Your search keyword '"Ionica, I."' showing total 160 results

1. Methodology for parameters extraction with undoped junctionless EZ-FETs

Author

Zerhouni Abdou, N., Reboh, S., Brunet, L., Alepidis, M., Acosta Alba, P., Cristoloveanu, S., and Ionica, I.

Published

2024

2. Calibration of second harmonic generation technique to probe the field-effect passivation of Si(100) with Al2O3 dielectric layers.

Author

Obeid, B., Bastard, L., Bouchard, A., Aubriet, V., Jouannic, K., Le Cunff, D., Gourhant, O., and Ionica, I.

Subjects

PASSIVATION, SECOND harmonic generation, DIELECTRICS, CALIBRATION, SEMICONDUCTORS, ALUMINUM oxide

Abstract

Optical second harmonic generation (SHG) can be employed to characterize the passivation quality of semiconducting material interfaces. The interface electric field (EDC) related to the existing charges at and near the interface, including the fixed oxide charges Qox, gives rise to the electric field induced second harmonic phenomenon. In this paper, we calibrate the SHG response for EDC measurement, using Al2O3/SiO2/Si(100) samples with different Qox. To perform this calibration, SHG and capacitance-voltage measurements (to access the electrical field of the samples) were made. The experimental results match well the simulated calibration curve, proving the potential of the SHG as stand-alone characterization technique for dielectric stacks on Si. [ABSTRACT FROM AUTHOR]

Published

2024

3. Undoped junctionless EZ-FET: Model and measurements

Author

Zerhouni Abdou, N., Reboh, S., Alepidis, M., Brunet, L., Acosta Alba, P., Cristoloveanu, S., and Ionica, I.

Published

2023

4. Second harmonic generation in centrosymmetric multilayered structures: Theoretical approach for nonlinear boundary conditions.

Author

Obeid, B., Ionica, I., Vitrant, G., Damianos, D., and Bastard, L.

Subjects

*SECOND harmonic generation, *NONLINEAR optics, *OPTOELECTRONIC devices

Abstract

Second harmonic generation (SHG) is used to characterize the interfaces of centrosymmetric materials typically used in microelectronic/optoelectronic devices. For such applications, the materials are actually multi-layer stacks, and in this case, the SHG can be difficult to interpret and model. This paper presents the theory of the second harmonic light generated from multilayer structures. The focus is on describing the nonlinear boundary conditions at the interfaces between two different materials, taking into account the distinct contributions of bulk and interface regions. Using these conditions, it is possible to calculate the second harmonic signal from any stack of materials. In this paper, we address stacks containing silicon (100) because it is a material with numerous applications. The nonlinear polarization expressions of the surface and bulk of Si(100), according to Sipe et al. [Phys. Rev. B 35, 1129 (1987)], were integrated into nonlinear boundary conditions in order to determine transmitted and reflected second harmonic waves. An analytical validation was performed on the simple case of an air–silicon interface. For multilayered stacks, the model was compared with experimental results obtained on samples corresponding to pragmatic substrates widely used in microelectronic and optoelectronic applications. [ABSTRACT FROM AUTHOR]

Published

2023

5. A simple test structure for the electrical characterization of front and back channels for advanced SOI technology development

Author

Alepidis, M., Ionica, I., Milesi, F., Bresson, N., Gaudin, G., Cristoloveanu, S., and Reboh, S.

Published

2021

6. Impact of contact and channel resistance on the frequency-dependent capacitance and conductance of pseudo-MOSFET

Author

Sato, S., Ghibaudo, G., Benea, L., Ionica, I., Omura, Y., and Cristoloveanu, S.

Published

2019

7. Second Harmonic Generation characterization of SOI wafers: Impact of layer thickness and interface electric field

Author

Damianos, D., Vitrant, G., Lei, M., Changala, J., Kaminski-Cachopo, A., Blanc-Pelissier, D., Cristoloveanu, S., and Ionica, I.

Published

2018

8. Back-gated InGaAs-on-insulator lateral N+NN+ MOSFET: Fabrication and typical conduction mechanisms

Author

Park, H.J., Pirro, L., Czornomaz, L., Ionica, I., Bawedin, M., Djara, V., Deshpande, V., and Cristoloveanu, S.

Published

2017

9. Low-frequency noise in bare SOI wafers: Experiments and model

Author

Pirro, L., Ionica, I., Cristoloveanu, S., and Ghibaudo, G.

Published

2016

10. Second harmonic generation for contactless non-destructive characterization of silicon on insulator wafers

Author

Damianos, D., Pirro, L., Soylu, G., Ionica, I., Nguyen, V., Vitrant, G., Kaminski, A., Blanc-Pelissier, D., Onestas, L., Changala, J., Kryger, M., and Cristoloveanu, S.

Published

2016

11. Parasitic bipolar effect in ultra-thin FD SOI MOSFETs

Author

Liu, F.Y., Ionica, I., Bawedin, M., and Cristoloveanu, S.

Published

2015

12. Characterization of heavily doped SOI wafers under pseudo-MOSFET configuration

Author

Liu, F.Y., Diab, A., Ionica, I., Akarvardar, K., Hobbs, C., Ouisse, T., Mescot, X., and Cristoloveanu, S.

Published

2013

13. A new characterization technique for SOI wafers: Split C(V) in pseudo-MOSFET configuration

Author

Diab, A., Fernández, C., Ohata, A., Rodriguez, N., Ionica, I., Bae, Y., Van Den Daele, W., Allibert, F., Gámiz, F., Ghibaudo, G., Mazure, C., and Cristoloveanu, S.

Published

2013

14. Low-frequency noise in SOI pseudo-MOSFET with pressure probes

Author

El Hajj Diab, A., Ionica, I., Cristoloveanu, S., Allibert, F., Bae, Y.H., Chroboczek, J.A., and Ghibaudo, G.

Published

2011

15. Field-effect passivation of Si by ALD-Al2O3: Second harmonic generation monitoring and simulation.

Author

Damianos, D., Vitrant, G., Kaminski-Cachopo, A., Bouchard, A., Mescot, X., Gri, M., Cristoloveanu, S., Ionica, I., Blanc-Pelissier, D., Ghibaudo, G., Lei, M., and Changala, J.

Subjects

SECOND harmonic generation, PASSIVATION, INDUCTIVE effect, CAPACITANCE-voltage characteristics, KELVIN probe force microscopy

Abstract

This paper investigates the ability of second harmonic generation (SHG) to probe the passivation quality of atomic layer deposited Al2O3 on Si by estimating the induced interface electric field due to fixed charges in the oxide. Samples with various oxide charges (Qox) and interface state densities (Dit) were fabricated, using different deposition parameters. The samples were characterized by capacitance-voltage (C-V) and microwave photoconductance decay measurements in order to evaluate Qox and Dit, as well as the effective minority carrier lifetime τeff. The SHG results were consistent with Qox, Dit, and τeff values, proving the ability of the technique to monitor the interfacial quality in a contactless and non-destructive way. Optical simulations which use the electric field values obtained from the C-V measurements could reproduce the measured SHG signal. This demonstrates that SHG coupled with optical simulation can give access to the electric field magnitude and thus characterize the electrical properties of oxide/Si interfaces. [ABSTRACT FROM AUTHOR]

Published

2018

16. Field effect and Coulomb blockade in silicon on insulator nanostructures fabricated by atomic force microscope

Author

Ionica, I., Montès, L., Ferraton, S., Zimmermann, J., Saminadayar, L., and Bouchiat, V.

Published

2005

17. Origin of the Out-of-Equilibrium Body Potential In Silicon on Insulator Devices With Metal Contacts.

Author

Alepidis, M., Ghibaudo, G., Bawedin, M., and Ionica, I.

