This document provides information on regenerative materials from the company SYMBIOS. It discusses their portfolio of bone graft and membrane products including allografts, xenografts, and synthetics. The line includes products for membranes, bone, and soft tissue regeneration made from materials like collagen, bovine bone, and hydroxylapatite. Information is provided on individual products, their properties, and benefits for predictable tissue regeneration. Partnerships and processing methods are summarized to assure safety, quality, and clinical efficacy.
This document discusses progressive bone loading for dental implants. It begins with an introduction and table of contents. Then it discusses concepts like bone density classifications, rationale for progressive loading based on studies showing bone adapts to stress over time. It outlines elements of progressive loading protocols including extended healing times based on bone density, use of provisional restorations to gradually load bone, and diet restrictions. Studies supporting progressive loading show less crestal bone loss and increased bone density around loaded implants. The conclusion is that progressive loading aims to strengthen bone and reduce risk of implant failure.
This document discusses ridge augmentation procedures for alveolar bone regeneration prior to dental implant placement. It covers principles of guided bone regeneration using barrier membranes and bone grafts/substitutes to promote new bone growth. Diagnostic factors and classification systems for bone defects are presented. Techniques for horizontal and vertical ridge augmentation are described, including ridge preservation, socket grafting, ridge splitting, and onlay block grafts. Emerging technologies using growth factors, cell therapies, advanced scaffold materials and computer-guided designs are also mentioned. The goal of these procedures is to generate sufficient bone volume and quality for safe, long-term stable implant therapy.
Osseodensification is a novel bone preservation technique that uses specially designed densifying burs to compress and densify bone at the implant site rather than removing it. This increases primary stability and bone density compared to conventional drilling. The densifying burs cut bone in one direction and densify it in the other, creating an autografted layer along the osteotomy walls. Studies have found osseodensification enhances implant stability, reduces treatment time, and facilitates placement in low-density bone or ridge expansion. However, it is an expensive technique that requires specialized burs and training.
The main concept of osseodensification technique is that the drill designing creates an environment which enhances the initial primary stability through densification of the osteotomy site walls by means of autografting of bone.
JOURNAL CLUB PRESENTATION IN PROSTHODONTICS on biologically oriented preparat...NAMITHA ANAND
1) A new digital technique is described for reproducing the subgingival part of a tooth prepared using the biologically oriented preparation technique (BOPT) which involves no finish line, along with the adjacent dentogingival sulcus.
2) Key steps involve double probing to measure bone levels, supragingival and subgingival tooth preparation using a diamond bur, and cementing a provisional restoration to shape the gingiva.
3) Multiple intraoral scans are taken at different stages to digitally capture the prepared tooth and surrounding gingiva both with and without the provisional in place. These scans are used to create a "virtual gingiva" and accurately align the digital model.
Regenerative techniques for periodontal therapyEnas Elgendy
This document discusses graft materials and procedures for restoring periodontal osseous defects, as well as the principles of guided tissue regeneration (GTR). It describes the potential of autografts, allografts, and xenografts to promote osteogenesis, osteoinduction, and osteoconduction. The challenges of transplanting materials into periodontal defects are outlined. Techniques for GTR involve placing barriers to exclude epithelium and favor regeneration. Membranes can be non-resorbable like ePTFE or resorbable like collagen, polyglycolic acid, or polylactic acid polymers. Proper technique and postoperative care are important for successful regeneration.
This document discusses the biomechanics of dental implants. It explains that osseointegration is the direct bonding of bone to implant surfaces. Studying biomechanics is important because implants must withstand stresses from chewing forces. Implant failures can occur early during healing or later under loading. Failures result from overloading, infection or inadequate bone. Biomechanics applies engineering principles to dental problems. Forces during chewing create both vertical and horizontal stresses on implants. Key biomechanical factors for implants are inclination, preload, material properties, design, and surrounding bone quality and quantity.
This document provides an overview of resective osseous surgery techniques. It discusses the anatomical forms of bone, osteoplasty and ostectomy procedures, surgical approaches, and techniques. Osteoplasty involves reshaping bone without removing tooth-supporting bone through techniques like grooving and blending. Ostectomy involves removing tooth-supporting bone to eliminate osseous deformities. Specific techniques like horizontal grooving, scribing, and hand instrumentation are described. Post-operative maintenance and expected osseous changes are also summarized.
This document discusses progressive bone loading for dental implants. It begins with an introduction and table of contents. Then it discusses concepts like bone density classifications, rationale for progressive loading based on studies showing bone adapts to stress over time. It outlines elements of progressive loading protocols including extended healing times based on bone density, use of provisional restorations to gradually load bone, and diet restrictions. Studies supporting progressive loading show less crestal bone loss and increased bone density around loaded implants. The conclusion is that progressive loading aims to strengthen bone and reduce risk of implant failure.
This document discusses ridge augmentation procedures for alveolar bone regeneration prior to dental implant placement. It covers principles of guided bone regeneration using barrier membranes and bone grafts/substitutes to promote new bone growth. Diagnostic factors and classification systems for bone defects are presented. Techniques for horizontal and vertical ridge augmentation are described, including ridge preservation, socket grafting, ridge splitting, and onlay block grafts. Emerging technologies using growth factors, cell therapies, advanced scaffold materials and computer-guided designs are also mentioned. The goal of these procedures is to generate sufficient bone volume and quality for safe, long-term stable implant therapy.
Osseodensification is a novel bone preservation technique that uses specially designed densifying burs to compress and densify bone at the implant site rather than removing it. This increases primary stability and bone density compared to conventional drilling. The densifying burs cut bone in one direction and densify it in the other, creating an autografted layer along the osteotomy walls. Studies have found osseodensification enhances implant stability, reduces treatment time, and facilitates placement in low-density bone or ridge expansion. However, it is an expensive technique that requires specialized burs and training.
The main concept of osseodensification technique is that the drill designing creates an environment which enhances the initial primary stability through densification of the osteotomy site walls by means of autografting of bone.
JOURNAL CLUB PRESENTATION IN PROSTHODONTICS on biologically oriented preparat...NAMITHA ANAND
1) A new digital technique is described for reproducing the subgingival part of a tooth prepared using the biologically oriented preparation technique (BOPT) which involves no finish line, along with the adjacent dentogingival sulcus.
2) Key steps involve double probing to measure bone levels, supragingival and subgingival tooth preparation using a diamond bur, and cementing a provisional restoration to shape the gingiva.
3) Multiple intraoral scans are taken at different stages to digitally capture the prepared tooth and surrounding gingiva both with and without the provisional in place. These scans are used to create a "virtual gingiva" and accurately align the digital model.
Regenerative techniques for periodontal therapyEnas Elgendy
This document discusses graft materials and procedures for restoring periodontal osseous defects, as well as the principles of guided tissue regeneration (GTR). It describes the potential of autografts, allografts, and xenografts to promote osteogenesis, osteoinduction, and osteoconduction. The challenges of transplanting materials into periodontal defects are outlined. Techniques for GTR involve placing barriers to exclude epithelium and favor regeneration. Membranes can be non-resorbable like ePTFE or resorbable like collagen, polyglycolic acid, or polylactic acid polymers. Proper technique and postoperative care are important for successful regeneration.
This document discusses the biomechanics of dental implants. It explains that osseointegration is the direct bonding of bone to implant surfaces. Studying biomechanics is important because implants must withstand stresses from chewing forces. Implant failures can occur early during healing or later under loading. Failures result from overloading, infection or inadequate bone. Biomechanics applies engineering principles to dental problems. Forces during chewing create both vertical and horizontal stresses on implants. Key biomechanical factors for implants are inclination, preload, material properties, design, and surrounding bone quality and quantity.
This document provides an overview of resective osseous surgery techniques. It discusses the anatomical forms of bone, osteoplasty and ostectomy procedures, surgical approaches, and techniques. Osteoplasty involves reshaping bone without removing tooth-supporting bone through techniques like grooving and blending. Ostectomy involves removing tooth-supporting bone to eliminate osseous deformities. Specific techniques like horizontal grooving, scribing, and hand instrumentation are described. Post-operative maintenance and expected osseous changes are also summarized.
