This document provides information on different implant procedures using PERSO-C and PERSO-B implants. It describes the surgical and prosthetic steps for 2-step loading of the implants, including drilling procedures, implant placement, abutment connection, and bridge fixation. It also covers procedures for immediate loading and use of temporary implants to avoid immediate loading. Diagrams and pictures accompany the text to illustrate key steps.
Prosthetic guide
www.neobiotechus.com
www.neobiotech.com
Download is available.
Click the content, you can see directly the content that you want to see.
PURPOSE: To report the clinical outcomes of implantation of a new Ferrara intrastromal corneal ring segment (ICRS) with a 210-degree arc length in eyes with keratoconus.
The document summarizes the ADVANCE® Posterior Stabilized Knee System, which was designed to address problems reported with previous posterior stabilized knee designs like "patellar clunk" and dislocation. The ADVANCE® system was designed by a team from HSS and Wright to improve patellofemoral kinematics, reduce wear rate potential, increase resistance to posterior tibial dislocation, achieve at least 120 degrees of flexion in all sizes, and improve femoral fit. Design features of the ADVANCE® system aimed to achieve these goals include modifications to the trochlear groove, femoral component, tibial inserts, and other components.
The document discusses provisional or temporary dental restorations. It explains that provisional restorations are fabricated after tooth preparation to temporarily protect and restore function until the final prosthesis is made. Ideal provisional restorations meet biologic requirements to protect the pulp and maintain periodontal health, mechanical requirements to resist forces, and esthetic requirements to match color. The types of provisional restorations discussed include custom-made or prefabricated, made of different materials like resin or metal, for either short-term or long-term use, and fabricated using direct, indirect or direct-indirect techniques. One fabrication technique described in detail is an overimpression technique for making provisional crowns.
GORE® VIABIL® Short Wire Biliary Endoprosthesis - Product BrochureCONMED Corporation
The GORE® VIABIL® Short Wire Biliary Endoprosthesis is currently the only fully covered metal stent with anti-migration technology proven to minimize the risk of reintervention.
This document provides product information and specifications for various medical devices from Suretech Medical, including inflation devices, introducer sheaths, guidewires, biopsy needles, and catheters. It lists over 50 medical products organized by category and provides details on sizes, lengths, materials, and other specifications. Contact information is provided for inquiries about additional product sizes or information.
This document discusses three cranioplasty solutions from Biomet: HTR-PEKK, HTR-PMMA, and CranioCurve. HTR-PEKK is a laser sintered implant made of PEKK polymer that can be delivered in 8 days. HTR-PMMA is made of PMMA beads and PHEMA coating and allows for possible bone ingrowth. CranioCurve is a pre-contoured titanium mesh that is contourable and comes in multiple sizes and shapes.
Dokumen tersebut menjelaskan asal usul bahasa Melayu dan hipotesis tentang tempat asalnya. Terdapat beberapa hipotesis yang dikemukakan, antaranya bahawa nenek moyang bangsa Melayu berasal dari Asia Tengah atau Sumatera dan Jawa. Walau bagaimanapun, kebanyakan sarjana bahasa bersetuju bahawa bangsa Melayu telah lama mendiami kawasan Nusantara dan bahasa Melayu berasal dari rumpun
Prosthetic guide
www.neobiotechus.com
www.neobiotech.com
Download is available.
Click the content, you can see directly the content that you want to see.
PURPOSE: To report the clinical outcomes of implantation of a new Ferrara intrastromal corneal ring segment (ICRS) with a 210-degree arc length in eyes with keratoconus.
The document summarizes the ADVANCE® Posterior Stabilized Knee System, which was designed to address problems reported with previous posterior stabilized knee designs like "patellar clunk" and dislocation. The ADVANCE® system was designed by a team from HSS and Wright to improve patellofemoral kinematics, reduce wear rate potential, increase resistance to posterior tibial dislocation, achieve at least 120 degrees of flexion in all sizes, and improve femoral fit. Design features of the ADVANCE® system aimed to achieve these goals include modifications to the trochlear groove, femoral component, tibial inserts, and other components.
The document discusses provisional or temporary dental restorations. It explains that provisional restorations are fabricated after tooth preparation to temporarily protect and restore function until the final prosthesis is made. Ideal provisional restorations meet biologic requirements to protect the pulp and maintain periodontal health, mechanical requirements to resist forces, and esthetic requirements to match color. The types of provisional restorations discussed include custom-made or prefabricated, made of different materials like resin or metal, for either short-term or long-term use, and fabricated using direct, indirect or direct-indirect techniques. One fabrication technique described in detail is an overimpression technique for making provisional crowns.
GORE® VIABIL® Short Wire Biliary Endoprosthesis - Product BrochureCONMED Corporation
The GORE® VIABIL® Short Wire Biliary Endoprosthesis is currently the only fully covered metal stent with anti-migration technology proven to minimize the risk of reintervention.
This document provides product information and specifications for various medical devices from Suretech Medical, including inflation devices, introducer sheaths, guidewires, biopsy needles, and catheters. It lists over 50 medical products organized by category and provides details on sizes, lengths, materials, and other specifications. Contact information is provided for inquiries about additional product sizes or information.
This document discusses three cranioplasty solutions from Biomet: HTR-PEKK, HTR-PMMA, and CranioCurve. HTR-PEKK is a laser sintered implant made of PEKK polymer that can be delivered in 8 days. HTR-PMMA is made of PMMA beads and PHEMA coating and allows for possible bone ingrowth. CranioCurve is a pre-contoured titanium mesh that is contourable and comes in multiple sizes and shapes.
Dokumen tersebut menjelaskan asal usul bahasa Melayu dan hipotesis tentang tempat asalnya. Terdapat beberapa hipotesis yang dikemukakan, antaranya bahawa nenek moyang bangsa Melayu berasal dari Asia Tengah atau Sumatera dan Jawa. Walau bagaimanapun, kebanyakan sarjana bahasa bersetuju bahawa bangsa Melayu telah lama mendiami kawasan Nusantara dan bahasa Melayu berasal dari rumpun
Training multi station LETRON and fitness centre's based Aleksandr Azeev
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms.
The document discusses the nature of women in business according to their horoscope signs. It provides the strengths and weaknesses of women with different zodiac signs in business contexts. It also discusses several high-profile women business leaders from Pakistan and their careers. The document then lists favorable and unfavorable characteristics of women as bosses compared to men, and provides some evidence from studies on perceptions of male versus female managers.
