Grant Number Research Articles

Monitoring the Solid-Electrolyte Interphase Formation in Bis(fluorosulfonyl)Amide Ionic Liquid Electrolyte Using a Redox Probe Method

The solid-electrolyte interphase (SEI) has been considered to be formed on the negative electrode surface by reductive decomposition of electrolyte components. In the case of the electrolytes containing lithium ions, the SEI can be regarded as the Li+ conductor that enables the negative electrode reactions and prevents the further decomposition of the electrolytes. The structure of the SEI is often explained by the mosaic model, in which the SEI is a composite of several different inorganic and organic domains [1]. On the other hand, we have proposed the formation of the gelled SEI in bis(fluorosulfonyl)amide (FSA–) ionic liquid electrolytes containing a high concentration of LiFSA [2,3]. Furthermore, we have reported that the SEI formation can be detected by monitoring the redox reaction of ferrocene (Fc) and ferrocenium (Fc+) [4,5]. In the present study, the time-dependent transition of the SEI formed on a Pt electrode was investigated by the redox probe method in BMPFSA (BMP+ = 1-butyl-1-methylpyrrolidinium) containing LiFSA.The formation of SEI by holding a Pt electrode at a negative potential was confirmed by a shift in the anodic peak potential of the cyclic voltammogram for Fc+/Fc couple in LiFSA/BMPFSA. The anodic peak disappeared when the electrode was held at the negative potential for a few hours, indicating the formation of a thick SEI. However, the anodic peak was observed again after keeping the electrode at the open circuit potential for a few hours, indicating the disappearance of the SEI. These results suggest that the SEI is formed by dissolution and/or dispersion of the decomposed products, which form at the electrode surface and diffuse into the electrolyte. Thus, the SEI formed at the potential is considered to exist as a metastable phase in the balance between the formation and diffusion of the decomposition products. This work was partly supported by GteX Program Japan Grant Number JPMJGX23S0.[1] E. Peled, D. Golodnitsky, and G. Ardel, J. Electrochem. Soc., 144, L208 (1997).[2] R. Furuya, T. Hara, T. Fukunaga, K. Kawakami, N. Serizawa, and Y. Katayama, J. Electrochem. Soc., 168, 100516 (2021).[3] N. Serizawa, R. Yamashita, and Y. Katayama, J. Phys. Chem. C, 127, 10434 (2023).[4] S. Kato, N. Serizawa, and Y. Katayama, J. Electrochem. Soc., 169, 076509 (2022).[5] S. Kato, N. Serizawa, and Y. Katayama, J. Electrochem. Soc., 170, 056504 (2023).

(Invited) Quantitative Prediction of Exciton Dynamics

Thermally activated delayed fluorescence (TADF) is now an established way to convert inhelently dark triplet excitons into light through reverse intersystem crossing (RISC).1-4 To realize the RISC process, minimizing the energy gap (ΔE ST) between S1 and T1 is considered to be effective theoretically, and this has been realized experimentally. At the beginning of the research, RISC had been the rate-limiting process in TADF, although RISC was possible. In such situation, we have shown that acceleration of RISC has now become possible through a variety of methods.5-7 Although excellent TADF materials and highly efficient TADF-based organic light-emitting diodes (OLEDs) have been realized as described above, the fundamental understanding is still insufficient. In the presentation, we first show our recently-proposed method for quantitatively predicting rate constants of all electronic transitions relevant to light emission.8-10 The method proposed here has successfully predicted all rate constants quantitatively and therefore can predict TADF performance precisely. The method also allows quantitative predictions of dynamics (time evolution) of experimentally-obtained rate constants for radiative, non-radiative, intersystem crossing, and RISC as well as exciton population dynamics.11 Such an approach will contribute significantly to the fundamental science of exciton dynamics.We express sincere thanks to my group members. This work was supported by JSPS KAKENHI Grant Numbers JP20H05840 (Grant-in-Aid for Transformative Research Areas, “Dynamic Exciton”). Computation time and NMR measurements were supported by the international Joint Usage/Research Centre at the Institute for Chemical Research, Kyoto University, Japan. Uoyama, H.; Goushi, K.; Shizu, K.; Nomura, H.; Adachi, C., Highly efficient organic light-emitting diodes from delayed fluorescence. Nature 2012, 492, 234. Kaji, H., et al., Purely organic electroluminescent material realizing 100% conversion from electricity to light. Nat. Commun. 2015, 6, 8476. Yang, Z., et al., Recent advances in organic thermally activated delayed fluorescence materials. Chem. Soc. Rev. 2017, 46, 915. Wong, M. Y.; Zysman-Colman, E., Purely organic thermally activated delayed fluorescence materials for organic light-emitting diodes. Adv. Mater. 2017, 29, 1605444. Wada, Y.; Nakagawa, H.; Matsumoto, S.; Wakisaka, Y.; Kaji, H., Organic light emitters exhibiting very fast reverse intersystem crossing. Nat. Photon. 2020, 14, 643. Ren, Y.; Wada, Y.; Suzuki, K.; Kusakabe, Y.; Geldsetzer, J.; Kaji, H., Efficient blue thermally activated delayed fluorescence emitters showingvery fast reverse intersystem crossing. Appl. Phys. Express 2021, 14, 071003. Wada, Y.; Wakisaka, Y.; Kaji, H., Efficient direct reverse intersystem crossing between charge transfer‐type singlet and triplet states in a purely organic molecule. ChemPhysChem 2021, 22, 625. Shizu, K.; Kaji, H., Theoretical determination of rate constants from excited states: Application to benzophenone. J. Phys. Chem. A 2021, 125, 9000. Shizu, K.; Kaji, H., Comprehensive understanding of multiple resonance thermally activated delayed fluorescence through quantum chemistry calculations. Commun. Chem. 2022, 5. Shizu, K.; Ren, Y. X.; Kaji, H., Promoting reverse intersystem crossing in thermally activated delayed fluorescence via the heavy-atom effect. J. Phys. Chem. A 2023, 127, 439.Shizu, K.; Kaji, H., submitted.