This document provides an overview of dental implants, including:
1. It describes the history and development of dental implants beginning with Brånemark's pioneering work in osseointegration in the 1950s and 1960s.
2. It classifies and describes different types of dental implants based on their placement, materials used, and treatment options provided, including root form, blade, cylindrical, screw-shaped, and subperiosteal implants.
3. It discusses the biological aspects and design considerations of dental implants, focusing on macrodesign including implant geometry, and microdesign including surface characteristics and modifications that enhance bone apposition.
Platform switching involves using a smaller diameter abutment on a larger diameter implant. This shifts the implant-abutment junction inward and away from the crestal bone. According to the document, platform switching reduces crestal bone loss in the following ways: 1) It shifts the inflammatory cell infiltrate inward, decreasing its effect on the crestal bone. 2) It maintains the biological width between the implant and bone. 3) It decreases stress levels in the peri-implant bone by shifting the stress concentration area away from the bone-implant interface. The document discusses the concept, history, advantages, and limitations of platform switching.
Regeneration is the process of renewal and restoration that allows organisms to recover from damage. In the context of periodontal regeneration, it refers to reproducing the lost periodontal complex including cementum, periodontal ligament, and alveolar bone. This document discusses various techniques used to achieve periodontal regeneration, including root biomodification using chemicals like citric acid and tetracycline to expose collagen and promote new attachment, use of barrier membranes to prevent epithelial downgrowth and allow selective repopulation of cells, and biodegradable membranes made of collagen or polylactic acid. While regeneration is the goal, often the outcome is repair through replacement of tissues by scar or bone fill.
Peri-implantitis is an inflammatory disease affecting tissues surrounding dental implants, characterized by bone loss. It is caused by bacterial infection from periodontal pathogens like Porphyromonas gingivalis. Risk factors include a history of periodontitis, smoking, poor oral hygiene and occlusal trauma. Diagnosis involves assessing bleeding, suppuration and bone loss clinically and radiographically. Treatment may involve non-surgical approaches like antibiotics and cleaning, or surgical therapies like resection and regeneration to reduce bone loss and support tissue reattachment. Preventative maintenance through professional cleanings and addressing risk factors is important to avoid peri-implantitis.
This article compares three-dimensional alterations following the use of autogenous versus allogeneic onlay grafts for augmentation at single tooth sites. Autogenous bone grafts from the chin or ramus were compared to freeze-dried allogeneic bone grafts. Cone beam computed tomography scans were used to evaluate changes in graft and defect volumes at 6 months. Both graft types resulted in significant bone fill, with autogenous grafts showing slightly more volume gain. Allogeneic grafts require less surgery time and morbidity compared to autogenous grafts.
The document discusses bone density and its importance in implant dentistry. It describes four classifications of bone density (D1-D4) based on macroscopic characteristics, with D1 being the densest. The anterior mandible typically has the densest D1/D2 bone, while the posterior maxilla has the least dense D4 bone. Determining bone density accurately using CT scans is important for developing an appropriate treatment plan and ensuring implant success long-term by avoiding pathological overload conditions.
Epithelial down growth can compromise osseointegration by preventing direct bone-to-implant contact. Modern implant designs and surgical techniques aim to prevent this.
This document discusses osseous surgery and the treatment of bone defects caused by periodontitis. It begins with an overview of normal bone topography and how bone loss from periodontal disease can result in abnormal architectures like interproximal craters and angular bony defects. The rationale for surgical correction of these bone defects is explained, along with the objectives, techniques, and healing process of osseous surgery. Specific challenges like furcation invasions are also addressed. The goal of osseous surgery is to reshape damaged bone in order to reduce pockets and allow for periodontal regeneration.
This document discusses patterns of bone destruction in periodontal disease. It covers various causes of bone loss such as the extension of gingival inflammation, trauma from occlusion, and systemic disorders. Factors that determine bone destruction include normal bone variation, exostoses, buttressing bone formation, and food impaction. Common bone destruction patterns include horizontal loss, vertical defects, intrabony defects of one to three walls, furcation involvement, osseous craters, and ledges. Systemic conditions like osteoporosis and Paget's disease can also cause alveolar bone destruction.
This document provides an overview of bone graft materials and procedures, as well as first stage surgery. It discusses the history of bone grafting, defines common types of grafts like autografts, allografts, xenografts, and alloplasts. Characteristics of ideal graft materials are outlined. The document also examines graft choice considerations, various graft forms, and the biological properties and mechanisms of different materials. First stage surgery is briefly mentioned at the end.
Bone replacement grafts are widely used to promote
bone formation and periodontal regeneration.
Xenografts are grafts shared between different species.
Currently, there are two available sources of xenografts
used as bone replacement grafts in periodontics: bovine
bone and natural coral.
0sseodensification in implants | Densah in implants | Dental Implants surgeri...Dr. Rajat Sachdeva
#Osseodensification is a process that leads to base formation on #implant surface and contributes to# implant secondary stability between bone and dental implant.
It is a new #surgical technique for implant site preperation that could allow to enhance bone density, ridge, width and implant secondary stability.
Call us regarding Dental Treatment:-
Dr. Rajat Sachdeva
+919818894041,01142464041
drrajatsachdeva@gmail.com
Follow us here:-
• Google+ link: https://goo.gl/vqAmvr
• Facebook link: https://goo.gl/tui98A
• Youtube link: https://goo.gl/mk7jfm
• Linkedin link: https://goo.gl/PrPgpB
• Slideshare link : http://goo.gl/0HY6ep
• Twitter Page : https://goo.gl/tohkcI
• Instagram page : https://goo.gl/OOGVig
Learn more:-
• www.sachdevadentalcare.com
• www.dentalclinicindelhi.com
• www.dentalimplantindia.co.in
• www.dentalcoursesdelhi.com
• www.facialaestheticsdelhi.com
Description :
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
This document discusses osseointegration, which is the direct connection between living bone and the surface of a load-bearing dental implant. It provides a historical overview of osseointegration research from ancient times to modern developments. The key aspects covered are the definition of osseointegration, the mechanism and biology behind it, factors that influence successful osseointegration like implant material and design, and stages of the osseointegration process.
The biological fixation determines the longevity of dental implant treatment. It ensures the long term survival of dental implant. Better the osseointegration,higher will be the survival rate
Vertical ridge augmentation is sometimes required for dental implant placement. The presentation looks at various conventional and newer techniques for ridge augmentation in the oral cavity.
1. The functionally generated pathway technique involves recording the paths of tooth movement during excursive jaw motions using wax or other materials.
2. This recording is used to develop the occlusal morphology for dental restorations like crowns, ensuring optimal occlusion during all jaw motions.
3. Studies have found that the functionally generated pathway technique results in restorations with better functional articulation compared to conventional single casting techniques, with less adjustment needed and higher patient satisfaction.
Advanced Bone grafting procedures in dental implant surgeryDr Omfs
This document summarizes an oral presentation on advanced surgical procedures in implant dentistry. It discusses various grafting techniques like alveolar socket preservation, onlay grafting, interpositional grafting, sandwich osteotomy, alveolar ridge split osteotomy, distraction osteogenesis, and sinus lift surgery. It also covers principles of grafting, types of grafts including autogenous, allogenic and xenogenic grafts. Soft tissue management techniques like palatal connective tissue grafting are presented. Complications of grafting procedures and post-operative care are also summarized.
Bone grafts in periodontal therapy
Presenter:
Dr. Rebicca Ranjit
Lecturer
Dept. of Periodontology & Oral Implantology
Historical Review:
In orthopaedics, bone grafts have been used for years.
Beuke and Silver, 1936 used boiled cow bone powder to successfully repair intrabony defects in humans.
Melcher, 1962 used anorganic bone (bovine bone) which were followed for 3 years.