Training multi station LETRON and fitness centre's based Aleksandr Azeev
A conceptually new model simulator: multi-function training sports complex LETRON - oriented concurrent acceptable-safe study of the major muscle groups loose weight
The document presents information about memristors, which are described as semiconductor devices whose resistance depends on the amount of charge that has passed through. It discusses the history of memristors, first theorized in 1971 as the fourth fundamental circuit element. The document outlines the construction and working of TiO2-based memristors, how oxygen vacancies allow the resistance to change based on applied current. Applications include non-volatile memory, neural networks, and analog computing. While promising, memristors still need improvements in defects and standardization before being perfected.
Arbovírus e arboviruses prof. Clovis Gurski - BiólogoClovis Gurski
O documento discute arbovírus, vírus transmitidos por vetores artrópodos como mosquitos. Ele descreve três famílias de arbovírus, incluindo os vírus da dengue, zika e febre amarela. Também discute os ciclos de transmissão, vetores, reservatórios, sintomas e formas de prevenção e diagnóstico destes vírus.
The document discusses cooperative farming and farmers cooperatives in Pakistan. It outlines the main types of cooperatives including agricultural supply, marketing, and multi-purpose cooperatives. It also summarizes the history and development of cooperatives in Pakistan from their origin in 1904 to their current forms today. Key findings from surveys of cooperatives in Pakistan are presented, showing most members are literate but do not have higher literacy than non-members. Cooperative credit is found to increase fertilizer use and crop yields for member farmers compared to non-members.
This document provides information on various dental implant components and tools that are compatible with different implant systems. It includes specifications and part numbers for titanium abutments, healing abutments, impression components, and surgical tools. The components are organized by connection type (conical or internal hex) and platform size (regular, narrow, slim). Product images and diagrams are also provided showing the features and dimensions.
Provides the benefits of an interbody spacer and an anterior cervical plate,without any of the drawbacks, designed to streamline the anterior cervical fusion procedure.
Why SU-POR?
SU-POR Surgical Implants are manufactured from a linear high-density polyethylene. SU-POR Surgical
Implants allow for tissue ingrowth because of the interconnecting open pore structure. The firm nature of
the material allows carving with a sharp instrument without collapsing the pore structure. SU-POR Surgical
Implants, available in blocks, sheets and preformed anatomical shapes are intended for non-weight bearing
applications of craniofacial reconstruction/cosmetic surgery and repair of craniofacial trauma. SU-POR
Surgical Implants are also intended for augmentation and restoration of contour in the craniomaxillofacial
skeleton
The porosity of SU-POR Surgical Implants is maintained large, with average pore sizes greater than 100
microns and pore volume in the 50% range (measured by Mercury Intrusion Porosimetry). Clinical experience
and animal studies have shown that tissue will grow into the open pores of porous polyethylene. The
clinical significance of tissue ingrowth may vary with the application and implant site. Invitro and invivo
biocompatibility studies have shown SU-POR Surgical Implants to be free from any observable systemic or
cytotoxic effects.
The success of any implant is dependent upon careful handling and proper surgical technique. Porous
materials are particularly susceptible to contamination either by micro-organisms or foreign material. In order
to reduce the chance of contamination during preoperative handling, the highest level of aseptic care must
be used. SU-POR Surgical Implants should remain in the protective pouch until the implant site has been
prepared.
Select from an array of anatomical shapes, sheets, blocks, and spheres including:
o Preformed shapes for chin, malar, rim, midface and mandibular augmentation
o Reconstructive shapes for traumatic defects
o Sheets, wedges and blocks for orbital floor and wall repair
o Spheres and Conical Orbital Implants for enucleation and evisceration procedures
The intent of this brochure is to provide the surgeon with illustrations and dimensions of the many shapes of SU-POR
Surgical Implants. Implants can be customized to accommodate the individual need of the patient.
Surgeons should utilize proper surgical techniques for which they were trained and their clinical experience to determine
appropriate surgical procedures. Successful implantations are technique sensitive. Sound surgical judgment should be
used in the selection/shaping and implantation of SU-POR Surgical Implants.
The Biologics Era has officially begun, allowing dramatic alterations in orthopedic and podiatric fracture care, just in time to address the steadily rising number of osteoporotic fractures as well as complex non-healing fractures.
This document provides information about dental implant systems from Implant Direct, including the RePlant, RePlus, and ReActive implant lines. It includes details on implant designs, dimensions, surfaces, packaging, components, and pricing. The RePlant implant has a straight body similar to NobelReplace implants. RePlus and ReActive implants have a tapered body that compresses bone. All three lines feature mini-threads, double-lead threads, and tri-lobe connections. Components include fixture mounts, cover screws, and abutments. Surface options are SBM and HA coating. Dimensions and prices are provided for each implant size.
Training multi station LETRON and fitness centre's based Aleksandr Azeev
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms.
The document discusses the nature of women in business according to their horoscope signs. It provides the strengths and weaknesses of women with different zodiac signs in business contexts. It also discusses several high-profile women business leaders from Pakistan and their careers. The document then lists favorable and unfavorable characteristics of women as bosses compared to men, and provides some evidence from studies on perceptions of male versus female managers.
Training multi station LETRON and fitness centre's based Aleksandr Azeev
A conceptually new model simulator: multi-function training sports complex LETRON - oriented concurrent acceptable-safe study of the major muscle groups loose weight
The document presents information about memristors, which are described as semiconductor devices whose resistance depends on the amount of charge that has passed through. It discusses the history of memristors, first theorized in 1971 as the fourth fundamental circuit element. The document outlines the construction and working of TiO2-based memristors, how oxygen vacancies allow the resistance to change based on applied current. Applications include non-volatile memory, neural networks, and analog computing. While promising, memristors still need improvements in defects and standardization before being perfected.
Arbovírus e arboviruses prof. Clovis Gurski - BiólogoClovis Gurski
O documento discute arbovírus, vírus transmitidos por vetores artrópodos como mosquitos. Ele descreve três famílias de arbovírus, incluindo os vírus da dengue, zika e febre amarela. Também discute os ciclos de transmissão, vetores, reservatórios, sintomas e formas de prevenção e diagnóstico destes vírus.
