Lasers and hard-tissue interactions

Cell and tissue interactions are a basic aspect of eukaryotic growth and development. While cell-to-cell interactions involving recognition and incompatibility have been studied extensively in animals, there is no known antigen-antibody reaction in plants and the recognition mechanisms operating in plant grafts have been virtually neglected.An ultrastructural study of the Sedum telephoides/Solanum pennellii graft was undertaken to define possible mechanisms of plant graft incompatibility. Grafts were surgically dissected from greenhouse grown plants at various times over 1-4 weeks and prepared for EM employing variations in the standard fixation and embedding procedure. Stock and scion adhere within 6 days after grafting. Following progressive cell senescence in both Sedum and Solanum, the graft interface appears as a band of 8-11 crushed cells after 2 weeks (Fig. 1, I). Trapped between the buckled cell walls are densely staining cytoplasmic remnants and residual starch grains, an initial product of wound reactions in plants.

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Effects of Hypophysectomy on the Occurrence and Calcifiability of Matrix Vesicles in the Epiphyseal Growth Plate of Immature Rats

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s1431927600002579 ◽

1980 ◽

Vol 38 ◽

pp. 578-579

Author(s):

S. I. Coleman ◽

W. J. Dougherty

Keyword(s):

Growth Plate ◽

Matrix Vesicles ◽

Epiphyseal Growth Plate ◽

Hard Tissue ◽

Hormonal Factors ◽

Post Surgery ◽

Mineral Deposition ◽

Thin Sectioning ◽

Integral Role ◽

Cellular Secretion

In the cellular secretion theory of mineral deposition, extracellular matrix vesicles are believed to play an integral role in hard tissue mineralization (1). Membrane limited matrix vesicles arise from the plasma membrane of epiphyseal chondrocytes and tooth odontoblasts by a budding process (2, 3). Nutritional and hormonal factors have been postulated to play essential roles in mineral deposition and apparently have a direct effect on matrix vesicles of calcifying cartilage as concluded by Anderson and Sajdera (4). Immature (75-85 gm) Long-Evans hooded rats were hypophysectomized by the parapharyngeal approach and maintained fourteen (14) days post-surgery. At this time, the animals were anesthetized and perfusion fixed in cacodylate buffered 2.5% glutaraldehyde. The proximal tibias were quickly dissected out and split sagittally. One half was used for light microscopy (LM) and the other for electron microscopy (EM). The halves used for EM were cut into blocks approximately 1×3 mm. The tissue blocks were prepared for ultra-thin sectioning and transmission EM. The tissue was oriented so as to section through the epiphyseal growth plate from the zone of proliferating cartilage on down through the hypertrophic zone and into the initial trabecular bone. Sections were studied stained (double heavy metal) and unstained.

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The 18th Annual Meeting of the Society for Hard Tissue Regenerative Biology in Health Sciences University of Hokkaido

Journal of Hard Tissue Biology ◽

10.2485/jhtb.18.161 ◽

2009 ◽

Vol 18 (3) ◽

pp. 161-169

Keyword(s):

Annual Meeting ◽

Health Sciences ◽

Hard Tissue ◽

18Th Annual Meeting

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Soft And Hard Tissue Augmentation Of Atrophic Anterior Mandible For Implant Placement: A Case Report

10.26226/morressier.5ac3831c2afeeb00097a39d6 ◽

2018 ◽

Author(s):

Onur Eroglu

Keyword(s):

Case Report ◽

Hard Tissue ◽

Implant Placement ◽

Tissue Augmentation ◽

Anterior Mandible

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Ultra-Short Pulse Laser Ablation of Biological Hard Tissue and Biocompatibles

Journal of Laser Micro/Nanoengineering ◽

10.2961/jlmn.2008.01.0007 ◽

2008 ◽

Vol 3 (1) ◽

pp. 30-40 ◽

Cited By ~ 16

Author(s):

Martin Strassl

Keyword(s):

Laser Ablation ◽

Pulse Laser ◽

Pulse Laser Ablation ◽

Short Pulse ◽

Hard Tissue ◽

Short Pulse Laser ◽

Ultra Short Pulse ◽

Ultra Short Pulse Laser

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Development of the Biomaterials Technology for the Infection Resistance

