Association of QCT bone strength and soft tissue thickness with trochanteric and femoral neck fractures in Older Men

OBJECTIVEThe aim of this study was to compare the accuracy of optical frameless neuronavigation (ON) and robot-assisted (RA) stereoelectroencephalography (SEEG) electrode placement in children, and to identify factors that might increase the risk of misplacement.METHODSThe authors undertook a retrospective review of all children who underwent SEEG at their institution. Twenty children were identified who underwent stereotactic placement of a total of 218 electrodes. Six procedures were performed using ON and 14 were placed using a robotic assistant. Placement error was calculated at cortical entry and at the target by calculating the Euclidean distance between the electrode and the planned cortical entry and target points. The Mann-Whitney U-test was used to compare the results for ON and RA placement accuracy. For each electrode placed using robotic assistance, extracranial soft-tissue thickness, bone thickness, and intracranial length were measured. Entry angle of electrode to bone was calculated using stereotactic coordinates. A stepwise linear regression model was used to test for variables that significantly influenced placement error.RESULTSBetween 8 and 17 electrodes (median 10 electrodes) were placed per patient. Median target point localization error was 4.5 mm (interquartile range [IQR] 2.8–6.1 mm) for ON and 1.07 mm (IQR 0.71–1.59) for RA placement. Median entry point localization error was 5.5 mm (IQR 4.0–6.4) for ON and 0.71 mm (IQR 0.47–1.03) for RA placement. The difference in accuracy between Stealth-guided (ON) and RA placement was highly significant for both cortical entry point and target (p < 0.0001 for both). Increased soft-tissue thickness and intracranial length reduced accuracy at the target. Increased soft-tissue thickness, bone thickness, and younger age reduced accuracy at entry. There were no complications.CONCLUSIONSRA stereotactic electrode placement is highly accurate and is significantly more accurate than ON. Larger safety margins away from vascular structures should be used when placing deep electrodes in young children and for trajectories that pass through thicker soft tissues such as the temporal region.

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A dense approach for computation of facial soft tissue thickness data

Forensic Imaging ◽

10.1016/j.fri.2021.200460 ◽

2021 ◽

pp. 200460

Author(s):

Diana Toneva ◽

Silviya Nikolova ◽

Stanislav Harizanov ◽

Dora Zlatareva ◽

Vassil Hadjidekov

Keyword(s):

Soft Tissue ◽

Tissue Thickness ◽

Facial Soft Tissue ◽

Soft Tissue Thickness

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Improvement of biohistological response of facial implant materials by tantalum surface treatment

Maxillofacial Plastic and Reconstructive Surgery ◽

10.1186/s40902-019-0231-3 ◽

2019 ◽

Vol 41 (1) ◽

Author(s):

Mohammed Mousa Bakri ◽

Sung Ho Lee ◽

Jong Ho Lee

Keyword(s):

Foreign Body ◽

Soft Tissue ◽

Surface Treatment ◽

Clinical Applications ◽

Tissue Response ◽

Bone Surface ◽

Tissue Thickness ◽

Implant Materials ◽

Soft Tissue Thickness

Abstract Background A compact passive oxide layer can grow on tantalum (Ta). It has been reported that this oxide layer can facilitate bone ingrowth in vivo though the development of bone-like apatite, which promotes hard and soft tissue adhesion. Thus, Ta surface treatment on facial implant materials may improve the tissue response, which could result in less fibrotic encapsulation and make the implant more stable on the bone surface. The purposes of this study were to verify whether surface treatment of facial implant materials using Ta can improve the biohistobiological response and to determine the possibility of potential clinical applications. Methods Two different and commonly used implant materials, silicone and expanded polytetrafluoroethylene (ePTFE), were treated via Ta ion implantation using a Ta sputtering gun. Ta-treated samples were compared with untreated samples using in vitro and in vivo evaluations. Osteoblast (MG-63) and fibroblast (NIH3T3) cell viability with the Ta-treated implant material was assessed, and the tissue response was observed by placing the implants over the rat calvarium (n = 48) for two different lengths of time. Foreign body and inflammatory reactions were observed, and soft tissue thickness between the calvarium and the implant as well as the bone response was measured. Results The treatment of facial implant materials using Ta showed a tendency toward increased fibroblast and osteoblast viability, although this result was not statistically significant. During the in vivo study, both Ta-treated and untreated implants showed similar foreign body reactions. However, the Ta-treated implant materials (silicone and ePTFE) showed a tendency toward better histological features: lower soft tissue thickness between the implant and the underlying calvarium as well as an increase in new bone activity. Conclusion Ta surface treatment using ion implantation on silicone and ePTFE facial implant materials showed the possibility of reducing soft tissue intervention between the calvarium and the implant to make the implant more stable on the bone surface. Although no statistically significant improvement was observed, Ta treatment revealed a tendency toward an improved biohistological response of silicone and ePTFE facial implants. Conclusively, tantalum treatment is beneficial and has the potential for clinical applications.