The document discusses cooperative farming and farmers cooperatives in Pakistan. It outlines the main types of cooperatives including agricultural supply, marketing, and multi-purpose cooperatives. It also summarizes the history and development of cooperatives in Pakistan from their origin in 1904 to their current forms today. Key findings from surveys of cooperatives in Pakistan are presented, showing most members are literate but do not have higher literacy than non-members. Cooperative credit is found to increase fertilizer use and crop yields for member farmers compared to non-members.
This document provides information on various dental implant components and tools that are compatible with different implant systems. It includes specifications and part numbers for titanium abutments, healing abutments, impression components, and surgical tools. The components are organized by connection type (conical or internal hex) and platform size (regular, narrow, slim). Product images and diagrams are also provided showing the features and dimensions.
Provides the benefits of an interbody spacer and an anterior cervical plate,without any of the drawbacks, designed to streamline the anterior cervical fusion procedure.
Why SU-POR?
SU-POR Surgical Implants are manufactured from a linear high-density polyethylene. SU-POR Surgical
Implants allow for tissue ingrowth because of the interconnecting open pore structure. The firm nature of
the material allows carving with a sharp instrument without collapsing the pore structure. SU-POR Surgical
Implants, available in blocks, sheets and preformed anatomical shapes are intended for non-weight bearing
applications of craniofacial reconstruction/cosmetic surgery and repair of craniofacial trauma. SU-POR
Surgical Implants are also intended for augmentation and restoration of contour in the craniomaxillofacial
skeleton
The porosity of SU-POR Surgical Implants is maintained large, with average pore sizes greater than 100
microns and pore volume in the 50% range (measured by Mercury Intrusion Porosimetry). Clinical experience
and animal studies have shown that tissue will grow into the open pores of porous polyethylene. The
clinical significance of tissue ingrowth may vary with the application and implant site. Invitro and invivo
biocompatibility studies have shown SU-POR Surgical Implants to be free from any observable systemic or
cytotoxic effects.
The success of any implant is dependent upon careful handling and proper surgical technique. Porous
materials are particularly susceptible to contamination either by micro-organisms or foreign material. In order
to reduce the chance of contamination during preoperative handling, the highest level of aseptic care must
be used. SU-POR Surgical Implants should remain in the protective pouch until the implant site has been
prepared.
Select from an array of anatomical shapes, sheets, blocks, and spheres including:
o Preformed shapes for chin, malar, rim, midface and mandibular augmentation
o Reconstructive shapes for traumatic defects
o Sheets, wedges and blocks for orbital floor and wall repair
o Spheres and Conical Orbital Implants for enucleation and evisceration procedures
The intent of this brochure is to provide the surgeon with illustrations and dimensions of the many shapes of SU-POR
Surgical Implants. Implants can be customized to accommodate the individual need of the patient.
Surgeons should utilize proper surgical techniques for which they were trained and their clinical experience to determine
appropriate surgical procedures. Successful implantations are technique sensitive. Sound surgical judgment should be
used in the selection/shaping and implantation of SU-POR Surgical Implants.
The Biologics Era has officially begun, allowing dramatic alterations in orthopedic and podiatric fracture care, just in time to address the steadily rising number of osteoporotic fractures as well as complex non-healing fractures.
This document provides information about dental implant systems from Implant Direct, including the RePlant, RePlus, and ReActive implant lines. It includes details on implant designs, dimensions, surfaces, packaging, components, and pricing. The RePlant implant has a straight body similar to NobelReplace implants. RePlus and ReActive implants have a tapered body that compresses bone. All three lines feature mini-threads, double-lead threads, and tri-lobe connections. Components include fixture mounts, cover screws, and abutments. Surface options are SBM and HA coating. Dimensions and prices are provided for each implant size.
This document provides specifications for various tools and cartridges used with the SolidCitric acid cleaning system. It describes tools for cleaning subsea interfaces like FMC Technologies tree caps, MQC receptacles, and SLC receptacles. It also describes a cartridge handling adapter tool and standard and large size cartridges containing solid citric acid. Each item lists dimensions, weights, equipment numbers, and availability.
Biotec Dental Implants One Piece ARP Catalogue 2019 HikmatNajjar
Biotec ARP implants are one-piece implants with an integrated gold color abutment. They are designed for use in very narrow alveolar ridges (mainly in maxillary lateral incisors and mandibular incisors) and for singlestage surgical procedures and cement restorations. Maximum bend: approx. 25°. Only one bending operation may be performed. In the maxilla, the motorised insertion tool should be used due to its better implant guidance during insertion.
Download: http://biotec-implant.com/implants/one-piece-arp/
The modified Widman flap is a periodontal surgical technique used to obtain access to the root surface and allow for intimate postoperative adaptation of healthy connective tissue and epithelium to the root surface. Key aspects include:
1. Incisions are made internally and intracrevicularly to minimize tissue loss and gingival shrinkage. Vertical releasing incisions are usually not used.
2. The goal is access for root debridement rather than pocket elimination. Minimal flap elevation of 1-2mm is done to access root surfaces.
3. It is indicated for mild to moderate periodontitis with pocket depths up to 6mm and minimal inflammation. Primary intention healing occurs.
The document provides guidelines for the approved use of resilient fastenings on ARTC tracks. It specifies the approved Pandrol fastening types and codes for different rail and sleeper types. It also provides details on installing Pandrol Fastclip fastenings and using low profile fastenings at glued insulated joints. Guidelines are given for using reformed and new sleeper plates with resilient fastenings, as well as using resilient hook-in fasteners and lockspikes in turnouts and on transoms.
1. The document provides installation guidelines for Mini-Link 6366 All Outdoor Solution equipment, including details on power supply requirements, required tools, connection points, installing cables and connectors, securing cables, assembling various components, and quality assurance checks.
2. It describes how to assemble and connect the antennas, radios, Mini-Link 6366 MDU, cables, connectors, mounting brackets, and other accessories to implement a 1+0 or 1+1 XPIC configuration in an all-outdoor installation.
3. Key steps include assembling the Orthomode Transducer, transition hub, mounting brackets, installing radios and the MDU, attaching cables, and performing antenna alignment and
This document discusses the history and development of computed radiography (CR) by ARCTEST, a Brazilian company specializing in non-destructive testing. It outlines how ARCTEST has been a pioneer in developing and improving CR techniques over the past 14+ years, working with various equipment manufacturers to test new systems. The document highlights the advantages of CR over traditional radiography for corrosion inspection and weld inspection, noting that CR provides faster results, less radiation exposure, and digital image archiving and reporting. It presents examples of CR applications for inspection of welds, corrosion, and other defects in various industrial components.
