Inion GTR™ Biodegradable
Transcription
Inion GTR™ Biodegradable
Inion GTR™ Biodegradable Membrane System • Improved space maintenance • Easily adaptable due to plasticizer • Preclinical studies suggested accelerated bone healing • 3 layer structure providing stabilization and cell occlusion • Safe, synthetic & biodegradable Inion GTR™ Biodegradable Membrane System For Dental Regenerative Surgery 1. The Concept of GTR/GBR 1.1 Guided tissue regeneration (GTR) 1.2 Guided bone regeneration (GBR) The aim of modern treatment for periodontal disease is to Because bone tissue heals more slowly than mucoperiosteal regenerate lost periodontal and supporting bone tissues. tissue in the mouth, the faster healing soft tissue would prevent Selected cell populations residing in the periodontal tissues the bone from maximizing its full healing potential following a can produce new periodontal soft tissue, cementum and surgical procedure. The concept of guided bone regeneration alveolar bone tissue, provided that these populations are given (GBR) treatment suggests that if a biocompatible membrane is the opportunity to occupy a fresh periodontal wound. placed between the soft tissue and bone, the membrane acts Treatment includes the use of bone grafts, bone substitutes as a barrier. This barrier prevents the down-growth of the soft with GTR-membranes or of membranes alone. With guided tissue, connective and epithelial cells into the underlying bone tissue regeneration (GTR, membrane therapy), the faster during its healing period. GBR is used in pre- and peri-implant growing connective tissue and epithelial cells are prevented surgery, bony defects and extraction sockets. from migrating into the wound and space is maintained between the membrane and bone, allowing time for periodontal ligament, cementum and bone to repopulate and mature in the defect area. 2. Inion GTR™ Biodegradable Membrane System |PLA/PDLA/PGA/TMC-based guided tissue regeneration system| 2.1 Intended use membranes. The membrane provides a barrier over 8-12 weeks The Inion GTR Biodegradable Membrane is intended to be in vivo, and resorbed thereafter. The plasticizer provided used as a barrier membrane in dental guided tissue temporarily softens the membrane and is used to facilitate the regeneration (GTR) and guided bone regeneration (GBR) handling and shaping of membranes. procedures. Inion GTR Biodegradable Membrane System implants are sterile, non-collagenous and non-pyrogenic. 2.2 System description Inion GTR Biodegradable Membrane System consists of 2.3 Indications composed of L-lactic, D-lactic, glycolic acid and trimethylene for the surgical treatment of periodontal defects (e.g. class II carbonate. These polymers degrade in vivo by hydrolysis into furcation defects, intrabony defects and recession type defects), alpha-hydroxy acids that are metabolised by the body. for pre-implant and peri-implant surgery and for covering bone Inionco-polymers Dental otsikointia The Inion GTR Biodegradable Membrane System is indicated membranes and tacks made of biodegradable The biodegradable Inion GTR tacks are used to fasten the 2 defects and empty sockets. 3 Inion’s Biomaterial Advantage The need for removal surgery is eliminated by using Inion GTR-membranes. Biodegradable materials are safe and synthetic, without any of the potential problems associated with collagen membranes. The polymers used in the Inion membranes and tacks degrade in vivo by hydrolysis into alpha- Membrane TMC LPLA PGA Trimethylene L-lactide Polyglycolide Carbonate hydroxy acids that are metabolised by the body into CO2 and Tack water. Since the 1970s, the excellent biocompatibility of PLA TMC DLPLA has been documented in hundreds of publications. The Trimethylene D,L-lactide biocompatibility of co-polymers of polylactic and polyglycolic Carbonate acids (PLGA) has been shown to be comparable to that of PLA. These same polymers have been clinically used for more than 30 years in biodegradable sutures and osteosynthesis devices. LEIKKAUSKUVA 1 LEIKKAUSKUVA 2 LEIKKAUSKUVA 3 3 The Benefits of Inion GTR™ Biodegradable Membrane System Design criteria* 1 Inion Benefit 1 Space maintenance • Improved space maintenance and membrane geo characteristics. • The Inion GTR-membrane is the first GTR-memb but becomes rigid in-situ. Space maintenance 2 2 Cell exclusion Cell exclusion 3 • The 3 layer (porous/dense/porous) structure of t designed to prevent the gingival cells from penetr 3 Inion Biomaterial benefit • Biodegradable: no removal surgery needed • Safe and synthetic biomaterials (eliminates the ris from materials of human or animal origin). Biocompatibility 4 4 Tissue integration Tissue integration 5 Preclinical histological analysis of defects treated in-growth of cells into the membrane surface. 