Your search keyword '"Nayak AK"' showing total 95 results

1. Effect of salinity stress on growth, chlorophyll, antioxidant enzymes and nutrient content in Azolla spp.

Author

Narayan, Hari, Kumar, Upendra, Chowdhury, Tapas, Swain, P., Barik, Madhusmita, and Nayak, AK

Published

2024

2. Extreme weather events and its impacts on rice production in coastal Odisha region of India

Author

Vijayakumar, S, primary, Nayak, AK, additional, Manikandan, N, additional, Pattanaik, Suchismita, additional, Tripathi, Rahul, additional, and Swain, CK, additional

Published

2023

3. System based phosphorus management improved the productivity, profitability and nutrient uptake of rainfed rice (Oryza sativa L.) - greengram (Vigna radiata L.) cropping system

Author

Rath, Haramohan, primary, Panda, BB, additional, Verma, AK, additional, Nayak, AK, additional, and Jena, J, additional

Published

2022

4. Acantholytic PRIDE syndrome.

Author

Behera B, Nayak AK, Dash S, Sethy M, and Ayyanar P

Published

2025

5. Exploitative stress within Bacillus subtilis biofilm determines the spatial distribution of pleomorphic cells.

Author

Dey S, Nayak AK, Rajaram H, and Das S

Abstract

Bacteria commonly live in a spatially organized biofilm assemblage. The metabolic activity inside the biofilm leads to segmented physiological microenvironments. In nature, bacteria possess several pleomorphic forms to withstand certain ecological alterations. We hypothesized that pleomorphism also exists within the biofilm, which can be considered as the fundamental niche for bacteria. We report a distinct pattern of cell size variation throughout the biofilm of Bacillus subtilis. Cell size heterogeneity was observed in biofilm development, wherein the frequency of long cells is higher in outer regions, whereas lower in inner regions. Moreover, compared to planktonic cells, bacteria in the biofilm mode reduce their geometric ratio from 8.34 to 3.69 and 2.65 in the outer and inner regions, respectively. There were no significant differences observed in nutrient diffusion from the outer to the inner region, and more than 73 % of cells in the inner region were viable. However, the inner and middle regions were more acidic than the outer of the biofilm. Conclusively, growth rate-independent cell size reduction at low pH suggests that the resulting phenotype switching within biofilm was observed due to the pH gradient of neutral to acidic from the outer to the core of the biofilm. This gradient of H + ions concentration may create exploitative stress within the biofilm, which could favor specific pleomorphic cells to thrive in their specialized niches. By understanding the cell size variation in response to the local environment, we propose a model of biofilm formation by pleomorphic cells., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published

2024

6. Gellan gum-based in-situ gel formulations for ocular drug delivery: A practical approach.

Author

Biswal S, Parmanik A, Das D, Sahoo RN, and Nayak AK

Abstract

Ophthalmic disorders significantly impact global health, affecting millions worldwide. Conventional treatments often face challenges related to poor bioavailability and short residence times on the ocular surface. In recent years, in-situ gels prepared using different natural gums including gellan gum has been investigated as a viable means of improving ocular medication delivery. Gellan gum undergoes ionotropic-gelation in the presence of multivalent cations, making it suitable for ocular formulations. The synthesis and purification of gellan gum involve microbial fermentation processes. Incorporating gellan gum into ophthalmic formulations offers several advantages, including prolonged residence time, enhanced drug retention, and improved bioavailability. Characterisation techniques such as gelling capacity determination, FTIR spectroscopy, TEM, viscosity and rheological studies and ex-vivo or in-vitro release studies are crucial for assessing the structural and functional properties of gellan gum-based in-situ gels. Numerous investigations have exhibited gellan gum's potential in different drug loaded in-situ gels for ophthalmic uses, resulting in extended drug residency on the ocular surface and enhanced therapeutic effects. The current review presents a comprehensive discussion on preparation, characterisation, recent applications and future prospects of gellan gum-based in-situ gels for ocular drug delivery. In addition, it covers molecular structure, synthesis and characterisation of gellan gum., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

7. Rice with lower amylose content could have reduced starch digestibility due to crystallized resistant starch synthesized by linearized amylopectin.

