Group IB Research Articles

The electrochemical synthesis of urea on triatomic cluster/Cu catalysts: A theoretical study

Urea (NH2CONH2), a crucial nitrogen fertilizer and industrial raw material, is typically synthesized under rigorous reaction conditions. Currently, the electrocatalytic transformation of N2 and CO2 into urea is a promising strategy. However, finding a high-selectivity and high-activity catalyst remains a significant challenge. Herein, the activity of a series of transition metal clusters (VIII and IB groups) on copper-based catalysts for electrochemical coupling of CO2 and N2 has been systematically studied to produce urea via density functional theory (DFT). Most catalysts exhibit good thermodynamic stability and accomplish co-adsorb CO2 and N2. Notably, Fe3 and Ni3/Cu100 catalysts achieve C-N coupling via *CO and *N2, whereas Ru3, Rh3, Os3, and Ir3/Cu100 catalysts accomplish C-N coupling via *CO and *NHNH. Among all catalysts, the Ni3/Cu100 catalyst features excellent catalytic activity with a rate-determining step as low as 0.480 eV, and its C-N coupling only needs to overcome a barrier of 0.844 eV. Additionally, the Ni3/Cu100 catalyst can effectively inhibit the hydrogen evolution reaction (HER), further protonation of *CO and ammonia formation, thereby ensuring high selectivity for urea. Electronic structures analysis further reveals an “acceptance-donation” mechanism for the activation of *CO2 and *N2, with the introduction of the Ni3 cluster showing a decisive role. Therefore, this study may establish the foundation for the electrochemical synthesis of urea.

RNA-seq and whole-genome re-sequencing reveal Micropterus salmoides growth-linked gene and selection signatures under carbohydrate-rich diet and varying temperature

This study was performed on Micropterus salmoides to determine growth-linked gene and single nucleotide polymorphism (SNP) markers under carbohydrate diet and varying temperature through RNA-seq and whole-genome re-sequencing. The results showed that growth-related genes were primarily enriched in the fat digestion and absorption signaling pathway, playing a role in lipid transport and metabolism. Fatty acid binding protein 6, bile salt-activated lipase-like, lysophosphatidylcholine acyltransferase 2, phospholipase A2, minor isoenzyme-like, and phospholipase A2, group IB (pancreas) were identified as the crucial genes. The differentially expressed genes between high and low temperatures were enriched in the pentose phosphate pathway, with carbohydrate transport and metabolism were most affected by temperature. Major facilitator superfamily domain containing 10, phosphogluconate dehydrogenase, fructose-1,6-bisphosphatase 1a, and spinster homolog 3 transcript variant X1(spns3) were the shared genes affected by temperature. From all the common genes, 10 growth-associated SNP markers were identified. The TT genotype at rs7781 was associated with lower body weight, while AA genotype at rs31434173 and CC genotype at rs31435313 showed positive correlation with body weight. Analogously, the GG genotype at rs31436887 and AA genotype at rs31438769 also found to characterize better growth performance. At low temperature, individuals with the AA genotype at rs11506587 and rs31435313 exhibited the slowest growth. For the genotypes labeled with rs11510589, the GG individual grew faster than the AA individual, whereas the opposite phenomenon occurred in these genotypes when labeled with rs11511314. The genotypes at rs32970704 and rs32967921 showed no growth correlation. The AA genotype at rs31435313 in spns3 had the slowest growth under a carbohydrate-rich diet regardless of the temperature. Our study presents candidate genes and SNP markers associated with growth influenced by carbohydrate and temperature, providing basis for the development of M. salmoides strain that better accepts carbohydrate diets at varying temperature.

Assessment of left atrial function using two-dimensional speckle tracking echocardiography in cryptogenic stroke patients.