- The document provides specifications for a wide range of intraocular lenses (IOLs) from ZEISS, including monofocal, multifocal, and toric IOL models. It also lists the relevant injection systems and cartridge sets for each IOL.
- The IOLs cover standard incision sizes from 1.8mm to 2.2mm and diopter ranges from -10 to +45 depending on the model. They utilize various optic designs including monofocal, bifocal, and trifocal configurations.
- Technical details are provided for each IOL such as optic design, incision size, diopter range and increments, A-constant values, and compatible injection systems.
Karl ISAAZ - CTO withHeavy CalcificationsEuro CTO Club
This document discusses techniques for percutaneous coronary intervention (PCI) of chronic total occlusions (CTOs) with heavy calcification. It notes the difficulties posed by calcification, including inability to penetrate caps or advance wires and devices. Strategies discussed include long sheaths, large guiding catheters, stiff wires, guideliners, small balloons, microcatheters like Tornus and Turnpike, rotablator, laser, subintimal dissection with reentry, anchoring balloons, and wire escalation. Case examples demonstrate successful crossing with anchoring balloons, guideliner support, Turnpike catheter, and modified dissection and reentry. The conclusion stresses perseverance, augmented backup,
This document provides a catalog of piezosurgery inserts for dental and medical procedures. It lists over 100 different insert types categorized by procedure such as implant site preparation, sinus lift techniques, extractions, osteotomies, and more. For each insert, it describes the intended cutting action, clinical application, dimensions, and other specifications. The catalog also outlines instrument sets that bundle groups of inserts for common surgeries.
10:50 Ochiai - 10 key points to avoid major complications during CTO PCIEuro CTO Club
1. The 10 key points provide guidance on avoiding major complications during chronic total occlusion percutaneous coronary intervention (CTO PCI).
2. The points emphasize minimizing radiation exposure, using high quality angiograms to plan strategies, monitoring activated clotting time, ensuring all devices are visible on fluoroscopy, using large guiding catheters without stiff tips, identifying the entry point into the CTO, using intravascular ultrasound, employing spring coil wires for collateral tracking, using knuckle wiring when vessel course is unclear, and guaranteeing stent delivery into the left circumflex artery during ostial left anterior descending CTO procedures to avoid complications.
3. The document illustrates each point using images from CTO PCI cases.
A revolutionary modality for intertrochanteric or subtrochanteric fractures by combining an intramedullary fixation device with precise delivery of bone void filler.
Current Ms word generated power point presentation covers major details about the micronuclei test. It's significance and assays to conduct it. It is used to detect the micronuclei formation inside the cells of nearly every multicellular organism. It's formation takes place during chromosomal sepration at metaphase.
Travis Hills' Endeavors in Minnesota: Fostering Environmental and Economic Pr...Travis Hills MN
Travis Hills of Minnesota developed a method to convert waste into high-value dry fertilizer, significantly enriching soil quality. By providing farmers with a valuable resource derived from waste, Travis Hills helps enhance farm profitability while promoting environmental stewardship. Travis Hills' sustainable practices lead to cost savings and increased revenue for farmers by improving resource efficiency and reducing waste.
When I was asked to give a companion lecture in support of ‘The Philosophy of Science’ (https://shorturl.at/4pUXz) I decided not to walk through the detail of the many methodologies in order of use. Instead, I chose to employ a long standing, and ongoing, scientific development as an exemplar. And so, I chose the ever evolving story of Thermodynamics as a scientific investigation at its best.
Conducted over a period of >200 years, Thermodynamics R&D, and application, benefitted from the highest levels of professionalism, collaboration, and technical thoroughness. New layers of application, methodology, and practice were made possible by the progressive advance of technology. In turn, this has seen measurement and modelling accuracy continually improved at a micro and macro level.
Perhaps most importantly, Thermodynamics rapidly became a primary tool in the advance of applied science/engineering/technology, spanning micro-tech, to aerospace and cosmology. I can think of no better a story to illustrate the breadth of scientific methodologies and applications at their best.
The ability to recreate computational results with minimal effort and actionable metrics provides a solid foundation for scientific research and software development. When people can replicate an analysis at the touch of a button using open-source software, open data, and methods to assess and compare proposals, it significantly eases verification of results, engagement with a diverse range of contributors, and progress. However, we have yet to fully achieve this; there are still many sociotechnical frictions.
Inspired by David Donoho's vision, this talk aims to revisit the three crucial pillars of frictionless reproducibility (data sharing, code sharing, and competitive challenges) with the perspective of deep software variability.
Our observation is that multiple layers — hardware, operating systems, third-party libraries, software versions, input data, compile-time options, and parameters — are subject to variability that exacerbates frictions but is also essential for achieving robust, generalizable results and fostering innovation. I will first review the literature, providing evidence of how the complex variability interactions across these layers affect qualitative and quantitative software properties, thereby complicating the reproduction and replication of scientific studies in various fields.
I will then present some software engineering and AI techniques that can support the strategic exploration of variability spaces. These include the use of abstractions and models (e.g., feature models), sampling strategies (e.g., uniform, random), cost-effective measurements (e.g., incremental build of software configurations), and dimensionality reduction methods (e.g., transfer learning, feature selection, software debloating).
I will finally argue that deep variability is both the problem and solution of frictionless reproducibility, calling the software science community to develop new methods and tools to manage variability and foster reproducibility in software systems.
Exposé invité Journées Nationales du GDR GPL 2024
The use of Nauplii and metanauplii artemia in aquaculture (brine shrimp).pptxMAGOTI ERNEST
Although Artemia has been known to man for centuries, its use as a food for the culture of larval organisms apparently began only in the 1930s, when several investigators found that it made an excellent food for newly hatched fish larvae (Litvinenko et al., 2023). As aquaculture developed in the 1960s and ‘70s, the use of Artemia also became more widespread, due both to its convenience and to its nutritional value for larval organisms (Arenas-Pardo et al., 2024). The fact that Artemia dormant cysts can be stored for long periods in cans, and then used as an off-the-shelf food requiring only 24 h of incubation makes them the most convenient, least labor-intensive, live food available for aquaculture (Sorgeloos & Roubach, 2021). The nutritional value of Artemia, especially for marine organisms, is not constant, but varies both geographically and temporally. During the last decade, however, both the causes of Artemia nutritional variability and methods to improve poorquality Artemia have been identified (Loufi et al., 2024).