Author

Sahoo U, Biswal M, Nayak L, Kumar R, Tiwari RK, Lal MK, Bagchi TB, Sah RP, Singh NR, Sharma S, Nayak AK, and Kumar A

Abstract

Background: High resistant starch (RS) rice with a low glycemic index (GI) is digested more slowly, resulting in a slow increase in the postprandial blood glucose level. People with milled rice as a staple diet, and with sedentary lifestyles, are more prone to acquire type 2 diabetes in the long term. With an increasing population of diabetics worldwide, one possible solution is the development of rice-based, low-GI foods with high RS content rice. In addition to amylose content (AC), linear chains of amylopectin also affect the rate of starch digestibility., Results: The values of GI (52.49-63.0), RS (0.64% to 2.28%), and AC (3.82% to 24.52%) were found to vary widely in 110 rice genotypes. Genotypes IG 23 and IG 40, with contrasting AC (15.65% and 24.52%, respectively), revealed that amylose alone did not affect digestion rate. Starch morphology, bioaccessibility, and pasting properties differed noticeably among genotypes. A starch debranching enzyme pullulanase assay indicated the role of the linear amylopectin chain in crystallized RS formation within the grains of lower AC genotype IG 23., Conclusion: Enhanced activity of the starch-debranching enzyme pullulanase produced linearized amylopectin resulted into reduced starch digestibility in low-amylose rice. This is probably the first report on the natural presence of high RS (crystallized) in rice with lower AC (IG 23). Development of rice-based food with low GI and high RS could be a promising strategy for lowering the prevalence of type 2 diabetes. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.)

Published

2024

8. Nursing students' attitudes towards mental illness: A multi-national comparison.

Author

Moxham L, Tapsell A, Perlman D, Al Mutair A, Al-Sagarat AY, Alsaraireh FA, Chung MH, Jose TT, Kuo SY, Liu MF, Nayak AK, Shamsan A, Sudhakar C, Tsai HT, Velayudhan B, Yang CY, Roberts MM, Yeh PM, and Patterson C

Subjects

Humans, Male, Female, Adult, Young Adult, Australia, Cross-Cultural Comparison, United States, Saudi Arabia, Jordan, Taiwan, Students, Nursing psychology, Mental Disorders, Attitude of Health Personnel ethnology, Social Stigma

Abstract

Accessible Summary What is known on the subject Health professionals, including nurses, are shown to have stigmatizing attitudes towards mental illness. For nursing students who are in their formative years of professional development, mental illness stigma can severely impact the care they provide. Little research has investigated multi-national comparisons of nursing students' attitudes towards mental illness. What this paper adds to existing knowledge This study shows that between countries, there were substantial differences amongst nursing students in stigmatizing attitudes towards mental illness. Cultural perspectives may explain some of these differences. What are the implications for practice Regardless of location, stigmatizing attitudes are present at varying levels. Each nation can take steps to reduce these by acknowledging the presence of stigmatizing attitudes amongst nurses, educating nurses regarding the negative impacts of stigma on patient outcomes, and decrease stigmatizing attitudes by facilitating opportunities for nurses (particularly student nurses) to have direct contact with people with lived experiences of mental illness., Abstract: INTRODUCTION: Stigmatizing attitudes perpetuated by nursing professionals are a pervasive problem for people experiencing mental health issues. This global issue has detrimental consequences; inhibiting one's life chances and help-seeking behaviours. To date, few studies have compared nursing students' attitudes towards mental illness from a multi-national perspective., Aim: To compare undergraduate nursing students' attitudes towards mental illness across six countries: Australia, India, Jordan, Saudi Arabia, Taiwan and USA., Method: In a cross-sectional design, data were collected from undergraduate nursing students (N = 426) using the Social Distance Scale. A one-way analysis of variance was used to compare differences between countries., Results: Nursing students' attitudes to mental illness differed between countries. Social Distance Scores were highest amongst nursing students from Jordan and Saudi Arabia. Students from Taiwan and India possessed moderate stigma scores. Social Distance Scores from the USA and Australia were lowest., Discussion: Clear differences in stigmatizing attitudes emerged between countries; these are discussed in relation to possible cultural influences., Implications for Practice: It is suggested that educating nurses, combined with direct contact with people with lived experiences of mental illness, can reduce stigmatizing attitudes regardless of country, location or educational institution., (© 2024 The Authors. Journal of Psychiatric and Mental Health Nursing published by John Wiley & Sons Ltd.)