Subjects

SILICON films, SCHOTTKY barrier, SCHOTTKY barrier diodes, METALS, SILICON, INDIUM gallium zinc oxide

Abstract

This work addresses the origin of the transient body potential variation in silicon on insulator (SOI) with deposited metal contacts, under back-gate bias sweep from accumulation to inversion. The phenomenon arises from the difficulty to inject carriers into the silicon film due to the Schottky contact between the metal and the low p-type doped silicon. The Schottky diode current is controlled by the back-gate voltage, which fixes the potential at the bottom of the low-doped film. When the back-gate voltage drives the silicon film towards inversion, the limited current from the Schottky contact induces a deficit of minority carriers in the film and brings the body potential in an out-of-equilibrium regime. This phenomenon will be reproduced with numerical modelling based on Poisson and continuity equations, including the quasi-Fermi potential. The transient character and its dependence on the Schottky barrier height will be evidenced. A simple and effective combination of the classic Schottky current equation and inversion current calculated from the Lambert function, as in fully depleted (FD)-SOI MOSFETs, confirms the origin of the effect. [ABSTRACT FROM AUTHOR]

Published

2021

18. Interface trap density evaluation on bare silicon-on-insulator wafers using the quasi-static capacitance technique.

Author

Pirro, L., Ionica, I., Ghibaudo, G., Mescot, X., Faraone, L., and Cristoloveanu, S.

Subjects

*SILICON-on-insulator technology, *CAPACITANCE-voltage characteristics, *METAL oxide semiconductor field-effect transistors, *SILICON wafers, *QUASISTATIC processes, *CHARGE density waves, *INTERFACES (Physical sciences)

Abstract

This paper presents a detailed investigation of the quasi-static capacitance-voltage (QSCV) technique in pseudo-metal-oxide-semiconductor field effect transistor (pseudo-MOSFET) configuration for evaluating the interface quality of bare silicon-on-insulator (SOI) wafers, without processing dedicated metal-oxide-semiconductor (MOS) test devices. A physical model is developed that is capable of explaining the experimental results. In addition, frequency effects are used to validate the equations by a systematic comparison between experimental and calculated characteristics, as well as by a direct comparison with the standard high-low frequency approach. An extraction procedure for interface trap density based solely on QSCV experimental results is proposed, and limits of the procedure are discussed. The proposed experimental and analytical procedure is demonstrated by characterizing SOI structures with different geometries and with different qualities of surface passivation of the top silicon film. [ABSTRACT FROM AUTHOR]

Published

2016

19. Photo-pseudo-metal-oxide-semiconductor field effect transistor for characterization of surface recombination in silicon on insulator materials.

Author

Daanoune, M., Diab, A., Sirajeddine, S., Kaminski-Cachopo, A., Ionica, I., Papaioannou, G., and Cristoloveanu, S.

Subjects

METAL oxide semiconductor field-effect transistors, FIELD-effect transistors, ELECTRIC insulators & insulation research, SILICON films, COMPUTER simulation

Abstract

One of the main issues in the characterization of silicon on insulator (SOI) substrates is to determine the quality of the film-buried oxide interface. This interface quality is strongly connected to the carrier lifetime in the silicon film. In this paper, we extend the well-known pseudo-MOSFET characterization technique for SOI wafers to the extraction of carrier lifetime. The experiment consists in comparing the drain current measured under dark and under laser shining. A model is proposed to evaluate the surface recombination velocity in SOI. Experimental results are validated by numerical simulations. [ABSTRACT FROM AUTHOR]

Published

2013

20. Low-temperature pseudo-metal-oxide-semiconductor field-effect transistor measurements on bare silicon-on-insulator wafers.

Author

Diab, A., Pirro, L., Ionica, I., Mescot, X., Ghibaudo, G., and Cristoloveanu, S.

Subjects

LOW temperatures, METAL oxide semiconductor field-effect transistors, SILICON wafers, ELECTRON mobility, THRESHOLD voltage, FREE surfaces (Crystallography), FEASIBILITY studies

Abstract

We extend the pseudo-metal-oxide-semiconductor field-effect transistor (Ψ-MOSFET) technique to the low-temperature range in order to investigate the transport properties of as-fabricated silicon-on-insulator (SOI) wafers. This paper shows experimental results on the temperature dependence of drain current and extracted parameters (hole and electron mobility, subthreshold slope, and threshold voltage). In ultrathin SOI films, the coupling between channel and free surface is strong, degrading the subthreshold swing and threshold voltage. The impact of interface trap density is significant at low temperature. The good correlation between experimental and theoretical curves proves the feasibility of Ψ-MOSFET measurements on bare silicon-on-insulator wafers at low-temperature. [ABSTRACT FROM AUTHOR]

Published

2012

21. Electrkat Transport at Room and Low Temperature in 3D Vertically Stacked SiGe and SiGeC Nanowires.

Author

Diab, A., Saracco, E., Ionica, I., Bonafos, C., Damlencourt, J. F., Lee, J.-H., and Cristoloveanu, S.

Subjects

ELECTRIC properties of nanowires, ELECTRON transport, SILICON, GERMANIUM, THREE-dimensional imaging, ELECTRIC potential, METAL oxide semiconductor field-effect transistors

Abstract

In order to improve device performance, recent trends in microelectronics are to explore nanowire gate-all-around structures and alternative channel materials with superior properties. In this paper, we investigate the electrical transport properties, at room and low temperature, in as-grown three-dimensional (3D) vertically stacked germanium (Ge)-enriched nanowires. Measurements using the Pseudo-MOSFET (ψ-MOSFET) concept show that the transport in gateless nanowires is controlled by the voltage applied on the substrate, as in a MOS transistor. Interestingly, the substrate bias effect depends on the designed geometry of the nanowire. In nanowires with high width/length aspect ratio, we show the possibility of turning on both electron and hole channels. For nanowires with small width/length ratio, only the hole channel is visible. The impact of series resistance on the drain current level is reported. Transport modification with the concentration of germanium in the nanostructures is also discussed. Low-temperature measurements show the variation of electrical parameters such as threshold voltage, flatband voltage, subthreshold swing and mobility. The transport properties in multi-parallel stacked nanowire are addressed. [ABSTRACT FROM AUTHOR]

Published

2012

22. ADVANCED SOLUTIONS FOR MOBILITY ENHANCEMENT IN SOI MOSFETS.

Author

PHAM-NGUYEN, L., FENOUILLET-BERANGER, C., PERREAU, P., DENORME, S., GHIBAUDO, G., FAYNOT, O., SKOTNICKI, T., OHATA, A., CASSE, M., IONICA, I., VAN DEN DAELE, W., PARK, K-H., CHANG, S-J., BAE, Y-H., BAWEDIN, M., and CRISTOLOVEANU, S.

Subjects

METAL oxide semiconductor field-effect transistors, SILICON-on-insulator technology, ELECTRON mobility, PERFORMANCE evaluation, TECHNOLOGICAL innovations, DIELECTRICS, ELECTRON transport, SEMICONDUCTOR defects

Abstract

SOI technology offers ample room for scaling, performance improvement, and innovations. The current status is reviewed by focusing on several technological options for boosting the transport properties in SOI MOSFETs. The impact of series resistance, high-K dielectrics, and metal gate in advanced transistors is discussed. Carrier mobility measurements as a function of channel length and temperature reveal the beneficial effect of strain, mitigated however by various types of defects. The experimental data is exclusively collected from state-of-the-art, ultrathin body, fully depleted MOSFETs. Simple models are presented to clarify the mobility behavior. [ABSTRACT FROM AUTHOR]

Published

2011

23. RC Model for Frequency Dependence of Split C\--V Measurements on Bare SOI Wafers.

Author

Diab, A., Ionica, I., Ghibaudo, G., and Cristoloveanu, S.

