Stabilization of modulation instability by control field in semiconductor quantum wells.

This article explores the modulation instability of a continuous or quasi-continuous weak probe pulse in a three-level asymmetric double quantum wells under an electromagnetically induced transparency regime, controlled by a strong laser beam. The dynamics of modulation instability reveals that the instability gain as well as its bandwidth is greatly influenced by control field Rabi frequency. The probe pulse is found to be almost stable against modulation instability for higher values of control field Rabi frequency. The results of this investigation may potentially apply for oscillation free generation of supercontinuum in quantum well nanostructures.

A Comparative Cross-Platform Analysis to Identify Potential Biomarker Genes for Evaluation of Teratozoospermia and Azoospermia.

Male infertility is a global public health concern. Teratozoospermia is a qualitative anomaly of spermatozoa morphology, contributing significantly to male infertility, whereas azoospermia is the complete absence of spermatozoa in the ejaculate. Thus, there is a serious need for unveiling the common origin and/or connection between both of these diseases, if any. This study aims to identify common potential biomarker genes of these two diseases via an in silico approach using a meta-analysis of microarray data. In this study, a differential expression analysis of genes was performed on four publicly available RNA microarray datasets, two each from teratozoospermia (GSE6872 and GSE6967) and azoospermia (GSE145467 and GSE25518). From the analysis, 118 DEGs were found to be common to teratozoospermia and azoospermia, and, interestingly, sperm autoantigenic protein 17 (SPA17) was found to possess the highest fold change value among all the DEGs (9.471), while coiled-coil domain-containing 90B (CCDC90B) and coiled-coil domain-containing 91 (CCDC91) genes were found to be common among three of analyses, i.e., Network Analyst, ExAtlas, and GEO2R. This observation indicates that SPA17, CCDC90B, and CCDC91 genes might have significant roles to play as potential biomarkers for teratozoospermia and azoospermia. Thus, our study opens a new window of research in this area and can provide an important theoretical basis for the diagnosis and treatment of both these diseases.

Oxidative Stress and Idiopathic Male Infertility.

Idiopathic male infertility (IMI) refers to the condition where semen quality declines, but exact causatives are not identified. This occurs in almost 30-40% of infertile men. Traditional semen analyses are extensively used for determining semen quality, but these bear critical shortcomings such as poor reproducibility, subjectivity, and reduced prediction of fertility. Oxidative stress (OS) has been identified as the core common mechanism by which various endogenous and exogenous factors may induce IMI. Male oxidative stress infertility (MOSI) is a term used to describe infertile males with abnormal semen parameters and OS. For the treatment of MOSI, antioxidants are mostly used which counteract OS and improve sperm parameters with appropriate combinations, dosage, and duration. Diagnosis and management of male infertility have witnessed a substantial improvement with the advent in the omics technologies that address at genetic, molecular, and cellular levels. Incorporation of oxidation-reduction potential (ORP) can be a useful clinical biomarker for MOSI. Moreover, various modulations of male fertility status can be achieved via stem cell and next-generation sequencing (NGS) technologies. However, several challenges must be overcome before the advanced techniques can be utilized to address IMI, including ethical and religious considerations, as well as the possibility of genetic abnormalities. Considering the importance of robust understanding of IMI, its diagnosis, and possible advents in management, the present article reviews and updates the available information in this realm, emphasizes various facets of IMI, role of OS in its pathophysiology, and discusses the novel concept of MOSI with a focus on its diagnostic and therapeutic aspects.

Environmental Factors-Induced Oxidative Stress: Hormonal and Molecular Pathway Disruptions in Hypogonadism and Erectile Dysfunction.

Hypogonadism is an endocrine disorder characterized by inadequate serum testosterone production by the Leydig cells of the testis. It is triggered by alterations in the hypothalamic-pituitary-gonadal axis. Erectile dysfunction (ED) is another common disorder in men that involves an alteration in erectile response-organic, relational, or psychological. The incidence of hypogonadism and ED is common in men aged over 40 years. Hypogonadism (including late-onset hypogonadism) and ED may be linked to several environmental factors-induced oxidative stresses. The factors mainly include exposure to pesticides, radiation, air pollution, heavy metals and other endocrine-disrupting chemicals. These environmental risk factors may induce oxidative stress and lead to hormonal dysfunctions. To better understand the subject, the study used many keywords, including "hypogonadism", "late-onset hypogonadism", "testosterone", "erectile dysfunction", "reactive oxygen species", "oxidative stress", and "environmental pollution" in major online databases, such as SCOPUS and PUBMED to extract relevant scientific information. Based on these parameters, this review summarizes a comprehensive insight into the important environmental issues that may have a direct or indirect association with hypogonadism and ED in men. The study concludes that environmental factors-induced oxidative stress may cause infertility in men. The hypothesis and outcomes were reviewed critically, and the mechanistic approaches are applied through oxidant-sensitive pathways. This study also provides reccomendations on future therapeutic interventions and protective measures against such adverse environmental factors-induced hypogonadism and ED.