New Bone Growth into Surgical Bone Defects Grafted with a Novel Cultivated Coral Graft: A Histomorphometric Study in Rabbit Calvarias.

Natural Coral Particles (NCPs) are a suitable scaffold material for Guided Bone Regeneration (GBR) procedures; it combines the placement of a bone substitute supporting a barrier membrane. Due to increasing sea pollution and the declarations of endangered coral species (KYOTO 1997), they are no longer suitable for the medical industry. Novel domestic corals have been grown under controlled conditions to produce cultivated coral graft (CCG) material.

New Bone Growth into Surgical Bone Defects Grafted with a Novel Cultivated Coral Graft: A Histomorphometric Study in Rabbit Calvarias.

Purpose: To evaluate a new cultivated coral graft (CCG) in an in vivo experimental guided bone regeneration (GBR) procedure.

Materials And Methods: The calvarias of eight rabbits were surgically exposed, and circular defects 8 mm in diameter were prepared. One defect was filled with CCG particles (experimental group); the contralateral defect (control group) was spontaneously filled by blood clot.

Evaluation of Implant Stability and Trephination Depth for Implant Removal-An In Vitro Study.

Malpositioned and broken implants are usually fully osseointegrated; hence, their removal, especially from the lower arch, can be very challenging. Implant removal techniques include reverse torque and trephination. Trephination is an invasive technique that can jeopardize vital structures, cause mandibular fatigue fractures, or lead to osteomyelitis.

Primary Implant Stability Analysis of Different Dental Implant Connections and Designs-An In Vitro Comparative Study.

Primary implant stability can be evaluated at the time of placement by measuring the insertion torque (IT). However, another method to monitor implant stability over time is resonance frequency analysis (RFA). Our aim was to examine the effect of bone type, implant design, and implant length on implant primary stability as measured by IT and two RFA devices (Osstell and Penguin) in an in vitro model.

Reliability and Correlation of Different Devices for the Evaluation of Primary Implant Stability: An In Vitro Study.

Our aim was to analyze the correlation between the IT evaluated by a surgical motor and the primary implant stability (ISQ) measured by two RFA devices, Osstell and Penguin, in an in vitro model. This study examines the effect of bone type (soft or dense), implant length (13 mm or 8 mm), and implant design (CC: conical connection; IH: internal hexagon), on this correlation. Ninety-six implants were inserted using a surgical motor (IT) into two types of synthetic foam blocks.

Tensile Properties of Three Selected Collagen Membranes.

Background: Biological barriers are commonly used to treat alveolar bone defects and guide tissue regeneration. Understanding the biological and mechanical properties of the available membranes is crucial for selecting the one that is optimal for enhancing clinical outcomes.

Purpose: To evaluate the mechanical behavior of three different collagen membranes to increasing tensile force in dry and wet conditions.

Effect of micrometer-scale roughness of the surface of Ti6Al4V pedicle screws in vitro and in vivo.

Background: Titanium implants that have been grit-blasted and acid-etched to produce a rough microtopography support more bone integration than do smooth-surfaced implants. In vitro studies have suggested that this is due to a stimulatory effect on osteoblasts. It is not known if grit-blasted and acid-etched Ti6Al4V implants also stimulate osteoblasts and increase bone formation clinically.