Effect of Mechanical Pressure on Rate Capability, Lifetime, and Expansion of Multilayer Pouch Cells with Silicon-Dominant Anodes

Silicon-dominant (Si) anodes with microscale silicon particles meet the requirements of high energy density and low costs due to its ten times higher theoretical electrochemical capacity of 3579 mAh/gSi (Li15Si4) compared to graphite,1 lifetime extension due to partial lithiation,1-2 and high abundance and economic availability due to existing industrial infrastructure.1-2 The major drawback of silicon is the large volume expansion of nearly 300% upon full lithiation. This hinders the broad application of silicon as an active anode material due to continuous SEI (re-) formation and electrochemical milling of particles. Additionally, the volume expansion impacts the overall electrode stability, leading to thickness changes, the disruption of the electronic pathways, and the decoupling of particles. Although the approach of partial lithiation of microscale1 Si eases these effects by lowering the overall volume expansion, these problems still exist.2,3 In this work, the effect of different mechanical cell pressures on lithium-ion batteries with partially lithiated silicon-dominant anodes is investigated with 5.4 Ah multilayer pouch cells as a follow-up study of our previous work with laboratory T-Cells.3 Methodologically, a novel cell holder and pressure device were developed and validated to apply different mechanical cell pressures. Our investigation covers a pressure range from uncompressed as zero (ZP, 0.00 MPa) to high (HP, 0.50 MPa) external cell pressure to determine the optimal pressure for high rate capacity, cyclic lifetime, energy density, and low thickness gain. The cells were tested by checkup cycles at C/10, rate tests up to 3C, and cycled at C/2 until 70% state of health (SoH). Electrochemical impedance spectroscopy was conducted at different SoHs to quantify the effect of mechanical pressures on the impedance response.4 The post-mortem analysis after reaching 70% SoH and operando thickness measurements in a compression test5 bench give insights into the electrode and cell thickness gain.In the electrochemical results, the discharge capacity Q DCH was immediately reduced by decreasing the mechanical pressure from 0.20 MPa to 0.00 MPa or 0.05 MPa, both for the cells in the cell holder (see inset in Figure 1a) and the compression test bench (not shown). This pressure change was also quantified by an increased charge-averaged full cell potential during charging and a decreased charge-averaged full cell potential during discharging. The impedance was reduced for higher mechanical pressure, especially the cathode contact resistance initially and over aging, resulting in lower temperature increases during the rate tests. The capacity retention Q DCH and the total charge throughput were increased to 360 cycles until 70% SoH for higher mechanical pressures at NP (normal pressure, 0.20 MPa) and HP (see Figure 1) compared to 181 cycles for ZP. Overall, applying higher mechanical pressures reduced the thickness increase, as shown by operando thickness measurements and the post-mortem analysis. A dependency of the reversible thickness on the charged capacity was found. Moreover, the porosity decreased with increasing pressure, which was measured with mercury intrusion porosimetry (MIP) and pycnometry. The anode mass increase correlates to the total charge throughput, which is pressure-dependent and the highest for NP.Our findings demonstrate that applying the optimal mechanical cell pressure is significant when using microscale silicon-dominant anodes. We recommend a mechanical pressure of 0.50 MPa for increased rate capacity, minimizing impedance, heat evolution, and thickness gain, and 0.20 MPa for increased energy density. Acknowledgments: S.F. gratefully acknowledges the financial support from the BMBF (Federal Ministry of Education and Research, Germany) under the auspices of the ExZellTUM III project (grant number 03XP0255). The authors want to thank the research battery production team of iwb at TUM for the multi-layer pouch cell production. We also thank Wacker Chemie for kindly providing the microscale silicon material.

Evaluation of Thermal Transport Characteristics of Three-Dimensional Self-Ordered Multilayered Silicon-Germanium Nanodots

1. Background and purpose Silicon-germanium (SiGe) alloys have much lower thermal conductivity than Si and Ge single crystals and are expected to be candidates for next-generation thermoelectric device materials of internet of things society. It is important to achieve both high carrier mobility and low thermal conductivity on the basis of the dimensionless figure of merit [1]. There are several studies on the thermoelectric properties of SiGe with low-dimensional structures such as superlattice and nanodots [2,3] to dramatically decrease thermal conductivity. However, the relationship between the nanoscale thermal properties and the phonon scattering mechanism of self-ordered multilayer SiGe nanodots with high uniformity grown by Stranski-Krastanov [4] mode is unclear. In this study, we demonstrated the thermal transport characteristics of the self-ordered multilayer SiGe nanodots. 2. Experiments Si/SiGe superlattice and nanodots samples were fabricated by reduced pressure chemical vapor deposition. We set to 20 cycles of Si0.65Ge0.35 / Si superlattice, the staggered Si0.65Ge0.35 nanodots (alternately stacked) and the dot-on-dot Si0.65Ge0.35 nanodots (vertically stacked) by changing growth temperature and precursors for Si spacer growth [4], as shown in Fig. 1. Thermal properties were evaluated by the Time Domain Thermoreflectance (TDTR) method. The strain states and Ge fraction were evaluated by Raman spectroscopy. The focal length and wavenumber resolution of the Raman spectrometer were 2,000 mm and 0.1 cm-1, respectively. The excitation light source was a green laser (wavelength: 532 nm). We obtained the Raman spectra of Si-Si, Si-Ge, and Ge-Ge vibrational modes derived from the SiGe regions. 3. Results and discussion Figure 2 shows the thermal conductivity for the SiGe region of the superlattice and nanodots (dot-on-dot and staggered structures) obtained by TDTR method. We found that the SiGe nanodots with the dot-on-dot structure have the highest thermal conductivity, while the SiGe nanodots with the staggered structure and SiGe superlattice have almost the same thermal conductivity. We consider that the heat flow easily penetrates from the top (surface) to the bottom (Si substrate interface) in the dot-on-dot structures. On the other hand, it is possible that the staggered SiGe nanodots can play a sufficient role as a phonon scatterer compared to the dot-on-dot structures since the superlattice structure and the staggered SiGe nanodots have almost the same thermal properties. In conclusion, we demonstrated the possibility of controlling phonon scattering by changing the arrangement of the self-ordered multilayer SiGe nanodots. Acknowledgement This work was supported by JSPS KAKENHI Grant Number 21K14201, Japan.