Brine shrimp (Artemia spp.) are used in marine aquaculture worldwide. Annually, more than 2,000 metric tons of dry cysts are used for cultivation of fish, crustacean, and shellfish larva. Brine shrimp are important to aquaculture because newly hatched brine shrimp nauplii (larvae) provide a food source for many fish fry (Mozanzadeh et al., 2021). Culture and harvesting of brine shrimp eggs represents another aspect of the aquaculture industry. Nauplii and metanauplii of Artemia, commonly known as brine shrimp, play a crucial role in aquaculture due to their nutritional value and suitability as live feed for many aquatic species, particularly in larval stages (Sorgeloos & Roubach, 2021).
Describing and Interpreting an Immersive Learning Case with the Immersion Cub...Leonel Morgado
Current descriptions of immersive learning cases are often difficult or impossible to compare. This is due to a myriad of different options on what details to include, which aspects are relevant, and on the descriptive approaches employed. Also, these aspects often combine very specific details with more general guidelines or indicate intents and rationales without clarifying their implementation. In this paper we provide a method to describe immersive learning cases that is structured to enable comparisons, yet flexible enough to allow researchers and practitioners to decide which aspects to include. This method leverages a taxonomy that classifies educational aspects at three levels (uses, practices, and strategies) and then utilizes two frameworks, the Immersive Learning Brain and the Immersion Cube, to enable a structured description and interpretation of immersive learning cases. The method is then demonstrated on a published immersive learning case on training for wind turbine maintenance using virtual reality. Applying the method results in a structured artifact, the Immersive Learning Case Sheet, that tags the case with its proximal uses, practices, and strategies, and refines the free text case description to ensure that matching details are included. This contribution is thus a case description method in support of future comparative research of immersive learning cases. We then discuss how the resulting description and interpretation can be leveraged to change immersion learning cases, by enriching them (considering low-effort changes or additions) or innovating (exploring more challenging avenues of transformation). The method holds significant promise to support better-grounded research in immersive learning.
Unlocking the mysteries of reproduction: Exploring fecundity and gonadosomati...AbdullaAlAsif1
The pygmy halfbeak Dermogenys colletei, is known for its viviparous nature, this presents an intriguing case of relatively low fecundity, raising questions about potential compensatory reproductive strategies employed by this species. Our study delves into the examination of fecundity and the Gonadosomatic Index (GSI) in the Pygmy Halfbeak, D. colletei (Meisner, 2001), an intriguing viviparous fish indigenous to Sarawak, Borneo. We hypothesize that the Pygmy halfbeak, D. colletei, may exhibit unique reproductive adaptations to offset its low fecundity, thus enhancing its survival and fitness. To address this, we conducted a comprehensive study utilizing 28 mature female specimens of D. colletei, carefully measuring fecundity and GSI to shed light on the reproductive adaptations of this species. Our findings reveal that D. colletei indeed exhibits low fecundity, with a mean of 16.76 ± 2.01, and a mean GSI of 12.83 ± 1.27, providing crucial insights into the reproductive mechanisms at play in this species. These results underscore the existence of unique reproductive strategies in D. colletei, enabling its adaptation and persistence in Borneo's diverse aquatic ecosystems, and call for further ecological research to elucidate these mechanisms. This study lends to a better understanding of viviparous fish in Borneo and contributes to the broader field of aquatic ecology, enhancing our knowledge of species adaptations to unique ecological challenges.
hematic appreciation test is a psychological assessment tool used to measure an individual's appreciation and understanding of specific themes or topics. This test helps to evaluate an individual's ability to connect different ideas and concepts within a given theme, as well as their overall comprehension and interpretation skills. The results of the test can provide valuable insights into an individual's cognitive abilities, creativity, and critical thinking skills
Immersive Learning That Works: Research Grounding and Paths ForwardLeonel Morgado
We will metaverse into the essence of immersive learning, into its three dimensions and conceptual models. This approach encompasses elements from teaching methodologies to social involvement, through organizational concerns and technologies. Challenging the perception of learning as knowledge transfer, we introduce a 'Uses, Practices & Strategies' model operationalized by the 'Immersive Learning Brain' and ‘Immersion Cube’ frameworks. This approach offers a comprehensive guide through the intricacies of immersive educational experiences and spotlighting research frontiers, along the immersion dimensions of system, narrative, and agency. Our discourse extends to stakeholders beyond the academic sphere, addressing the interests of technologists, instructional designers, and policymakers. We span various contexts, from formal education to organizational transformation to the new horizon of an AI-pervasive society. This keynote aims to unite the iLRN community in a collaborative journey towards a future where immersive learning research and practice coalesce, paving the way for innovative educational research and practice landscapes.
2. INFORMATIONS : info@sisomm.com
The different PERSO-C®
and PERSO-B®
- implant and abutment
forms and their measures
PAGE 3
Introduction and hints for the use of the PERSO-PEEK- Manual PAGE 4
PILOT DRILLING for PERSO-C®
–Implants PAGE 5
D
PROCEDURE CD 2-step loading of PERSO-C®
-Implants
surgical part
prosthetical part
PAGES 6 - 13
PROCEDURE BD 2-step loading for PERSO-B®
-implants for mandibula
surgical part
prosthetical part
PAGES 14 - 21
PROCEDURE BIT the temporary immediate implant procedure with PERSO-C032® PAGES 22 - 23
I
PROCEDURE CI Immediate loading of PERSO-C®
-Implants PAGES 24 - 29
PROCEDURE BI Immediate loading of PERSO-B®
-Implants for mandibula PAGES 30 - 31
PROCEDURE of partial or unilateral prosthetical reconstruction
of atrophic jaw zones
PAGES 32 - 33
OSTERI PACK PAGE 34 - 35
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PERSO-B001 UNIVERSAL PERSO-B101L Monobloc standard
PERSO-C001 UNIVERSAL PERSO-C047 Medium standard PERSO-C032
OABU1 OABU2
OAXE
Content
3
The different PERSO-C®
and PERSO-B®
- implant and abutment
forms and their measures
3. This presentation of the PEEK-PERSO-Technic has to be seen as a help to summarize your knowledge during
your participation in a Familiarization- and Operation-course. We try to provide knowledge as far as possible –
but those written resumees can have lacks.