Published

2024

9. Empowering Tri-Functional Palladium's Catalytic Activity and Durability in Electrocatalytic Formic Acid Oxidation Reaction via Innovative Self-Caging and Alloying Strategies.

Author

Lee CW, Jung SY, Ryu JH, Jeon GS, Gaur A, Cho MS, Ali G, Kim M, Chung KY, Nayak AK, Shin S, Kwon J, Song T, Shin TH, and Han H

Abstract

Direct formic acid fuel cells (DFAFCs) stand out for portable electronic devices owing to their ease of handling, abundant fuel availability, and high theoretical open circuit potential. However, the practical application of DFAFCs is hindered by the unsatisfactory performance of electrocatalysts for the sluggish anodic formic acid oxidation reaction (FAOR). Palladium (Pd) based nanomaterials have shown promise for FAOR due to their highly selective reaction mechanism, but maintaining high electrocatalytic durability remains challenging. In this study, a novel Pd-based electrocatalyst (UiO-Pd-E) is reported with exceptional durability and activity for FAOR, which can be attributed to the Pd nanoparticles encapsulated within a carbon framework where concurrent chemical alloying of Pd and Zr occurs. Further, the UiO-Pd-E demonstrates noteworthy multifunctionality in various electrochemical reactions including electrocatalytic ethanol oxidation reaction (EOR) and oxygen reduction reaction (ORR) in addition to the FAOR, highlighting its practical potentials., (© 2024 The Author(s). Advanced Science published by Wiley‐VCH GmbH.)

Published

2024

10. Nitric oxide modelling and its bioavailability influenced by red blood cells.

Author

Nayak AK, Canepari M, Das SL, and Misbah C

Subjects

Humans, Calcium metabolism, Biological Availability, Endothelial Cells metabolism, Models, Biological, Nitric Oxide metabolism, Erythrocytes metabolism, Adenosine Triphosphate metabolism, Models, Cardiovascular

Abstract

Nitric oxide (NO) is an important vasodilator responsible for maintaining vascular tone in the human body. Its production in endothelial cells (ECs) is regulated by the rise of cytoplasmic Ca 2+ concentration and shear stress perceived by blood flow. The increase in cytoplasmic Ca 2+ concentration is mainly activated by adenosine triphosphate (ATP) released from red blood cells (RBCs) and ECs. However, RBCs, which act as NO scavengers, can affect the bioavailability of NO in blood vessels. In this study, we developed a model that incorporates ATP and shear stress-dependent NO production, integrating various biochemical pathways. The model results are qualitatively consistent with the experimental findings. Given that ATP concentration and shear stress vary spatially within blood circulation, influenced by factors such as vessel width, flow strength and RBC concentration, these variations can significantly affect NO bioavailability. Here, we study RBC flow, ATP release from RBCs and ECs, and [Formula: see text] and NO dynamics in a two-dimensional channel using the immersed boundary lattice Boltzmann method. The main findings from the study include: (i) an increase in RBC concentration leads to a rise in ATP and cytoplasmic Ca 2+ concentrations for all variation in channel widths, while NO concentration exhibits a decrease; (ii) NO bioavailability is significantly influenced by RBC distribution, particularly in strongly confined channels; and (iii) two phases of NO bioavailability are observed in different regions of the blood vessels: one with a significant concentration change at low RBC concentration and another with a minimal concentration change at high RBC concentration, across all confinements. The outcomes of this study may provide valuable insights into the mechanisms of NO-dependent vasodilation and the transport of oxygen by RBCs within microvascular networks for future studies.

Published

2024

11. Molecular self-assembly of stable and small branched DNA nanostructures: Higher than a helical turn is enough for hybridization.