(Invited) Structured Electrode Manufacturing for Next-Generation Lithium-Ion Batteries

Achieving high-energy and high-power density Lithium-ion batteries (LIBs) with fast charging capabilities is critical to advancing electric vehicle (EV) and portable electronic technologies. Long-range, fast charge EVs and more compact portable electronics require significant advances in battery performance, lifetime, and cost. Conventional LIBs are composed of flat anode and cathode electrode stacks that can be optimized for energy or power, but not both concurrently. This is due to ion transport limitations that persist with increases in electrode thickness. Several research efforts have focused on optimizing LIB performance through material innovations with lithium metal and silicon anodes or new cathode materials, to name a few. Structured Electrode (SE) designs1 have been investigated over the last couple of decades as an alternate solution to address these challenges. SEs engineer electrode materials into different three-dimensional (3D) architectures on a scale ranging from tens to hundreds of microns to facilitate rapid ion-transport in thicker electrodes. While a promising concept, reliable and scalable manufacturing methods for fabricating SEs over the large and complex areas needed for EV and portable electronic applications remains limited.This talk covers manufacturing approaches investigated by our research group to fabricate SEs rapidly and efficiently. Both computational design and experimental approaches are employed to facilitate the development of new hardware, software, and processing techniques for SEs. Specifically, we highlight Additive Manufacturing (AM) tools for portable electronic applications and the use of acoustophoresis for manufacturing EV SEs. First, we have developed new computational fabrication tools2 and material formulations to push the bounds of AM for SE fabrication. Through this work, we investigate the impact of electrode design and fabrication on the rate capability and charge performance of Li4Ti5O12 and LiFePO4 cells. Next, taking AM towards larger area fabrication, we have combined acoustophoresis with AM principles to facilitate large-area printing and patterning of SEs for LIBs.3 Acoustophoresis utilizes acoustic standing wavesto drive particles into predefined patterns, with micron-scale control at time scales < 1 second. Our initial results with LiNi0.6Mn0.2Co0.2O2 and graphite have defined process conditions that enable acoustophoretic fabrication of SEs with improved rate capability over conventional, flat LIB electrodes. Our work highlights the material and processing considerations that must be given when developing new manufacturing processes for SEs. References C.-H. Hung, P. Huynh, K. Teo, and C.L. Cobb, “Are Three-dimensional Batteries Beneficial? Analyzing Historical Data to Elucidate Performance Advantages,” ACS Energy Letters, 8 (1), pp. 296–305, 2023.F. Fossdal, V. Nguyen, R. Heldal, C.L. Cobb, and N. Peek, “Vespidae: A Programming Framework for Developing Digital Fabrication Workflows,” In Proc. of 2023 Designing Interactive Systems Conference, ACM, New York, NY, USA.K.E. Johnson, D.S. Melchert, E.N. Armstrong, Daniel S. Gianola, C.L. Cobb, M.R. Begley, “A Simple, Validated Approach for Design of Two-dimensional Periodic Particle Patterns via Acoustophoresis,” Materials & Design, Vol. 232, 112165, 2023. Acknowledgements This material is based upon work supported in part by the U.S. Department of Energy’s Office of Energy Efficiency and Renewable Energy (EERE) under the Advanced Materials and Manufacturing Technologies Office (AMMTO) Award Numbers DE-EE0009112 and DE-EE0010226. The views expressed herein do not necessarily represent the views of the U.S. Department of Energy or the United States Government.This work was funded in part by a Defense Advanced Research Projects Agency (DARPA) Young Faculty Award and Director's Fellowship under grant number D19AP00038. The views, opinions, and findings expressed in this work are those of the authors and should not be interpreted as representing the official views or policies of the Department of Defense or the U.S. Government, and no official endorsement should be inferred. This is approved for public release and distribution is unlimited.

Influence of Cycling in Different State-of Charge Windows on Lifetime and Electrode Expansion of Microscale Silicon-Dominant Lithium-Ion Batteries