Subjects

SEMICONDUCTOR wafers, RC circuits, METAL semiconductor field-effect transistors, ELECTRIC capacity, FREQUENCY response, ELECTRIC potential

Abstract

The feasibility of split C-V measurements for direct evaluation of carrier mobility in as-fabricated silicon-on-insulator wafers has been demonstrated. Here, we complete this letter by modeling the frequency dependence of capacitance curves. The peculiarity of the pseudo-MOSFET (Ψ-MOSFET) configuration with respect to standard MOSFET comes from the possible distribution of mobile carriers beyond the source and drain contacts. This implies a variation in charge spreading and capacitance with frequency that we address with an RC low-pass filter model. Experimental C-V measurements with one and two probes were used for validation of the proposed model. [ABSTRACT FROM AUTHOR]

Published

2013

24. Characterization of silicon-on-insulator films with pseudo-metal-oxide-semiconductor field-effect transistor: Correlation between contact pressure, crater morphology, and series resistance.

Author

Ionica, I., Savin, I., Van Den Daele, W., Nguyen, T., Mescot, X., and Cristoloveanu, S.

Subjects

*METAL oxide semiconductor field-effect transistors, *SEMICONDUCTOR wafers, *ATOMIC force microscopy, *ELECTRONIC probes, *SILICON

Abstract

Pseudo-metal-oxide-semiconductor field-effect transistor (Ψ-MOSFET) is a simple and efficient technique for characterizing electrical properties of silicon-on-insulator wafers. The primary condition for reliable parameter extraction is to achieve ohmic contacts between Ψ-MOSFET probes and silicon film. This paper brings experimental arguments on the probe-pressure impact on contact nature, series resistance, and carrier mobility. The specificity of our study consists of the topographical analysis (by atomic force microscopy) of craters induced by the probes. We correlate the probe-pressure with morphology parameters (size of craters) and electrical parameters (series resistance, mobility). For higher pressures, contacts are improved, changing from Schottky-like to ohmic-like. [ABSTRACT FROM AUTHOR]

Published

2009

25. ChemInform Abstract: Competitive Rearrangements. Part 5. The Rearrangement of 7-(1′-Hydroxy-isopropyl)-dibenzo[a,d]bicyclo[2.2.2]octadiene to a Fused Anthracene.

Author

TRANDAFIR, C. V., IONICA, I., IANCU, A., BADEA, F., and DINULESCU, I. G.

Published

1999

26. ChemInform Abstract: Competitive Rearrangements. Part 3. Neopentylic versus Skeletal Rearrangement in the Reaction of t-Butyl-dibenzobicyclo(2.2.2) octatriene with Acids.

Author

BRAVERMAN, S., GOTTLIEB, H., IONICA, I., FILIP, P., BADEA, F., and DINULESCU, I. G.

Published

1995

27. Etiology and antimicrobial resistance of subclinical mastitis pathogens Staphylococcus aureus, Streptococcus spp. and Enterococcus spp. in sheep milk.

Author

Iancu I, Igna V, Popa SA, Imre K, Pascu C, Costinar L, Degi J, Gligor A, Iorgoni V, Badea C, Nichita I, and Herman V

Subjects

Animals, Sheep, Female, Romania epidemiology, Microbial Sensitivity Tests veterinary, Staphylococcal Infections veterinary, Staphylococcal Infections microbiology, Staphylococcal Infections drug therapy, Staphylococcal Infections epidemiology, Prevalence, Streptococcal Infections veterinary, Streptococcal Infections microbiology, Streptococcal Infections drug therapy, Milk microbiology, Mastitis veterinary, Mastitis microbiology, Staphylococcus aureus drug effects, Staphylococcus aureus isolation & purification, Streptococcus drug effects, Streptococcus isolation & purification, Enterococcus drug effects, Enterococcus isolation & purification, Sheep Diseases microbiology, Sheep Diseases epidemiology, Sheep Diseases drug therapy, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial

Abstract

The present study investigates the prevalence and etiology of subclinical mastitis in Țurcana sheep flocks located in south-western Romania. Milchtest and California Mastitis Test (CMT), were used for the detection of subclinical mastitis. A number of 360 milk samples across three lactation phases were analyzed. Subclinical mastitis was identified in 146 (40.6%) of sheep milk samples. Only milk samples (n = 146) collected from sheep diagnosed with subclinical mastitis were considered for microbiological analyses. Thus, Staphylococcus aureus (129/146; 88.4%) was identified as the predominant pathogen followed by Streptococcus spp. (14/146; 9.6%) Enterococcus spp. (7/146; 4.8%), Pseudomonas aeruginosa (6/146; 4.1%) and Klebsiella pneumoniae (5/146; 3.4%). Antimicrobial susceptibility of isolated strains of Staphylococcus aureus, Streptococcus spp. and Enterococcus spp. was also tested. The results showed varying resistance patterns depending on the farm and microorganism. In heard A the highest resistance of Staphylococcus aureus was identified to polymyxin B (79.7%) followed by novobiocin (73.4%) and tetracycline (45.3%); Streptococcus spp. to streptomycin (100%), novobiocin (100%), tetracycline (100%) and Enterococcus spp. to tylosin (100%), streptomycin (75.0%) and tetracycline (75.0%). In herd B, Staphylococcus aureus showed high resistance rates to polymyxin B (86.3%), novobiocin (74.5%) and cloxacillin (39.2%); Streptococcus spp. strains to streptomycin (100%), novobiocin (100%), tetracycline (100%) and Enterococcus spp. to gentamicin (100%), streptomycin (66.7%) and erythromycin (66.7%). The obtained preliminary results indicate a potential risk that future treatments of sheep mastitis may not be effective, and demonstrated that raw unpasteurized milk can harbor antimicrobial resistance pathogens posing a threat to public health. However, further investigations involving molecular research on resistance genes are required to draw comprehensive conclusions., Competing Interests: Declarations. Ethical approval: Even though the research entitled “Etiology and Antimicrobial Resistance of Subclinical Mastitis Pathogens Staphylococcus aureus, Streptococcus spp. and Enterococcus spp. in Sheep Milk” included live animals (ovines), however, they were not directly affected or used because the samples processed and analyzed in the study were represented by milk samples collected from sheep during milking stages. The statement was included in the Bioethics Commission Approval No. 5639. The experiments assure the proper accommodation and animal handling in accordance with the Directive 2010/63/EU. Also the experimental protocol includes methods for preventing and reducing animal distress in accordance to the recommendation of European Union and Romanian Legislation. Competing interests: The authors declare no competing interests., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

28. Design and Test of Molecules that Interfere with the Recognition Mechanisms between the SARS-CoV-2 Spike Protein and Its Host Cell Receptors.

Author

Scantamburlo F, Masgras I, Ciscato F, Laquatra C, Frigerio F, Cinquini F, Pavoni S, Triveri A, Frasnetti E, Serapian SA, Colombo G, Rasola A, and Moroni E

Subjects

Humans, Drug Design, Protein Binding, COVID-19 virology, COVID-19 metabolism, Receptors, Virus metabolism, Receptors, Virus chemistry, Spike Glycoprotein, Coronavirus metabolism, Spike Glycoprotein, Coronavirus chemistry, Angiotensin-Converting Enzyme 2 metabolism, Angiotensin-Converting Enzyme 2 chemistry, Serine Endopeptidases metabolism, SARS-CoV-2 drug effects, SARS-CoV-2 metabolism, Virus Internalization drug effects

Abstract

The disruptive impact of the COVID-19 pandemic has led the scientific community to undertake an unprecedented effort to characterize viral infection mechanisms. Among these, interactions between the viral glycosylated Spike and the human receptors ACE2 and TMPRSS2 are key to allowing virus invasion. Here, we report and test a fully rational methodology to design molecules that are capable of perturbing the interactions between these critical players in SARS-CoV-2 pathogenicity. To this end, we computationally identify substructures on the fully glycosylated Spike protein that are not intramolecularly optimized and are thus prone to being stabilized by forming complexes with ACE2 and TMPRSS2. With the aim of competing with the Spike-mediated cell entry mechanisms, we have engineered the predicted putative interaction regions in the form of peptide mimics that could compete with Spike for interaction with ACE2 and/or TMPRSS2. Experimental models of viral entry demonstrate that the designed molecules are able to interfere with viral entry into ACE2/TMPRSS2 expressing cells, while they have no effects on the entry of control viral particles that do not harbor the Spike protein or on the entry of Spike-presenting viral particles into cells that do not display its receptors on their surface.

