reliability of implants, thereby reducing the frequency of revision surgeries and complications. By enhancing the performance of existing materials, our solutions provide long-term value, lowering overall healthcare costs while improving patient outcomes.
8. ADVANCED MATERIALS & CUTTING-EDGE NANOTECHNOLOGY
8. ADVANCED MATERIALS & CUTTING-EDGE NANOTECHNOLOGY
CHALLENGE: New materials face challenges in terms of regulatory approval, strength and long-term durability.
OUR SOLUTION: ORTHO-Q nanoadditives are meticulously engineered to meet the highest regulatory standards. Our advanced technology integrates seamlessly with existing materials, providing manufacturers with the tools they need to create durable, high-performance implants that are both reliable and compliant with global medical standards.
A NEW ERA IN ORTHOPAEDIC IMPLANT MANUFACTURING
A NEW ERA IN ORTHOPAEDIC IMPLANT MANUFACTURING
At NANOARC, we are proud to lead the way in orthopaedic implant solutions with our ORTHO-Q nanoadditives. By tackling the most pressing challenges in the field — such as biocompatibility, wear resistance, infection prevention, mechanical durability, and customisation. We empower implant manufacturers to create superior products that not only meet but exceed the expectations of healthcare professionals and patients alike.
We invite implant manufacturers to partner with us and leverage the power of ORTHO-Q nanoadditives to develop the next generation of orthopaedic implants. We help drive advancements in implant technology, to improve patient outcomes, reducing complications and shaping the future of orthopaedic care for a healthier tomorrow.
PRODUCTS
PRODUCTS
Payments can be made directly through our website via bank transfer, credit card, cryptocurrency, invoice issuance for a bank transfer.
The Higher the specific surface area (BET) of the nanoparticles, the more effective the nanomaterial and the lower the necessary dose
**Doses can be varied depending on the designated application and functional need.
Products are sold exclusively on our website
SUBSCRIPTION MODEL : Get special rates and free shipping with pre-order purchase subscriptions
QUARTERLY ( 5 % ) | BI-ANNUALLY ( 10 % ) | ANNUALLY ( 15 % )
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ORTHO-Q
ORTHO-Q
NANOARCHITECTURE : ~ 10 nm (0.01 μm) spherical nanoparticles
SURFACE AREA (BET) : 415300 cm²/g
COLOUR : White Nanopowder
DOSAGE IN COMPOSITE : on average 500 – 1000 μg/ml (or 0.5 - 1g per kg of composite mix)
DOSAGE IN COATING : 1000 – 1500 μg/ml
APPLICATIONS : Increase implant compressive strength, anticorrosion, antibacterial protection. Suitable for resin fillings and easy accessibility of ultra-small cracks in bones. Improves mechanical strength of resin fillings and implants
ORTHO-Q I
ORTHO-Q I
NANOARCHITECTURE : Atomically Thin Sheets/Flakes ( < 1 nm Thickness)
SURFACE AREA (BET) : 635200 cm²/g
COLOUR : White Nanopowder
DOSAGE IN COMPOSITE : on average 300 – 700 μg/ml (or 0.3 - 0.7g per kg of composite mix)
DOSAGE IN COATING : 500 – 1000 μg/ml
APPLICATIONS : Increase compressive and tensile strength, anticorrosion, antibacterial and antifungal protection. Suitable for resin fillings and easy accessibility of ultra-small cracks and crevices in bones. Improves mechanical strength of resin fillings and implants
ORTHO-Q II
ORTHO-Q II
NANOARCHITECTURE : Atomically Thin Sheets/Flakes ( < 1 nm Thickness)
SURFACE AREA (BET) : 703000 cm²/g
COLOUR : White Nanopowder
DOSAGE IN COMPOSITE : on average 300 – 700 μg/ml (or 0.3 - 0.7g per kg of composite mix)
DOSAGE IN COATING : 500 – 1000 μg/ml
APPLICATIONS : Drug delivery, osteogenic implant material to promote better adhesion to bone, promote bone growth and repair lesions in bones. Impact-resistant material for composites, grinding media, antimicrobial filter material.
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