Silicon (Si) is a promising active anode material for next-generation lithium-ion batteries due to its high theoretical electrochemical capacity of 3579 mAh/gSi (Li15Si4) and low costs using microscale Si particles.1,2 However, the wide usage of Si as an active anode material is hindered due to its lower lifetime compared to graphite anodes. The degradation in silicon-containing batteries can be suppressed by partial lithiation strategies,2,3,4 with applications for automotive cells leading to improved lifetime.5 However, the lifetime problem still exists in partially lithiated microscale Si particles with lower volume expansion2,3 with ≈200 cycles for one-third silicon utilization, i.e., 1200 mAh/gSi 2. Moreover, we confirmed in our previous study6 as reported by Wetjen et al.4 and Haufe et al.2 that lower cell discharge cut-off voltages and thus higher silicon delithiation potentials versus Li+/Li led to accerlated aging and should be avoided.Thus, the motivation for this study is to avoid these high anode delithiation potentials by operating the cells in a high full cell state of charge (SoC) and to investigate the influence of different SoC windows on lifetime with laboratory 182.1 ± 0.7 mAh/gNCA Swagelok T-cells comprising a microscale silicon-dominant anode and a NCA cathode. The electrode-specific aging is monitored with the lithium metal reference electrode based on the anode and cathode potentials and pulse tests. To investigate the aging in different SOC regimes, three cycling conditions were chosen in the low (LV), middle (MV) and high voltage (HV) window and compared to cells cycled between 2.8 and 4.2 V as full voltage6. The voltage window of LV, MV and HV were chosen to represent cycling between 0-50%, 25-75%, and 50-100% SOC, respectively. Formation and checkups were the same for all cells with 2.80 V to 4.20 V. After reaching the end-of-life criterion of 55% state of health (SoH), the cells were disassembled and anode and cathodes were re-assembled in half-cells for a post-mortem analysis to reveal loss of lithium inventory (LLI) and loss of active material of the anode LAMAn, and the cathode LAMCat of the respective full-cells. Complementary to the electrochemical aging, dilatometer measurements7 were conducted to quantify the electrode expansion for the different silicon anode SoC windows since particle decoupling is expected to be one of the major aging mechanisms for microscale silicon2, which is expected for high electrode expansions.For the electrochemical results, the lifetime can be drastically increased from ≈230 to ≈560 equivalent full cycles (EFCs) for operating the full cell in the HV compared to the FV window, as shown in Fig. 1a. One EFCs is defined as the total charge throughput for charging and discharging one cycle normalized to the capacity of the initial checkup cycle. Over aging, the full cell degradation correlates very well with the end of discharge potential of the silicon anodes. Moreover, the electrode-specific pulse results show strong anode degradation while the cathode remains intact. The post-mortem results reveal LLI as most dominenat aging mode, which was very similar for all voltage windows. The HV cells showed both the highest LAMNE and LAMPE, whereas LAMNE was more dominant compared to LAMPE. The silicon amorphization was the lowest for the LV anodes and the highest for the HV anodes at the same SoH. The dilatometer results show that the silicon electrode expansion is the lowest for the low lithiation, i.e., LV, and the highest for the highest lithiation, i.e., HV. From the dilatometry results, we conclude that the mechanical electrode stability does not limit lifetime.Our results demonstrate that lifetime can be significantly improved by a factor of ≈2.4 based on the EFCs if operating cells with silicon dominant anodes in high SoCs and that low SoCs should be avoided. Acknowledgments: S. F. gratefully acknowledges the financial support from the BMBF (Federal Ministry of Education and Research, Germany) under the auspices of the ExZellTUM III project (grant number 03XP0255). The authors want to thank our student worker, Maximilian Reichl, for the fabrication of the NCA coatings. We also thank Wacker Chemie AG for kindly providing the microscale silicon material.

PAIN RELIEF AFTER INSTRUMENTED SPINAL SURGERY

BackgroundOver 55,000 spinal operations are performed annually in the NHS. Effective postoperative analgesia facilitates early mobilisation and assists rehabilitation and hospital discharge, but is difficult to achieve with conventional, opioid-based, oral analgesia. The clinical and cost-effectiveness of two alternative techniques, namely intrathecal opioid and the more novel erector-spinae plane blockade, is unknown. The Pain Relief After Instrumented Spinal Surgery (PRAISE) trial aims to evaluate these techniques.MethodsPRAISE is a multicentre, prospective, parallel group, patient-blinded, randomised trial, seeking to recruit 456 adult participants undergoing elective, posterior lumbar-instrumented spinal surgery from up to 25 NHS hospitals. Participants will be randomised 1:1:1 to receive (1) Usual Care with local wound infiltration, (2) Intrathecal Opioid plus Usual Care with local wound infiltration or (3) Erector Spinae Plane blockade plus Usual Care with no local wound infiltration. The primary outcome is pain on movement on a 100mm visual analogue scale at 24 hours post-surgery. Secondary outcomes include pain at rest, leg pain, quality of recovery (QoR-15), postoperative opioid consumption, time to mobilisation, length of hospital stay, health utility (EQ-5D-5L), adverse events and resource use. Parallel economic evaluation will estimate incremental cost-effectiveness ratios.ResultsDifferences in the primary outcome at 24 hours will be estimated by mixed-effects linear regression modelling, with fixed effects for randomisation factors and other important prognostic variables, and random effects for centre, using the as-randomised population. Treatment effects with 95% confidence intervals will be presented.ConclusionThe study is due to open in May 2024 and complete in 2026.Conflicts of InterestNo conflicts of interest declaredSources of FundingNIHR Health Technology Award – grant number NIHR153170Trial presentations so farAPOMP 2023 and 2024; RCOA conference, York, November 2023; Faculty of Pain Management training day, London, February 2024.

Association between internet exclusion and depressive symptoms among older adults: panel data analysis of five longitudinal cohort studies