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
Dr. Paudel discussed bone graft substitutes, which are used to fill bone defects and promote healing. They discussed various types including allografts, ceramics, polymers, and composites. Allografts have disadvantages like immune reactions and disease transmission. Ceramics are osteoconductive but not structural. Composites combining materials like ceramics, cells, and growth factors may provide better fusion than any component alone. The ideal bone graft substitute would be osteoconductive, osteoinductive, and provide structural support like autografts, but without their disadvantages.
This document provides an overview of dental implants, including:
1. It describes the history and development of dental implants beginning with Brånemark's pioneering work in osseointegration in the 1950s and 1960s.
2. It classifies and describes different types of dental implants based on their placement, materials used, and treatment options provided, including root form, blade, cylindrical, screw-shaped, and subperiosteal implants.
3. It discusses the biological aspects and design considerations of dental implants, focusing on macrodesign including implant geometry, and microdesign including surface characteristics and modifications that enhance bone apposition.
Platform switching involves using a smaller diameter abutment on a larger diameter implant. This shifts the implant-abutment junction inward and away from the crestal bone. According to the document, platform switching reduces crestal bone loss in the following ways: 1) It shifts the inflammatory cell infiltrate inward, decreasing its effect on the crestal bone. 2) It maintains the biological width between the implant and bone. 3) It decreases stress levels in the peri-implant bone by shifting the stress concentration area away from the bone-implant interface. The document discusses the concept, history, advantages, and limitations of platform switching.
Regeneration is the process of renewal and restoration that allows organisms to recover from damage. In the context of periodontal regeneration, it refers to reproducing the lost periodontal complex including cementum, periodontal ligament, and alveolar bone. This document discusses various techniques used to achieve periodontal regeneration, including root biomodification using chemicals like citric acid and tetracycline to expose collagen and promote new attachment, use of barrier membranes to prevent epithelial downgrowth and allow selective repopulation of cells, and biodegradable membranes made of collagen or polylactic acid. While regeneration is the goal, often the outcome is repair through replacement of tissues by scar or bone fill.
Peri-implantitis is an inflammatory disease affecting tissues surrounding dental implants, characterized by bone loss. It is caused by bacterial infection from periodontal pathogens like Porphyromonas gingivalis. Risk factors include a history of periodontitis, smoking, poor oral hygiene and occlusal trauma. Diagnosis involves assessing bleeding, suppuration and bone loss clinically and radiographically. Treatment may involve non-surgical approaches like antibiotics and cleaning, or surgical therapies like resection and regeneration to reduce bone loss and support tissue reattachment. Preventative maintenance through professional cleanings and addressing risk factors is important to avoid peri-implantitis.
This article compares three-dimensional alterations following the use of autogenous versus allogeneic onlay grafts for augmentation at single tooth sites. Autogenous bone grafts from the chin or ramus were compared to freeze-dried allogeneic bone grafts. Cone beam computed tomography scans were used to evaluate changes in graft and defect volumes at 6 months. Both graft types resulted in significant bone fill, with autogenous grafts showing slightly more volume gain. Allogeneic grafts require less surgery time and morbidity compared to autogenous grafts.
The document discusses bone density and its importance in implant dentistry. It describes four classifications of bone density (D1-D4) based on macroscopic characteristics, with D1 being the densest. The anterior mandible typically has the densest D1/D2 bone, while the posterior maxilla has the least dense D4 bone. Determining bone density accurately using CT scans is important for developing an appropriate treatment plan and ensuring implant success long-term by avoiding pathological overload conditions.
Epithelial down growth can compromise osseointegration by preventing direct bone-to-implant contact. Modern implant designs and surgical techniques aim to prevent this.
This document discusses osseous surgery and the treatment of bone defects caused by periodontitis. It begins with an overview of normal bone topography and how bone loss from periodontal disease can result in abnormal architectures like interproximal craters and angular bony defects. The rationale for surgical correction of these bone defects is explained, along with the objectives, techniques, and healing process of osseous surgery. Specific challenges like furcation invasions are also addressed. The goal of osseous surgery is to reshape damaged bone in order to reduce pockets and allow for periodontal regeneration.
This document discusses patterns of bone destruction in periodontal disease. It covers various causes of bone loss such as the extension of gingival inflammation, trauma from occlusion, and systemic disorders. Factors that determine bone destruction include normal bone variation, exostoses, buttressing bone formation, and food impaction. Common bone destruction patterns include horizontal loss, vertical defects, intrabony defects of one to three walls, furcation involvement, osseous craters, and ledges. Systemic conditions like osteoporosis and Paget's disease can also cause alveolar bone destruction.
This document provides an overview of bone graft materials and procedures, as well as first stage surgery. It discusses the history of bone grafting, defines common types of grafts like autografts, allografts, xenografts, and alloplasts. Characteristics of ideal graft materials are outlined. The document also examines graft choice considerations, various graft forms, and the biological properties and mechanisms of different materials. First stage surgery is briefly mentioned at the end.
Bone replacement grafts are widely used to promote
bone formation and periodontal regeneration.
Xenografts are grafts shared between different species.
Currently, there are two available sources of xenografts
used as bone replacement grafts in periodontics: bovine
bone and natural coral.
0sseodensification in implants | Densah in implants | Dental Implants surgeri...Dr. Rajat Sachdeva
#Osseodensification is a process that leads to base formation on #implant surface and contributes to# implant secondary stability between bone and dental implant.
It is a new #surgical technique for implant site preperation that could allow to enhance bone density, ridge, width and implant secondary stability.
Call us regarding Dental Treatment:-
Dr. Rajat Sachdeva
+919818894041,01142464041
drrajatsachdeva@gmail.com
Follow us here:-
• Google+ link: https://goo.gl/vqAmvr
• Facebook link: https://goo.gl/tui98A
• Youtube link: https://goo.gl/mk7jfm
• Linkedin link: https://goo.gl/PrPgpB
• Slideshare link : http://goo.gl/0HY6ep
• Twitter Page : https://goo.gl/tohkcI
• Instagram page : https://goo.gl/OOGVig
Learn more:-
• www.sachdevadentalcare.com
• www.dentalclinicindelhi.com
• www.dentalimplantindia.co.in
• www.dentalcoursesdelhi.com
• www.facialaestheticsdelhi.com
Description :
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
This document discusses osseointegration, which is the direct connection between living bone and the surface of a load-bearing dental implant. It provides a historical overview of osseointegration research from ancient times to modern developments. The key aspects covered are the definition of osseointegration, the mechanism and biology behind it, factors that influence successful osseointegration like implant material and design, and stages of the osseointegration process.
The biological fixation determines the longevity of dental implant treatment. It ensures the long term survival of dental implant. Better the osseointegration,higher will be the survival rate
Vertical ridge augmentation is sometimes required for dental implant placement. The presentation looks at various conventional and newer techniques for ridge augmentation in the oral cavity.
1. The functionally generated pathway technique involves recording the paths of tooth movement during excursive jaw motions using wax or other materials.
2. This recording is used to develop the occlusal morphology for dental restorations like crowns, ensuring optimal occlusion during all jaw motions.
3. Studies have found that the functionally generated pathway technique results in restorations with better functional articulation compared to conventional single casting techniques, with less adjustment needed and higher patient satisfaction.
Advanced Bone grafting procedures in dental implant surgeryDr Omfs
This document summarizes an oral presentation on advanced surgical procedures in implant dentistry. It discusses various grafting techniques like alveolar socket preservation, onlay grafting, interpositional grafting, sandwich osteotomy, alveolar ridge split osteotomy, distraction osteogenesis, and sinus lift surgery. It also covers principles of grafting, types of grafts including autogenous, allogenic and xenogenic grafts. Soft tissue management techniques like palatal connective tissue grafting are presented. Complications of grafting procedures and post-operative care are also summarized.
Bone grafts in periodontal therapy
Presenter:
Dr. Rebicca Ranjit
Lecturer
Dept. of Periodontology & Oral Implantology
Historical Review:
In orthopaedics, bone grafts have been used for years.
Beuke and Silver, 1936 used boiled cow bone powder to successfully repair intrabony defects in humans.
Melcher, 1962 used anorganic bone (bovine bone) which were followed for 3 years.
