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1.
J Funct Biomater ; 14(7)2023 Jul 18.
Artículo en Inglés | MEDLINE | ID: mdl-37504871

RESUMEN

The placement of dental screw implants typically involves the use of rotary techniques and drills to create a bone bed. This study explores the potential benefits of combining this method with an Er:YAG laser. Split osteotomies were performed on 10 jaws of euthanized domestic pigs (Sus scrofa domestica), with 12 mandibular implant osteotomies in each jaw, divided into 4 groups. In order to make a comprehensive assessment of the effect of Er:YAG lasers, histomorphological techniques were used to measure the reduction in amorphous layer thickness after Er:YAG laser treatment, both with and without the placement of dental screw implants from different manufacturers. Following bone decalcification and staining, the thickness of the amorphous layer was measured in four groups: Group A-osteotomy performed without Er:YAG laser treatment-had amorphous layer thicknesses ranging from 21.813 to 222.13 µm; Group B-osteotomy performed with Er:YAG laser treatment-had amorphous layer thicknesses ranging from 6.08 to 64.64 µm; Group C-an implant placed in the bone without laser treatment-had amorphous layer thicknesses of 5.90 to 54.52 µm; and Group D-an implant placed after bone treatment with Er:YAG laser-had amorphous layer thicknesses of 1.29 to 7.98 µm. The examination and photomicrodocumentation was performed using a LEICA DM1000 LED microscope (Germany) and LAS V 4.8 software (Leica Application Suite V4, Leica Microsystems, Germany). When comparing group A to group B and group C to D, statistically significant differences were indicated (p-value = 0.000, p < 0.05). The study demonstrates the synergistic effects and the possibility of integrating lasers into the conventional implantation protocol. By applying our own method of biomodification, the smear layer formed during rotary osteotomy can be reduced using Er:YAG lasers. This reduction leads to a narrower peri-implant space and improved bone-to-implant contact, facilitating accelerated osseointegration.

2.
Anim Sci J ; 94(1): e13810, 2023.
Artículo en Inglés | MEDLINE | ID: mdl-36717086

RESUMEN

The domestication of the horse began possibly more than 5000 years ago in the western part of the Eurasian steppe, and according to the leading hypothesis, horses first spread from the Steppe toward the region of the Thracian culture, starting in the second half of the 2nd millennium BCE and flourished from the fifth to first centuries BCE, mainly located in present-day Bulgaria. We analyzed 17 horse bone remains excavated from Thracian archaeological sites (fourth to first centuries BCE) in Bulgaria and successfully identified 17 sequences representing 14 different haplotypes of the mitochondrial D-loop. Compared with the mtDNA haplotypes of modern horses around the world, ancient Thracian horses in Bulgaria are thought to be more closely related to modern horses of Southern Europe and less related to those of Central Asia. In addition, the haplotypes we obtained represented 11 previously reported modern horse mtDNA haplogroups: A, B, D, E, G, H, I, L, N, P, and Q. All the haplogroups contain modern and regionally predominant haplotypes occurring in Europe, the Middle East, and Central Asia. Our results indicate that Thracian horses in Bulgaria have had relatively high genetic diversity and are closely related to modern horse breeds.


Asunto(s)
ADN Mitocondrial , Mitocondrias , Caballos/genética , Animales , Bulgaria , Haplotipos/genética , Filogenia , Mitocondrias/genética , ADN Mitocondrial/genética , Variación Genética
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