Internet exclusion and depressive symptoms are prevalent phenomena among older adults; however, the association between internet exclusion and depressive symptoms remains limited. This study aims to investigate the association between internet exclusion and depressive symptoms among older adults from high-income countries (HICs) and low- and middle-income countries (LMICs). We conducted a comprehensive longitudinal, cross-cultural analysis, and the participants were adults aged 60 years and older from 32 countries participating in five nationally representative longitudinal cohort studies: the Health and Retirement Study (HRS), the English Longitudinal Study of Ageing (ELSA), the Survey of Health, Ageing and Retirement in Europe (SHARE), the China Health and Retirement Longitudinal Study (CHARLS), and the Mexican Health and Ageing Study (MHAS). Internet exclusion was defined as the self-reported absence from internet use. Depressive symptoms were evaluated using the Centre for Epidemiologic Studies of Depression scale (CES-D) or the Euro-Depression scale (Euro-D). These five cohorts, being heterogeneous, were respectively conducted with panel data analysis. Logistic regression, implemented within the generalized estimating equations framework, was used to examine the association between internet exclusion and the likelihood of experiencing depressive symptoms, adjusting for the causal-directed-acyclic-graph (DAG) minimal sufficient adjustment set (MSAS), including gender, age, education, labour force status, household wealth level, marital status, co-residence with children, residence status, cognitive impairment, and functional ability. Our study included a total of 129,847 older adults during the period from 2010 to 2020, with a median follow-up of 5 (2, 7) years. The pooled proportion of internet exclusion was 46.0% in HRS, 32.6% in ELSA, 54.8% in SHARE, 92.3% in CHARLS, and 65.3% in MHAS. Internet exclusion was significantly associated with depressive symptoms across all cohort studies: HRS (OR=1.13, 95% CI 1.07-1.20), ELSA (OR=1.22, 95% CI 1.11-1.34), SHARE (OR=1.55, 95% CI 1.47-1.62), CHARLS (OR=1.49, 95% CI 1.26-1.77), and MHAS (OR=1.48, 95% CI 1.39-1.58). Moreover, internet exclusion was found to be associated with all dimensions of depression in the SHARE, MHAS, and ELSA cohorts (except for sleep and felt sad) cohorts. A considerable proportion of older adults experienced internet exclusion, particularly those in LMICs. Internet exclusion among older adults, irrespective of their geographic location in HICs or LMICs, was associated with a higher likelihood of experiencing depressive symptoms, which demonstrated the importance of addressing barriers to internet access and promoting active participation in the internet society among older adults. National Key R&D Program of China (grant number 2022ZD0160704), the Scientific Research and Innovation Team of The First Affiliated Hospital of Zhengzhou University (grant number ZYCXTD2023005), the Collaborative Innovation Major Project of Zhengzhou (grant number 20XTZX08017), the Joint Project of Medical Science and Technology of Henan Province (grant number LHGJ20220428), and National Natural Science Foundation of China (grant number 82373341).

Increasing HIV Testing Among Sexual and Gender Expansive Men in Kazakhstan: A Stepped-Wedge Randomized Trial of a Community-Level Intervention.

HIV transmission in Kazakhstan has increased among men who have sex with men (MSM) and transgender and nonbinary people who have sex with men (TSM), driven by low HIV testing rates. To determine if the PRIDE in HIV Care intervention had a community effect of increasing HIV testing among MSM and TSM in Kazakhstan. We employed a stepped-wedge, cluster-randomized controlled trial with MSM and TSM community members recruited from three cities in Kazakhstan: Almaty, Astana, and Shymkent. We collected serial cross-sectional data where community members completed one assessment between 21 August 2018, and 30 March 2022. We collected data from 629 MSM and TSM among the study cities. Community respondents were recruited from real-world (e.g., NGOs, bars, clubs) or virtual sites (e.g., social media, apps) where MSM and TSM in each of the three cities were known to frequent. Eligibility criteria for community respondents were: (1) ≥18 years old; (2) identifying as male at any point in life or being assigned male at birth; (3) having consensual sex with another man in the past 12 months; (4) engaging in binge drinking (i.e., ≥5 drinks in a 2 hour period), illicit use of drugs, or both in the past 90 days; and (5) residing in one of the three study cities. The PRIDE in HIV Care intervention is a theory-driven "crowdsourcing and peer-actuated network intervention" designed to amplify community members' successes and resilience via "influencers" who can strengthen and impart benefit to their networks and community. Received an HIV test in the prior six months. There was a statistically significant increase in odds of recent HIV testing for every additional month the intervention was implemented in a respondent's city (AOR=1.08, 95% CI=1.05-1.12; p<.001). The PRIDE in HIV Care intervention appears to be efficacious in enacting a community wide increase-i.e., promoted HIV testing among those who did not go through the intervention itself-in HIV testing among MSM and TSM. This trial is registered with clinicaltrials.gov (NCT02786615). National Institute on Drug Abuse (NIDA), grant number R01DA040513.

Academic and Demographic Profile of Orthopaedic Vice Chairs of Research: Implications for Leadership.

Vice chairs (VCs) of research play an integral role in orthopaedic departments at academic medical centers; they strategically lead research efforts and support the research careers of faculty and trainees. To our knowledge, no analysis of orthopaedic VCs of research exists in the literature, and no similar analyses have been completed in other medical specialties. We aimed to investigate the academic and demographic characteristics of orthopaedic VCs of research. Doximity was used to identify orthopaedic residencies in the U.S. Personal and program websites were queried to identify VCs of research and collect academic and demographic characteristics. The Scopus database, the National Institutes of Health (NIH) RePORTER, and Google Scholar were used to obtain each investigator's Hirsch index (h-index) and the number and type of NIH grants awarded, respectively. Of the 207 orthopaedic residency programs identified, 71 (34%) had a named VC of research in the orthopaedic department. Of the top 50 medical schools, 42 were affiliated with such programs. Most VCs were men (89%). The racial and/or ethnic background of the majority of VCs was White (85%), followed by Asian (14%), and Black (1%). Most held the rank of professor (78%), followed by associate professor (18%), and assistant professor (4%). Over half were PhDs (55%), followed by MDs (37%) and MD/PhDs (8%). On average, the VCs had an h-index of 40.5. Furthermore, 65% had been awarded at least 1 NIH grant for their research, with 43% awarded at least 1 R01 grant. VCs of research develop research opportunities and shape the brand recognition of academic orthopaedic programs. Most orthopaedic VCs of research are men (89%); 85% each are White and have a rank of professor. Nearly half have been awarded at least 1 R01 grant from the NIH. This study outlines important academic and demographic characteristics among orthopaedic surgery VCs of research. Considering the mentorship aspect of their role, VCs of research have an opportunity to influence the diversity of incoming trainees in the field of academic orthopaedics.