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
Dr. Paudel discussed bone graft substitutes, which are used to fill bone defects and promote healing. They discussed various types including allografts, ceramics, polymers, and composites. Allografts have disadvantages like immune reactions and disease transmission. Ceramics are osteoconductive but not structural. Composites combining materials like ceramics, cells, and growth factors may provide better fusion than any component alone. The ideal bone graft substitute would be osteoconductive, osteoinductive, and provide structural support like autografts, but without their disadvantages.
This document discusses biomaterials used in guided bone regeneration (GBR) and guided tissue regeneration (GTR), including various types of bone grafts, membranes, and fixation devices. It provides details on autografts, allografts, xenografts, and alloplasts - outlining their sources, mechanisms of action, advantages, and disadvantages. Second and third generation resorbable barrier membranes are also mentioned.
The defect angle is defined as the angle between the bony wall of a defect and the long axis of the tooth. Defects with angles of 25 degrees or less have been shown to gain more attachment than defects with angles of 37 degrees or more. Anorganic bovine bone (ABB) is a bone graft material that is osteoconductive and readily available. It consists of a hydroxyapatite skeleton that retains a high porous structure similar to cancellous bone and integrates well with host bone. PepGen P-15 is a composite graft material that mimics the organic and inorganic components of autogenous bone through anorganic bovine-derived hydroxyapatite and a synthetic 15 amino acid peptide (P-15) identical
This document provides information about bone grafts and grafting procedures in dentistry. It defines different types of grafts including autografts, allografts, xenografts, and alloplastic grafts. It describes the properties of osteoinduction, osteoconduction, and osteogenesis. It discusses various graft materials like human bone, allogeneic grafts, bone substitutes, and their advantages and disadvantages. The document also outlines objectives and techniques of bone grafting as well as factors affecting the fate of graft materials.
SmartBone: the innovative bone substitute for oral surgery and maxillofacial ...SmartBone
SmartBone is a new hybrid bioactive bone substitute specifically developed for bone regeneration in reconstructive surgery.
SmartBone is produced by combining a bovine mineral bone matrix with bioactive resorbable polymers and cell nutrients. This new concept of composite biomaterial promotes a quick growth of the patient’s cells into SmartBone while its biopolymers degrade, providing perfect integration and osteogenesis.
The document introduces an HTR-PEKK patient-matched implant made of poly-ether-ketone-ketone (PEKK) for cranial reconstruction. PEKK is a high strength material manufactured using additive manufacturing for a customized fit. The implant is available in various thickness and edge options depending on a patient's anatomy for reconstruction following craniectomy.
This document discusses periodontal regeneration techniques. It defines regeneration as the renewal of tissues through growth and differentiation of new cells. Repair restores continuity but does not result in new attachment. New attachment embeds new periodontal ligament fibers into cementum. Autografts use bone from the patient while allografts use bone from others. Various graft materials, membranes, and biological modifiers are discussed that can enhance periodontal regeneration results. Maintaining good oral hygiene is important for sustaining positive outcomes.
Bone graft materials | Bone grafting in Implantation | Periodontal surgeries ...Dr. Rajat Sachdeva
Bone grafting is a surgical procedure that replaces missing bone in order to repair bone fractures that are extremely complex, pose a significant health risk to the patient or fail to heal properly.
It is beneficial in fixing bone that are damaged from trauma.Its also useful for growing bone around an implanted device.
Call us regarding Dental Treatment and Implants Placement:-
Dr. Rajat Sachdeva
+919818894041,01142464041
drrajatsachdeva@gmail.com
Follow us here:-
• Google+ link: https://goo.gl/vqAmvr
• Facebook link: https://goo.gl/tui98A
• Youtube link: https://goo.gl/mk7jfm
• Linkedin link: https://goo.gl/PrPgpB
• Slideshare link : http://goo.gl/0HY6ep
• Twitter Page : https://goo.gl/tohkcI
• Instagram page : https://goo.gl/OOGVig
Learn more:-
• www.sachdevadentalcare.com
• www.dentalclinicindelhi.com
• www.dentalimplantindia.co.in
• www.dentalcoursesdelhi.com
• www.facialaestheticsdelhi.com
This document provides a regulatory rationale for a bone graft substitute called StemGro. It consists of three sentences:
StemGro is a class III medical device intended to treat bone damage from injuries using allogeneic mesenchymal stem cells and growth factors on a biodegradable scaffold. Extensive preclinical testing and a clinical trial under an Investigational Device Exemption are required to pursue U.S. Food and Drug Administration premarket approval. The document outlines the regulatory pathway, clinical evidence, and standards needed to bring StemGro to market in the United States.
This document provides an overview of regenerative materials used in periodontal regeneration. It defines key terms like regeneration, repair, new attachment, and re-attachment. It discusses the results of conventional periodontal procedures and the need for regeneration to support function and aesthetics. The document then examines various regenerative methods including osseous grafts like autografts, allografts, xenografts, and synthetic bone substitutes. It also explores the role of guided tissue regeneration and growth factors in periodontal regeneration.
This document provides information on Pro Osteon, a bone graft substitute product offered by Biomet. It describes the various forms of Pro Osteon, including blocks and granules in resorbable and non-resorbable varieties. Pro Osteon is a porous, hydroxyapatite matrix that is osteoconductive and has a structure and chemistry similar to human bone. It has been used in over 1 million procedures since 1982 to fill bony defects and aid fusion. Pro Osteon is available in different sizes to suit small and large defects and can be combined with autograft or allograft.
This document provides an overview of biomaterials, including their definition, history, examples of applications, and challenges. Key points include:
- Biomaterials are nonviable materials used in medical devices and intended to interact with biological systems. Examples include implants, prosthetics, and tissue scaffolds.
- Biomaterials have evolved from common materials like metals and plastics to more advanced engineered materials. Current research aims to more closely mimic natural tissues.
- Successful biomaterials must be biocompatible, non-toxic, and able to integrate with the body over the long term without rejection or harmful reactions. Matching mechanical properties to tissues is also important.
This document provides an overview of bone grafts and bone graft substitutes. It discusses what grafts and grafting are, as well as different types of bone grafts including autografts, allografts, and bone graft substitutes like demineralized bone matrix and growth factor-based substitutes. It covers the history of bone grafting, theories of graft incorporation, uses of grafts, and advantages and disadvantages of different graft options.
Myanmar Society of Oral Implantology collaborates with Myanmar Dental Association ( Yangon Division) and celebrates Yangon Dental Festival. At this event, as the President of MSOI, I present this topic. References list was collected in separate folder.
Bones are living tissues which undergo remodeling, a process which is important to maintain balance to ensure healthy bone mass density and avoid fractures throughout our lives. Collagen provides the organic framework in bones on which minerals are deposited and also contribute to bone flexibility and strength.
Calcium, vitamin D and protein are the key bone health nutrients. Collagen is essential for improving bone flexibility, which helps bones absorb impact. As a pure protein, Peptan collagen peptides work together with calcium and vitamin to support bone health.
Supplements with collagen peptides can strengthen bones as documented in multiple in vitro, in vivo and clinical trials. Peptan Research has shown that collagen peptides can stimulate the endogenous production of collagen in bone tissue, triggering osteoblasts (bone formation cells) and increasing bone size and firmness.
Download this leaflet to find out more about Peptan's efficacy in supporting bone health.
Regenerative materials/certified fixed orthodontic courses by Indian dental a...Indian dental academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
This document summarizes several articles from The Journal of Implant & Advanced Clinical Dentistry. The first article discusses zygomatic implants and reviews their use for supporting dental prostheses in patients with severe maxillary atrophy. The second article describes a safer technique for lateral sinus augmentation. The third article presents a case report of loading two mandibular implants with a locator attachment for final restoration.
Bone grafts are materials used to replace or augment bone around teeth. They work through osteoconduction, osteoinduction, or osteogenesis. Common grafts used for periodontal defects include autografts obtained from the patient, allografts from other humans, xenografts from other species, and synthetic alloplasts. The document describes techniques for harvesting and placing these grafts to regenerate bone in periodontal defects.