Only the authorization by our partner, the scientific society IsoSS (www.isoss.eu), to whom we have delegated the
educational duties concerning the PEEK-PERSO-technic, qualifies customers to use SisoMM-products made from
PEEK.
En complément d’informations vous trouverez aussi sur ce facsicule des liens url qui indiquent des vidéos visibles
sur internet.
With pleasure we see forward to receive suggestions from our customers what aspects have to be displayed in a
more sophisticated manner.
Here we want to thank Michele Flanagan (Graphic), Myriam Broche (Communication), the translators:
Dr Ádám Dávid (Hungari), Mirella Filippini (Italy), Balgat Merkez (Turkey), Dr Fahrhad Ghazaei-Motlagh (Canada),
Dr Elena Fokeeva, Irina Nemeth, (Russia), Panos Pagratis (Greece), Dr Vlad Petrescu (Romania),
Bettina Rode, (Germany), Caroline Wallis (Spain) for their cooperation and comprehension in working out
this Manual.
Claudia Strinella
CEO SisoMM
5
Pilot Drilling for
PERSO-C®
–Implants
4
PERSO-C001
UNIVERSAL
PERSO-C047
Medium standard
PERSO-C032
CFP-1 CFP-2 CFP-3
(Ø 1,8 mm) 1200 rpm (Ø 2,2 mm) 900 rpm (Ø 2,5 mm) 750 rpm
Before starting the drilling determine the needed depth of the insertion channel and the
exact postion needed in the space – considering prosthetical rerestoration and position
of antagonist.
In function of these findings make the drilling with pilot-drills CFP1, CFP2 and CFP3
with reduced and decreasing speeds, using a contra-angle “green” handpiece 20:1.
4. CF1
CFC
CFCC
CD-2a
In the case of even larger
alveolar crest: finish the
conical part with a bigger
diameter (5,5 to 8,0 mm)
and use the drill CFCC.
(less than 20 rpm or manually)
CD-1
After the pilote drilling (page 5), form
the insertion channel for the straight
part of the implant PERSO-C®
(less
than 50 rpm) with form-drill CFI.
CD-2
Drill in bone the conical part of the
implant. (less than 20 rpm or by
hand) For an implant of Ø 4,7 mm,
use the form-drill CFC47. If other
diameters are indicated use the
different diameters of drills between
3,6mm and 5,5mm. (see catalogue)
OFR1
Diamond
Burr
CD-4 Insertion of the implant in the channel
Eventually assisted by needle-holder or OPORTE-C
OPORTE-C
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CD-3
Adjust the implant in
length with a hard-metal-bur
holding it by hand or in the
OBOCK.
En cas d’os en classe I
(d’après Misch) il faudra
recouper (supprimer) avec
une fraise en tungstène les
cotes de l’implant dépassant
3,0 mm de Ø et les 2 ailettes
au pied du conus. Ceci sera
fait par une fraise en
tungstene.
HAMMER
OFIX
OPORTE
DD
6
2-step loading
of PERSO-C®
-Implants
7
CD
Auxiliary instruments
Eventually treat surface
with Plasma-Spray
PERSO-C001 Universal PERSO-C047 Medium standard PERSO-C032
5. OFR1
OFR 645
CD-5
OFR 645
CD-6
Auxiliary instruments ODYN, OCLIP, OPORTE
After waiting as long as you would for loading a rigid implant (titanium/circonium),
open the gingiva to find the implant emergence.
Make an opening in the center of the implant, using OZIEL and the rotative instruments OFR7 and OFR8 or
OFR7-L and OFR8-L.
Eventually use a gingiva-former as esthetically necessary. (Adapt OAXE to the local needs)
CD-9
Cut the implant-emergence
- or on the level of the bone
- or 2-3mm above the surface of bone and close the woundflap
- or let heal transmucosally
CD-6
CD-8CD-7
CD-7a CD-8a
CDPERSO-C001 UNIVERSAL PERSO-C047 Medium standard PERSO-C032
D D
8 9
2-step loading of PERSO-C®
-Implants
6. abutments
OABU1
UNIVERSAL
CD-11
Fix the bridge with resine-cement after
equilibration of occlusion
OABU2
STANDART
OAXE
SPECIAL
Use for extended
distance between
implant and
superstructure
(13-27 mm)
Use for a
stub-height from 1
to 12 mm and with
angulation up to 6°
Use for stub-height
from 3 to 14 mm
and for an
angulation up
to 20°
Peut servir de
Use for
- healing screw
- additional OABU2
composed with
upper portion of
OAXE
Use for
- gingiva-former
- additional OABU2
composed with upper
portion of
OABU2
Auxilliary instruments
OCOH OC1H
CD
Prosthetics fixed by cements
* For screwing procedure switch over to page 12 (CD-10a)CD-10*
CD-12
Last controls and
corrections of occlusion
D
10
PERSO-C001 UNIVERSAL PERSO-C047 Medium standard PERSO-C032
D
11
2-step loading of PERSO-C®
-Implants
7. CD-10a*
Use for screwing
exclusively
OAXE-abutment.
CD-10b
After equilibration of
occlusion pass with OFR7
through opening
(Ø 2 mm) in crown which
was installed by dental
technician on some
crowns into the stubs
OAXE.This opening is
horizontal and has to be
easily accessible
for the dentist.
CD-10c
Form the opening in the
stub with the OFR-8 drill
for reduced
contra-angle, 50 rpm.
Occlusion Control
CD-10d
Install the thread with
OT25 with 5 to 25 rpm or
manually.
CD-10e CD-10f CD-10g CD-10h
Last controls and
corrections of occlusion
Prosthetics fixed by screwing
CD
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Auxiliary instruments
OCOH OC1H
D
ODYN 2
12
OCLIP OPORTE
PERSO-C001 UNIVERSAL PERSO-C047 Medium standard PERSO-C032
D
13
2-step loading of PERSO-C®
-Implants
8. BD-1
Create the insertion canal,
and pay attention to situation
of antagonists, with
CUCA4522 or 4532
(4000-40000 rpm) and cut
through transverse till in the
opposite lingual corticalis.
BD-2
Enlarge the basal cut to
7 mm Ø with CUCA9732
or 9722.(4000-20000 rpm)
BD-2a
View on the channel in
position 31 made by a
7mm cutter.