Research funding in different SCI disciplines: A comparison analysis based on Web of Science

Abstract To provide valuable insights for shaping future funding policies, in this study, we offer a comprehensive panorama of the research funding across 171 SCI disciplines in the decade 2011–2020, based on more than 13 million scientific literature records from the Web of Science. The relationship between funding and research impact is also explored. To this end, we employ two indicators: the universality and multiplicity of funding, to indicate the funding level and six indicators to gauge the impact advantages of funding. Our findings reveal an upward trend in both the universality (increasing from 66.30% to 74.26%) and multiplicity (increasing from 2.82 to 3.26) of funding over the decade concerned. The allocation of funding varies across disciplines, with life sciences and earth sciences receiving the highest percentage of funding (78.31%) and medicine having the highest multiplicity of funding (3.07). Engineering and computer science have seen relatively rapid growth in terms of universality and multiplicity of funding. Funded articles have a greater impact than unfunded ones. And this impact strengthens as the number of funding grants increases. Through regression analysis, the citation advantage of funding is also proven at the article level, although the usage advantage is not significant.

The nexus of fertility and politics: exploring the influence of social tolerance, religiosity, and political conservatism on the acceptance of assisted reproduction in Spain.

How do individual religious, political, and social tolerance orientations influence the acceptance of ART among Spanish citizens? Social tolerance and religiosity are predictive factors for the acceptance of ART, with more tolerant individuals and those with lower levels of religiosity being more accepting of ART; political conservatism mediates the relationship between social tolerance and acceptance of ART, particularly for left-leaning individuals. The rapid advancement of ART has raised questions about its societal acceptance, especially in the context of religious, political, and social beliefs. The analysis utilized data from the combined Europe Values Study and World Values Survey, comprising cross-sectional national surveys from 1981 to 2021. Each country's population was surveyed a maximum of seven times and a minimum of two times during this period. This study uses the cross-sectional data of 2021. After filtering for Spanish citizens and deleting cases with missing key variables, a sample of 1030 valid responses from Spanish citizens was obtained. Quotas were set for sex, age, and educational level, following guidance from the Spanish Statistics Institute. The study surveyed participants' attitudes towards ART, their religious and political orientations, and collected demographic information. The sample consisted of 51.7% women, most respondents were married or in common-law partnerships, and 61.6% had children. Catholicism was the dominant religion (53.0%) and a majority had completed secondary education (66.2%), with half earning over 1400 euros per month. Using two linear models to test hypotheses, the study found that social tolerance and religiosity significantly predict acceptance of ART, with more tolerant and less religious individuals being more accepting. Political conservatism mediated the relationship between social tolerance and ART acceptance, particularly among left-leaning individuals. This study is cross-sectional and based on self-reported data, which may have limitations. Additionally, the findings are based on a Spanish sample and may not be universally applicable. The results have significant implications for policymakers and healthcare professionals in the field of reproductive technologies. They also contribute to public debates on ethical considerations surrounding ART. This work was funded by the Mineco-FrontVida Program, Frontiers of Life, Social Change, and Changing Values Around the Beginning and End of Life (grant number PID2019-106882RB-I00), as part of the State Program for Knowledge Generation and Scientific and Technological Strengthening, and the State R&D Program Oriented to the Challenges of Society, 2019, Ministry of Science, Innovation, and Universities of Spain. 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. N/A.

Cognitive, Neuropsychological and Biological Effects of Oxygen-Ozone Therapy on Frailty: A Study Protocol for a 5-Week, Randomized, Placebo-Controlled Trial.

Cognitive frailty (CF) is a heterogeneous syndrome that is becoming one of the most serious health problems as the world's population age is increasing. Elucidating its biological mechanisms as well as prevention and treatments is becoming increasingly significant, particularly in view of the associated health costs. We presented the study protocol of a research project funded by the Italian Ministry of Health (grant number RF-2016-02363298) aiming to investigate the cognitive and neuropsychological effects of a 5-week treatment with therapy based on the regenerative properties of ozone (O3) in a cohort of subjects stratified according to CF scores. We also studied the potential effects of O3 on blood-based biomarkers indicative of specific biological systems that may be altered in CF. Seventy-five older persons were recruited and randomly assigned to receive the active treatment (150 cc of oxygen-O2-O3 mixture at the concentration of 30 µg of O3 per cc of O2), O2, or the placebo (air) for 5 weeks. The main endpoints were the change in the scores of clinical scales from baseline (T0) to weeks 3 (T3), 9 (T9), and 15 (T15) after treatment and the change in biomarker levels resulting from transcriptomics, proteomics, and metabolomic patterns at the same times. The positive results from this study could have important clinical implications.

Worldwide burden of liver cancer across childhood and adolescence, 2000–2021: a systematic analysis of the Global Burden of Disease Study 2021