5 Ease of use 6 Ease of use • For easy handling and reduced inventory, the Inio standard size (30 x 40 mm) together with three d • The membrane is easy to cut to the desired shape • The membrane is easily adapted for optimal plac • Membranes can be quickly attached with the tack sutures can be used in combination with Inion GT • It is possible to drill directly through the membran • Fully reversible 3 layer structure. 6 Biological activity Biological activity 4 * Tatakis et al. Periodontology 2000, vol. 19, 1999 59-73. In vivo results with 6 mm diameter cranial defects bone healing in defects treated with Inion GTR-m control defects (B). Shown on the right are repres harvested after 4 weeks. In the histosections, bon to the Goldner-Trichrome staining. Further prec observation. 1 ane geometry due to unique material R-membrane that is soft when applied, Non-Spacemaking material Spacemaking material 2 ture of the Inion GTR-membrane is m penetrating the membrane. Cross-sectional cut showing 3 layer structure of the membrane High magnification showing surface morphology of the membrane ed es the risk of disease transmission ). 4 s treated with Inion GTR-membrane shows face. Ingrowth of cells Inion GTR-membrane Bone 5 the Inion GTR-membrane is supplied in one three different shaping templates. ed shape. mal placement. the tacks – no suturing is necessary, but nion GTR-membranes, if needed. membrane, for immediate tack placement. 6 A B al defects did show a significant acceleration of GTR-membrane (A) when compared to untreated re representative middle sections of defects ons, bone is shown in green and osteoid in red due her preclinical studies are ongoing to confirm this 5 5. Preparation and fastening of the Inion GTR-membrane 5.1 Preparation of the membrane 5.2 Fastening a membrane with tacks 1. Start the preparation of the membrane when starting the 1. The tacks are placed in a plastic dispenser. Place the surgical procedure. dispenser to the table and open the dispenser carefully to The membrane and templates are packed in a plastic avoid dislodging any of the tacks. Take the tack applicator, blister. After opening the blister, remove the template from press it firmly on to the tack head to fasten the tack to the the packaging and pour all the plasticizer from bottle onto applicator. the membrane (cavity A). The membrane must be fully immersed in the plasticizer for 20-30 seconds (longer 2. Place the shaped membrane in the desired position. immersion time may reduce mechanical properties). 3. Drill a hole through the membrane into the bone. 2. Pick-up the membrane using forceps and hold vertically to allow the excess plasticizer to drain away. Wipe any remaining drops of plasticizer from the lower edge of the 4. While keeping the membrane in position, take the loaded tack applicator and press the tack firmly into the hole. membrane. Thereafter place the membrane in cavity B of the blister. 5. Angle the tack applicator slightly to one side to release it from the tack. 3. Let the membrane dry for 5-10 minutes. Then rinse the membrane shortly with sterile water. Now the membrane is ready for immediate use. 4. Trim the membrane to the desired shape using sterile surgical scissors. The templates are provided as an aid to shaping. Discard the templates after use. When exposed to moisture, as in the oral cavity, the membrane starts to stiffen and will reach maximum stiffness after 30 minutes. The stiffness lasts as long as the membrane remains intact. 6 7 2/2004 3654 30000053 MBR-2000 1 membrane (30x40 mm), 3 single-use templates, 1 bottle of plasticizer TCK-2001 6 tacks, 1 drill, 1 tack applicator, single-use TCK-2003 6 tacks INS-9051 Drill for tacks INS-9052 Tack applicator, reusable The company The core competence of Inion lies in its knowledge of surgical biodegradable polymer applications and production processes. Inion’s product concept is to provide comprehensive, high-quality solutions for surgeons. Inion products are characterized by safety, efficiency, speed and ease of use and competitive pricing. “Our mission is to create safe, innovative and efficient surgical solutions that ensure excellent surgical care.“ Inion Ltd • Lääkärinkatu 2 Inion Inc. FIN-33520 Tampere, FINLAND Americas Corporate Office Toll-free telephone (866-Inion-US) tel +358-3-2306 600 • fax +358-3-2306 601 800 Research Parkway, Suite 380 Toll-free fax (866-Inion-BIO) email: info@inion.com • internet: www.inion.com Oklahoma City, OK 73104 tel (405) 236-0017 • fax (405) 236-0634 / Kirjapaino Örhling The products