Cryptogenic cerebrovascular stroke can be defined as an ischemic stroke that lacks a clear cause, even after a thorough evaluation. It should be distinguished from the embolic stroke of undetermined source (ESUS), a subgroup that includes cardio-embolic sources. This study aims to assess left atrial function through two-dimensional speckle tracking echocardiography (2D-STE) to determine its potential association with cryptogenic stroke andits predictive value for subclinical atrial fibrillation (AF). Our prospective cohort study involved 62 patients with unexplained cerebrovascular stroke or TIA, regardless of gender. Following TEE assessments, 22 patients were excluded due to identified sources of cardio-embolism. The remaining 40 participants were clustered into Group I. Group II, consisted of 40 healthy individuals without significant medical history, served as a control group. Both groups underwent two-dimensional trans-thoracic echocardiography and speckle tracking echocardiography. LA dysfunction parameters exhibited significant differences between Group I and Group II. LV diastolic dysfunction, LAVI, LAEF, and LASr were notably affected in Group I. At the same time, LA diameter in the parasternal long-axis view (PLAX) displayed a significant difference with a p value of 0.001. Within Group I, 14 patients experienced AF episodes (Group Ia, 35%); while, the remaining 26 were categorized as Group Ib (65%). LV diastolic dysfunction displayed a p value < 0.011; while, LAVI, LAEF, and LASr exhibited considerable differences with p values < 0.0001. However, the LA diameter showed no significant variation between the two groups. LASr emerged as the most sensitive and specific parameter for predicting AF, with a cutoff point of ≤ 24.5% and a p value < 0.0001. LAEF showed a cutoff point of ≤ 40.5% and a p value of 0.011. Meanwhile, LAVI demonstrated the lowest sensitivity and specificity, with a mean cutoff point of ≥ 38.5ml/m2 and a p value of 0.003. 2D-STE is crucial for assessing LA dysfunction as a potential cryptogenic stroke cause after TEE and ruling out cardio-embolism sources. LASr serves as a key LA cardiopathy indicator, even preceding AF. LASr independently poses an AF risk. While LAEF and LAVI are significant LA dysfunction parameters and AF predictors, they exhibit lower sensitivity and specificity than LASr.

The Performance of Ethylene Partial Oxidation on Group IB Metal Stepped Surfaces

Group IB metal catalysts, particularly Ag, Au, and Cu, exhibit particular selectivity for ethylene oxide (EO) formation, while Ag demonstrating the highest performance so far. Previous studies have explored the EO formation mechanism on (100) and (111) surfaces of group IB metals, but the reaction mechanism on the (211) facet (analogous to the edge sites of a catalyst particle) remains poorly understood. Herein, we fill in the knowledge gap by analyzing ethylene partial oxidation to EO on the (211) surfaces of Ag, Au, and Cu through density functional theory (DFT) calculations, scaling relationship analysis, and microkinetic modeling. Our study demonstrates that the (211) surface decreases the energy barrier for the dissociation of oxygen molecules into oxygen atoms, while unfavorable for the production of EO. Therefore, we should preserve an appropriate concentration of (211) surface on the nanoparticles when designing catalysts for the ethylene epoxidation reaction.

Effect of advancing age on event-related potentials (P300) measures

BackgroundAging has been defined as a persistent deterioration in the age-specific fitness components of an organism, attributed to internal physiological degeneration. Cognitive abilities, encompassing attention, memory, executive cognitive functions, language, and visuospatial capacities, are distinctive domains affected by aging. Numerous studies have documented measurable effects on these cognitive domains, indicating a discernible decline in their functionality with advancing age. Cognitive impairment often unfolds insidiously, remaining clinically silent for extended periods. Age, as a critical factor, exerts a notable influence on P300 measures.ResultSpearman rank correlation was calculated between age and P300 measures. In group 1A (age range of 10–20 years), we found a strong positive correlation between age and amplitude of P300 (r = 0.96, p < 0.001), while a weak correlation was found between latency and age. In group IB (age range: 21–40 years), a moderate negative correlation (r = − 0.43, p < 0.05) was found between age and amplitude of P300, while a strong positive correlation (r = 0.87, p < 0.001) was obtained between age and latency. In group 2A (age: 41–60 years), it was found that amplitude has a strong negative correlation (r = − 0.97, p < 0.001) with age, while latency has a strong positive correlation (r = 0.89, p < 0.001). In group 2B (age: 61–80 years), it was found that amplitude has a strong negative correlation (r = − 0.93, p < 0.001) with age, while latency has a strong positive correlation (r = 0.95, p < 0.001).ConclusionIn this study, it is concluded that amplitude of P300 decreases and latency increases with increasing age.

Comparison of the effects of submucosal hyaluronidase and dexamethasone on postoperative edema, pain, trismus, and infection following impacted third molar surgery