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Adapting the vertical position of implants with a conical connection in relation to soft tissue thickness prevents early implant surface exposure: A 2-year prospective intra-subject comparison

Journal Of Clinical Periodontology ◽

10.1111/jcpe.12871 ◽

2018 ◽

Vol 45 (5) ◽

pp. 605-612 ◽

Cited By ~ 15

Author(s):

Stijn Vervaeke ◽

Carine Matthys ◽

Rima Nassar ◽

Veronique Christiaens ◽

Jan Cosyn ◽

...

Keyword(s):

Soft Tissue ◽

Vertical Position ◽

Tissue Thickness ◽

Implant Surface ◽

Soft Tissue Thickness ◽

Conical Connection ◽

Subject Comparison

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Soft-tissue thickness of South Korean adults with normal facial profiles

The Korean Journal of Orthodontics ◽

10.4041/kjod.2013.43.4.178 ◽

2013 ◽

Vol 43 (4) ◽

pp. 178 ◽

Cited By ~ 18

Author(s):

Kyung-Suk Cha

Keyword(s):

Soft Tissue ◽

Tissue Thickness ◽

South Korean ◽

Korean Adults ◽

Soft Tissue Thickness

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The Relationship of Undifferentiated Mesenchymal Cells to TMJ Articular Tissue Thickness

Journal of Dental Research ◽

10.1177/00220345920710111001 ◽

1992 ◽

Vol 71 (11) ◽

pp. 1816-1821 ◽

Cited By ~ 22

Author(s):

C.A. Bibb ◽

A.G. Pullinger ◽

F. Baldioceda

Keyword(s):

Soft Tissue ◽

Inverse Relationship ◽

Biological Processes ◽

Spearman Correlation ◽

Articular Eminence ◽

Tissue Thickness ◽

Cartilage Layer ◽

Soft Tissue Thickness ◽

Relationship Of ◽

The Relationship

Undifferentiated mesenchymal (UM) cells, the progenitor cells of the cartilage layer, have been assigned a significant role in TMJ articular tissue maintenance. This was based on reports of UM cell reduction with increased soft-tissue thickness for the condyle and temporal component. However, the strength of this inverse relationship was not presented and remained unclear. The purpose of the present study was to assess the strength of the correlation between UM cell presence and soft-tissue thickness in young adult TMJs at autopsy. Sagittal histological sections from the central thirds of 50 joints were evaluated with respect to articular soft-tissue thickness, histological character, and UM cell presence in the condyle and temporal component. The superior sector ofthe condyle and the articular eminence showed the greatest variability in soft-tissue thickness and were the only areas to show localized UM cell absence. The eminence was the only location to show an inverse relationship between soft-tissue thickness and UM cell presence, and this was consistent in both an ANOVA (p = 0.0016) and a Spearman correlation analysis. However, the strength of this correlation was only moderate (rho = -0.52), and no such relationship was observed in any other location. This study suggests that the relationship between UM cell presence and soft-tissue thickness is more complex than previously hypothesized and that the contribution of UM cells to articular tissue maintenance has been overstated, while other biological processes were overlooked.

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