Bone grafts are materials used to replace or augment bone around teeth. They work through osteoconduction, osteoinduction, or osteogenesis. Common grafts used for periodontal defects include autografts obtained from the patient, allografts from other humans, xenografts from other species, and synthetic alloplasts. A graft is selected and placed into debrided periodontal defects to promote new bone formation and regeneration of lost tissues.
The Ultimate Guide in Setting Up Market Research System in Health-TechGokul Rangarajan
How to effectively start market research in the health tech industry by defining objectives, crafting problem statements, selecting methods, identifying data collection sources, and setting clear timelines. This guide covers all the preliminary steps needed to lay a strong foundation for your research.
"Market Research it too text-booky, I am in the market for a decade, I am living research book" this is what the founder I met on the event claimed, few of my colleagues rolled their eyes. Its true that one cannot over look the real life experience, but one cannot out beat structured gold mine of market research.
Many 0 to 1 startup founders often overlook market research, but this critical step can make or break a venture, especially in health tech.
But Why do they skip it?
Limited resources—time, money, and manpower—are common culprits.
"In fact, a survey by CB Insights found that 42% of startups fail due to no market need, which is like building a spaceship to Mars only to realise you forgot the fuel."
Sudharsan Srinivasan
Operational Partner Pitchworks VC Studio
Overconfidence in their product’s success leads founders to assume it will naturally find its market, especially in health tech where patient needs, entire system issues and regulatory requirements are as complex as trying to perform brain surgery with a butter knife. Additionally, the pressure to launch quickly and the belief in their own intuition further contribute to this oversight. Yet, thorough market research in health tech could be the key to transforming a startup's vision into a life-saving reality, instead of a medical mishap waiting to happen.
Example of Market Research working
Innovaccer, founded by Abhinav Shashank in 2014, focuses on improving healthcare delivery through data-driven insights and interoperability solutions. Before launching their platform, Innovaccer conducted extensive market research to understand the challenges faced by healthcare organizations and the potential for innovation in healthcare IT.
Identifying Pain Points: Innovaccer surveyed healthcare providers to understand their difficulties with data integration, care coordination, and patient engagement. They found widespread frustration with siloed systems and inefficient workflows.
Competitive Analysis: Analyzed competitors offering similar solutions in healthcare analytics and interoperability. Identified gaps in comprehensive data aggregation, real-time analytics, and actionable insights.
Regulatory Compliance: Ensured their platform complied with HIPAA and other healthcare data privacy regulations. This compliance was crucial to gaining trust from healthcare providers wary of data security issues.
Customer Validation: Conducted pilot programs with several healthcare organizations to validate the platform's effectiveness in improving care outcomes and operational efficiency. Gathered feedback to refine features and user interface.
Satisfying Spa Massage Experience at Just 99 AED - Malayali Kerala Spa AjmanMalayali Kerala Spa Ajman
Our Spa Massage Center Ajman prioritizes efficiency to ensure a satisfying massage experience for our clients at Malayali Kerala Spa Ajman. We offer a hassle-free appointment system, effective health issue identification, and precise massage techniques.
Our Spa in Ajman stands out for its effectiveness in enhancing wellness. Our therapists focus on treating the root cause of issues, providing tailored treatments for each client. We take pride in offering the most satisfying Pakistani Spa service, adjusting treatment plans based on client feedback.
For the most result-oriented Russian Spa treatment in Ajman, visit our Massage Center. Our Russian therapists are skilled in various techniques to address health concerns. Our body-to-body massage is efficient due to individualized care and high-grade massage oils.
Simple Steps to Make Her Choose You Every DayLucas Smith
Simple Steps to Make Her Choose You Every Day" and unlock the secrets to building a strong, lasting relationship. This comprehensive guide takes you on a journey to self-improvement, enhancing your communication and emotional skills, ensuring that your partner chooses you without hesitation. Forget about complications and start applying easy, straightforward steps that make her see you as the ideal person she can't live without. Gain the key to her heart and enjoy a relationship filled with love and mutual respect. This isn't just a book; it's an investment in your happiness and the happiness of your partner
Ensure the highest quality care for your patients with Cardiac Registry Support's cancer registry services. We support accreditation efforts and quality improvement initiatives, allowing you to benchmark performance and demonstrate adherence to best practices. Confidence starts with data. Partner with Cardiac Registry Support. For more details visit https://cardiacregistrysupport.com/cancer-registry-services/
Solution manual for managerial accounting 18th edition by ray garrison eric n...rightmanforbloodline
Solution manual for managerial accounting 18th edition by ray garrison eric noreen and peter brewer_compressed
Solution manual for managerial accounting 18th edition by ray garrison eric noreen and peter brewer_compressed
At Malayali Kerala Spa Ajman we providing the top quality massage services for our customers.
Our massage center prioritizes efficiency to ensure a quality massage experience for our clients at Malayali Kerala Spa Ajman. We offer a convenient appointment system and precise massage services.
Reach us at Villa No 7, Near Ammar Bin Yasir Street Al Rashidiya 2 - Ajman - United Arab Emirates.
Phone : +971 529818279
Test bank advanced health assessment and differential diagnosis essentials fo...rightmanforbloodline
Test bank advanced health assessment and differential diagnosis essentials for clinical practice 1st edition myrick.
Test bank advanced health assessment and differential diagnosis essentials for clinical practice 1st edition myrick.
Test bank advanced health assessment and differential diagnosis essentials for clinical practice 1st edition myrick.
At Malayali Kerala Spa Ajman, Full Service includes individualized care for every client. We specifically design each massage session for the individual needs of the client. Our therapists are always willing to adjust the treatments based on the client's instruction and feedback. This guarantees that every client receives the treatment they expect.
By offering a variety of massage services, our Ajman Spa Massage Center can tackle physical, mental, and emotional illnesses. In addition, efficient identification of specific health conditions and designing treatment plans accordingly can significantly enhance the quality of massaging.
At Malayali Kerala Spa Ajman, we firmly believe that everyone should have the option to experience top-quality massage services regularly. To achieve that goal we offer cheap massage services in Ajman.
If you are interested in experiencing transformative massage treatment at Malayali Kerala Spa Ajman, you can use our Ajman Massage Center WhatsApp Number to schedule your next massage session.
Contact @ +971 529818279
Visit @ https://malayalikeralaspaajman.com/
Health Tech Market Intelligence Prelim Questions -Gokul Rangarajan
The Ultimate Guide to Setting up Market Research in Health Tech part -1
How to effectively start market research in the health tech industry by defining objectives, crafting problem statements, selecting methods, identifying data collection sources, and setting clear timelines. This guide covers all the preliminary steps needed to lay a strong foundation for your research.
This lays foundation of scoping research project what are the
Before embarking on a research project, especially one aimed at scoping and defining parameters like the one described for health tech IT, several crucial considerations should be addressed. Here’s a comprehensive guide covering key aspects to ensure a well-structured and successful research initiative:
1. Define Research Objectives and Scope
Clear Objectives: Define specific goals such as understanding market needs, identifying new opportunities, assessing risks, or refining pricing strategies.
Scope Definition: Clearly outline the boundaries of the research in terms of geographical focus, target demographics (e.g., age, socio-economic status), and industry sectors (e.g., healthcare IT).
3. Review Existing Literature and Resources
Literature Review: Conduct a thorough review of existing research, market reports, and relevant literature to build foundational knowledge.
Gap Analysis: Identify gaps in existing knowledge or areas where further exploration is needed.
4. Select Research Methodology and Tools
Methodological Approach: Choose appropriate research methods such as surveys, interviews, focus groups, or data analytics.
Tools and Resources: Select tools like Google Forms for surveys, analytics platforms (e.g., SimilarWeb, Statista), and expert consultations.
5. Ethical Considerations and Compliance
Ethical Approval: Ensure compliance with ethical guidelines for research involving human subjects.
Data Privacy: Implement measures to protect participant confidentiality and adhere to data protection regulations (e.g., GDPR, HIPAA).
6. Budget and Resource Allocation
Resource Planning: Allocate resources including time, budget, and personnel required for each phase of the research.