Published

2024

29. The Impact of the Dietary Intake of Vitamin B12, Folic Acid, and Vitamin D3 on Homocysteine Levels and the Health-Related Quality of Life of Levodopa-Treated Patients with Parkinson's Disease-A Pilot Study in Romania.

Author

Turcu-Stiolica A, Naidin MS, Halmagean S, Ionescu AM, and Pirici I

Abstract

Background and Objectives: Previous studies have shown that the levodopa treatment of Parkinson's disease (PD) elevates circulating homocysteine levels, which are associated with an increased risk of cardiovascular and neurological disorders, or thrombosis. The present trial aimed to examine whether the intake of vitamin B12, folic acid, and vitamin D3 supplements improved homocysteine level and quality of life (QoL)., Materials and Methods: An interventional prospective trial was conducted in multiple centers across Romania. Participants with clinically established PD taking at least 300 mg/day of levodopa for more than 1 year received a daily tablet of a supplement containing 800 UI of vitamin D3, 1000 µg of folic acid, and 15 µg of vitamin B12. They were followed for 6 months and their serum homocysteine, vitamin B12, vitamin D, and QoL scores were measured at baseline and at 6 months of treatment. QoL was measured using a 15D questionnaire, which assesses mobility, vision, hearing, breathing, sleeping, eating, speech, excretion, usual activities, mental function, discomfort and symptoms, depression, distress, vitality, and sexual activity., Results: Twenty-four PD patients with a mean age of 71 ± 5.04 years (54.2% male and 45.8% female) finished the study. After the intervention, the mean score of speech, mental function, discomfort and symptoms, depression, and QoL significantly increased ( p < 0.05 for all). Also, the serum homocysteine and vitamin D were significantly enhanced ( p < 0.0001 and p = 0.025, respectively). Changes in vitamin B12 were not statistically significant at 6 months of treatment ( p = 0.996). No gender differences were found among the changes that we have demonstrated for homocysteine, vitamin B12, vitamin D, and QoL levels ( p < 0.05 for all)., Conclusions: The findings of this study showed that the dietary intake of vitamin B12, folic acid, and vitamin D3 remarkably decreased the dimensions of homocysteine and finally increased the total score of QoL in PD patients. We have successfully captured the potential benefits of the supplementation regimen over time and provided insights into the broader implications for managing PD with a focus on nutritional support.

Published

2024

30. The Use of Hexokinase 2-Displacing Peptides as an Anti-Neoplastic Approach for Malignant Peripheral Nerve Sheath Tumors.

Author

Ciscato F, Masgras I, Gori A, Fantuz M, Bergamaschi G, Komarov D, La Spina M, Ghasemi-Firouzabadi S, Pizzi M, Dei Tos AP, Chiara F, Carrer A, and Rasola A

Subjects

Humans, Animals, Cell Line, Tumor, Mice, Nerve Sheath Neoplasms pathology, Nerve Sheath Neoplasms genetics, Nerve Sheath Neoplasms metabolism, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Xenograft Model Antitumor Assays, Cell Proliferation drug effects, Matrix Metalloproteinase 2 metabolism, Mitochondria metabolism, Mitochondria drug effects, Tumor Microenvironment, Hexokinase metabolism, Hexokinase genetics, Peptides metabolism, Peptides pharmacology, Peptides chemistry

Abstract

Malignant Peripheral Nerve Sheath Tumors (MPNSTs) are aggressive sarcomas that can arise both sporadically and in patients with the genetic syndrome Neurofibromatosis type 1 (NF1). Prognosis is dismal, as large dimensions, risk of relapse, and anatomical localization make surgery poorly effective, and no therapy is known. Hence, the identification of MPNST molecular features that could be hit in an efficient and selective way is mandatory to envision treatment options. Here, we find that MPNSTs express high levels of the glycolytic enzyme Hexokinase 2 (HK2), which is known to shield cancer cells from noxious stimuli when it localizes at MAMs (mitochondria-associated membranes), contact sites between mitochondria and endoplasmic reticulum. A HK2-targeting peptide that dislodges HK2 from MAMs rapidly induces a massive death of MPNST cells. After identifying different matrix metalloproteases (MMPs) expressed in the MPNST microenvironment, we have designed HK2-targeting peptide variants that harbor cleavage sites for these MMPs, making such peptides activatable in the proximity of cancer cells. We find that the peptide carrying the MMP2/9 cleavage site is the most effective, both in inhibiting the in vitro tumorigenicity of MPNST cells and in hampering their growth in mice. Our data indicate that detaching HK2 from MAMs could pave the way for a novel anti-MPNST therapeutic strategy, which could be flexibly adapted to the protease expression features of the tumor microenvironment.

Published

2024

31. Revolutionizing Cardiology through Artificial Intelligence-Big Data from Proactive Prevention to Precise Diagnostics and Cutting-Edge Treatment-A Comprehensive Review of the Past 5 Years.

Author

Stamate E, Piraianu AI, Ciobotaru OR, Crassas R, Duca O, Fulga A, Grigore I, Vintila V, Fulga I, and Ciobotaru OC

Abstract

Background: Artificial intelligence (AI) can radically change almost every aspect of the human experience. In the medical field, there are numerous applications of AI and subsequently, in a relatively short time, significant progress has been made. Cardiology is not immune to this trend, this fact being supported by the exponential increase in the number of publications in which the algorithms play an important role in data analysis, pattern discovery, identification of anomalies, and therapeutic decision making. Furthermore, with technological development, there have appeared new models of machine learning (ML) and deep learning (DP) that are capable of exploring various applications of AI in cardiology, including areas such as prevention, cardiovascular imaging, electrophysiology, interventional cardiology, and many others. In this sense, the present article aims to provide a general vision of the current state of AI use in cardiology., Results: We identified and included a subset of 200 papers directly relevant to the current research covering a wide range of applications. Thus, this paper presents AI applications in cardiovascular imaging, arithmology, clinical or emergency cardiology, cardiovascular prevention, and interventional procedures in a summarized manner. Recent studies from the highly scientific literature demonstrate the feasibility and advantages of using AI in different branches of cardiology., Conclusions: The integration of AI in cardiology offers promising perspectives for increasing accuracy by decreasing the error rate and increasing efficiency in cardiovascular practice. From predicting the risk of sudden death or the ability to respond to cardiac resynchronization therapy to the diagnosis of pulmonary embolism or the early detection of valvular diseases, AI algorithms have shown their potential to mitigate human error and provide feasible solutions. At the same time, limits imposed by the small samples studied are highlighted alongside the challenges presented by ethical implementation; these relate to legal implications regarding responsibility and decision making processes, ensuring patient confidentiality and data security. All these constitute future research directions that will allow the integration of AI in the progress of cardiology.

Published

2024

32. Management of Upper-Limb Spasticity Using Modern Rehabilitation Techniques versus Botulinum Toxin Injections Following Stroke.

