Elizaveta A. Ivanova scite author profile

Elizaveta A. Ivanova

5Publications

14Citation Statements Received

80Citation Statements Given

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108

Affiliations

Nikolaev Institute of Inorganic Chemistry, First Pavlov State Medical University of St. Petersburg

Publications

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Augmented reality technology for auricular reconstruction in the treatment of microtia

Yaremenko

Lysenko

Ivanova

et al. 2020

CTT

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Facial defects and deformations occupy a significant place in the practice of maxillofacial and dental surgeons. Nevertheless, maxillofacial surgery is developing rapidly and requires improvement of existing treatment methods, and introduction of new approaches to reconstructive surgery. Augmented reality is a promising direction of computer technology development which is actively used in medicine and education. Modern computer technology allows to create a 3D model of a lost organ and use it for preoperative planning, as well as apply a virtual model for intraoperative navigation. Recently, the method of augmented reality has been actively developed, when a virtual image of the zone of the surgical area or a dedicated organ is used, which is compared with its real prototype in static mode, or in real-time using computer devices. The benefits of using augmented reality technologies in reconstructive surgery is associated with preoperative virtual planning, simplification of the surgical intervention itself, as well as with a reduction in the risks of intra- and postoperative complications. The aim of our work was to study the opportunity of using the augmented reality technology in reconstructive surgery for microtia correction based on pre-operative computer simulation. At the preoperative stage, a photometric analysis of the patient was carried out, then a computer simulation of the missing auricle was performed. Using a 3D printer, a virtual model of the reconstructed auricle was obtained. The image in three-dimensional format was loaded into augmented reality glasses, which made it possible to project the shape and position of the simulated auricle to the area of the defect of the auricle when preparing for surgery. During the surgery, a marker was installed near the surgical field, in order to display the three-dimensional model in a destined position. During surgical intervention, an autogenous costal cartilage was taken, from which the auricle was formed using augmented reality approach and three-dimensional modeling. Subsequently, the graft was introduced to the formed bed in the area of the right ear auricle. The obtained 3D model of the auricle before the operation enabled planning of the forthcoming operation and determine the amount of autograft needed for reconstruction. Using the augmented reality glasses, the exact shape of the auricle is reproduced during the operation, and its proper position is assessed in relation to the healthy side. No complications were observed over the postoperative period. Virtual modelling of a lost or absent organ based on a preoperative examination provides important information about its spatial structure. Preoperative virtual planning allows you to predict the individual features of the operation, its difficult stages, to anticipate possible complications. The use of augmented reality technology during reconstructive surgery is a promising method requiring further development and improvement.

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Prospectives for using artificial scaffolds in oral and craniofacial surgery: literature review

Yaremenko¹,

Lysenko²,

Ivanova³

et al. 2018

CTT

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Regenerative medicine is an emerging field of biotechnology that combines various aspects of medicine including cell and molecular biology, material science and bioengineering -to regenerate, repair or replace tissues. Bone regeneration is a promising approach in dentistry and is considered an ideal clinical strategy in treating diseases, injuries, and defects of the maxillofacial area. Advances in tissue engineering have resulted in the development of innovative scaffold designs, complemented by the progress made in cell-based therapies. In vitro bone regeneration can be achieved by the combination of stem cells, scaffolds, and bioactive factors. A possible improvement in restoring damaged tissues may be achieved by load-ing the scaffolds with drug substances, as well as genetic material, growth factors or other proteins, promoting the tissue regeneration. This review focuses on different biomaterials currently used in dentistry, as potential scaffolds for bone regeneration when treating bone defects, or in surgical interventions, including characteristics and types of these scaffolds, and a literature review of local antibiotic delivery by combined usage of scaffolds and drug-delivery systems.

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Photoluminescent Lanthanide(III) Coordination Polymers with Bis(1,2,4-Triazol-1-yl)Methane Linker

et al. 2023

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A series of new lanthanide(III) coordination polymers with the general formula [Ln(btrm)2(NO3)3]n, where btrm = bis(1,2,4-triazol-1-yl)methane and Ln = Eu3+, Tb3+, Sm3+, Dy3+, Gd3+ were synthesized and characterized by IR-spectroscopy, elemental, thermogravimetric, single-crystal, and powder X-ray diffraction analyses. Europium(III), samarium(III), terbium(III), and gadolinium(III) coordination polymers demonstrate thermal stability up to 250 °C, while dysprosium(III) is stable up to 275 °C. According to single-crystal X-ray diffraction analysis, the ligand exhibits a bidentate-bridging coordination mode, forming a polymeric chain of octagonal metallocycles. The photoluminescence of the free ligand in the polycrystalline state is observed in the ultraviolet range with a quantum yield of 13%. The energy transfer from the ligand to the lanthanide ions was not observed for all obtained coordination polymers. However, there are sharp bands of lanthanide(III) ions in the diffuse reflectance and excitation spectra of the obtained compounds. Therefore, Ln(III) luminescence arises, most probably, from the enhancement of f-f transition intensity under the influence of the ligand field and non-centrosymmetric interactions.

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Religions in Fictional Worlds: Infernal Religious Mythology in Fantasy Series

Ivanova¹

2018

KSS

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Study of the exosomal microRNA-126 and microRNA-218 expression profiles in patients with hemorrhagic fever with renal syndrome (HFRS)

Gilyazova¹,

Хасанова²,

Ivanova³

et al. 2022

RR. in B.

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Background: Hemorrhagic fever with renal syndrome (HFRS), caused by orthohantaviruses, occupies one of the leading places among natural focal human diseases, for which there are no modern accurate and highly sensitive diagnostic methods. To improve this situation, a better understanding of the hantavirus pathogenesis of HFRS is required. The expression levels of circulating microRNAs in the serum or plasma of patients during infection make them potential therapeutic biomarkers for the diagnosis of HFRS. The aim of the study: To analyze the expression levels of miR-126 and miR-218 patients with HFRS at different stages of the disease. Materials and methods: The moderate disease severity group of HFRS patients included 105 RNA samples, severe – 99 and severe with complications – 84 RNA samples. Blood samples of HFRS patients for molecular genetic analysis were collected three times – during the initial febrile period (1-4 days of illness), the polyuric period (15-22 days of illness) and during the convalescence period. Total RNA isolation was performed using the miRNeasy Serum/Plasma Advanced Kit (Qiagen, Germany). Quantitative realtime PCR was performed using the miRCURY LNA SYBR Green PCR Kit (Qiagen, Germany) and the real time PCR product detection system LightCycler96 (Roch). Results: A pairwise comparison of miR-126 and miR-218 expression levels in patients with HFRS at the fever stage and at the polyuric stage of HFRS did not reveal statistically significant results (P>0.05). Conclusion: Further studies of the network of genes that are targets of various microRNAs are needed to clarify the molecular mechanisms that can influence the occurrence and development of HFRS.

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