Contingency Planning: Anticipate and plan for unforeseen challenges or adjustments to the research plan.
7. Develop Research Instruments
Survey Design: Create well-structured surveys using tools like Google Forms to gather quantitative data.
Interview and Focus Group Guides: Prepare detailed scripts and discussion points for qualitative data collection.
8. Sampling Strategy
Sampling Design: Define the sampling frame, size, and method (e.g., random sampling, stratified sampling) to ensure representation of target demographics.
Participant Recruitment: Plan recruitment strategies to reach and engage the intended participant groups effectively.
9. Data Collection and Analysis Plan
Data Collection: Implement methods for data gathering, ensuring consistency and validity.
Analysis Techniques: Decide on analytical approaches (e.g., statistical
The Importance of Black Women Understanding the Chemicals in Their Personal C...bkling
Certain chemicals, such as phthalates and parabens, can disrupt the body's hormones and have significant effects on health. According to data, hormone-related health issues such as uterine fibroids, infertility, early puberty and more aggressive forms of breast and endometrial cancers disproportionately affect Black women. Our guest speaker, Jasmine A. McDonald, PhD, an Assistant Professor in the Department of Epidemiology at Columbia University in New York City, discusses the scientific reasons why Black women should pay attention to specific chemicals in their personal care products, like hair care, and ways to minimize their exposure.
Basics of Electrocardiogram
CONTENTS
●Conduction System of the Heart
●What is ECG or EKG?
●ECG Leads
●Normal waves of ECG.
●Dimensions of ECG.
● Abnormalities of ECG
CONDUCTION SYSTEM OF THE HEART
ECG:
●ECG is a graphic record of the electrical activity of the heart.
●Electrical activity precedes the mechanical activity of the heart.
●Electrical activity has two phases:
Depolarization- contraction of muscle
Repolarization- relaxation of muscle
ECG Leads:
●6 Chest leads
●6 Limb leads
1. Bipolar Limb Leads:
Lead 1- Between right arm(-ve) and left arm(+ve)
Lead 2- Between right arm(-ve) and left leg(+ve)
Lead 3- Between left arm(-ve)
and left leg(+ve)
2. Augmented unipolar Limb Leads:
AvR- Right arm
AvL- Left arm
AvF- Left leg
3.Chest Leads:
V1 : Over 4th intercostal
space near right sternal margin
V2: Over 4th intercostal space near left sternal margin
V3:In between V2 and V4
V4:Over left 5th intercostal space on the mid
clavicular line
V5:Over left 5th intercostal space on the anterior
axillary line
V6:Over left 5th intercostal space on the mid
axillary line.
Normal ECG:
Waves of ECG:
P Wave
•P Wave is a positive wave and the first wave in ECG.
•It is also called as atrial complex.
Cause: Atrial depolarisation
Duration: 0.1 sec
QRS Complex:
•QRS’ complex is also called the initial ventricular complex.
•‘Q’ wave is a small negative wave. It is continued as the tall ‘R’ wave, which is a positive wave.
‘R’ wave is followed by a small negative wave, the ‘S’ wave.
Cause:Ventricular depolarization and atrial repolarization
Duration: 0.08- 0.10 sec
T Wave:
•‘T’ wave is the final ventricular complex and is a positive wave.
Cause:Ventricular repolarization Duration: 0.2 sec
Intervals and Segments of ECG:
P-R Interval:
•‘P-R’ interval is the interval
between the onset of ‘P’wave and onset of ‘Q’ wave.
•‘P-R’ interval cause atrial depolarization and conduction of impulses through AV node.
Duration:0.18 (0.12 to 0.2) sec
Q-T Interval:
•‘Q-T’ interval is the interval between the onset of ‘Q’
wave and the end of ‘T’ wave.
•‘Q-T’ interval indicates the ventricular depolarization
and ventricular repolarization,
i.e. it signifies the
electrical activity in ventricles.
Duration:0.4-0.42sec
S-T Segment:
•‘S-T’ segment is the time interval between the end of ‘S’ wave and the onset of ‘T’ wave.
Duration: 0.08 sec
R-R Interval:
•‘R-R’ interval is the time interval between two consecutive ‘R’ waves.
•It signifies the duration of one cardiac cycle.
Duration: 0.8 sec
Dimension of ECG:
How to find heart rhytm of the heart?
Regular rhytm:
Irregular rhytm:
More than or less than 4
How to find heart rate using ECG?
If heart Rhytm is Regular :
Heart rate =
300/No.of large b/w 2 QRS complex
= 300/4
=75 beats/mins
How to find heart rate using ECG?
If heart Rhytm is irregular:
Heart rate = 10×No.of QRS complex in 6 sec 5large box = 1sec
5×6=30
10×7 = 70 Beats/min
Abnormalities of ECG:
Cardiac Arrythmias:
1.Tachycardia
Heart Rate more than 100 beats/min
VEDANTA AIR AMBULANCE SERVICES IN REWA AT A COST-EFFECTIVE PRICE.pdfVedanta A
Air Ambulance Services In Rewa works in close coordination with ground-based emergency services, including local Emergency Medical Services, fire departments, and law enforcement agencies.
More@: https://tinyurl.com/2shrryhx
More@: https://tinyurl.com/5n8h3wp8
Cyclothymia Test: Diagnosing, Symptoms, Treatment, and Impact | The Lifescien...The Lifesciences Magazine
The cyclothymia test is a pivotal tool in the diagnostic process. It helps clinicians assess the presence and severity of symptoms associated with cyclothymia.
4. Color-coded labeling makes it easy to select the right bone and/or membrane
solution from our complete line of SYMBIOS®
regenerative materials.
membrane
synthetic
SYMBIOS®
OsteoShield®
d-PTFE Non-Resorbable Membrane
SYMBIOS®
OsteoShield®
Titanium-Reinforced
d-PTFE Non-Resorbable Membrane
xenograft
SYMBIOS®
OsteoShield®
Collagen Resorbable Membrane
allograft
SYMBIOS®
PerioDerm®
Acellular Dermis
bone
allograft
DBX®
Putty
Demineralized Bone Matrix
SYMBIOS®
Mineralized
Cancellous Powder
SYMBIOS®
Mineralized
Cortical Powder
SYMBIOS®
Demineralized
Cortical Powder
SYMBIOS®
Mineralized
Cortical & Cancellous Granules
SYMBIOS®
Demineralized
Cortical & Cancellous Granules
synthetic
SYMBIOS®
OsteoGraf®
LD-300
Low-Density Hydroxylapatite
Bone Graft Material
SYMBIOS®
OsteoGraf®
D-300
Dense Hydroxylapatite Bone Graft
Material
SYMBIOS®
OsteoGraf®
D-700
Dense Hydroxylapatite Bone Graft
Material
SYMBIOS®
OsteoGraf®
Unfilled Syringes
Delivery System
xenograft
SYMBIOS®
OsteoGraf®
N-300
Dense Bovine Bone Graft Material
SYMBIOS®
OsteoGraf®
N-700
Dense Bovine Bone Graft Material
PepGen P-15®
Particulate
PepGen P-15®
FLOW
5. From a company you can trust
At DENTSPLY Implants, we share your commitment to
providing the best care for your implant patients. As
one of the world’s leading manufacturer and supplier
of dental implant solutions, everything we offer is
aimed at enhancing your clinical success, including
our comprehensive SYMBIOS®
portfolio of regenerative
products. Clinically proven over time, these versatile
products are designed to meet your needs – while
supporting your high standards for success.
Choice and performance
You know strong and stable graft integration
is crucial for predictable tissue regeneration.
How you achieve this depends greatly on your
patient and your choice of regenerative products.
Now you can reduce inconsistency and add the
predictability you need with one complete line of
regenerative products.
SYMBIOS®
– for all your regenerative needs
SYMBIOS®
is a full range of quality allograft, xenograft and synthetic bone graft
and membrane products designed to promote excellent long-term bone growth and
stability. This comprehensive offering consistently delivers predictable clinical efficacy,
biocompatibility, ease of use and safety you can rely on.