Author

Bumbea AM, Rogoveanu OC, Turcu-Stiolica A, Pirici I, Cioroianu G, Stanca DI, Criciotoiu O, Biciusca V, Traistaru RM, and Caimac DV

Abstract

Our purpose is to emphasize the role of botulinum toxin in spasticity therapy and functional recovery in patients following strokes. Our retrospective study compared two groups, namely ischemic and hemorrhagic stroke patients. The study group (BT group) comprised 80 patients who received focal botulinum toxin as therapy for an upper limb with spastic muscle three times every three months. The control group (ES group) comprised 80 patients who received only medical rehabilitation consisting of electrostimulation and radial shockwave therapy for the upper limb, which was applied three times every three months. Both groups received the same stretching program for spastic muscles as a home training program. We evaluated the evolution of the patients using muscle strength, Ashworth, Tardieu, Frenchay, and Barthel scales. The analysis indicated a statistically significant difference between the two groups for all scales, with better results for the BT group ( p < 0.0001 for all scales). In our study, the age at disease onset was an important prediction factor for better recovery in both groups but not in all scales. Better recovery was obtained for younger patients (in the BT group, MRC scale: rho = -0.609, p -value < 0.0001; Tardieu scale: rho = -0.365, p -value = 0.001; in the ES group, MRC scale: rho = -0.445, p -value < 0.0001; Barthel scale: rho = -0.239, p -value = 0.033). Our results demonstrated the effectiveness of botulinum toxin therapy compared with the rehabilitation method, showing a reduction of the recovery time of the upper limb, as well as an improvement of functionality and a reduction of disability. Although all patients followed a specific kinetic program, important improvements were evident in the botulinum toxin group.

Published

2023

33. Contributions to the Dynamic Regime Behavior of a Bionic Leg Prosthesis.

Author

Drăgoi MV, Hadăr A, Goga N, Baciu F, Ștefan A, Grigore LȘ, Gorgoteanu D, Molder C, and Oncioiu I

Abstract

The purpose of prosthetic devices is to reproduce the angular-torque profile of a healthy human during locomotion. A lightweight and energy-efficient joint is capable of decreasing the peak actuator power and/or power consumption per gait cycle, while adequately meeting profile-matching constraints. The aim of this study was to highlight the dynamic characteristics of a bionic leg with electric actuators with rotational movement. Three-dimensional (3D)-printing technology was used to create the leg, and servomotors were used for the joints. A stepper motor was used for horizontal movement. For better numerical simulation of the printed model, three mechanical tests were carried out (tension, compression, and bending), based on which the main mechanical characteristics necessary for the numerical simulation were obtained. For the experimental model made, the dynamic stresses could be determined, which highlights the fact that, under the conditions given for the experimental model, the prosthesis resists.

Published

2023

34. Intelligent Grapevine Disease Detection Using IoT Sensor Network.

Author

Hnatiuc M, Ghita S, Alpetri D, Ranca A, Artem V, Dina I, Cosma M, and Abed Mohammed M

Abstract

The Internet of Things (IoT) has gained significance in agriculture, using remote sensing and machine learning to help farmers make high-precision management decisions. This technology can be applied in viticulture, making it possible to monitor disease occurrence and prevent them automatically. The study aims to achieve an intelligent grapevine disease detection method, using an IoT sensor network that collects environmental and plant-related data. The focus of this study is the identification of the main parameters which provide early information regarding the grapevine's health. An overview of the sensor network, architecture, and components is provided in this paper. The IoT sensors system is deployed in the experimental plots located within the plantations of the Research Station for Viticulture and Enology (SDV) in Murfatlar, Romania. Classical methods for disease identification are applied in the field as well, in order to compare them with the sensor data, thus improving the algorithm for grapevine disease identification. The data from the sensors are analyzed using Machine Learning (ML) algorithms and correlated with the results obtained using classical methods in order to identify and predict grapevine diseases. The results of the disease occurrence are presented along with the corresponding environmental parameters. The error of the classification system, which uses a feedforward neural network, is 0.05. This study will be continued with the results obtained from the IoT sensors tested in vineyards located in other regions.

Published

2023

35. Assessing the Effect of Nonvisual Information Factors in Pandemic-Related Video Communication: Randomized Controlled Between-Subjects Experiment.

Author

Lungu DA, Røislien J, Berg SH, Smeets I, Shortt MT, Thune H, and Brønnick KK

Subjects

Humans, Pandemics, Trust, COVID-19 epidemiology, Communications Media, Health Communication

Abstract

Background: Videos have been an important medium for providing health and risk communication to the public during the COVID-19 pandemic. Public health officials, health care professionals, and policy makers have used videos to communicate pandemic-related content to large parts of the population. Evidence regarding the outcomes of such communication, along with their determinants, is however limited., Objective: The aim of this study was to test the impact of nonvisual information factors of video communication on 4 outcomes: trust, comprehension, intentions, and behavior., Methods: Twelve short health communication videos related to pandemics were produced and shown to a large sample of participants, applying a randomized controlled between-subjects design. Three factors were included in the creation of the videos: the topic (exponential growth, handwashing, and burden of pandemics on the health care system), the source (expert and nonexpert), and a call to action (present or absent). Participants were randomly assigned to 1 video intervention, and 1194 valid replies were collected. The data were analyzed using factorial ANOVA., Results: The 3 pandemic-related topics did not affect trust, comprehension, intentions, or behavior. Trust was positively influenced by an expert source (2.5%), whereas a nonexpert source instead had a positive effect on the proxy for behavior (5.7%) compared with the expert source. The inclusion of a call to action had a positive effect on both trust (4.1%) and comprehension (15%)., Conclusions: Trust and comprehension in pandemic-related video communication can be enhanced by using expert sources and by including a call to action, irrespective of the topic being communicated. Intentions and behavior appear to be affected to a small extent by the 3 factors tested in this study., International Registered Report Identifier (irrid): RR2-10.2196/34275., (©Daniel Adrian Lungu, Jo Røislien, Siv Hilde Berg, Ionica Smeets, Marie Therese Shortt, Henriette Thune, Kolbjørn Kallesten Brønnick. Originally published in the Journal of Medical Internet Research (https://www.jmir.org), 23.08.2023.)

Published

2023

36. Anti-VEGF therapy selects for clones resistant to glucose starvation in ovarian cancer xenografts.

Author

Boso D, Tognon M, Curtarello M, Minuzzo S, Piga I, Brillo V, Lazzarini E, Carlet J, Marra L, Trento C, Rasola A, Masgras I, Caporali L, Del Ben F, Brisotto G, Turetta M, Pastorelli R, Brunelli L, Navaglia F, Esposito G, Grassi A, and Indraccolo S

Subjects

Animals, Female, Humans, Mice, Cell Line, Tumor, Clone Cells metabolism, Clone Cells pathology, Mice, Inbred NOD, Mice, SCID, Oxidative Phosphorylation, Xenograft Model Antitumor Assays, Glucose metabolism, Ovarian Neoplasms drug therapy, Ovarian Neoplasms genetics, Ovarian Neoplasms pathology, Vascular Endothelial Growth Factor A antagonists & inhibitors

Abstract

Background: Genetic and metabolic heterogeneity are well-known features of cancer and tumors can be viewed as an evolving mix of subclonal populations, subjected to selection driven by microenvironmental pressures or drug treatment. In previous studies, anti-VEGF therapy was found to elicit rewiring of tumor metabolism, causing marked alterations in glucose, lactate ad ATP levels in tumors. The aim of this study was to evaluate whether differences in the sensitivity to glucose starvation existed at the clonal level in ovarian cancer cells and to investigate the effects induced by anti-VEGF therapy on this phenotype by multi-omics analysis., Methods: Clonal populations, obtained from both ovarian cancer cell lines (IGROV-1 and SKOV3) and tumor xenografts upon glucose deprivation, were defined as glucose deprivation resistant (GDR) or glucose deprivation sensitive (GDS) clones based on their in vitro behaviour. GDR and GDS clones were characterized using a multi-omics approach, including genetic, transcriptomic and metabolic analysis, and tested for their tumorigenic potential and reaction to anti-angiogenic therapy., Results: Two clonal populations, GDR and GDS, with strikingly different viability following in vitro glucose starvation, were identified in ovarian cancer cell lines. GDR clones survived and overcame glucose starvation-induced stress by enhancing mitochondrial oxidative phosphorylation (OXPHOS) and both pyruvate and lipids uptake, whereas GDS clones were less able to adapt and died. Treatment of ovarian cancer xenografts with the anti-VEGF drug bevacizumab positively selected for GDR clones that disclosed increased tumorigenic properties in NOD/SCID mice. Remarkably, GDR clones were more sensitive than GDS clones to the mitochondrial respiratory chain complex I inhibitor metformin, thus suggesting a potential therapeutic strategy to target the OXPHOS-metabolic dependency of this subpopulation., Conclusion: A glucose-deprivation resistant population of ovarian cancer cells showing druggable OXPHOS-dependent metabolic traits is enriched in experimental tumors treated by anti-VEGF therapy., (© 2023. Italian National Cancer Institute ‘Regina Elena’.)