BackgroundLimiting postoperative edema, pain, trismus, and infection is crucial for smooth healing. This prospective, controlled clinical trial investigated and compared the effectiveness of dexamethasone and hyaluronidase in relieving these complications.MethodsIn groups Ia and IIa, 8 mg of dexamethasone and 150 IU of hyaluronidase were administered following the removal of impacted teeth, respectively. The contralateral sides (groups Ib and IIb) were determined as control groups. Edema, pain, trismus, and infection were clinically evaluated on the 1st, 2nd, 3rd, and 7th postoperative days.Results60 patients were enrolled in the study. Hyaluronidase provided significantly more edema relief than dexamethasone on the 1st, 2nd, 3rd, and 7th postoperative days (P = 0.031, 0.002, 0.000, and 0.009, respectively). No statistical difference was found between dexamethasone and hyaluronidase in VAS and rescue analgesic intake amount values for all time points. Hyaluronidase was more effective in reducing trismus than dexamethasone on the 2nd and 3rd postoperative days (P = 0.029, 0.024, respectively). Neither of the agents significantly increased the postoperative infection rate.ConclusionsHyaluronidase can be selected when postoperative excessive edema and trismus are anticipated. Dexamethasone may be a cost–effective option if postoperative pain control is merely targeted.Trial registrationThis trial was registered in the Clinical Trials Protocol Registration and Results System (ClinicalTrials.gov identifier number: NCT05466604) on 20/07/2022.

Clinical Outcomes of Enhanced Monofocal (Mono-EDOF) Intraocular Lenses with the Mini-Monovision Technique versus Trifocal Intraocular Lenses: A Comparative Study.

It was aimed to compare the clinical results of the mini-monovision technique (MMV) with enhanced monofocal intraocular lens (IOL) and trifocal IOL applications and to evaluate the intereye differences in the MMV group. This retrospective observational study evaluated the results of cataract surgeries performed on 48 eyes of 24 patients. Surgeries in Group I were performed for MMV using the RayOne EMV IOL targeting emmetropia in dominant eyes (Group IA) and -0.70 diopter (D) myopia in non-dominant eyes (Group IB), while those in Group II were performed with the AcrySof® IQ PanOptixTM TNFT00 IOL targeting emmetropia. After the surgeries, uncorrected and corrected distance, intermediate, and near distance visual acuities, contrast sensitivity measurements, and defocus curves were determined. Subjective evaluation was made with the National Eye Institute Visual Function Questionnaire (NEI VFQ-25). The groups were compared statistically. Postoperative refraction mean spherical equivalent was -0.25±0.22 D, -0.67±0.33 D, and -0.16±0.31 D in the three groups, respectively. A statistical difference was identified in favor of Group IA for uncorrected distance vision and in favor of Group IB for near vision (p<0.05). There was no difference in bilateral uncorrected visions in Groups I and II (p>0.05). While contrast sensitivity was better in Group I at all spatial frequencies (p<0.05), better vision was achieved in the defocus curve at distance in Group IA and at near in Group IB. In the binocular evaluation, it was seen that Groups I and II had similar results. In the subjective evaluation, NEI-VFQ-25 scores were 94.1±4.2/100 in Group I and 91.5±3.0/100 in Group II at 6 months (p>0.05). Photic complaints were significantly more common in Group II. With the MMV technique, it was observed that enhanced monofocal lenses provided better visual acuity at all distances and less dysphotopsia than trifocal lenses, whereas trifocal lenses were better at providing independence from glasses.

Conversion mechanism of the atomically precise group IB metal nanoclusters by theoretical calculations

The controllable synthesis and design of group IB metal (i.e., Au/Ag/Cu) and their alloy nanoclusters (IB-NCs) rely on an elucidation of the conversion mechanism, bonding preference, and structure–property relationships. In the past decades, the development of cluster-to-cluster transformation and spectroscopic tracking strategy have provided important mechanistic insights that greatly help researchers improve synthetic skills and explore the application of IB-NCs. Specifically, with the aid of DFT calculations, the structural information of cluster-to-cluster conversion, including the intermediates and active sites, can be deduced from the atomic level. In this review, the conversion mechanisms of IB-NCs in the past three years have been reviewed to summarize the key factors influencing structural transformation and reactivity. The three types of cluster-to-cluster conversion (i.e., foreign metal source, foreign ligand, and other reagents/condition-induced conversion) were highlighted for further synthesis and design of functional nanoclusters.

