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Abstract—Lactate dehydrogenase (LDH) is a terminating enzyme in the metabolic pathway of anaerobic glycolysis with end product of lactate from glucose. The lactate formation is crucial in the metabolism of glucose when oxygen is in inadequate supply. Lactate can also be formed and utilised by different cell types under fully aerobic conditions. Blood LDH is the marker enzyme, which predicts mortality in many conditions such as ARDS, serious COVID-19 and cancer patients. Lactate plays a critical role in normal physiology of humans including an energy source, a signaling molecule and a pH regulator. Depending on the pH, lactate exists as the protonated acidic form (lactic acid) at low pH or as sodium salt (sodium lactate) at basic pH. Lactate can affect the immune system and act as a signaling molecule, which can provide a “danger” signal for life. Several reports provide evidence that the serum lactate represents a chemical marker of severity of disease similar to LDH under inflammatory conditions. Since the mortality rate is much higher among COVID-19 patients, associated with high serum LDH, this article is aimed to review the LDH as a therapeutic target and lactate as potential marker for monitoring treatment response of inflammatory diseases. Finally, the review summarises various LDH inhibitors, which offer potential applications as therapeutic agents for inflammatory diseases, associated with high blood LDH. Both blood LDH and blood lactate are suggested as risk factors for the mortality of patients in serious inflammatory diseases.

Coronavirus disease 2019 (COVID-19) is an infectious disease caused by a virus called “Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2).” In the majority of patients, infection with COVID-19 may be asymptomatic or may cause only mild symptoms. However, in some patients, there can also be immunological problems, such as macrophage activation syndrome (CSS) that results in cytokine storm syndrome (CSS) and acute respiratory distress syndrome (ARDS). Comprehension of host-microbe communications is the critical aspect in the advancement of new therapeutics against infectious illnesses. Endogenous animal lectins, a class of proteins, may perceive non-self glycans found on microorganisms. Serum mannose-binding lectin (sMBL), as a part of the innate immune framework, recognizes a wide range of microbial microorganisms and activates complement cascade via an antibody-independent pathway. Although the molecular basis for the intensity of SARS-CoV-2 infection is not generally understood, scientific literature indicates that COVID-19 is correlated with unregulated activation of the complement in terms of disease severity. Disseminated intravascular coagulation (DIC), inflammation, and immune paralysis contribute to unregulated complement activation. Pre-existing genetic defects in MBL and their association with complement play a major role in immune response dysregulation caused by SARS-CoV-2. In order to generate anti-complement-based therapies in Covid-19, an understanding of sMBL in immune response to SARS-CoV-2 and complement is therefore essential. This review highlights the role of endogenous sMBL and complement activation during SARS-CoV-2 infection and their therapeutic management by various agents, mainly plant lectins, since antiviral mannose-binding plant lectins (pMBLs) offer potential applications in the prevention and control of viral infections.

\"This book overviews recent advances in the development of lubricants and their usage in different tribological systems, starting from nanoscale contacts up to macroscale assemblies with specific focus on sustainable green lubrication choices including base fluids. Further, it covers advances and optimization of new type of lubrication systems according to their usage in various tribological systems as gears, bearings, micro-electromechanical systems, and production equipment. Furthermore, the few examples and case studies about utilization of synthetic lubricants in bearings, gears, dental and so forth has been included. Features: explores information on the present and future of sustainable lubricants due to its accelerated demands in industries, provides conceptual overview of lubricant application in manufacturing and automobile industries, discusses lubricants used in the micro-electromechanical systems (MEMS), nano-electromechanical systems (NEMS), tribo-systems under extreme conditions and for biomedical applications, and reviews information about various types of additives and their role in lubricants, and their cost effectiveness. This text also includes case studies related to journal-bearing/gear drive systems. Finally, this shortform book is geared towards students and researchers in mechanical engineering, automobile engineering, chemical engineering and chemistry, manufacturing, mechanical, materials and metallurgy\"-- Provided by publisher.

IntroductionDelaware’s recent longevity and aging trends predict a continual increase in the number of cancer survivors. As the cancer survivors live longer and age, the prevalence of comorbid chronic conditions tends to increase. Dual burden of cancer and comorbid chronic conditions can have significant and wide-ranging ramifications for cancer survivors. Comorbidity potentially affects the development, stage at diagnosis, treatment options, recurrence and long-term survival of people with cancer. Detailed delineation of Delaware adult cancer survivors including an exploration of comorbidity is critical.ObjectivesThe primary objective was to characterize selected chronic conditions among Delaware adults with cancer in order to present: (i) disparities amongst cancer survivors by select sociodemographic and survivorship characteristics, and (ii) compare the prevalence of chronic conditions among cancer survivors and adult Delawareans without a cancer diagnosis.MethodsCombined data (2018, 2020 and 2021) for Delaware were obtained from the Behavioral Risk Factor Surveillance System. The final data set included 927 Delawareans with at least one type of cancer (excluding skin cancers other than melanoma) and 11,917 participants without a cancer diagnosis. Descriptive statistics examined sociodemographic characteristics and chronic conditions in Delawareans with and without a cancer diagnosis.ResultsAmongst adult Delawareans, 5.1% (CI: 4.6–5.5) were cancer survivors. Across the state, the majority of cancer survivors (76.8%) reported having only one cancer diagnosis. In this sample of Delaware cancer survivors, 83.5% identified as White. Majority were female (57.4%), aged 65 or older (58.9%), had some college or more education (63.7%), and with an income of $50,000 or more (51.1%). Arthritis (46.3%), diabetes (21.5%), depression (18.7%), asthma (14.1%), chronic obstructive pulmonary disease (13.7%) angina (11.9%) and heart attack (11.6%) were the most prevalent comorbid conditions. Prevalence of certain chronic conditions was 2-3 times higher among cancer survivors. Nearly 23% reported not receiving instructions regarding cancer follow-upcare.ConclusionsCancer survivors have unique concerns. Results aim to facilitate targeted interventions aimed at coordinated managed care among cancer survivors in Delaware. This study bolsters the ongoing public health effort towards the Healthy People 2030 goal of increasing the proportion of cancer survivors.Disclosure of InterestNone Declared