Published

2023

37. A comprehensive review of summer savory ( Satureja hortensis L.): promising ingredient for production of functional foods.

Author

Ejaz A, Waliat S, Arshad MS, Khalid W, Khalid MZ, Rasul Suleria HA, Luca MI, Mironeasa C, Batariuc A, Ungureanu-Iuga M, Coţovanu I, and Mironeasa S

Abstract

This review aims to measure the different aspects of summer savory including biological activity, medicinal properties, nutritional value, food application, prospective health benefits, and its use as an additive in broiler feed. Furthermore, toxicity related to this is also overviewed. Summer savory leaves are abundant in total phenolic compounds (rosmarinic acid and flavonoids) that have a powerful antioxidant impact. Rosmarinic (α-O-caffeoyl-3,4-dihydroxy-phenyl lactic) acid has been identified in summer savory as a main component. According to phytochemical investigations, tannins, volatile oils, sterols, acids, gums, pyrocatechol, phenolic compounds, mucilage, and pyrocatechol are the primary compounds of Satureja species. Summer savory extract shows considerable biological potential in antioxidant, cytotoxic, and antibacterial assays. Regarding antioxidant activity, summer savory extract displays an inhibitory effect on lipid peroxidation. Summer savory also has Fe (III) reductive and free radical scavenging properties and contains minerals and vitamins. Summer savory has important biological properties, including antimicrobial activity and antioxidant activity, and protective effects against Jurkat T Cells, Alzheimer's disease, cancer, infection, cardiovascular diseases, diabetes, and cholesterol. The leaves and stems of this plant are employed in the food, feed, and pharmacological industries due to their antioxidant properties and substantial nutritional content. Conclusively, summer savory is widely considered beneficial for human health due to its versatile properties and medicinal use., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Ejaz, Waliat, Arshad, Khalid, Khalid, Rasul Suleria, Luca, Mironeasa, Batariuc, Ungureanu-Iuga, Coţovanu and Mironeasa.)

Published

2023

38. A Review of the Changes Produced by Extrusion Cooking on the Bioactive Compounds from Vegetal Sources.

Author

Mironeasa S, Coţovanu I, Mironeasa C, and Ungureanu-Iuga M

Abstract

The demand for healthy ready-to-eat foods like snacks is increasing. Physical modification of vegetal food matrices through extrusion generates significant changes in the chemical composition of the final product. There is a great variety of food matrices that can be used in extrusion, most of them being based on cereals, legumes, fruits, vegetables, or seeds. The aim of this review was to summarize the main effects of the extrusion process on the bioactive compounds content, namely phenolics, terpenes, vitamins, minerals, and fibers of vegetal mixes, as well as on their biological activity. The literature reported contradictory results regarding the changes in bioactive compounds after extrusion, mainly due to the differences in the processing conditions, chemical composition, physicochemical properties, and nutritional value of the extruded material and quantification methods. The thermolabile phenolics and vitamins were negatively affected by extrusion, while the fiber content was proved to be enhanced. Further research is needed regarding the interactions between bioactive components during extrusion, as well as a more detailed analysis of the impact of extrusion on the terpenes since there are few papers dealing with this aspect.

Published

2023

39. Research on Consumer Perception Regarding Traditional Food Products of Romania.

Author

Soare I, Zugravu CL, and Zugravu GA

Abstract

Traditional Romanian food products are an integral part of local culture and spirituality. These food traditions have been formed over the centuries and represent a particularly important part ofthe development of a circular economy in rural areas. In order to contribute to the development of this sector of activity we conducted a study on consumer perception of traditional Romanian food products. The purpose of this work was to identify the structure of the studies and the future directions of research related to the image of traditional food products through the bibliometric study, as well as the identification of consumer trends, of these products through a survey based on the questionnaire. The results obtained indicate that traditional Romanian food products are consumed by the majority of respondents participating in the survey and that this sector ofactivity has continuity in its development and presents a clear interest among citizens.

Published

2023

40. Partial Decellularization as a Method to Improve the Biocompatibility of Heart Tissue Implants.

Author

Meșină M, Mîndrilă I, Meșină-Botoran MI, Mîndrilă LA, and Pirici I

Abstract

Increasing the biocompatibility of some biological implants through tissue engineering is important for regenerative medicine, which recently has a rapid development dynamic. In this study we used tree different washing protocols, respectively with Sodium Lauryl Sulfate (SLS), with Sodium Deoxycholate (SD), and with saline (Sa) to achieve partial decellularization of 2-3mm thick cross-sections through Wistar rat hearts. Pieces of the heart tissue were either histologically analyzed to evaluate the decellularization processes or implanted for 5 days on 9-day-old chick embryo chorioallantoic membrane (CAM) and then histologically analyzed to evaluate CAM-implant interactions. Histological analysis of SLS or SD washed tissues showed different microscopic features of the decellularization processes, SLS-washing leading to the formation of a completely decellularized ECM layer at the periphery of the heart tissue. Both detergents induced changes in the spatial arrangement of collagen fibers of the heart tissue. Histological analysis of the CAM implants shoved that the peripheral zone with complete decellularization induced by SLS increased the biocompatibility of heart tissue implants by favoring neovascularization and cell migration. These results suggested that the biocompatibility of the heart tissue implant can be modulated by the appropriate use of a SLS-based decellularization protocol., Competing Interests: None to declare., (Copyright © 2023, Medical University Publishing House Craiova.)

Published

2023

41. Sorghum Flour Features Related to Dry Heat Treatment and Milling.

Author

Batariuc A, Coțovanu I, and Mironeasa S

Abstract

Heat treatment of sorghum kernels has the potential to improve their nutritional properties. The goal of this study was to assess the impact of dry heat treatment at two temperatures (121 and 140 °C) and grain fractionation, on the chemical and functional properties of red sorghum flour with three different particle sizes (small, medium, and large), for process optimization. The results showed that the treatment temperature had a positive effect on the water absorption capacity, as well as the fat, ash, moisture and carbohydrate content, whereas the opposite tendency was obtained for oil absorption capacity, swelling power, emulsion activity and protein and fiber content. Sorghum flour particle size had a positive impact on water absorption capacity, emulsion activity and protein, carbohydrate and fiber content, while oil absorption capacity, swelling power and fat, ash and moisture content were adversely affected. The optimization process showed that at the treatment temperature at 133 °C, an increase in fat, ash, fiber and carbohydrate content was experienced in the optimal fraction dimension of red sorghum grains. Moreover, the antioxidant performance showed that this fraction produced the best reducing capability when water was used as an extraction solvent. Starch digestibility revealed a 22.81% rise in resistant starch, while the thermal properties showed that gelatinization enthalpy was 1.90 times higher compared to the control sample. These findings may be helpful for researchers and the food industry in developing various functional foods or gluten-free bakery products.

