Pericardium
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The Pericardial Membrane is derived from the membrane surrounding the cardiac muscle and features two smooth surfaces with a thickness ranging from 0.3 to 0.8 mm. Following physical and chemical treatment and the process of decellularization, the product becomes free from any immunological reactions or immune system stimulation and is provided to surgeons in a lyophilized form.
Product Description
Features and Indications
- Epithelial cell direction in different types of implant covers
- Anatomic space separation in various types of fractures and cleft palates
- Fixation and prevention from washing out during bone powder use
- GBR and GTR
Product Code | Product Name | Therapeutic Area |
|---|---|---|
5010041 | Lyophilized Pericardium Membrane T=<0.5 mm S:10×15 mm | Dental |
5010042 | Lyophilized Pericardium Membrane T=<0.5 mm S:15×20 mm | Dental |
5010043 | Lyophilized Pericardium Membrane T=<0.5 mm S:20×30 mm | Dental |
5010044 | Lyophilized Pericardium Membrane T=<0.5 mm S:20×40 mm | Dental |
5010045 | Lyophilized Pericardium Membrane T>0.5 mm S:10×15 mm | Dental |
5010046 | Lyophilized Pericardium Membrane T>0.5 mm S:15×20 mm | Dental |
5010047 | Lyophilized Pericardium Membrane T>0.5 mm S:20×30 mm | Dental |
5010048 | Lyophilized Pericardium Membrane T>0.5 mm S:20×40 mm | ِDental |
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The acellular dermis membrane collagen membrane, contains basement membrane on one of its surfaces. It can provide a dense and impenetrable layer against microorganism and pathogen penetration into deeper layers.
So the membrane surface can stay exposed in high-perfused tissue of the oral cavity. The product origin is the collagen membrane (skin dermal layer), which consists of strong collagen type I and III fibers that strengthen the product, and also elastic fibers causing flexibility. This collagen membrane results in product’s unique features.
Freeze-dried bone allograft as Bone grafting such as Cube, Matchstick and Block forms has revolutionized orthopedic and maxillofacial surgeries, offering distinct advantages due to their unique compositions. Cube and Matchstick configurations consist solely of cancellous bone, while block formations comprise a core of cancellous bone enveloped by a cortical surface. These allograft are meticulously processed to decellularization and ensure sterilization. The resulting grafts provide essential structural support and seamlessly integrate with the recipient’s bone, promoting the formation of new bone.
Cube and block bone allografts effectively address osseous deficiencies caused by various conditions, from post-traumatic injuries to degenerative diseases and reconstructive procedures. In dental implantology, they serve as a reliable scaffold for augmenting deficient mandible and maxilla structures and facilitating successful implant placement. Moreover, in reconstruction surgeries, these grafts significantly contribute to restoring maxillofacial and skeletal, enabling patients to regain both physical form and function.
Ongoing refinement of bone grafting techniques, along with continued research and innovation, will further enhance the applications and outcomes of cube and block bone allografts, elevating the standard of care in orthopedic and maxillofacial surgeries.
Particulated bone allografts, derived from human bone tissue, are biomaterials used to fill bone defects and promote bone regeneration. They come in various particle sizes, each offering unique properties and applications.
Powdered allografts, the smallest particles, possess high integration capabilities and are suitable for small defects. Granule and crushed allografts are larger in size, serving as a foundation for bone regeneration and can be used as fillers or for augmentation.
Chip allografts, the largest among particulated bone grafts, provide a bone scaffold, making them ideal for larger defects or augmentation.
