The Effect of Gel-Type Contributions in Lime-Sand Bricks, Alkali-Activated Slags and CEMI/CEMIII Pastes: Implications for Next Generation Concretes

Lime-sand bricks of different ages were investigated using IR-spectroscopy, thermogravimetry, and X-ray diffraction/scattering. After subtraction of the dominant quartz contribution (80%), the IR spectra show the absorption peaks of the hydrothermally formed binder phases. The spectra also show the alteration of the binder during ageing under atmospheric conditions by the influence of CO2 forming carbonate and a condensed SiO2-gel (secondary gel). The alteration could also be proven in X-ray pattern, obtaining a separation between crystalline CSH and amorphous contributions in the freshly produced lime-sand brick, too. Here, the formation of CSHamorph could be understood as a precursor state (primary gel) to the crystallization of CSH phases. X-ray patterns of aged bodies of alkali-silicate solution activated slags (AAS), CEM-I/CEM-III pastes, and CEM-I concrete indicate that in all cases a similar amorphous CSH-type phase (CSHamorph) was formed, which is responsible for the hardening properties as the glue. The main X-ray peak of CSHamorph obtained using CuKα-radiation with a usual diffractometer is observed between 24° and 35° 2 Theta with maximum at about 29° 2 Theta, whereas it appears much more broadly distributed between 15° and 35° 2 Theta with maximum between 26° and 28° 2 Theta for a geopolymer body prepared using the reaction of alkali-silicate solution and metakaolin (AAMK). This is due to the network formed by siloxo and sialate units in the case of AAMK, given that any crystallization can be ruled out. The origin of increasing mechanical strength during the ageing of AAS mortars must be due to further crosslinking of the preformed siloxo chains. Thermal treatment up to 800 °C leads to a complete loss of any mechanical strength of the CEM pastes due to the destruction of crystalline CSH-phases, whereas geopolymer bodies maintain their strength. Implications for next generation concrete include that cement clinker could be completely replaced by using a using alkali silcate solution technology for gel formation.

Prognostic Value of Dynamic Monoclonal Protein Pattern on Probability of Myeloma Progression from the Precursor State

Multiple Myeloma (MM) is a cancer of terminally differentiated plasma cell resides in bone marrow, which is always preceded by clinically asymptomatic precursor states. The process of malignant transformation however is not fully understood. Analyses of cells from precursor state have provided evidence that it is a genetically advanced lesion, wherein tumor cells carry many of the genetic changes found in MM cells. Furthermore, mice xenografts from patient (pt) with precursor disease showed progressive growth on its own suggesting progression potential is counteracted by active extrinsic restraints that prevent its progression to MM (Das R et al. Nature Medicine, 2016). Hence, precursor progression to MM can be viewed as a dynamic process in which the clonal mass is the net result of pro-growth, pro-survival replicative capacity of the myeloma clones vs. anti-tumor immunity. The change in the net clonal mass sometimes is large enough to be detected by measurable fluctuations in serum monoclonal protein spike (M-spike) levels and reflects a highly dynamic battle between plasma cell clone and cell-mediated anti-myeloma immunity among those pts. The prognostic value of this highly dynamic state on risk of progression to MM is largely unknown. In this study we sought to assess the association between the dynamic M-spike pattern and the risk of progression from a precursor clone to MM. Methods: All pts with positive serum electrophoresis (SPEP) values measured from January 2011 to January 2021 for our institution were included for this study. All pts that had <3 M-spike readings before requiring anti-myeloma regimen, received active treatment for MM within 90 days of the first positive SPEP, had M-spike values >3g/l or had clear evidence of progression by serial increasing M-spike values were excluded.. We assigned the pattern of M-spike values over time into two groups according to stability. To eliminate the test-to-test variability, we defined stable disease as lack of more than 20% difference from lowest M-spike, and fluctuating disease if the difference exceeds 20%. The time-to-treatment (TTT) was then measured from the first positive SPEP to the time of treatment and was censored at the date of last follow-up for pts who did not have anti-myeloma treatment with death as competing risk. The effect of M-spike pattern on TTT, treating as binary outcome, was also evaluated using logistic regression analysis. Univariate analysis of TTT was performed using Gray's method. All tests were two-sided and p-value ≤ 0.05 were considered statistically significant. Results: A total of 565 pts were studied, 193 with a fluctuating pattern and 372 with a stable pattern. Median age at first positive SPEP was 76 years old (range: 38-101), 271 (48%) of them were male; 427 (75%) were Caucasian and 123 (22%) African American. Baseline creatinine was 1.17 mg/dl (range 0.5-11.2 SD 0.94). Baseline albumin was 3.97 g/dl (range 1.6-5.2 SD 0.47), 336 pts (59%) were IgG, 75 (13%) IgA, and 142 (25%) had IgM M-spike; 326 (58%) pts had Kappa light chain and 239 (42%) had Lambda. Autoimmune diseases were more common in the stable disease pattern (17% vs. 10% p=0.028), the most frequent one was Rheumatoid arthritis in 33 pts (6%). Furthermore, baseline albumin was statistically higher in pts in the stable cohort (4.04 vs. 3.85g/dl, p=<0.0001). Median follow up was 46.9 months (range: 3.2-120.9). Logistic regression: the odds ratio (OR) of having progression to treatment for fluctuation group was 4.5 (95% CI: 1.37-14.18, p= 0.013) in comparison to stable group. Time-to-event analysis: pts with fluctuating M-spike had higher chance of needing therapy (Hazard Ratio: 3.73, 95% CI: 1.19-11.66, p=0.024) than stable group. Cumulative incidence of needing treatment is shown in Figure-1. Conclusion: The dynamic pattern of M-spike seen here with fluctuating values over time (over time is two words) was significantly predictive of progression to MM in pts with a precursor disease state. These findings may reflect a different nature of tumor vs. immune system balance and possible impaired immunity in these pts which may have implications for future clinical trials that evaluate the efficacy of anti-myeloma immunotherapeutics. Furthermore, our finding suggest that fluctuations in M-spike levels may be factored into risk models that predict the progression to MM among pts with precursor clones. Larger studies are warranted to further study this concept. Figure 1 Figure 1. Disclosures Malek: Medpacto Inc.: Research Funding; Janssen: Other: Advisory board ; Takeda: Honoraria; Cumberland Inc.: Research Funding; Amgen: Honoraria; BMS: Honoraria, Research Funding; Bluespark Inc.: Research Funding; Sanofi: Other: Advisory Board.