BD-1a
View on the channel in
position 31 made by a
5 mm cutter.
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BD-3
Enlarge the basal cut to 9mm Ø with
CUCA9932 or 9922. (4000-20000 rpm)
BD-3a
View on the channel in position 31
made by a 9 mm cutter.
D 2-step loading
of PERSO-C®
-Implants for mandibula
14
D
15
BDPERSO-B001 Universal PERSO-B101L Monobloc standard
9. BD
BD-6
Pass with the form-cutter CUCADEF for the
definite form of the vertical cut. (Ø 2,3mm being
larger than the inferior part of the vertical post,
measuring 2,0mm)
BD-6a
View on the cut done by CUCADEF at position 31.
OPORTEOFIX HAMMER
BD-4
Enlarge the cut of the base to
10 mm Ø with CUCA 91032 or
91022. (4000-20000 rpm)
BD-4a
View on the channel in
position 31 made by a
10 mm cutter.
BD-5
Enlarge the cut of the base to 12
mm Ø with CUCA 91032 or 91022.
(4000-20000 rpm)
BD-5a
View on the channel in
position 31 made by a
12 mm cutter.
- if bad bone quality
- if the retentional bone
structures are far away
- if there is impossible
to fix an implant with
lower diameter
To enlarge the cut for the base to 10 mm or 12 mm
PERSO-B001 UNIVERSAL
D
PERSO-B101L Monobloc standard
D
16 17
2-step loading of PERSO-C®
-Implants for mandibula
Auxiliary instruments
10. D
18
D
19
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PERSO-B001 UNIVERSAL PERSO-B101L Monobloc standard
BD2-step loading of PERSO-C®
-Implants for mandibula
BD-7
Install implants with help of OFIX and the
impactation instrument OPORTE.
Shaping of implant on OBOCK
BD-8
For full security we consult to respect the sames
delays of bone healing before loading of the
implants as in rigid implantologie
(titanium, circonium)
Insert basal implant with OFIX
11. D
20
PERSO-B001 UNIVERSAL PERSO-B101L Monobloc standard
D
21
BD-8a
In order to avoid an immediate loading, use our
immediate temporary implants PERSO-C032.
BD-8b
Stubs in situ after 6 weeks
BD
OCOH OC1H
BD-8
After the usual healing time, choice the stubs and
screw them on the implants.
If you would avoid to work in two steps but also
avoid an immediate loading , please refer to the
procedure BIT (page23)
BD-9
The stubs may be charged after at least 6
weeks but better up to 8 months after
intervention; the moment to choice depends
from the personal skills of the practitioner for
titanium implants.
2-step loading of PERSO-C®
-Implants for mandibula
Auxiliary instruments
OABU1 OABU 2 OAXE
12. D
22
the temporary immediate implant procedure
with PERSO-C032®
D
23
BIT-1
Create the insertion canal, and pay attention to situatio-
nof antagonists, with CUCA4522 or 4532 (4000-40000
rpm) and transverse till in the opposit lingual corticalis.
The procedure BIT described in the graphs 1 to 7 (BI-1 à BI-7) is the same as described in
the chapter concerning the two-step technic with the implants PERSO-B (Pages 14-18)
BIT-7
Install implants with help of OFIX and the
impactation instrument OPORTE.
...
«The procedure may concern parts of the jaws or the full arches. It is important to avoid the immediate
loading by insertion of immediate temporaries implants which will be extracted after having served in the
osseointegration period of the permanent implants. We could as well join this implants au natural posts
which are eventually disponible for fixation of a temporary provisional bridge»
PERSO-C032PERSO-B001 UNIVERSAL PERSO-B101L Monobloc standard
BIT-8a
For to avoid an immediate loading, use our
immediate temporary implants PERSO-C032.
BIT-8c
All stubs are srewed in the implants not earlier than after 6
weeks ; this date is fixed in function of the prosthetic works
for the loading and depends from the habit of the profes-
sional in rigid implantology. the healing delay is the same.
BIT-8
For highest security we recommend to respect the
delays of bone healing before loading of implants as you do
in rigid implantology (titanium, circonium)
BIT-8b
Only the temporary immediate implants will be loaded by a fixed
prosthesis. Installing that bridge be sure to have an equilibrated
occlusion, type PLANAS. When charging the definitive implants
verify the temporary implants ;eventually the one or other may
stay in bone, when not affected by any pathology. Those which
show one deficiency in the interface will be ablated.
BIT
13. OFR1
Diamond
Burr
CI-3
Adjust the implant in length with a
hard-metal-bur holding it by hand
or in the OBOCK.
OFR1
Diamond Burr
OBOCK
OPORTE-C
OPORTE
OFR1
OFR655 OFR643
Diamond Burr
OBOCK
OPORTE-C
OPORTE
CI-3b
Prepare the perimeter and the
diameter
of the implant
following the
anatomical site.
Use OFR655 to OFR640 with
decreasing diameters or shape the
stub with a diamond bur.
OFR1
OFR655 OFR643
Diamond Burr
OBOCK
OPORTE-C
OPORTE
CI-3c
Give eventually the
needed angulation of the
stub for optimized positioning
opposite to the antagonist and adjust
the enosseous length.
CI-2a
In the case of even larger
alveolar crest: finish the
conical part with a bigger Ø (5,5
to 8,0 mm) and use the
drill CFCC. (less than 20 rpm or
manually)
CI-1
After pilot drilling (page 5), form the
insertion channel for the straight part
of the implant PERSO-C®
.
(less than 50 rpm)
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PERSO-C001 UNIVERSAL PERSO-C047 Medium standard PERSO-C032
I IImmediate loading of PERSO-C®
-Implants
« We understand by CI (immediate or early loading) the loading of implants
- between the implant insertion and the 3 month for the lower jaw
- between the implant insertion and the 6th month for the upper jaw.
In this interval the bone structures around the implant are in the processus of
24 25
CI
osteointegration, néoformation of bone is developing;
there is a strong sensibility for micro-mouvements.
It is necessary to install and to maintain from the first day of loading till the 12th month a bilaterally equilibrated, balanced occlusion known as
PLANAS occlusion.
This has to be maintained for the time of mineralization and remineralization of the old and new bone tissues.It is necessary to control regularly the
maintenance of the PLANAS occlusion, in particular if we have to do with a case of edentation since a longue time or having had full dentures.
This processus will last at least 12 months.