6. Our allograft partner:
Musculoskeletal Transplant Foundation (MTF)
DENTSPLY Implants is proud to partner with MTF
as the manufacturer of our allograft product.
Founded in 1987, this non-profit service
organization is the world’s largest tissue bank
accredited by the American Association of Tissue
Banks (AATB).
Unlike other tissue banks, MTF is directed by
doctors: a Board of Directors and a Medical
Board of Trustees comprised of more than 40
surgeons from world-renowned institutions. They
alone set MTF’s standards, which are among the
most stringent in the industry. The result is the most
clinically-sound, safe tissue, processed from the
most carefully selected donors, every single time.
Quality and safety assurance
Access to more donors than any other
tissue bank.
MTF maintains exclusive agreements or right-
of-first-refusal with the majority of the nation’s
organ procurement organizations – for more
quality tissue to choose from.
Industry-leading donor selection criteria.
MTF’s standards exceed those set by the
AATB, FDA and most tissue banks when it
comes to screening for cancer, illegal drug
use, maximum donor age, and a host of
other conditions.
More deferred donors than accepted.
More than 97% are deferred for not meeting
MTF’s criteria. In addition, MTF never takes
donors deferred by other tissue banks or
direct referrals from funeral homes. Only
donors from the United States are accepted
for US distribution.
Sterility control measures for a higher level
of safety.
All tissue is aseptically processed in ISO 4
(certified) clean rooms, and processes are
validated to prevent cross contamination.
Each donor is processed individually and
tracked.
7. DBX®
Putty Demineralized Bone Matrix offers the highest bone content, optimal osteoinductivity
and exceptional handling characteristics when compared to other DBM products.
Easy to use
• High molecular weight means the material
maintains its physical integrity and resists
movement under irrigation
• Ready to use out of the box, no preparation
required
• Excellent handling characteristics
• Two-year shelf life
• Convenient, ambient temperature storage
High-quality and biocompatible
• Highest demineralized bone content
available – 93% by volume
• DBX®
sodium hyaluronate carrier is a safe
and natural substance found in human
joints and ocular fluids
• Non-hemolytic – compatible with
surrounding blood cells
• pH Balanced
Proven bone formation through optimal
osteoinductivity
• DBX®
is osteoconductive, and has been
shown to have osteoinductive potential in
an appropriately designed model
• DBX Putty has been shown in the
Urist intramuscular model, confirmed
histologically to be osteoinductive and
facilitates true bone growth1
DBX®
Putty
Demineralized Bone Matrix
DBX®
Putty
Demineralized Bone Matrix
0.5 cc syringe 228005
1.0 cc syringe 228010
2.5 cc syringe 228025
1. Zhang M, Powers RM, Wolfinbarger L. Effects of Demineralization Process on the
Osteoinductivity of Demineralized Bone Matrix. J Periodontal. 1997;68: 1085-1092.
8. • Safe, 100% bone particulate
• Easy to handle
• Predictable outcomes
• Three-year shelf life
• Convenient, ambient temperature storage
• Variety of choices
SYMBIOS®
Allograft Particulate
SYMBIOS®
Mineralized
Cortical Powder
250-850 microns
0.25 cc vial 100175
0.5 cc vial 100176
1.0 cc vial 100177
3.0 cc vial 100178
SYMBIOS®
Mineralized
Cortical & Cancellous Granules
0.1-2.0 mm
0.5 cc vial 100191
1.0 cc vial 100192
SYMBIOS®
Demineralized
Cortical & Cancellous Granules
0.5-3.0 mm
0.5 cc vial 120038
1.0 cc vial 120039
SYMBIOS®
Demineralized
Cortical Powder
250-850 microns
0.25 cc vial 120075
0.5 cc vial 120076
1.0 cc vial 120077
3.0 cc vial 120078
SYMBIOS®
Mineralized
Cancellous Powder
250-850 microns
0.5 cc 400172
1.0 cc 400173
2.5 cc 400174
Easy to handle and hydrate, SYMBIOS®
Allograft Particulate
integrates with natural bone for predictability in performance.
9. SYMBIOS®
OsteoGraf®
/N
Dense Bovine Bone Graft Material
2. Internal data available upon request.
• Natural anorganic bovine-derived
microporous hydroxylapatite (no extractable
protein by test2
)
• Cell-mediated resorption
• Hydrophilic - cohesive consistency when
hydrated
• Remodels to vital bone at the same rate as
host bone
• Predictable increase of bone dimension
• Effective bone replacement graft material
alone or when mixed with autogenous bone
and/or DFDBA
SYMBIOS®
OsteoGraf®
/N-300
Dense Bovine Bone Graft Material
250-420 microns
4 each, 1.0 g vials 930000104
4 each, 3.0 g vials 930000304
SYMBIOS®
OsteoGraf®
/N-700
Dense Bovine Bone Graft Material
420-1000 microns
4 each, 1.0 g vials 930000104
4 each, 3.0 g vials 930000304
SYMBIOS®
OsteoGraf N is a sintered bovine-derived hydroxylapatite, which is conducive
to cell-mediated resorption and provides a scaffold for new bone growth, which holds
dimension until host bone takes over.
10. PepGen P-15®
Particulate
P-15 Peptide
PepGen P-15®
particulate
250-420 microns
2 each, 1.0 g vials 99U000102
4 each, 1.0 g vials 99U000104
2 each, 3.0 g vials 99U000302
PepGen P-15®
is a synthetic composite of porous
hydroxylapatite and a peptide that mimics the cell-
binding portion of Type-1 collagen. PepGen P-15
promotes the attachment of reparative cells and
directs in the regeneration of bone.
The Science of P-15 Peptide
• Tissue-engineered bone replacement graft material.
• Mimics the inorganic and organic components of
autogenous bone.
• Includes the specially designed P-15 peptide, a
synthetic biomimetic of the 15 amino acid sequence
of Type-I collagen, which is uniquely involved in
the binding of cells, particularly fibroblasts and
osteoblasts.1
• Easy to place using conventional bone grafting
techniques.
• PepGen P-15 particulate is available in the preferred
particle size range: PepGen P-15 particulate (250-
420 microns) packaged in 1-gram and 3-gram vials.
1. Bhatnagar RS, Qian JJ, Gough CA. The role in cell-binding of a a-bend within the triple
helical region in collagen b1(I) chain: Structural and biological evidence for conformational
tautomerism on fiber surface. J Biomolecular Structure & Dynamics. 1997;14:547-560.
11. PepGen P-15®
FLOW
P-15 Peptide
PepGen P-15®
FLOW is PepGen P-15®
suspended
in an inert hydrogel that provides superior handling
and ease of delivery in a gel form.
The Predictable Choice
• First and only biomimetic of autogenous bone.
• Provides superior defect fill.
• Minimizes crestal bone loss.
• Predictable, dependable long-term results.
• Histologic confirmation of bone regeneration.
• PepGen P-15 FLOW: PepGen P-15 particulate
suspended in inert biocompatible hydrogel
packaged in 0.5 cc and 1.0 cc syringes.
PepGen P-15®
FLOW
250-420 microns
2 each, 0.5 cc syringes 99U100052
4 each, 0.5 cc syringes 99U100054
2 each, 1.0 cc syringes 99U100102
4 each, 1.0 cc syringes 99U100104
12. SYMBIOS®
OsteoGraf®
LD-300
Low-density Hydroxylapatite Bone Graft Material
OsteoGraf®
LD is a synthetic bone product that
has 56% porosity and high surface area. It
is highly radiopaque and provides excellent
handling properties.
• Low density, 100% pure synthetic hydroxylapatite.
• Resorbable bone filling material.
• Solution-mediated resorption.
• Hydrophilic-cohesive consistency when hydrated.
• Maintains alveolar bone for ridge preservation.
• Readily available source of calcium for bone
regeneration.
• Effective alternative for patients who prefer a
synthetic material.
References available upon request.