Rotating Disk Electrode Studies of Benzaldehyde Oxidation on Group Ib Metals

Water electrolysis is a green means of producing hydrogen gas to be used as a fuel or reactant in key industrial processes such as ammonia production. The conventional system of oxygen evolution (OER) and hydrogen evolution (HER) suffers from slow kinetics at the anode and a high cell voltage limited by thermodynamics. One solution is to replace OER with another reaction such as an organic oxidation reaction that has a lower equilibrium potential and produces a valuable organic byproduct at the anode. Recent work has demonstrated that biomass-derived aldehydes such as furfural and 5-hydroxymethylfurfural can be selectively oxidized to their corresponding carboxylates and H2 on Cu-based anodes at low potentials (~0.1 VRHE) in alkaline media. In alkaline media, a hydroxide ion adds to the carbonyl carbon of an aldehyde molecule forming a gem diolate in solution phase. It is argued that dehydrogenation becomes more facile due to the weaker C-H bond of the gem diolate compared to the aldehyde form of the molecule. This may enable oxidation without the need for coadsorbed-OH. Additionally, aldehyde oxidation is only active on Au, Ag, and Cu electrodes at higher pHs.The aim of this work is to identify the conditions under which low potential oxidation of aldehydes and high anodic Faradaic efficiency to H2 occurs, namely, electrode material and applied potential. To avoid polymerization side reactions of furans in alkaline media, we studied benzaldehyde as a model compound which has also been shown to exhibit low potential oxidation and anodic H2. The activity (rate of aldehyde consumption) and selectivity (to anodic H2 versus H2O) were compared for the group Ib metals (Au, Ag, Cu), each of which demonstrates a relatively early onset potential (<0.4 VRHE) and generates anodic H2 at certain potentials. Rotating disk electrode studies with Koutecky-Levich analysis were conducted to separate mass transfer effects from kinetic current to compare the intrinsic activity of each electrode. Additionally, the average number electrons transferred per aldehyde molecule consumed was estimated from Koutecky-Levich analysis; the one-electron pathway combines the aldehyde hydrogens to H2 while the two-electron pathway requires an additional electron per aldehyde molecule to oxidize the hydrogen from the surface to form H2O. Rotating ring disk electrode studies were used to further validate the anodic H2 generation as a Pt ring was still able to oxidize H2 despite the presence of benzaldehyde. This was used as an additional means of estimating the selectivity to H2 as a function of potential.CVs for benzaldehyde oxidation on each metal are shown in Figure a. Peak current followed the order of Au > Ag >> Cu. Au reached a mass transfer limiting current, and Ag also showed an RPM dependence but did not reach full mass transfer limitations. Cu was the least active and did not show any mass transfer dependence. On the other hand, Cu has the earliest onset potential followed by Ag then Au. The average number of electrons transferred per aldehyde molecule according to RRDE measurements is shown in Figure b, where one electron represents H2 and two electrons represents H-oxidation to H2O. Cu had 100% selectivity to H2 over its entire potential window of activity (up to 0.45 VRHE). Au and Ag have high selectivity to H2 at low potentials but decreases to near zero H2 production in the range of 0.6-0.8 VRHE; the decrease in selectivity to H2 on Ag occurs slightly earlier than Au (~0.1 V). H2 selectivity is related to the inability of each metal to oxidize H to H2O at low potentials. Figure 1

Comparative Evaluation of the Survival Rates of Atraumatic Restorative Treatment Restorations Using Bilayer Technique along with Nanofilled Coating in Primary Molars: A Clinical Study.

To enhance the survival rate of atraumatic restorative treatment (ART) restorations using (class I and class II) bilayer technique of placing glass ionomer cement (GIC) along with nanofilled coating (NC) over the restorations, thereby improving longevity. A total of 178 primary molars in 67 children were selected and randomly divided into four groups. Group IA was treated with a single layer of GIC, followed by a protective layer of petroleum jelly in class I restoration. Group IB was treated with a single layer of GIC, followed by a protective layer of petroleum jelly in class II restoration. Group IIA was treated with bilayer GIC restoration followed by NC of GC-Coat Plus in class I, whereas group IIB was treated with bilayer GIC restoration followed by GC-Coat Plus in class II. Clinical analysis of all three groups was performed at 1, 3, 6, 9, and 12 months to evaluate the success of treatment procedures using predetermined criteria. Pearson's Chi-square and Kaplan-Meier estimates were utilized to evaluate the success of all four treatment procedures (p < 0.05). Out of 178 teeth, 33 teeth were in group IA, 36 teeth were in group IB, 43 teeth were in group IIA, and 40 teeth were available for evaluation at the end of the 12-month follow-up period. The overall success was determined to be 81% for group IA, 79.2% for group IB, 79.5% for group IIA, and 88.6% for IIB. At 6th-month follow-up, one clinical failure was observed in groups IA and IB. At 9 months follow-up, two clinical failures were observed in both group IA and group IB and three failures were observed in group IIB. At 12 months follow-up, four clinical failures were observed in group IA, three in group IB and one clinical failure was observed in group IIB. There was no statistically significant difference observed between the success of the four groups, suggesting that either of the techniques can be utilized for ART. No statistically significant difference was observed between the survival of class I and class II restorations of both the groups, indicating that either single-layer or bilayer technique along with NC can be adopted for the management of dental caries in primary molars using the ART approach. Khan N, Garg N, Garg N, et al. Comparative Evaluation of the Survival Rates of Atraumatic Restorative Treatment Restorations Using Bilayer Technique along with Nanofilled Coating in Primary Molars: A Clinical Study. Int J Clin Pediatr Dent 2024;17(S-1):S55-S60.