Author

Baral B, Nayak AK, Tulsiyan KD, and Subudhi U

Subjects

Base Pairing, Oligonucleotides chemistry, Nanostructures chemistry, DNA chemistry, Nucleic Acid Hybridization, Nucleic Acid Conformation

Abstract

The Watson-Crick base pairing property of DNA is widely used for fabricating DNA nanostructures with well-defined geometry. Moreover, DNA nanostructures can be easily modified in terms of shape, size and function at the nanoscale level. Therefore, investigation on smaller and stable branched DNA (bDNA) is of critical significance for biomedical applications. In the present communication, we report smaller and stable branched DNA (bDNA) which is of critical significance for biomedical applications. In this study, a novel strategy has been used in identifying stable bDNA nanostructures with a minimum number of Watson-Crick base pairings. The importance of hybridizing regions and helical twists between multiple oligonucleotides has been explored using various biophysical techniques. The electrophoretic analysis demonstrated that hybridizing regions with ≥12 nt nucleotides can form stable bDNA structures. Substantial negative enthalpic contributions determine the significance of base stacking and the length of oligonucleotides in the hybridization process. Finally, thermal melting investigations confirmed the creation of bDNA nanostructures with ≥12 nt long hybridizing regions. In general, our findings indicate that bDNA oligonucleotides do not undergo hybridization if the number of base pairs is lesser for a single helical turn. Furthermore, the yield and stability of smaller bDNA nanostructures in physiological conditions are comparable with the earlier reported higher-order structures. Hence, smaller bDNAs are more stable which may be preferred over conventional bDNA nanostructures for advanced biomedical applications., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

12. Tuber crops could be a potential food component for lowering starch digestibility and estimated glycemic index in rice.

Author

Kumar A, Mahapatra S, Nayak L, Biswal M, Sahoo U, Lal MK, Nayak AK, and Pati K

Subjects

Humans, Dioscorea chemistry, Dioscorea metabolism, Oryza chemistry, Oryza metabolism, Glycemic Index, Starch metabolism, Plant Tubers chemistry, Plant Tubers metabolism, Digestion

Abstract

Background: Rice is considered a high estimated glycemic index (eGI) food because of its higher starch digestibility, which leads to type II diabetes and obesity as a result of a sedentary life style. Furthermore, the incresaing diabetes cases in rice-consuming populations worldwide need alternative methods to reduce the glycemic impact of rice, with dietary prescriptions based on the eGI value of food being an attractive and practical concept. Rice is often paired with vegetables, pulses, tubers and roots, a staple food group in Africa, Latin America and Asia, which are rich in fibre and health-promoting compounds., Results: Rice from four categories (high protein, scented, general and pigmented) was analyzed for eGI and resistant starch (RS) content. Among the genotypes, Improved Lalat had the lowest eGI (53.12) with a relatively higher RS content (2.17%), whereas Hue showed the lowest RS (0.19%) with the highest eGI (76.3) value. The addition of tuber crops to rice caused a significant lowering of eGI where the maximum beneficial effect was shown by elephant foot yam (49.37) followed by yam bean (53.07) and taro (54.43)., Conclusion: The present study suggests that combining rice with suitable tuber crops can significantly reduce its eGI value, potentially reducing the burden of diet-associated lifestyle diseases particularly diabetics. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.)

Published

2024

13. Predicting Breast Cancer Relapse from Histopathological Images with Ensemble Machine Learning Models.

Author

Sahoo G, Nayak AK, Tripathy PK, Panigrahi A, Pati A, Sahu B, Mahanty C, and Mallik S

Subjects

Humans, Female, Middle Aged, Breast Neoplasms pathology, Machine Learning, Neoplasm Recurrence, Local

Abstract

Relapse and metastasis occur in 30-40% of breast cancer patients, even after targeted treatments like trastuzumab for HER2-positive breast cancer. Accurate individual prognosis is essential for determining appropriate adjuvant treatment and early intervention. This study aims to enhance relapse and metastasis prediction using an innovative framework with machine learning (ML) and ensemble learning (EL) techniques. The developed framework is analyzed using The Cancer Genome Atlas (TCGA) data, which has 123 HER2-positive breast cancer patients. Our two-stage experimental approach first applied six basic ML models (support vector machine, logistic regression, decision tree, random forest, adaptive boosting, and extreme gradient boosting) and then ensembled these models using weighted averaging, soft voting, and hard voting techniques. The weighted averaging ensemble approach achieved enhanced performances of 88.46% accuracy, 89.74% precision, 94.59% sensitivity, 73.33% specificity, 92.11% F-Value, 71.07% Mathew's correlation coefficient, and an AUC of 0.903. This framework enables the accurate prediction of relapse and metastasis in HER2-positive breast cancer patients using H&E images and clinical data, thereby assisting in better treatment decision-making.

Published

2024

14. Nanostructured Lipid Carrier-based Topical Gels as Novel Drug Delivery System: A Comprehensive Overview.

Author

Biswas UK, Sen S, Sharma S, Paul M, Nayak AK, and Bose A

Abstract

Nanostructured lipid carriers (NLCs) are lipidic nanocarriers that recover the permanency and capacity of drug payloads. NLCs are well-known as second-generation lipid nanocarriers with an unstructured matrix, presenting potentially advantageous nanocarrier systems with marketable opportunities because of reproducible production methodologies and biocompatible lipidic excipients. These (NLCs) are now recognized as a very promising nanocarrier structure for the efficient delivery of drugs via different administration routes. In recent years, several NLC-based gels have been developed and evaluated for topical delivery of many drugs and other therapeutic agents. This review article presents an overview of NLC-based topical gels investigated to deliver drugs via ocular, dermal, and transdermal routes. In addition, the classification, manufacturing, characterizations, advantages, and disadvantages of NLCs are addressed in this article. We also discussed different evaluations of NLC-based topical gels., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

15. Fluconazole-loaded Hyaluronic Acid-modified Transfersomal Hydrogels Containing D-panthenol for Ocular Delivery in Fungal Keratitis Management.

Author

Das B, Nayak AK, and Mallick S

Abstract

Background: Fungal keratitis (mycotic keratitis) is an eye infection in which the cornea is infected by fungi and such fungal keratitis management can be effectively possible by ocular administration of antifungal drugs., Objective: The main objectives of the present research were to develop and evaluate fluconazoleloaded transfersomal hydrogels for ocular delivery in the effective management of fungal keratitis., Methods: A 23 factorial design-based approach was used for statistical optimization, where (A) the ratio of lipid to edge activators, (B) the amount of hyaluronic acid (% HA), and (C) the ratio of edge activators (sodium deoxycholate to Span 80) were taken as three factors. The average vesicle diameter (Z, nm) of transfersomes was taken as a response. Further, fluconazole-loaded transfersomes (FTO) were incorporated into 1% Carbopol 940-based hydrogel (OF1) and 2% HMPC K4M-based hydrogel (OF2) containing D-panthenol (5% w/w)., Results: The optimal variable setting for the optimized formulations of FTO was (A) = 9.15, (B) = 0.30%, and (C) = 3.00. FTO exhibited 66.39 nm Z, 0.247 polydispersity index, - 33.10 mV zeta potential, and 65.38 ± 1.77 % DEE, and desirable elasticity. TEM image of FTO demonstrated a unilamellar vesicular structure. The ex vivo ocular permeation of fluconazole from transfersomal hydrogels was sustained over 24 h. All the transfersomal hydrogels showed good bioadhesion and excellent antifungal activity with respect to the zone of inhibition against Candida albicans than Aspergillus fumigates, in vitro. HET-CAM study results demonstrated that both the hydrogels were nonirritant and safe for ocular. Short-term physical stability study suggested the stability of the developed formulation., Conclusion: The current research demonstrated a new way to enhance the ocular penetration of fluconazole via transfersomal hydrogel formulations for ocular delivery in the effective management of fungal keratitis., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