SYMBIOS®
OsteoGraf®
LD-300
Low-density Resorbable
Bone Graft Material
250-420 microns
4 each, 0.5 g vials 940000054
4 each, 1.0 g vials 940000104
4 each, 3.0 g vials 940000304
13. SYMBIOS®
OsteoGraf®
D
Dense Hydroxylapatite Bone Graft Material
OsteoGraf®
D is a synthetic dense ceramic
HA and can be successfully used in dental
applications where maintenance of bulk and
contour of the restoration and the ridge is
needed.
• Dense, 100% pure synthetic hydroxylapatite.
• Nonporous, non-resorbable, permanent graft
material.
• Provides supporting matrix for bone and/or
connective tissue deposition.
• Atrophic ridges can be augmented in both
height and dimension.
• Maintains augmented dimension for esthetic
or prosthetic support.
• Reduces resorption rate of underlying bone.
• Available in two particle sizes.
SYMBIOS®
OsteoGraf®
D-300
Dense Hydroxylapatite
Non-Resorbable Bone Graft Material
250-420 microns
4 each, 1.0 g vials 920000104
SYMBIOS®
OsteoGraf®
D-700
Dense Hydroxylapatite
Non-Resorbable Bone Graft Material
420-1000 microns
4 each, 1.0 g vials 900000104
4 each, 3.0 g vials 900000304
SYMBIOS®
OsteoGraf®
Syringes
Unfilled Straight Syringes
4 each, Straight 90000S004
References available upon request.
14. SYMBIOS®
PerioDerm®
is an acellular
dermal allograft designed for predictability
in replacing damaged or inadequate tissue
in the repair, reinforcement or supplemental
support of soft tissue defects. It is minimally
processed to remove epidermal and dermal
cells while preserving the extra-cellular matrix.
The removal of viable cells and antigens
during the decellularization process minimizes
the risk of rejection and inflammation at the
surgical site. The remaining matrix serves
as a framework for cellular infiltration
and vascularization. SYMBIOS PerioDerm
Acellular Dermis has been shown to support
the migration of host cells from wound
margins and surrounding tissues.
Minimally processed
SYMBIOS®
PerioDerm®
Acellular Dermis
undergoes a three-phase process that gently
cleans, decellularizes and disinfects without
cross-linking or compromising the integrity of
the dermal matrix. This proprietary process
results in a product that passes United States
Pharmacopeia USP<71> Sterility Tests.
Step 1. Sodium Chloride
SYMBIOS®
PerioDerm®
Acellular Dermis is
soaked in a sodium chloride solution that
promotes plasmolysis, removing the epidermis
and disrupting cells while leaving the
extracellular matrix intact.
Step 2. Triton
SYMBIOS®
PerioDerm®
Acellular Dermis
is washed in Triton, a mild detergent that
removes cellular debris to reduce surgical site
inflammation and rejection.
Step 3. Disinfection
The disinfection process provides a 6.0 log 2
(nearly a million-fold) reduction in microbial
levels, including bacteria, fungi, spores, mold,
yeast, and a 4-6 log 2 reduction of viral load,
minimizing disease transmission and cross
contamination.
SYMBIOS®
PerioDerm®
Acellular Dermis
15. The SYMBIOS®
PerioDerm®
Advantage:
• Excellent handling characteristics, similar
to autologous human skin grafts.
• Rehydrates quickly, reducing surgery time
and cost.
• Freeze-dried grafts require no refrigeration
and provide more storage options.
• Three-year shelf life reduces need for
inventory management.
• Over 90% thickness consistency for
uniform revascularization and aesthetic
results.
• No cross-linking for ready incorporation
and less risk of surgery site inflammation
and rejection.
SYMBIOS®
PerioDerm®
Acellular Dermis
Thin: .4 mm – .8 mm
1 cm x 1 cm 790101
1 cm x 2 cm 790102
1 cm x 4 cm 790104
2 cm x 2 cm 790202
2 cm x 4 cm 790204
SYMBIOS®
PerioDerm®
Acellular Dermis
Thick: .8 mm – 1.7 mm
1 cm x 1 cm 791101
1 cm x 2 cm 791102
1 cm x 4 cm 791104
2 cm x 4 cm 791204
When positioned as shown with the notch in the
upper left-hand corner, the epidermal side of the
tissue is facing up.
16. This resorbable tissue matrix made from Type-I bovine collagen delivers predictability in
performance in dental surgery procedures, in the area of a dental implant, bone defect or
ridge reconstruction.
• Longer, predictable 26- to 38-week resorption time.
• Manufactured from highly purified Type-I bovine
Achilles tendon for safety.
• Multi-layer construction assists healing of bone and
surrounding tissue while inner layers help prevent
cellular and bacterial down growth.
• Unique fiber orientation provides for unusually
high tensile strength and for stable performance
with sutures or resorbable tacks.
• Optimized flexibility for excellent wet handling,
while still allowing maintenance of space.
• Either side may be placed on the site.
SYMBIOS®
OsteoShield®
Collagen Resorbable Membrane
In Vivo Rate of Resorption Study*
SYMBIOS OsteoShield
Collagen Resorbable Membrane
100
80
60
40
20
0
0 4 8 12 16 20 24 28 32 36
*Data on FileImplant Time (weeks)
%ofImplantremaining
SYMBIOS®
OsteoShield®
Collagen Resorbable Membrane
2 each, 15x20 mm OSCRM1520
2 each, 20x30 mm OSCRM2030
2 each, 30x40 mm OSCRM3040
17. This non-resorbable yet easily removable d-PTFE membrane is designed for use with
extraction site grafting, large bony defects and where primary closure is not possible
or desired.
SYMBIOS®
OsteoShield®
d-PTFE Non-Resorbable Membrane
SYMBIOS®
OsteoShield®
d-PTFE Non-Resorbable Membrane
10 each, 12x24 mm OSNRM1224
4 each, 25x30 mm OSNRM2530
• Primary closure is not required. This membrane
is virtually impervious to bacteria, resulting in
minimal risk of bacterial invasion.
• By avoiding releasing incisions and primary
closure, the membrane maintains soft tissue
architecture, preserves keratinized mucosa
and requires minimal flap reflection or
dissection.
• The exposed membrane may be easily
removed non-surgically with a gentle tug.
• Medical grade d-PTFE is biocompatible and
non-reactive.
• Micro-machined surface texture facilitates
cell adhesion, enhances membrane stability,
reduces flap retraction and increases pull-out
strength.
18. This titanium-reinforced membrane is designed for use
with large defects, two- or three-walled defects, or
where space-making is required. It has all the benefits
of SYMBIOS®
OsteoShield®
d-PTFE Non-resorbable
Membrane plus:
• Self-supporting titanium-reinforcement, which helps
create additional space, especially in defects with
deficient bony architecture.
• Titanium-reinforcement prevents folding or wrinkling.
• Grade 1 titanium, which is flexible, for easy
membrane shaping.
SYMBIOS®
OsteoShield®
Titanium-reinforced
d-PTFE Non-resorbable Membrane
4 each, 12x20 mm OSTRNRM1220
2 each, 25x30 mm OSTRNRM2530
SYMBIOS®
OsteoShield®
d-PTFE Titanium-reinforced Non-resorbable Membrane
19. SYMBIOS®
from DENTSPLY Implants
SYMBIOS®
regenerative materials provide
predictability in performance – from a
company you can count on to serve your
needs. DENTSPLY Implants makes it easy
for you to get the kind of support you need,
when you want it.
For more information, contact your local
DENTSPLY Implants representative, register
for one of our CE programs or visit
www.dentsplyimplants.com.
BoneCollector
A re-usable option for the harvesting of
valuable bone chips during preparation of
the implant site. It is used in conjunction with
disposable titanium filters and suction tubes,
that are sold separately.
BoneTrap™
You can quickly and easily collect the
patients’ own bone during implant
surgery. BoneTrap is disposable and
delivered sterile, eliminating the need
for cleaning and sterilization
MicrowSaw
With its precise, minimally-invasive
osteotomy line, the MicroSaw sets new
standards in fast and atraumatic harvesting
of bone blocks and flaps. The MicroSaw is
part of a comprehensive set of instruments
designed to support successful augmentation
with autogenous bone.
For your autograft needs, DENTSPLY Implants also provides: