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Hazardous heavy metal (HM) pollution constitutes a pervasive global challenge, posing substantial risks to ecosystems and human health. The exigency for expeditious detection, meticulous monitoring, and efficacious remediation of HM within ecosystems is indisputable. Soil contamination, stemming from a myriad of anthropogenic activities, emerges as a principal conduit for HM ingress into the food chain. Traditional soil remediation modalities for HM elimination, while effective are labor-intensive, susceptible to secondary contamination, and exhibit limited efficacy in regions characterized by low metal toxicity. In response to these exigencies, the eco-friendly paradigm of bioremediation has garnered prominence as a financially judicious and sustainable remedial strategy. This approach entails the utilization of hyperaccumulators, Genetically Modified Microorganisms (GMM), and advantageous microbes. The current review offers a comprehensive elucidation of cutting-edge phyto/microbe-based bioremediation techniques, with a specific emphasis on their amalgamation with nanotechnology. Accentuating their pivotal role in advancing sustainable agricultural practices, the review meticulously dissects the synergistic interplay between plants and microbes, underscoring their adeptness in HM remediation sans secondary contamination. Moreover, the review scrutinizes the challenges intrinsic to implementing bioremediation-nanotechnology interface techniques and propounds innovative resolutions. These discernments proffer auspicious trajectories for the future of agriculture. Through the environmentally conscientious marvels of phyto/microbe bioremediation, an optimistic outlook emerges for environmental preservation and the cultivation of a sustainable, salubrious planet via the conduit of cleaner agricultural production.
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Agricultura , Biodegradação Ambiental , Metais Pesados , Poluentes do Solo , Poluentes do Solo/metabolismo , Agricultura/métodos , Solo/química , Recuperação e Remediação Ambiental/métodos , Microbiologia do SoloRESUMO
The formation and growth of self-assembled monolayers (SAMs) composed of amphiphiles have garnered significant attention due to their diverse technical applications. This article reports the findings of molecular dynamics simulations aimed at elucidating the intricate relationship between the wetting behavior of amphiphiles, specifically n-alkanols, and the growth of their SAMs on a mica surface under varying temperature conditions. The investigation quantifies the structural characteristics of the formed SAMs, including density profiles, in-plane radial distribution functions, order parameters, and end-to-end length distributions of n-alkanol molecules within the SAM. Thermodynamic properties, such as the second virial coefficient and excess entropy, are examined in relation to temperature and time. The growth of the SAM is assessed by analyzing characteristic time scales at different temperatures and in-plane diffusion of n-alkanol molecules and utilizing classical theories of mass transfer to quantify the growth rate as a function of temperature. These results are then correlated with changes in the contact angle and spreading coefficient of n-alkanol droplets on the mica surface over time, providing insights into the impact of SAM growth on the wetting behavior and the mass transfer model of such systems.
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The ever-increasing demand for food from the growing population has augmented the consumption of fertilizers in global agricultural practices. However, the excessive usage of chemical fertilizers with poor efficacy is drastically deteriorating ecosystem health through the degradation of soil fertility by diminishing soil microflora, environment contamination, and human health by inducing chemical remnants to the food chain. These challenges have been addressed by the integration of nanotechnological and biotechnological approaches resulting in nano-enabled biogenic fertilizers (NBF), which have revolutionized agriculture sector and food production. This review critically details the state-of-the-art NBF production, types, and mechanism involved in cultivating crop productivity/quality with insights into genetic, physiological, morphological, microbiological, and physiochemical attributes. Besides, it explores the associated challenges and future routes to promote the adoption of NBF for intelligent and sustainable agriculture. Furthermore, diverse applications of nanotechnology in precision agriculture including plant biosensors and its impact on agribusiness and environmental management are discussed.
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Ecossistema , Fertilizantes , Humanos , Fertilizantes/análise , Agricultura/métodos , Solo , PlantasRESUMO
BACKGROUND: Alopecia Areata is a common non scarring alopecia with autoimmune etiology. In several previous studies, an insufficient level of 25 hydroxyvitamin D had been correlated with various autoimmune diseases. The current study aimed to determine the level of serum 25 hydroxyvitamin D in patients with alopecia areata. METHODS: A cross-sectional study was conducted on 35 patients with alopecia areata who visited the outpatient department of Dermatology of KIST Medical College and Teaching Hospital, Nepal. A prior approval of the institute review committee was taken. Convenience sampling technique period for 3 months (March 2022-May 2022) was used to include the participants (informed consent was taken; in minors parental consent was prepared). The serum levels of 25 hydroxyvitamin D was estimated using Abbott Architect i1000 SR analyser. RESULT: In this study, Alopecia Areata was common in the age group of 16-30 years (Mean age: 31.65 ± 11.92 Years). The average duration of the disease in Alopecia Areata patients was close to 1 year. This study indicated a lower concentration of 25 hydroxyvitamin D in half of the studied AA patients (51.4%).The number of patches, Severity of Alopecia Tool scoring, serum 25 hydroxyvitamin D level, and age were found to be statistically insignificant with the disease activity. However, a significant positive correlation was found between the Severity of Alopecia Tool score and the number of patches. CONCLUSIONS: Although low levels of serum 25 hydroxyvitamin D may be seen among subjects with alopecia areata; No statistical correlation was observed. Hence, a larger study of similar nature is needed in the future to elucidate the exact correlation.
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Alopecia em Áreas , Deficiência de Vitamina D , Humanos , Adolescente , Adulto Jovem , Adulto , Estudos Transversais , Estudos de Casos e Controles , Nepal/epidemiologiaRESUMO
Lichen planus (LP) of lip has chances of malignant transformation as it may be exposed to external trauma, smoking, and ultraviolet light. This case highlights the use of dermoscope as a quick noninvasive tool for the diagnosis of LP of lip and monitoring the response to treatment.
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BACKGROUND: Histoid leprosy is a rare variant of lepromatous leprosy characterized by varied morphological and histopathological appearance while having a high bacillary load. These factors contribute to an ominous threat to the elimination status of leprosy, whereby these patients may act as a reservoir of infection. OBJECTIVE: To identify the clinicopathological characteristics of histoid leprosy in Chitwan, Nepal. METHODS: A retrospective hospital-based study spanning a period of 6 years was carried out at our department. All cases clinically and histopathologically suggestive of histoid leprosy were included in our study, and all relevant data were recorded and analyzed as per standard protocol. RESULTS: Histoid leprosy comprised 2.9% of all leprosy cases. Mean age of 39.45 years and male:female ratio of 1.75:1 were seen. Previous history of leprosy was obtained in 72.7%, and de novo development of histoid leprosy took place in 27.3%. Papules were the most common lesion seen, and upper limbs were the most frequent site of involvement, and the ulnar nerve was enlarged in most cases. Mean bacillary index was 5.39. Histopathology showed epidermal atrophy, positive Fite-Faraco stain for lepra bacilli, spindle-shaped histiocytes arranged in various patterns, and a well-circumscribed area of cells in the dermis in all cases. Grenz zone and pseudocapsule were seen in the majority of patients. All cases responded well to multibacillary multidrug therapy (MB-MDT) of 2 years. CONCLUSION: A high index of suspicion is essential for diagnosing histoid leprosy, both clinically and histopathologically.