Current Pharmaceutical Design ◽

10.2174/1381612824666180307121716 ◽

2018 ◽

Vol 24 (8) ◽

pp. 886-895 ◽

Cited By ~ 2

Author(s):

Tengzhou Xu ◽

Zhou Chen ◽

Zhaofeng Chen ◽

Yuxin Fan ◽

Haifeng Mao

Keyword(s):

Disease Spread ◽

Metallic Ions ◽

Comparative Performance ◽

Tissue Interactions ◽

Infection Resistance ◽

Glass Base ◽

Microbial Proliferation ◽

The Common ◽

Multicenter Clinical Trials ◽

Technical Solutions

Infections caused by microbial proliferation are one of the common issues and serious threats to the medical care, and they usually result in disease spread. Therefore, it is a significant issue for developing the antiinfective biomaterials to control this problem, according to the specific clinical application. Meanwhile, all their properties, the best anti-infective performance, the safe biocompatibility and the appropriate tissue interactions must be conformed to each other. At present, technologies are developing novel biomaterials and surfaces endowed with anti-infective properties, relying either on bactericidal or anti-biofilm activities. This review focuses on thoroughly summarizing numerous kinds of antibacterial biomaterials, including the antibacterial matrix biomaterials, antibacterial coatings and films, nanostructured materials and antibacterial fibers. Among these strategies, the utilization of bio-glass base and graphene base antibacterial matrix, and their effects on the antibiosis mechanism were emphatically discussed. Simultaneously, the effects and mechanisms of nano-coated metallic ions are also mentioned. Overall, there is a wealth of technical solutions to contrast the establishment of an implant infection. The lack of well-structured prospective multicenter clinical trials hinders the achievement of conclusive data on the efficacy and comparative performance of antibacterial biomaterials.

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New collagenolytic enzymes/cascade identified at the pannus-hard tissue junction in rheumatoid arthritis: destruction from above

Matrix Biology ◽

10.1016/s0945-053x(98)90110-x ◽

1998 ◽

Vol 17 (8-9) ◽

pp. 585-601 ◽

Cited By ~ 58

Author(s):

YrjöT. Konttinen ◽

Arnoldas Ceponis ◽

Michiaki Takagi ◽

Mari Ainola ◽

Timo Sorsa ◽

...

Keyword(s):

Rheumatoid Arthritis ◽

Hard Tissue

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The Influence of Force Direction on the Fracture Pattern and Fracture Resistance of Canine Teeth in Dogs

Journal of Veterinary Dentistry ◽

10.1177/0898756417705229 ◽

2017 ◽

Vol 34 (1) ◽

pp. 8-17 ◽

Cited By ~ 2

Author(s):

Stephanie Goldschmidt ◽

Catherine Zimmerman ◽

Caitlyn Collins ◽

Scott Hetzel ◽

Heidi-Lynn Ploeg ◽

...

Keyword(s):

Fracture Resistance ◽

Ex Vivo ◽

Testing Machine ◽

Fracture Pattern ◽

Hard Tissue ◽

Canine Tooth ◽

Cross Sectional ◽

Significant Difference ◽

Force Direction ◽

Testing Group

Biomechanical studies of the elongated canine tooth of animals are few, and thus our understanding of mechanical and physical properties of animal teeth is limited. The objective of the present study was to evaluate the influence of force direction on fracture resistance and fracture pattern of canine teeth in an ex vivo dog cadaver model. Forty-five extracted canine teeth from laboratory beagle dogs were standardized by hard tissue volume and randomly distributed among 3 force direction groups. The teeth were secured within a universal testing machine and a load was applied at different directions based on testing group. The maximum force to fracture and the fracture pattern classification were recorded for each tooth. After correcting for hard tissue cross-sectional area in a multivariate analysis, no significant difference in the amount of force required for fracture was apparent between the different force direction groups. However, the influence of force direction on fracture pattern was significant. The results of this study may allow the clinician to educate clients on possible causal force directions in clinically fractured teeth and, thus, help prevent any contributing behavior in the future.

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