Selectivity of weak intermolecular forces and precursor state of elementary oxidation reactions, a new insight on Ne* + N2 chemiionization

This paper reports on the collision dynamics of N2 with metastable Ne* promoting chemiionizations, prototype of barrier-less oxidation reactions of great interest for fundamental and applied research. Extending guidelines presented in previous papers for the atom–atom case, an innovative treatment of the reaction stereodynamics involving molecules in a quantum state-to-state resolution conditions is proposed that emphasizes the role of structure and stability of the precursor that is here the reaction transition state. A critical test of such treatment, carried out exploiting a new formulation both of real and imaginary parts of the optical potential driving the reaction dynamics, is represented by the detailed-combined description of all relevant findings, provided by high resolution molecular beam scattering experiments carried out in our and other laboratories. The present analysis casts light on basic electronic rearrangements of such prototype oxidation reaction which are expected to be of fundamental interest for many other reactions involving open shell atoms and free radicals.

In Situ Spectroelectrochemical Investigation of Perovskite Quantum Dots for Tracking Their Transformation

All-inorganic lead-halide perovskite quantum dots (PQDs) (CsPbX3, where X is Cl, Br, or I) have been used successfully in optoelectronic applications, such as solar cells, light-emitting diodes, photocatalysts, and lasers. These PQDs work under electrochemical bias and/or illumination with charge separation/collection by interacting with the charge-transport medium. In this study, we discuss the spectroelectrochemical characteristics of PQDs to understand the oxidation and reduction processes that occur during photoinduced charge transport or charge injection under electrochemical conditions. We also found that the PQDs underwent irreversible transformation to the precursor state of plumbate complexes under electrochemical conditions. Furthermore, in situ spectroelectrochemical analysis demonstrated that hole-mediated electrochemical oxidation of PQDs resulted in their irreversible transformation. Finally, the results presented herein contribute to our understanding of the charge-transfer-mediated process in PQDs and enhance their application potential in optoelectronic devices.

Precursor state of chemi-ionization reactions and confinement of valence electrons by anisotropic intermolecular forces

Modifications in atomic alignment and in molecular alignment/orientation determine a different structure of the adduct, formed by collisions of reagents, which represents the precursor state of many elementary chemical–physical processes. The following evolution of the system is directly controlled by the confinement of interacting partners in such a precursor state. However, a deep characterization of these phenomena is still today not fully available, especially when weak intermolecular forces are operative, although the inquiry is of general relevance for the control of the stereodynamics of processes, occurring under a variety of conditions both in gas phase and at surface. In this paper recent advances in the knowledge of the selective role of atomic alignment and molecular orientation effects on the stereodynamics of chemi-ionization reactions will be presented and discussed. These advances represent a basic step along a path whose final target is the complete and internally consistent rationalization and revaluation of the experimental findings already obtained, and published, in our and in other laboratories on chemi-ionization reactions involving as reagent molecules which are of great relevance in several fields. The basic idea is to export important guidelines provided by a recent detailed study of chemi-ionization of noble gas atoms to more complex reactions involving molecules. The main focus of the present paper is on the quantum confinement effects of valence electrons within the reaction transition state. Graphic abstract

Breast Cancer Screening

Mammography has been deployed to screen for early breast cancer since the 1980s. Its use has recently and increasingly been called into question in populations with long-established programs, as well as in emerging economies. The biology of breast carcinogenesis differs from those of other cancers amenable to screening in that there is no obligate precursor state. The available screening modalities yield a significant proportion of false positives, thus negatively affecting the benefit-to-harm tradeoff. Future efforts should focus on improving pretest risk stratification, considering new noninvasive adjunct technologies to reduce the need for invasive confirmatory procedures, and incorporating the risk preferences of individual women toward precision screening.