In cases of Myoarthropathie, luxation or subluxation should be installed a narrow recall. We don’t recommend to work in immediate or early loading
with patients where is a doubt on their compliance for to follow the procedures ; the same valid for individual cases where probably an equilibrated
occlusion cannot be obtained immediately. The loss of implants could be the consequence »
Eventually treat surface
with Plasma-Spray
CI-2
Drill in bone the conical part of the
implant. (less than 20 rpm or by
hand) For an implant of Ø 4,7 mm,
use the form-drill CFC047. If other
diameters are indicated use the
different diameters of drills between
3,6 mm and 5,5 mm. (see catalogue)
CI-3a
For insertion in the opening the two
cervical wings have to be
horizontal. Hold
the implant on the
straight part with a
finger; use the
transparent sheet as to
avoid to contaminate the surface
with talc from gloves. Cut the parts of
implants which have to be adapted
with hard metal-burs.
14. OFIX
OPORTE
CI-5
If you have used the OBOCK
shape the stub like a natural
tooth with a diamant bur and
make last corrections after
insertion.
Permanent Cemet
Permanent Cemet
Occlusion Control
Diamond Burr
CI-6
Fix the bridge with
resin cement after
equilibration of occlusion.
Occlusion Control
CI-7
Last controls and
corrections of occlusion.
Prosthetics fixed by cements*
CI-4 Insertion of the implant in the channel
Assisted by needle-holder or OPORTE-C
* For screwing procedure switch over to page 26 (CI-6a)
I I
26 27
CI
PERSO-C001 UNIVERSAL PERSO-C047 Medium standard PERSO-C032
Eventually treat surface
with Plasma-Spray
Immediate loading of PERSO-C®
-Implants
The day of operation and some days after, use Alginate for
impression and avoid silicones because of their penetration
potential in the wounds and potential infections because of
residuals staying in the wounds.
15. CI-6a*
After equilibration of
occlusion pass with OFR7
through opening (Ø 2 mm)
in crown which was installed
by dental technician on some
crowns into the stubs OAXE.
This opening is horizontal and
has to be easily accessible for
the dentist.
CI-6b
Form the opening in the stub
with the OFR-8 drill for reduced
counter-angle, 50 rpm.
CI-6c
Install the thread with OT25
with 5 to 25 rpm or manually.
Occlusion Control
CI-6g
Last
controls
and
corrections
of occlusion
CI-6f
CI-6e
Cut OABU1 with a bur in
tungsten.
CI-6d
Prosthetics fixed by screwing
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I I
28 29
CI
PERSO-C001 UNIVERSAL PERSO-C047 Medium standard PERSO-C032
Immediate loading of PERSO-C®
-Implants
16. BII I
30 31
The Procedure BI for the graphs 1 to 8 (BI-1 to B1-8) is similar to that described in the
chapter « 2-step loading of implants PERSO-B (pages 14 to 18)
BI-8
For all security we recommend to respect
equivalent delays as in rigid implantology
(titanium and circonium) for bone healing before
loading implants.
...
BI-9
For specialists in occlusion it is not excluded to have success with immediate loading
of PERSO-implants.
In deed, you have to install an occlusion type PLANAS and this from the 1st day
of loading.
The immediate loading requires that the implants are fixed by a bridge as by a splint or
external fixator from the end of the operation and on its last after 12 days.
BI-1
Create the insertion canal, and pay attention to
situationof antagonists, with CUCA4522 or 4532
(4000-40000 rpm) and cut through transverse till in
the opposite lingual corticalis.
Immediate loading of
PERSO-B®
-Implants
PERSO-B001 Universal PERSO-B101L Monobloc standard
17. PROCEDURE of partial or unilateral prosthetical reconstruction of atrophic jaw zones
Parallize the emergence of implants and the stubs
with a diamond burr or a bellforme grinder.
32 33
For the places with reduced bone height in the near
of obstacles (<10mm) and of bad quality or with
reduced crestal width (<3,6mm) please use
PERSO-B implants in the place of crestal implants.
Use PERSO-C for insertions in pterygomaxillary
and zygoma-regions.
Whilst choosing implant techniques for atrophiques zones, you have to consider that there will be often longues distances between the
zones of anchoring in bone and the superstructure and that there will be only little bone volumina for to stand constraints.
A basal implant which is not inserted in all its height in bone (at least 8mm) will not develop sufficient lateral stability for to counter the
important scissors forces rising up in such a case ; that is why it must be associated to a crestal implant which will stabilize with its leaning
against the lateral corticalis or by connection with a natural parodontally intact tooth.
If they are integrated in weak bone structures, even 2 basal implants in position 5,6 or 7 could not be enough . It might bet hat a crestal
implant has to be associated, eventually a pterygo-maxillary implant. It is important in any case to wait a good osseointegration before
loading.
Per unity of replaced teeth it is important to calculate a an interface of the implant of 7 sqmm at least, better 9 or 10 sqmm.
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18. Drills and milling cutters
-for dynamometrical keys-
For create and parallelize stubs
OFR651
OFR647
OFR620 OFR625
OFR5
CFP1 CFP2 CFP3
CFI
CFC047 CFC051
45-22
45-32
97-22
97-32
910-22
910-32
912-22
912-32
CUCADEF CUTUDEF
99-22
99-32
To put the implant in its insertion channel
For to cut and grind the PEEK-material and rigid materials
(metal/circonium)
For creating external and internal threads in PEEK
or in fractured rigid implants.
Manual milling adapters
OPORTE-B OPORTE-C OFIX
OBOCK
OFR1 OP25 OP45
OT25 OT45
OCLIP OCOH OC1H
CUCA
for Contre-Angle
OFR6ABU
OSTERI
OKRON 1
ODYN 1
For to prepare surgical and prosthetical work
OLANG
OFR630 OFR632
OFR636 OFR643
OFR655
45-22
45-32
97-22
97-32
910-22
910-32
912-22
912-32
99-22
99-32
OFR640
ODYN 2
OKRON K
TOOLS & INSTRUMENTSfor the 2 implants types PERSO-B®
and PERSO-C®
+ Repairs
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34
CFC036 CFC040
CFC043 CFCC
Cutters
CUTU
for Turbine
OZIEL040 OZIEL051
OFR2 OFR3
OFR4 OFR7 OFR8
For treat surface with Plasma-Spray
PB2
35
CFP1-L
CFI-L