Liver cancer is a significant contributor to the global disease burden, of which hepatoblastomas are the most common liver tumors in children, with 90% of cases occurring within the first 5 years of life. It is important for pediatricians and subspecialists in pediatric gastroenterology and hepatology to have knowledge of the epidemiology and incidence trends of pediatric hepatic cancer, despite its rarity. In the present study, we first provide estimates of the incidence and mortality burden of hepatoblastoma and liver cancer from 2000 to 2021 in the childhood and adolescence. Liver cancer burden and its attributable risk factors were estimated using data from the Global Burden of Disease Study (GBD) 2021. Percentage change was estimated to show the trend of liver cancer estimates from 2000 to 2021. The age-standardized rate (ASR) and estimated annual percentage change (EAPC) were utilized for measuring hepatoblastomas incidence and deaths rate trends. In accordance with the GBD framework, 95% uncertainty intervals (UIs) for all estimates by averaging the data from 1000 draws, with the lower and upper bounds of the 95% UIs. Globally, from 2000 to 2021 in the age 5-19 years group, the incidence cases and deaths cases due to liver cancer decreased from 2449.2 (95% UI: 2235.9-2689.8) to 1692.9 (95% UI: 1482.0-1992.5) and 2248.5 (95% UI: 2053.7-2474.9) to 1516.6 (95% UI: 1322.1-1797.9), respectively. Meanwhile, from 2000 to 2021 in the age 20-24 years group, the incidence cases and deaths cases due to liver cancer decreased from 1453.5 (95% UI: 1327.8-1609.4) to 1285.1 (95% UI: 1159.2-1447.2) and 1432.3 (95% UI: 1307.6-1585.7) to 1195.5 (95% UI: 1066.1-1355.2), respectively. In addition, the prevalence of liver cancer decreased from 41.9% (95% UI: 18.7%-64.7%) to 26.4% (95% UI: 14.2%-39.1%) in the age 5-19 years group, and 46.6% (95% UI: 42.8%-51.5%) to 36.5% (95% UI: 33.1%-40.9%) in the age 20-24 years. From 2000 to 2021, in the age group of 5-19 years, the proportion of liver cancer incidence due to hepatitis B has decreased from 42.2% to 37.9%, while the proportion due to hepatitis C has increased from 1.1% to 1.6%. Additionally, there has been an increase in the proportion of NASH-induced liver cancer incidence from 5.2% to 9.4%, and alcohol use induced liver cancer incidence has also increased from 0.5% to 0.7% over the same period. Globally, from 2000 to 2021, the incidence cases and deaths cases due to hepatoblastoma decreased from 6131.8 (95%UI: 5234.8-6961.9) to 4045.6 (95% UI: 3250-4995.8) and 4059.2 (95% UI: 3494.5-4621.2) to 2416 (95% UI: 1940.2-3022.5), respectively. There was some variation in age-related sex-specific patterns, the highest number of hepatoblastoma incidence cases occurred in children between 2 and 4 years old and females in the age range of 12 months to 9 years had a higher number of new cases. Importantly, the incidence of hepatoblastoma was started to increase sharply after the age of 1 month. The results of the present study are significant for liver health policy and practice in childhood and adolescence. Differentiated intervention and outreach strategies based on age and gender would be necessary to reduce the impact of liver cancer. Early screening and interventions for hepatoblastoma is important especially in the population of under 9 years old. This study was supported by the National Key R&D Program of China (grant numbers 2023YFC2307000), National Natural Science Foundation of China [grant numbers 82170571 and 81974068], China Postdoctoral Science Foundation (grant numbers 2023M741283).

Resolving the current controversy of use and reuse of housekeeping proteins in ageing research: Focus on saving people’s tax dollars

The use of housekeeping genes and proteins to normalize mRNA and protein levels in biomedical research has faced growing scrutiny. Researchers encounter challenges in determining the optimal frequency for running housekeeping proteins such as β-actin, Tubulin, and GAPDH for nuclear-encoded proteins, and Porin, HSP60, and TOM20 for mitochondrial proteins alongside experimental proteins. The regulation of these proteins varies with age, gender, disease progression, epitope nature, gel running conditions, and their reported sizes can differ among antibody suppliers. Additionally, anonymous readers have raised concerns about peer-reviewed and published articles, creating confusion and concern within the research and academic institutions. To clarify these matters, this minireview discusses the role of reference housekeeping proteins in Western blot analysis and outlines key considerations for their use as normalization controls. Instead of Western blotting of housekeeping proteins, staining of total proteins, using Amido Black and Coomassie Blue can be visualized the total protein content on a membrane. The reducing repeated Western blotting analysis of housekeeping proteins, will save resources, time and efforts and in turn increase the number of competitive grants from NIH and funding agencies. We also discussed the use of dot blots over traditional Western blots, when protein levels are low in rare tissues/specimens and cell lines. We sincerely hope that the facts, figures, and discussions presented in this article will clarify the current controversy regarding housekeeping protein(s) use, reuse, and functional aspects of housekeeping proteins. The contents presented in our article will be useful to students, scholars and researchers of all levels in cell biology, protein chemistry and mitochondrial research.

The Impact of COVID-19 on Granted Disability Insurances and Related Costs for Workers With Cancer: A Time Series Study in Brazil.

To assess the impact of the COVID-19 pandemic on disability insurance grants and related costs for workers with cancer. This ecological time series study uses the inflection point regression model and the federal government's open-access dataset. We analyze the annual grant and cost rates of cancer-related disability insurance in Brazil (2010-2021). In 2020, the number of disability insurance grants due to malignant neoplasms decreased by 62.26%, and the total annual cost decreased by 62.94% compared to those in 2019. All illnesses and injuries were reduced by 2.56% and 20.02%, respectively. Between 2010 and 2021, the COVID-19 pandemic has reversed the increasing trend in annual disability insurance granted due to cancer and its associated expenses to a stable trend. The COVID-19 pandemic has harmed the provision of disability insurance for workers with cancer.

On the Civil Legal Issues of ‘Haunted House’ Sales Contract - Take Peng Qian et al. and Chen Yuanhui et al. House Sales Contract Dispute Case as an Example

As a vital transaction in daily life, house sale is not only related to the property rights and interests of buyers and sellers, but also carries the peace and happiness of the family. However, when the target house of the transaction is labeled as a ‘haunted house’ -that is, there have been incidents such as suicide and homicide in the house, it often causes the buyers and sellers to fall into deep disputes and troubles. ‘Haunted house’ is not a legal concept, but it carries deep folk traditional concepts and psychological shadows, which has a significant impact on the purchaser’s willingness to live and the market value of the house. The research on the civil legal disputes of the sale contract of ‘haunted house’ is inevitable and necessary in practice. Taking Peng Qian et al. and Chen Yuanhui’s housing sales contract dispute as an example, this paper discusses the civil legal issues in the ‘haunted house’ sales contract, and clarifies the definition of ‘haunted house’ and its legal attributes as a defect of the object in combination with the research status at home and abroad, relevant legal provisions and scholars' views. At the same time, it is of practical significance to analyze the relief ways that victims can take in combination with the information disclosure obligations of sellers and intermediaries. FundingThis research was funded by Guangdong Province Science and Technology Innovation Strategy Special Fund ( College Students ' Science and Technology Innovation and Innovation Cultivation ), grant number Pdjh2024a073 and South China Agricultural University 2024 College Students ' Innovative Training Program Project, grant number S202410564128.

