L. A. Mozgovaya scite author profile

L. A. Mozgovaya

5Publications

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Perm State Medical Academy, Odessa National Polytechnic University, Institute of Refrigeration

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Infrared laser light in dental practice

et al. 2018

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Aim. To optimize the conditions, necessary for elimination of inflammatory phenomena in parodontium tissues Materials and methods. Fifty practically healthy and socially adapted patients (age range 16 to 40 years) with uncomplicated mandibular fractures participated in the study. Results. The studies showed that among patients with two-jaw dental splints, who experienced traditional complex treatment, the main clinical indices did not change throughout the period of observations. Infrared laser light applied reduced the severity of inflammation in the tissues of marginal parodontium. Conclusions. The obtained results permit to recommend complex medical effect on the parodontium tissues for patients with intraoral fixing constructions. This effect is aimed at correction of the oral cavity hygiene and multifactor pathogenetic action of infrared laser light, making it possible to stabilize significantly the state of parodontium tissues in unfavorable conditions of intermaxillary fixation in patients with mandibular fractures.

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50 Effect of magnetic and laser irradiation on biofilm formation by microorganisms obtained from patients with chronic apical periodontitis

Mozgovaya¹,

Zadorina²,

Bykova³

et al. 2012

Photodiagnosis and Photodynamic Therapy

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49 Effect of magnetic laser irradiation on the sensitivity of microorganisms to “radent” filler material

Mozgovaya¹,

Zadorina²,

Bykova³

et al. 2012

Photodiagnosis and Photodynamic Therapy

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Infrared Quenching of the Photomechanical Effect in Cadmium Sulphide

Дроздов

Mozgovaya

1967

Physica Status Solidi (b)

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The photomechanical effect in semiconductors is one of the least studied phenomena. Only few papers appeared dealing with this subject.The essence of the photomechanical effect lies in a reversible softening of crystals under the effect of light. In general two factors contribute to the photomechanical effect: 1. When a crystal is illuminated with light from the fundamental absorption region the valence electrons lose their function of bonding electrons and turn into conduction electrons. 2. The increase in the free carrier concentration during illumination is essential in this spectral region. The carriers weaken the valence bonds by causing a screening effect (I, 2 ) . The dislocations seem to have no essential influence unless their concentration is very high. Normally the minimum distance between dislocations is about 10 pm ( 3 ) which often exceeds the imprint diagonal when measuring microhardness.From the above consideration follows that the photomechanical effect should be most pronounced in semiconductors with bipolar photoconductivity, since both above mentioned factors -the increase in the number of broken valence bonds (holes) and the concentration of free electrons -become operative in this case. Hence one can understand why, e.g.l softening o f silicon under the effect of light amounts to 70% ( 4 ) .In monopolar (more exactly in ltquasi-monopolarlt ( 5 ) ) photoconductors the photomechanical effect seems to be smaller. This is oonnected with the high'trap concentration f o r one kind of carriers. A s a result only one o f the above mentioned factors will become operative.

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On the Relation between Microhardness and Point Defects of Crystals

Berdnikov¹,

Drozdov²,

Mozgovaya³

1968

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L. A. Mozgovaya

Infrared laser light in dental practice

50 Effect of magnetic and laser irradiation on biofilm formation by microorganisms obtained from patients with chronic apical periodontitis

49 Effect of magnetic laser irradiation on the sensitivity of microorganisms to “radent” filler material

Infrared Quenching of the Photomechanical Effect in Cadmium Sulphide

On the Relation between Microhardness and Point Defects of Crystals

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