Published

2023

42. Simple Universal Whole-Organ Resin-Embedding Protocol for Display of Anatomical Structures.

Author

Pirici I, Cercelaru L, Stanca DI, Osman A, Sas L, Pirici D, and Mindrila I

Abstract

Whole-organ plastic resin casting is a very useful method for preserving rare pathological specimens for forensic/anatomical studies and for teaching/research purposes. Many techniques have been proposed over time, but most of them use special non-commercially available resin mixtures, lengthy protocols, and are overall not easily implemented in any anatomy/pathology department that might need such a procedure for rapid organ preservation. Here, we utilized anatomical sections of the human brain, heart, kidneys, spleen, large intestine, and lungs from on-display organs that were fixed for more than 1 year in 10% neutral-buffered formalin and from a freshly processed cadaver for teaching purposes in our Human Anatomy Department, and we optimized a fast-processing protocol without the use of any clearing agents, which yields solid, clear, cylindrical resin casting blocks. The resulting protocol, which takes no longer than 4 days, proves that at least three commonly used epoxy resins from hobby shops can be utilized without any restrictions, and the use of resin or glycerin vacuum-forced impregnation even offers two choices of intrinsic contrast, depending on the nature of the preparation. A number of innovations have been included here and compared to existing publications, such as the use of a system of permanent fixation plexiglas rods that maintain the organ in the desired position and become invisible in the final block, the use of UVC sterilization of the tissue to ensure a long shelf life of the block, and the utilization of cheap cylindrical polypropylene food containers as casting molds. Altogether, we present a simple resin-embedding protocol that can be made available to any department/institution without the need for expensive materials and specially trained personnel.

Published

2023

43. Incorporation of Buckwheat Flour at Different Particle Sizes and Distinctive Doses in Wheat Flour to Manufacture an Improved Wheat Bread.

Author

Coţovanu I, Mironeasa C, and Mironeasa S

Abstract

This study explored the effect of substituting wheat flour (WF) with distinctive optimal doses of buckwheat flour (BF) corresponding to large, medium, and small particle sizes (PS), previously established based on an optimization process, on composite flour characteristics, dough rheology, and bread quality. The optimal dose for each PS was established in a previous study. The highest value for protein, lipid, mineral, and amino acids was found in the optimal composite flour with medium PS, with significant differences between those with large and small PS. The addition of BF in WF at doses corresponding to each fraction provides optimum rheological properties, with the large and medium PS providing higher performance compared to the small one. The same tendency was observed for volume and texture parameters of bread made from optimal composite flours with medium and large PS, respectively, but the crust and crumb lightness presented lower values than bread with small PS. Regarding the bread nutritional profile, the sample with medium PS possessed the highest protein, lipid, and ash content. Compared to the wheat bread, a considerably higher amino acid content, up to 21.22%, was found in bread made from optimal composite flours with medium and small PS, respectively. The bread samples with medium and large PS, respectively were superior in minerals, the value being up to 2.63 times higher compared to the control. Sensory characteristics results revealed that the bread samples containing 9.13% large and 10.57% medium PS were the most preferred by panelists. The results of this research make an important base to suitably develop wheat-buckwheat bread applications in the future.

Published

2023

44. Optimization Techniques of Single-Detergent Based Protocols for Heart Tissue Decellularization.

Author

Meșină M, Mîndrilă I, Meșină-Botoran MI, Mîndrilă LA, Farhangee A, and Pirici I

Abstract

The extracellular matrix (ECM) scaffolds are considered a gold standard for the engineering of appropriate grafts used in regenerative medicine for tissue repair, and decellularization of myocardial tissue is one of the most studied processes for obtaining natural ECM to date. Decellularization methods, agents used, or treatment durations can be varied to optimize cardiac tissue decellularization parameters. In this work we performed a morphological and morphometric analysis of cardiac tissue subjected to decellularization protocols based on Sodium Deoxycholate (SD) or Sodium Lauryl Sulfate (SLS) to identify factors that allow optimization of single-detergent based protocols for cardiac ECM manufacturing. For this, Wistar rat hearts (n=10) were subjected to 5 different decellularization protocols (n=2) and then histologically processed to achieve H&E or Azan trichrome stained sections for the morphological and morphometric analysis of the obtained ECM. The results of this study showed that SLS alters the spatial distribution of cardiac ECM collagen fibers, and SD can be successfully used in tailoring single-based detergent decellularization protocols by appropriately adjusting the application times of hypo/hyperosmotic shocks, which increases the lytic action of the detergent, and the washing times for the efficient elimination of cellular residues., Competing Interests: None to declare, (Copyright © 2023, Medical University Publishing House Craiova.)

Published

2023

45. Nutritionally Improved Wheat Bread Supplemented with Quinoa Flour of Large, Medium and Small Particle Sizes at Typical Doses.

Author

Coţovanu I, Mironeasa C, and Mironeasa S

Abstract

One of the food industry's challenges is to enhance bread quality from a nutritional point of view without impacting negatively sensorial characteristics and consumer decisions on product choice. This study aimed to assess the baking characteristics of wheat bread supplemented with quinoa flour (QF) of large, medium and small particle sizes at typical doses previously established based on an optimization process, and to evaluate the optimal bread from a physical, textural, nutritional, and sensorial point of view. The results showed a decrease in the Falling number index, water absorption, dough stability, speed of protein weakening, dough extensibility, and creep-recovery compliances for optimal wheat-quinoa composite samples with large and medium particle sizes; meanwhile, for the samples with small particle sizes an opposite trend was recorded, with the exception of dough extensibility. Dough fermentation parameters and bread volume rose for all optimal formulations, while firmness decreased compared to wheat bread. All optimal bread samples presented an improved nutritional profile depending on the particle size. The protein content was up to 19% higher, ash up to 13.8%, and lipids up to fifteen times higher. A noticeable enrichment in minerals (mainly K, Mg, Na, Zn, up to 2.3 times) and essential amino acids (with 13.53%) was also obtained for all optimal breads. From an acceptability point of view, the highest score (8.70) was recorded for the optimal bread with a QF of medium particle size. These findings offer processors new information which will be useful for diversifying bakery products with an enhanced nutritional profile.

Published

2023

46. What Makes A "Successful" Kasai Portoenterostomy "Unsuccessful"?

Author

Matcovici M, Stoica I, Smith K, and Davenport M

Subjects

Infant, Humans, Portoenterostomy, Hepatic, Prospective Studies, Bilirubin, Treatment Outcome, Retrospective Studies, Biliary Atresia complications, Biliary Atresia surgery, Biliary Atresia diagnosis, Jaundice, Cholangitis

Abstract

Objectives: Clearance of jaundice (CoJ) is the first key objective of Kasai portoenterostomy (KPE) for biliary atresia (BA) and its achievement is by far the best index of long-term prognosis. We sought to identify the reasons for failure [subsequent liver transplant (LT)] in this cohort., Methods: Review of single-center prospective BA database. Successful KPE was defined by achieving a postoperative bilirubin of ≤20 µmol/L. Pre-KPE and post-KPE variables were identified together with a multivariate logistic regression model to identify those observable at 3 months post-KPE. Data are quoted as median (range). A P value of ≤0.05 was significant., Results: One hundred thirty-five infants underwent KPE between January 2012 and December 2018, of which 90 (67%) achieved CoJ. From these 20 (22%) (Cohort A) underwent LT with the remainder continuing with native liver (Cohort B) (median follow-up of 4.15 years). There was no difference in age at KPE ( P = 0.41), APRi (aspartate aminotransferase-to-platelet ratio) ( P = 0.07), associated anomalies ( P = 0.7), and cytomegalovirus status ( P = 0.7) between the 2 groups. Postoperatively, both cholangitis [any episode, 18/20 (90%) vs 15/70 (21%); P < 0.0001] and portal hypertension (PHT) [gastrointestinal (GI) bleed, 10/20 (50%) vs 2/70 (2.8%); P < 0.0001] were significantly more common in cohort A. Univariate analysis showed that the most significant predictive values at 3 months for LT by 2 years were high APRi, bilirubin, international normalized ratio, and ultrasound (US)-detected ascites with multivariate logistic modeling confirming these variables with predictive values of r2 = 0.79, AUROC = 0.98., Conclusions: Failure is not preordained at KPE but due to recurrent cholangitis and/or symptoms of PHT., Competing Interests: The authors report no conflicts of interest., (Copyright © 2022 by European Society for European Society for Pediatric Gastroenterology, Hepatology, and Nutrition and North American Society for Pediatric Gastroenterology, Hepatology, and Nutrition.)