Designing highly efficient electrocatalyst for ORR and OER of transition metals doped g-C9N7: A density functional theory study

The application of fuel cells and metal-air batteries is limited by the rate of oxygen reduction reaction (ORR) and oxygen evolution reaction (OER). Thus, the aim of this study is to find an efficient electrocatalyst to accelerate the reaction rate by DFT method. The structures of VIIB, VIII, IB, and IIB groups transition metals doped g-C9N7 as superb bifunctional electrocatalysts for ORR and OER are probed. The results show that Fe-, Pd-, and Au–C9N7 possess the superb ORR performance with the ORR overpotentials values of 0.35, 0.40, and 0.39 V, which gives them better performance than Pt(111). Moreover, Rh-, Pd-, and Pt–C9N7 have better OER performance with the OER overpotentials values of 0.30, 0.57, and 0.43 V, which makes them comparable to RuO2(110) and IrO2(110). Finally, the calculated bifunctional index (BI) results show that Pd–C9N7 can be used as an excellent bifunctional electrocatalyst because it has a minimum BI value of 0.97 V. This research has the potential to provide valuable theoretical direction into the use of M − C9N7 as electrocatalysts for both the ORR and OER.

Influence of gel matrix on the wound healing activity of adhesive dressings filled with silver nanoparticles and humic acid applied on a rat burn model

BACKGROUND: Thermal injuries to the skin (burns) are common household and man-made traumatic injuries in humans. In wartime, thermal injuries are additional damaging factors in combined skin lesions caused by the damaging elements of modern weapons. AIM: This study aimed to evaluate the effectiveness of gels based on silver nanoparticles in combination with humic acid on the healing of thermal skin injuries (burn wounds) in rats. MATERIALS AND METHODS: In the experiments on 57 white nonlinear male rats weighing 218–260 g, the wound healing effects of gels with 10% humic acid modified with nanosilver on various bases, prepared in a pharmacopoeial manner, on a grade IIIB thermal skin burn model were examined. The gel bases used in three experimental groups were as follows: sodium carboxymethylcellulose (group Ia, n = 12), polyacrylamide (group Ib, n = 12), and polyethylene glycol (group Ic, n = 12). The comparison group (group II, n = 12) received Levomekol ointment, whereas the control group (group III, n = 8) did not receive treatment. A grade III thermal burn was made on the proximal part of the back under general anesthesia using a thermal applicator with a circular-shaped flat working part with a diameter of 20 mm. Seventy-two hours after the burn, the wound was freed from scab by complete excision along the border of the intact skin, a splinting ring was applied, and the study drugs were administered. The dynamics of the changes in the burn wound were assessed on days 10, 14, 17, 21, 24, and 28 using the Universal Desktop Ruler program. RESULTS: The average times (median) to reach 75% epithelialization of wounds in groups Ia, Ic, and II were 29.4 ± 0.2, 34 (33–34), and 33.3 ± 0.45 days, respectively, whereas in groups Ib and III, the median time to 75% epithelization was not achieved. The 28-day healing index (%/day) values were 8.6, 4.8, 6.5, 6.1, and 4.4 in groups Ia, Ib, Ic, II, and III, respectively. The dynamics of epithelialization of thermal burns were most pronounced in group Ia, where the sodium carboxymethylcellulose acted as a gel base for humic substances modified with nanosilver. CONCLUSIONS: The results indicated that the gel added with nanosilver-modified humic substances based on sodium carboxymethylcellulose has a wound healing effect on thermal skin injuries, superior to the effect of the reference drug Levomekol in terms of the healing time of burn wounds.

Cell Free DNA in SLE Patients: A Possible Marker of Disease Activity and Organ Damage

Abstract Background Systemic lupus erythematous (SLE) is a prototypic autoimmune disease with a complex pathogenesis involving multiple genetic and environmental factors. Cell death has been regarded as an important event in lupus pathogenesis as it leads to release of antigens as nucleic acids for immune complex formation. DNA-antibody complex in the circulation are one of the hallmarks of SLE that leads to detrimental effects causing manifestations of SLE. Fluctuation in circulating DNA level might be one of the driving factors behind flare-ups of SLE. Objectives This study aims to measure the circulating cell free DNA (cf-DNA) in patients with SLE as a potential marker for disease activity and organ damage. Methods This case control study included 100 participants categorized into 75 SLE patients as patient group (Group I), further divided to 39 SLE patients without therapy (group Ia), 36 SLE patients with therapy (Group Ib) and 25 age and sex matched healthy subjects as a control group (Group II). All participants were subjected to full history taking, thorough rheumatological examination and lab assessment of complete blood count (CBC), ESR, CRP, C3, C4 levels, ANA titer, anti-ds-DNA concentration by ELIZA and measurement of plasma cf-DNA levels by real time PCR. Cf- DNA concentration is expressed as concentration (ng/ml). Results SLE patients (Group Ia and Ib) showed significant increase in (plasma cf-DNA,CRP, ESR, ANA, anti-ds-DNA), significant decrease in (C3 and C4, hemoglobin, total leucocytic count and platelet count). Plasma cf-DNA (ng/ml) was significantly lower in group Ib compared to group Ia. There was significant positive correlation between plasma cf-DNA (ng/ml) and levels of ANA and anti-ds-DNA in all SLE patients and with SLEDAI-2k score in all patients. Conclusion Plasma level of cf-DNA is significantly increased in SLE patients especially before starting therapy these data may suggest it to be a possible marker of treatment follow up. Further studies on a larger patient population are still needed to confirm these results.

Adverse events following immunization of co- and separate administration of DTaP-IPV/Hib vaccines: A real-world comparative study

ABSTRACT To fully understand the safety of DTaP-IPV/Hib vaccination, we evaluated the differences between DTaP-IPV/Hib co-administration and separate administration of the DTaP, IPV and Hib vaccines (DTaP+IPV+Hib) based on adverse events following immunization (AEFI). All AEFI reported in Hebei Province, China, between 2020 and 2022 were included in this study. The risk difference (RD%), relative risk (RR), and Chi-square value were used to compare the differences in reported rates of AEFI between the DTaP-IPV/Hib and DTaP+IPV+Hib groups. From 2020 to 2022, 130 AEFI cases were reported in Hebei Province after DTaP-IPV/Hib vaccination, corresponding to an AEFI reported rate of 66.9/million doses, which was significantly lower than that for DTaP+IPV+Hib (9836 AEFI with a reported rate of 637.8/million doses). The overall reported rate of non-severe AEFI for DTaP+IPV+Hib vaccines was 9.5 times that of DTaP-IPV/Hib vaccination [95% confidence interval (CI): 8.0, 11.3]. Meanwhile, the reported rate of AEFI among infants aged 0–1 y was 9.8 times higher for DTaP+IPV+Hib than for DTaP-IPV/Hib (95% CI: 8.2, 11.7). DTaP+IPV+Hib vaccination also resulted in higher risks of high fever, localized redness and swelling, localized induration, and allergic rash compared with DTaP-IPV/Hib vaccination. The risk of AEFI, which were mostly mild reaction, was higher after vaccination with DTaP+IPV+Hib than after DTaP-IPV/Hib vaccination.

Fracture strength of poly ether ether ketone abutment over short implant after fatigue

Abstract Background Poly ether ether ketone (PEEK) crowns and abutments can be used to fabricate esthetic and stable implant supported single tooth abutment and short implants can be used to avoid problems and contraindication of standard implants. The aim of this work was to evaluate fracture strength of PEEK abutment over short implant after fatigue. Methods This experimental laboratory study was carried out on 40 implants. Implants were categorized into two equal groups: group I: short implants which subdivided into two equal groups (group IA: PEEK abutments and group IB: Titanium abutments), and group II: standard implants which subdivided into two equal groups (group IIA: PEEK abutments and group IIB: Titanium abutments). Zirconia crowns were fabricated and cemented to abutments with resin cement and artificially aged through dynamic loading by chewing simulator to stimulate 3 months clinically. Results All test specimens survived the artificial aging process using simulated oral conditions. Group (GIIA) show the highest fracture resistance with the mean value (1526.81 ± 2.91) followed by group (GIA) (1265.32 ± 1.06) then group (GIIB) (1095.44 ± 0.84) and finally group (GIB) (1086.99 ± 1.52), there was highly significance difference between short and standard implants. The effect of abutment material there was also highly significant difference between PEEK and titanium Abutments, group (GIIA) under electron microscope showed unfavorable fracture while all other groups showed favorable fracture only. Conclusions The highest fracture strength was found in zirconia crowns cemented to PEEK abutment over standard implant, The lowest fracture strength was found in zirconia crowns cemented to titanium abutment over short implant and Standard implants have favorable stress distribution than short implants under loading.

Dynamic mechanism of CO2 capture from flue gas via hydrate-based method induced by using IB group transition metal functionalized carbon nanotubes

Capturing CO2 emitted from industrial power plants is the most efficient method for reducing global carbon emissions at present. In this work, the enhanced dynamic mechanism of CO2 capture from flue gas has been investigated through IB group transition metal functionalized carbon nanotubes (CNTs) as kinetic accelerators via the hydrate-based approach in combination with theoretical calculations and experiments. The computational results revealed that the both the hydrophilic oxygen-containing group and Cu modified CNTs not only enhanced the CO2 adsorption ability but also exhibited high selectivity towards CO2. Importantly, experiments demonstrated that the multi-walled carbon nanotubes (MWCNTs) based accelerators significantly enhanced the dynamic performance of the hydrate formation, substantially increasing gas consumption and CO2 separation efficiency. Particularly, the theoretical selected Cu@FMWCNTs mixed with THF accelerators exhibited superior kinetic indexes during the hydrate formation even under relative low pressure at 1.5 MPa with the largest CO2 separation efficiency of 76.49%, which showed Cu@FMWCNTs to be a potential kinetic accelerator for CO2 capture. This study could provide valuable findings for nanomaterial design of novel hydrate accelerators and facilitate the development of the hydrate-based technology for CO2 capture from the economic perspective of low energy consumption.

Kinesio Taping as an alternative therapy for limited mandibular mobility with pain in female patients with temporomandibular disorders: A randomized controlled trial.

Kinesio Taping (KT) is a non-invasive therapy commonly used in physiotherapy (PT). However, the available data on its effectiveness in patients with symptomatic temporomandibular disorders (TMD) remains scarce and contradictory. The aim of the study was to evaluate the analgesic and myorelaxant effects of KT in TMD patients with limited mandibular mobility. A single-blind randomized controlled trial was conducted among female patients aged 20-45 years with Diagnostic Criteria for Temporomandibular Disorders (DC/TMD) group Ib, using a parallel group design and equal randomization (1:1). All patients underwent surface electromyography (sEMG) of the masseter muscle (MAS), pain intensity was assessed using a Numeric Rating Scale (NRS), and temporomandibular joint mobility was measured before and after 6 and 12 days of treatment. The Perceived Stress Scale (PSS-10) questionnaire was administered on the first and last days of treatment. Statistical analysis was performed using analysis of variance (ANOVA). Mauchly's sphericity test determined changes over time and between groups for variables with a normal distribution. Bonferroni's correction was used for post hoc multiple comparisons. Variables with a non-normal distribution were analyzed using the nparLD package and multiple comparison post hoc test, while correlations were assessed using Spearman's coefficient. Each treatment had a significant effect on the bioelectrical sEMG parameters (p = 0.05). Kinesio Taping had a superior analgesic effect compared to the controls (p < 0.001). The combination of KT with therapeutic exercise (TE) proved to be a more effective therapy for improving the maximal mouth opening (MMO) and reducing perceived stress than monotherapy (p < 0.001). Minimally significant clinical differences were observed for sEMG, MMO and PSS-10 parameters after both therapies. Kinesio Taping combined with TE may be considered an effective complementary noninvasive treatment modality for TMD, either as a stand-alone or as part of the therapeutic process in patients experiencing pain and limited mandibular ROM. Additionally, the use of KT and TE was found to have a beneficial effect on perceived stress levels.

Modelling of impulse activity of afferent fibers of antagonist muscles during transcutaneous electrical stimulation of the spinal cord during walking

The article describes the results of studies on the impulse activity of various groups of afferent fibers and EMG patterns of lower leg antagonist muscles when walking without, during and after transcutaneous electrical stimulation of the dorsal roots of the lower thoracic spinal cord of a person. Using a mathematical model based on the prediction of the triggering of muscle spindles, variability in the manifestation of impulse activity of various afferents tibialis anterior muscle (TA) and gastrocnemius medialis muscle (GM) when walking under different experimental conditions is shown. It was found that walking on a movable treadmill tape in the absence of spinal cord stimulation was accompanied by strong impulse activity of afferents I (Ia and Ib) and II groups GM, increased excitability of its motorneuron pool and weakening of afferent activity and excitability of TA. On the contrary, electrical stimulation of the spinal cord during walking caused strong impulsive activity of group II TA afferents and moderate — GM, while the activity of Ia fibers TA and GM decreased to moderate impulsivity, Ib afferents of the same muscles had the weakest activity, and the excitability of the GM motorneuron pool was greater than TA. During the postactivation period, walking was accompanied by increased impulses of afferent fibers of group Ib and II GM, weakening of afferent flows of Ib TA and Ia afferents GM, but along with this, afferent signals of group Ia and II to the motorneuron nucleus TA decreased to moderate impulses, and excitability of the motorneuron pool GM was higher than TA. The supposed reflex mechanisms of locomotion regulation are discussed on the basis of well-known phenomena associated with the interaction of various afferent inputs to the spinal cord neuronal apparatus in the system of lower leg antagonist muscles.