Prophylaxis with abemaciclib delays tumorigenesis in dMMR mice by altering immune responses and reducing immunosuppressive extracellular vesicle secretion

BackgroundThe CDK4/6 inhibitor abemaciclib is an FDA-approved agent and induces T-cell-mediated immunity. Previously, we confirmed the therapeutic potential of abemaciclib on mismatch repair-deficient (dMMR) tumors in mice. Here, we applied a prophylactic administration/dosage setting using two preclinical mouse models of dMMR-driven cancer. MethodsMlh1−/− and Msh2loxP/loxP mice received repeated prophylactic applications of abemaciclib mesylate (75 mg/kg bw, per oral) as monotherapy or were left untreated. Blood phenotyping and multiplex cytokine measurements were performed regularly. The tumor microenvironment was evaluated by immunofluorescence and Nanostring-based gene expression profiling. Numbers, size and immune composition and activity of extracellular vesicles (EVs) were studied at the endpoint. FindingsProphylactic abemaciclib-administration delayed tumor development and significantly prolonged overall survival in both mouse strains (Mlh1−/−: 50.0 wks vs. control: 33.9 wks; Msh2loxP/loxP;TgTg(Vil1-cre: 58.4 wks vs. control 44.4 wks). In Mlh1−/− mice, pro-inflammatory cytokines (IL-2, IL-6) significantly increased, whereas IL-10 and IL-17A decreased. Circulating and splenic exhausted and regulatory T cell numbers were significantly lower in the abemaciclib groups. Deeper analysis of late-onset tumors revealed activation of the Hedgehog and Notch signaling in Mlh1−/− mice, and activation of the MAPK pathway in Msh2loxP/loxP;TgTg(Vil1-cre mice. Still, arising tumors had fewer infiltrating myeloid-derived suppressor cells (vs. control). Notably, prophylactic abemaciclib-administration prevented secretion of procoagulant EVs but triggered release of immunomodulatory EVs in Mlh1−/− mice. InterpretationProphylactic abemaciclib prolongs survival via global immunomodulation. Prophylactic use of abemaciclib should be considered further for individuals with inherited dMMR. FundingThis work was supported by grants from the German research foundation [DFG grant number: MA5799/2–2] and the Brigitte und Dr. Konstanze Wegener-Stiftung to CM.

Toxicity of New Psychoactive Substance (NPS): Threo-4-methylmethylphenidate (4-Mmph) – Prediction of toxicity using in silico methods

This study represents the first application of in silico methods to evaluate the toxicity of 4-methylphenidate (4-Mmph), a new psychoactive substance (NPS). Using advanced in silico toxicology tools, it was feasible to anticipate key aspects of 4-Mmph's toxicological profile, including acute toxicity (LD50), genotoxicity, cardiotoxicity, and possible endocrine disruption. The findings indicate significant acute toxicity with variability among species, a high potential for adverse effects in the gastrointestinal system and lungs, a low genotoxic potential, a significant likelihood of skin irritation, and a notable cardiotoxicity risk associated with hERG channel inhibition. Evaluation of endocrine disruption revealed a low likelihood that 4-Mmph interacts with the estrogen receptor alpha (ER-α), indicating minimal estrogenic activity. These insights, derived from in silico studies, play a crucial role in improving the comprehension of 4-Mmph in forensic and clinical toxicology. These initial toxicological inquiries establish the foundation for future investigations and help formulate risk assessment and management strategies regarding the use and abuse of NPS. This article is part of a larger project funded by the Polish Ministry of Education and Science, titled “Toxicovigilance, Poisoning Prevention, and First Aid in Poisoning with Xenobiotics of Current Clinical Importance in Poland” (Grant Number SKN/SP/570184/2023).

P-571 Mutations in FOXO3 mutation cause human premature ovarian insufficiency

Abstract Study question Do variants in front fork transcription factor 3 (FOXO3) account for premature ovarian insufficiency (POI) in humans? Is there is a potential treatment for POI caused by FOXO3 mutations? Summary answer Heterozygous variants in FOXO3 cause human female infertility owing to POI by inducing oocyte apoptosis. What is known already Front fork transcription factor 3 (FOXO3) is a member of the forkhead box family of transcription factors. Previous study had reported that FOXO3 encodes an evolutionarily conserved primary regulator and an effective inhibitor of primordial follicle activation. The null mutants of Foxo3 or its ortholog in multiple organisms displayed POI owing to deficiencies in maintaining the ovarian reserve. However, whether FOXO3 variants can underline POI phenotype in humans were unclear, and the causal relationship has not yet been established with functional evidence. Study design, size, duration 107 primary infertility families with POI were recruited for pathogenic variants screening. The proband with and her parents were verified for FOXO3 variants. Participants/materials, setting, methods All the patients were diagnosed with POI were confirmed by clinical analyses. Exome sequencing and subsequent bioinformatic analyses were performed to screen for candidate pathogenic variants. The pathogenicity of identified variants was assessed and studied in vivo in mice carrying the equivalent mutations. Main results and the role of chance Novel heterozygous variant in FOXO3 was identified in the patient with POI. Mice modeling the Foxo3 variant identified in patients recapitulated the ovarian reserve defects of patients, confirming the pathogenicity of the identified variants. The mutation caused constitutive activation of FOXO3 lead to POI by inducing oocyte apoptosis, which will facilitate the genetic diagnosis of POI in patients and provide a potential therapeutic target for female fertility. Limitations, reasons for caution A limitation of the current study is the small sample size. More primary infertility patients with POI should be screened to enrich the pathogenetic mutations of FOXO3. Wider implications of the findings FOXO3 was detected as a novel gene underlie human POI, thus providing new targets for the molecular diagnosis and treatment. Trial registration number the National Natural Science Foundation of China (NSFC) (Grant number:82302083)