Milo: differential abundance testing on single-cell data using k-NN graphs

Single-cell omic protocols applied to disease, development or mechanistic studies can reveal the emergence of aberrant cell states or changes in differentiation. These perturbations can manifest as a shift in the abundance of cells associated with a biological condition. Current computational workflows for comparative analyses typically use discrete clusters as input when testing for differential abundance between experimental conditions. However, clusters are not always an optimal representation of the biological manifold on which cells lie, especially in the context of continuous differentiation trajectories. To overcome these barriers to discovery, we present Milo, a flexible and scalable statistical framework that performs differential abundance testing by assigning cells to partially overlapping neighbourhoods on a k-nearest neighbour graph. Our method samples and refines neighbourhoods across the graph and leverages the flexibility of generalized linear models, making it applicable to a wide range of experimental settings. Using simulations, we show that Milo is both robust and sensitive, and can reveal subtle but important cell state perturbations that are obscured by discretizing cells into clusters. We illustrate the power of Milo by identifying the perturbed differentiation during ageing of a lineage-biased thymic epithelial precursor state and by uncovering extensive perturbation to multiple lineages in human cirrhotic liver. Milo is provided as an open-source R software package with documentation and tutorials at https://github.com/MarioniLab/miloR.

Clonal Architecture Analysis of TET2 Identified Distinct Origins in Myelodysplastic Syndromes

Next-generation sequencing (NGS) has deepened our understanding of myelodysplastic syndromes (MDS). Genetic mutations of TET2 were common in MDS and were also detected in asymptomatic elder persons, which were defined as aged related clonal haematopoiesis (ARCH) and considered as a myelodysplastic syndrome precursor state. In this study, we analyzed the mutation profiles of TET2 in 770 newly-diagnosed MDS subjects. 73 mutations were found in 67 of 770(8.7%) subjects. 14.9% were frame shifts, 29.9% were nonsense, 44.8% were missense and 10.7% harbored 2 TET2 mutations. TET2MT subjects were older than TET2WT subjects (P=0.024) and the variant allele frequency (VAF) of TET2 was positively correlated with age (r=0.318, P=0.009). Clonal architecture was determined using a copy number-adjusted VAF difference between 2 mutation events in 49 TET2MT subjects with 2 or more mutations. 19 (38.3%) were TET2ancestral and 30(61.2%) were TET2subclonal. TET2ancestral subjects were significantly older than TET2WT subjects (P=0.013) while no difference was found between TET2subclonal subjects and TET2WT subjects (P=0.509). The frequency of cytosine-to-thymine (C→T) transition was significantly higher in TET2ancestralsubjects compared with TET2subclonal subjects (P=0.029), which was considered to be a somatic mutational signature of aging, indicating that MDS driven by TET2ancestral was likely derived from TET2MT ARCH. The most common upstream mutations in TET2subclonal subjects were U2AF1 (16.7%) and ASXL1 (13.3%), and the most common downstream mutations in TET2ancestral subjects were ASXL1 (21.1%) and RUNX1 (15.8%). TET2 mutations rarely existed alone in TET2ancestral subjects (14.3%) and were always accompanied by another mutations like U2AF1, SF3B1 and ASXL1, suggesting that the acquisition of another mutation led to the progress of ARCH to MDS in TET2ancestral subjects. TET2MT had no impact on survivals in overall cohort (P=0.218) while predicted poorer survivals in IPSS-R lower risk group (P=0.004). Additional ASXL1, U2AF1 and RUNX1 mutations in TET2MT subjects indicated poorer prognosis compared with TET2WT subjects (P=0.005; P=0.04; P<0.001) .There was no significant difference in OS of TET2MT subjects with different clonal architecture (P=0.76). Subjects with TET2 VAF≥30% had poorer survivals compared with TET2WT subjects (P=0.057). In conclusion, TET2MT MDS subjects with different clonal architectures may have different origins. TET2ancestral subjects may be derived from ARCH and progressed to MDS after secondary hits. The effects of TET2 mutation on the prognosis depended on the accompanying mutations and clonal burdens. Disclosures No relevant conflicts of interest to declare.