Assessment of the Additive Effect of Remineralizing Agents in Combination With Fluoride Releasing Adhesives in the Prevention of Enamel Decalcification in Orthodontic Patients: An In Vitro Study.

Introduction Incorporation of remineralizing agents with fluoride-releasing bracket adhesives may prevent the development of white spot lesions (WSL) or reverse the established WSL in patients undergoing fixed orthodontic treatment. We aimed to find out how effectively casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) and fluoride varnish (FV) can remineralize teeth when mixed with fluoride-releasing orthodontic adhesive. Materials and methods We randomly assigned a total of 60 premolar teeth, therapeutically extracted for orthodontic purposes, into two equal groups. Group I (n = 30) utilized fluoride-releasing adhesive (FR), and Group II (n = 30) bonded with non-fluoride adhesive (NFR). Based on the applied remineralizing agent, we further divided each of the two groups into three equal subgroups of 10: Group IA (FR+FV), Group IB (FR+CPP-ACP), Group IC (control-only FR), Group IIA (NFR+FV), Group IIB (NFR+CPP-ACP), and Group IIC (control-only NFR). Following bonding procedures, all the samples underwent pH cycling for 28 days, where the enamel samples were immersed in 20 ml of demineralizing solution for three hours, followed by immersion in 30 ml of remineralizing solution for 17 hours. The samples were analyzed for shear bond strength (SBS) on a universal testing machine and hardness values (HV) by the Vickers microhardness test (VMT) using the indentation method. We also evaluated the adhesive remnant index (ARI) scores to determine the site of bracket failure. Statistical analysis The shear bond strength (SBS) and hardness value (HV) were expressed as the mean, standard deviation (SD), and median for each subgroup. We used the non-parametric Kruskal-Wallis test to analyze the SBS and HV, followed by the Dunn-Bonferroni test for intra-pair differences. The ARI score was expressed as the frequency of the percentage distribution, and the difference in the distribution of ARI scores between the groups was assessed by the Cochran chi-square test. The probability (p) value equal to or less than 0.05 was considered statistically significant. Results The results show that Group IB, bonded with a fluoride-releasing adhesive and a CPP-ACP remineralizing agent surface treatment, has the highest HV of300.23 units. Group IIC (only NFR) has the lowest hardness of153.3 units, which is statistically significant (p < 0.001). However, the ARI scores are not statistically significant between the groups tested. Conclusion The bond strength of the adhesive and the surface hardness of the enamel increased with the addition of fluoride varnish and CPP-ACP to both the fluoride-releasing and non-fluoride-releasing adhesives.

CORTICORESISTANCE SYNDROME IN CRITICAL ILLNESS: A GIVEN OR A GUIDE TO ACTION?

The aim of the research. Development of an additional diagnostic criterion for the early detection of CIRCI accompanied by vascular insufficiency in critically ill patients using ECMO.Materials and methods. A prospective cohort study was performed in the intensive care unit (29 patients on ECMO). Patients with CIRCI were divided into: Ia (with vascular insufficiency and hyponatremia) and Ib (vascular insufficiency without hyponatremia). Both groups were treated with hydrocortisone when vasopressor requirements were ≥0,2 mcg/kg/min. Corticoresistance index CRI = 536 (nmol/l) / patient’s total cortisol value (nmol/l).Results. According to the results of a comparative analysis, in group Ia the CRI compared to group Ib on the day of initiation of ECMO was higher Me 2,2-1,2, p = 0,03; in the last day ECMO was lower – 0,2-0,8 p = 0,003. Patients in group Ia were older in age (Me 58 vs. 33 years). On the day of ECMO initiation, patients did not differ significantly on the SOFA. Mortality in group Ia is 90,9%, in group Ib – 50%, p &lt;0,05.Conclusions. A prognostically high risk of developing corticoresistance and high mortality was observed in patients of the older age group with vascular insufficiency and hyponatremia when connected to ECMO with a corticoresistance index ≥2,2. Patients in the older age group (Me 58 years old) need to be prescribed hydrocortisone before the development of hyponatremia, an increase in the corticoresistance index ≥ 2,2, and therefore, it is not recommended to focus on the need for vasopressors ≥0,2 mcg/kg/min.