Identification of polymorphism in exons 7 and 12 of lactoferrin gene and its association with incidence of clinical mastitis in Murrah buffalo.

Lactoferrin gene is one of the important candidate genes for mastitis resistance. The gene is located on chromosome BTA 22 and consists of 17 exons spanning over 34.5 kb of genomic DNA. The present study was undertaken with the objectives to identify allelic variants in exons 7 and 12 of lactoferrin gene and to analyze association between its genetic variants and incidence of clinical mastitis in Murrah buffalo. The amplification of exons 7 and 12 of lactoferrin gene yielded amplicons of 232- and 461-bp sizes. PCR-restriction fragment length polymorphism (RFLP) analysis of 232-bp amplicon using BccI restriction enzyme revealed three genotypes (AA, AB, and BB) with frequencies of 0.62, 0.22, and 0.16, respectively. The frequencies of two alleles, A and B, were estimated as 0.73 and 0.27. Hpy188I-RFLP for 461-bp amplicon revealed polymorphism with three genotypes, CC, CD, and DD, with respective frequencies of 0.06, 0.39, and 0.56, whereas frequencies for C and D alleles were 0.25 and 0.75. The chi-square (χ(2)) analysis revealed a significant association between incidence of clinical mastitis and genetic variants of exon 7, and animals of AA genotype of exon 7 were found to be least susceptible to mastitis. The findings indicate potential scope for incorporation of lactoferrin gene in selection and breeding of Murrah buffaloes for improved genetic resistance to mastitis.

Navigating Pediatric Cor Pulmonale: A Comprehensive Review of Diagnosis and Management.

Pediatric cor pulmonale, characterized by right ventricular dysfunction due to chronic pulmonary hypertension, presents significant diagnostic and management challenges. This comprehensive review delves into this complex condition's etiology, clinical presentation, diagnostic strategies, and management. Key etiological factors include congenital heart defects, chronic lung diseases, and pulmonary vascular disorders. Early diagnosis, facilitated by imaging, hemodynamic assessments, and laboratory investigations, is crucial for effective intervention. Pediatric cor pulmonale management encompasses pharmacological treatments, such as vasodilators, diuretics, and inotropic agents, and non-pharmacological interventions, including oxygen therapy, mechanical ventilation, and surgical options. Long-term follow-up is essential to monitor disease progression and adjust treatment strategies accordingly. Multidisciplinary care involving pediatric cardiologists, pulmonologists, and critical care specialists is paramount to address the multifaceted needs of these patients. The review highlights the importance of early recognition and comprehensive care, offering insights into current best practices and future research and clinical practice directions. Advances in understanding the pathophysiology of pediatric cor pulmonale and emerging therapies promise to improve patient outcomes, underscoring the need for continued collaboration and innovation in this field.

Diagnosis and Management of Immune Thrombocytopenia in Paediatrics: A Comprehensive Review.

Immune thrombocytopenia (ITP) in paediatric patients is a complex and heterogeneous disorder characterized by isolated thrombocytopenia and an increased risk of bleeding. The diagnosis of ITP involves a careful exclusion of other causes of thrombocytopenia, supported by clinical evaluation and laboratory findings. Management strategies have evolved significantly, emphasizing individualized treatment approaches based on disease severity, bleeding risk, and patient-specific factors. This comprehensive review provides an in-depth analysis of the current diagnostic criteria, including the role of novel biomarkers and genetic testing in distinguishing ITP from other haematological disorders. We also explore the latest therapeutic options, ranging from observation and first-line treatments such as corticosteroids and intravenous immunoglobulin (IVIG) to second-line therapies, including thrombopoietin receptor agonists and immunosuppressive agents. The review addresses the challenges of managing chronic ITP in pediatric patients, focusing on balancing treatment efficacy with the potential side effects and long-term outcomes. Additionally, we discuss the emerging role of personalized medicine in optimizing care for children with ITP, highlighting recent advances in targeted therapies and the potential for future research to refine diagnostic and treatment paradigms to refine diagnostic and treatment paradigms further.

A highly scalable dielectric metamaterial with superior capacitor performance over a broad temperature.

Although many polymers exhibit excellent dielectric performance including high energy density with high efficiency at room temperature, their electric and dielectric performance deteriorates at high temperatures (~150°C). Here, we show that nanofillers at very low volume content in a high-temperature (high-glass transition temperature) semicrystalline dipolar polymer, poly(arylene ether urea), can generate local structural changes, leading to a marked increase in both dielectric constant and breakdown field, and substantially reduce conduction losses at high electric fields and over a broad temperature range. Consequently, the polymer with a low nanofiller loading (0.2 volume %) generates a high discharged energy density of ca. 5 J/cm3 with high efficiency at 150°C. The experimental data reveal microstructure changes in the nanocomposites, which, at 0.2 volume % nanofiller loading, reduce constraints on dipole motions locally in the glassy state of the polymer, reduce the mean free path for the mobile charges, and enhance the deep trap level.

Enhancement of the dielectric response in polymer nanocomposites with low dielectric constant fillers.

In order to increase the dielectric constants of polymer-based dielectrics, composite approaches, in which inorganic fillers with much higher dielectric constants are added to the polar polymer matrix, have been investigated. However, high dielectric constant fillers cause high local electric fields in the polymer, resulting in a large reduction of the electric breakdown strength. We show that a significant increase in the dielectric constant can be achieved in polyetherimide nanocomposites with nanofillers whose dielectric constant can be similar to that of the matrix. The presence of nanofillers reduces the constraints on the dipole response to the applied electric field, thus enhancing the dielectric constant. Our results demonstrate that through nanostructure engineering, the dielectric constant of nanocomposites can be enhanced markedly without using high dielectric constant nanofillers.

Principal component analysis of biometric traits to reveal body confirmation in local hill cattle of Himalayan state of Himachal Pradesh, India.

AIM: In the present study, biometric traits (body length [BL], heart girth [HG], paunch girth (PG), forelimb length (FLL), hind limb length (HLL), face length, forehead width, forehead length, height at hump, hump length (HL), hook to hook distance, pin to pin distance, tail length (TL), TL up to switch, horn length, horn circumference, and ear length were studied in 218 adult hill cattle of Himachal Pradesh for phenotypic characterization. MATERIALS AND METHODS: Morphological and biometrical observations were recorded on 218 hill cattle randomly selected from different districts within the breeding tract. Multivariate statistics and principal component analysis are used to account for the maximum portion of variation present in the original set of variables with a minimum number of composite variables through Statistical software, SAS 9.2. RESULT: Five components were extracted which accounted for 65.9% of variance. The first component explained general body confirmation and explained 34.7% variation. It was represented by significant loading for BL, HG, PG, FLL, and HLL. Communality estimate ranged from 0.41 (HL) to 0.88 (TL). Second, third, fourth, and fifth component had a high loading for tail characteristics, horn characteristics, facial biometrics, and rear body, respectively. CONCLUSION: The result of component analysis of biometric traits suggested that indigenous hill cattle of Himachal Pradesh are small and compact size cattle with a medium hump, horizontally placed short ears, and a long tail. The study also revealed that factors extracted from the present investigation could be used in breeding programs with sufficient reduction in the number of biometric traits to be recorded to explain the body confirmation.