Published

2023

47. Addition of Amaranth Flour of Different Particle Sizes at Established Doses in Wheat Flour to Achieve a Nutritional Improved Wheat Bread.

Author

Coțovanu I, Stroe SG, Ursachi F, and Mironeasa S

Abstract

Amaranth is an underutilized pseudocereal that can be used to supplement wheat flour (WF) in order to improve the nutritional quality of bread. Bread digestibility is impacted by particle size which produces different nutritional properties. This research aims to evaluate the baking characteristics of optimal wheat−amaranth composite flour for each studied amaranth flour (AF) particle size at doses previously established based on an optimization process and to characterize from a physical, textural, nutritional, and sensorial point of view the obtained bread. The results revealed that the optimal wheat−amaranth composite flour with medium and small particle size, respectively showed a slightly lower α-amylase activity, while dough development time was significantly higher compared to the WF. A significant (p < 0.05) decrease was observed in the elasticity, deformation energy, and dynamic rheological parameters of the optimal composite dough for all the particle sizes, whereas fermentation parameters showed higher values compared to the control, indicating the ability of the gluten structure in large, medium, and small particle sizes of AF to hold the gas and to expand without collapsing. The physical, textural, and especially nutritional characteristics of the optimal WF-AF bread were enhanced. The sensory evaluation results revealed high scores (8.70) for the acceptability of optimal bread with a medium particle size as compared to wheat bread (8.25). The protein and ash content of the optimal breads with large, medium, and small AF particle sizes, respectively, increased significantly, from 8.92 to 10.58%, and 0.82 to 0.99%, respectively, relative to the wheat flour bread (8.35% and 0.72%, respectively). The mineral content was up to two times higher in the optimal breads compared to wheat flour bread. The findings generated from this study are helpful in bakery industry for designing products with enhanced nutritional properties and for introducing new products to the market.

Published

2022

48. The Analysis of Blood Inflammation Markers as Prognostic Factors in Parkinson's Disease.

Author

Stanca ID, Criciotoiu O, Neamtu SD, Vasile RC, Berceanu-Bora NM, Minca TN, Pirici I, Rosu GC, and Bondari S

Abstract

Parkinson’s disease is a chronic, progressive, and neurodegenerative disease, and yet with an imprecise etiopathogenesis. Although neuroinflammation was initially thought to be a secondary condition, it is now believed that microglia-induced inflammation could also contribute to the degeneration of the nigrostriatal pathway. Here, we aimed to establish the feasibility of basic inflammatory biomarkers as prognostic factors in PD. The study was based on retrospective analyses of blood samples taken from patients diagnosed with PD, as well as from healthy subjects. Complete medical records, total leukocyte count with subpopulations, and erythrocyte sedimentation rate (ESR) were analyzed. We calculated the serum neutrophils-to-lymphocytes ratio (NLR) and platelet-to lymphocytes ratio (PLR), and also compared the laboratory data between the PD group and the control group. Only PLR and NLR showed statistically significant differences (p < 0.001 and 0.04, respectively). In our study, ESR did not show statistically significant correlations with motor score or with disability. In our research, ESR was correlated with the disease duration (p = 0.04), and PLR showed a significant correlation with disease stage (p = 0.027) and disease duration (p = 0.001), but not with motor state. These biomarkers could prove to be effective tools for a primary evaluation of inflammation in PD, but further tests are required to properly investigate the neuroinflammatory status of these patients.

Published

2022

49. Subtle vascular and astrocytic changes in the brain of coronavirus disease 2019 (COVID-19) patients.

Author

Rosu GC, Mateescu VO, Simionescu A, Istrate-Ofiteru AM, Curcă GC, Pirici I, Mogoanta L, Mindrila I, Kumar-Singh S, Hostiuc S, and Pirici D

Subjects

Humans, SARS-CoV-2, Aquaporin 4, Brain metabolism, Collagen metabolism, Glial Fibrillary Acidic Protein, Astrocytes, COVID-19

Abstract

Background and Purpose: In the central nervous system, a multitude of changes have been described associated with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection, such as microglial activation, perivascular lymphocyte cuffing, hypoxic-ischaemic changes, microthrombosis, infarcts or haemorrhages. It was sought here to assess the vascular basement membranes (vBMs) and surrounding perivascular astrocytes for any morphological changes in acute respiratory syndrome (coronavirus disease 2019, COVID-19) patients., Methods: The light microscopy morphology of the vBMs and perivascular astrocytes from brains of 14 patients with confirmed SARS-CoV-2 infection was analysed and compared to four control patients utilizing fluorescent immunohistochemistry for collagen IV and astrocytes (GFAP), endothelia (CD31), tight junction 1 (TJ1) adhesion protein, as well as the aquaporin 4 (AQP4) water channel. On 2D and 3D deconvoluted images from the cortex and white matter, vessel densities, diameters, degree of gliosis, collagen IV/GFAP and GFAP/AQP4 colocalizations were calculated, as well as the fractal dimension of astrocytes and vBMs viewed in tangential planes., Results: Fractal dimension analysis of the GFAP-stained astrocytes revealed lower branching complexities and decreased GFAP/collagen IV colocalization for COVID-19 patients. Interestingly, vBMs showed significantly increased irregularities (fractal dimension values) compared to controls. Vessel diameters were increased in COVID-19 cases, especially for the white matter, TJ1 protein decreased its colocalization with the endothelia, and AQP4 reduced its co-expression in astrocytes., Conclusions: Our data on the irregularity of the basement membranes, loss of endothelial tight junction, reduction of the astrocyte end-feet and decrease of AQP4 suggest subtle morphological changes of the blood-brain barrier in COVID-19 brains that could be linked with indirect inflammatory signalling or hypoxia/hypercapnia., (© 2022 European Academy of Neurology.)

Published

2022

50. The mitochondrial chaperone TRAP1 regulates F-ATP synthase channel formation.

Author

Cannino G, Urbani A, Gaspari M, Varano M, Negro A, Filippi A, Ciscato F, Masgras I, Gerle C, Tibaldi E, Brunati AM, Colombo G, Lippe G, Bernardi P, and Rasola A

Subjects

Humans, Mitochondrial Proton-Translocating ATPases metabolism, Peptidyl-Prolyl Isomerase F metabolism, Mitochondria metabolism, Molecular Chaperones metabolism, Adenosine Triphosphate metabolism, HSP90 Heat-Shock Proteins metabolism, Mitochondrial Permeability Transition Pore metabolism, Mitochondrial Membrane Transport Proteins metabolism

Abstract

Binding of the mitochondrial chaperone TRAP1 to client proteins shapes bioenergetic and proteostatic adaptations of cells, but the panel of TRAP1 clients is only partially defined. Here we show that TRAP1 interacts with F-ATP synthase, the protein complex that provides most cellular ATP. TRAP1 competes with the peptidyl-prolyl cis-trans isomerase cyclophilin D (CyPD) for binding to the oligomycin sensitivity-conferring protein (OSCP) subunit of F-ATP synthase, increasing its catalytic activity and counteracting the inhibitory effect of CyPD. Electrophysiological measurements indicate that TRAP1 directly inhibits a channel activity of purified F-ATP synthase endowed with the features of the permeability transition pore (PTP) and that it reverses PTP induction by CyPD, antagonizing PTP-dependent mitochondrial depolarization and cell death. Conversely, CyPD outcompetes the TRAP1 inhibitory effect on the channel. Our data identify TRAP1 as an F-ATP synthase regulator that can influence cell bioenergetics and survival and can be targeted in pathological conditions where these processes are dysregulated, such as cancer., (© 2022. The Author(s).)

Published

2022