In a recent publication in PLOS ONE, Gabriele Margos and colleagues have questioned the division of the genus Borrelia into two genera on the basis that the differences in percentage of conserved proteins (POCP) between these two groups is >50%, which an earlier study has suggested as the threshold for differentiating prokaryotic genera. However, the POCP threshold is a poorly characterized and rarely used criterion for establishing distinction among prokaryotic genera. Detailed evaluation of the intergeneric POCP values for 37 genera from 3 different families (viz. Enterobacteriaceae- 24 genera, Morganellaceae-8 genera and Cystobacteraceae-5 genera) presented here shows that the POCP values for all genera within each of these families exceeded >58%. Thus, the suggested POCP threshold is not a useful criterion for delimitation of genus boundary and the objection by Margos et al. on this ground is invalid. Additionally, Margos et al. have questioned the specificities of ~15-20% of the conserved signature indels (CSIs) described in our work. However, as shown here, this concern is due to misunderstanding of the results and the CSIs in question are still highly-specific characteristics of the members of these genera and they provide important information regarding the evolutionary relationships of two new reptiles-echidna-related species viz. Borrelia turcica and Candidatus Borrelia tachyglossi to other Borrelia species. Results presented here show that both these species are deeper-branching members of the genus Borrelia and their placement within this genus is strongly supported by phylogenetic analyses and multiple uniquely shared CSIs with the other Borrelia species. Based on the large body of evidence derived from phylogenetic, genomic, molecular, phenotypic and clinical features, it is contended that the characteristics clearly distinguishing the Borrelia and Borreliella genera are far more numerous and of different kinds than those discerning most (all) other neighbouring genera of prokaryotes. Thus, the placement of these two groups of microorganisms into distinct genera, Borrelia and Borreliella, which clearly recognizes the differences among them, is highly appropriate and it should lead to a better understanding of the clinical, molecular and biological differences between these two important groups of microbes.

A bstract We show that the relaxion generically stops its rolling at a point that breaks CP leading to relaxion-Higgs mixing. This opens the door to a variety of observational probes since the possible relaxion mass spans a broad range from sub-eV to the GeV scale. We derive constraints from current experiments (fifth force, astrophysical and cosmological probes, beam dump, flavour, LEP and LHC) and present projections from future experiments such as NA62, SHiP and PIXIE. We find that a large region of the parameter space is already under the experimental scrutiny. All the experimental constraints we derive are equally applicable for general Higgs portal models. In addition, we show that simple multiaxion (clockwork) UV completions suffer from a mild fine tuning problem, which increases with the number of sites. These results favour a cut-off scale lower than the existing theoretical bounds.

Advances in plant tissue culture methods with regard to lighting requirements are currently focused on the improved features of light-emitting diodes (LEDs). Over the years, the steady development of LED technology, with the emergence of new types of semi-conductor materials, has made it possible to apply it in an increasing number of new areas. As an alternative to conventional lighting systems, LED has been demonstrated to be an artificial flexible lighting source for plant tissue culture. Numerous studies have been conducted in order to investigate the effects of LED on plants, which have led to many satisfactory results. Various morphological, anatomical, and physiological attributes, such as shoot elongation, axillary shoot formation, somatic embryo induction, rhizogenesis, leaf anatomy, and photosynthetic abilities of plants grown in vitro have found to be regulated by spectral properties of LEDs. The present review gives an overview of the fundamentals of LEDs and describes their effects on in vitro plant growth and morphogenesis and their future potentials.

Chemically synthesized silver nanoparticles (AgNP) have been assessed on plant tissue cultures but the impact of biologically synthesized AgNP fabricated by different phytoconstituents has not been sufficiently investigated. In this study biogenic AgNP prepared from leaf extract of Swertia chirata was utilized to address the problems associated with conservation of endangered medicinal plant through plant tissue culture. Endangered as well as economically important medicinal plant considered for this analysis was the same plant S. chirata itself. Excessive deforestation and exploration of this plant had led to complete eradication of the natural reservoir. Thus in vitro plant tissue propagation had attained much importance for maintaining the plant species. Nano-sized particles of diameter 20 nm encapped by different phytochemicals applied on regenerating shoot cultures showed enhanced shoot induction and proliferation. Other forms of silver like AgNO3 (SN) and Ag2S2O3 (STS) showed improved regeneration in comparison to control samples. Ethylene precursors like 1-aminocyclopropane-1-carboxylic acid (ACC) and 2-chloroethylphosphonic acid (CEPA) downregulated the regeneration process considerably. Reactive oxygen species (ROS) status of the treated cultures were evaluated considering hydrogen peroxide and malondialdehyde (MDA) content in treated cells as wells as their antioxidant enzyme activity. Combined manipulation and coordination of ethylene evolution, maintenance of ROS balance and better bio-acceptance of AgNP were responsible for improvement in shoot regeneration of the plant. Phytoencapsulated and nano-dimensioned Ag was capable of changing the chemical reactions of different regulating players of plant regeneration. These findings will facilitate the understanding and future utilization of biofabricated AgNP in agriculture and plant sciences.