16. A miniature alternative to Cas9 and Cas12: Transposon-associated TnpB mediates targeted genome editing in plants.

Author

Karmakar S, Panda D, Panda S, Dash M, Saha R, Das P, Avinash SP, Shih J, Yang Y, Nayak AK, Baig MJ, and Molla KA

Published

2024

17. Context-dependent agricultural intensification pathways to increase rice production in India.

Author

Nayak HS, McDonald AJ, Kumar V, Craufurd P, Dubey SK, Nayak AK, Parihar CM, Peramaiyan P, Poonia S, Tesfaye K, Malik RK, Urfels A, Gautam US, and Silva JV

Subjects

India, Nitrogen metabolism, Fertilizers, Oryza growth & development, Crops, Agricultural growth & development, Crop Production methods, Agricultural Irrigation methods, Agriculture methods

Abstract

Yield gap analysis is used to characterize the untapped production potential of cropping systems. With emerging large-n agronomic datasets and data science methods, pathways for narrowing yield gaps can be identified that provide actionable insights into where and how cropping systems can be sustainably intensified. Here we characterize the contributing factors to rice yield gaps across seven Indian states, with a case study region used to assess the power of intervention targeting. Primary yield constraints in the case study region were nitrogen and irrigation, but scenario analysis suggests modest average yield gains with universal adoption of higher nitrogen rates. When nitrogen limited fields are targeted for practice change (47% of the sample), yield gains are predicted to double. When nitrogen and irrigation co-limitations are targeted (20% of the sample), yield gains more than tripled. Results suggest that analytics-led strategies for crop intensification can generate transformative advances in productivity, profitability, and environmental outcomes., (© 2024. The Author(s).)

Published

2024

18. Towards Enhancing Low Vision Usability of Data Charts on Smartphones.

Author

Prakash Y, Khan PA, Nayak AK, Jayarathna S, Lee HN, and Ashok V

Abstract

The importance of data charts is self-evident, given their ability to express complex data in a simple format that facilitates quick and easy comparisons, analysis, and consumption. However, the inherent visual nature of the charts creates barriers for people with visual impairments to reap the associated benefts to the same extent as their sighted peers. While extant research has predominantly focused on understanding and addressing these barriers for blind screen reader users, the needs of low-vision screen magnifer users have been largely overlooked. In an interview study, almost all low-vision participants stated that it was challenging to interact with data charts on small screen devices such as smartphones and tablets, even though they could technically "see" the chart content. They ascribed these challenges mainly to the magnifcation-induced loss of visual context that connected data points with each other and also with chart annotations, e.g., axis values. In this paper, we present a method that addresses this problem by automatically transforming charts that are typically non-interactive images into personalizable interactive charts which allow selective viewing of desired data points and preserve visual context as much as possible under screen enlargement. We evaluated our method in a usability study with 26 low-vision participants, who all performed a set of representative chart-related tasks under different study conditions. In the study, we observed that our method signifcantly improved the usability of charts over both the status quo screen magnifer and a state-of-the-art space compaction-based solution.

Published

2024

19. Hydrologic variability governs GHG emissions in rice-based cropping systems of Eastern India.

Author

Arenas-Calle L, Sherpa S, Rossiter D, Nayak H, Urfels A, Kritee K, Poonia S, Singh DK, Choudhary A, Dubey R, Kumar V, Nayak AK, and McDonald A

Abstract

Reducing methane (CH 4 ) emissions is increasingly recognized as an urgent greenhouse gas mitigation priority for avoiding ecosystem 'tipping points' that will accelerate global warming. Agricultural systems, namely ruminant livestock and rice cultivation are dominant sources of CH 4 emissions. Efforts to reduce methane from rice typically focus on water management strategies that implicitly assume that irrigated rice systems are consistently flooded and that farmers exert a high level of control over the field water balance. In India most rice is cultivated during the monsoon season and hydrologic variability is common, particularly in the Eastern Gangetic Plains (EGP) where high but variable rainfall, shallow groundwater, and subtle differences in topography interact to create complex mosaics of field water conditions. Here, we characterize the hydrologic variability of monsoon season rice fields ( n = 207) in the Indian EGP ('Eastern India') across two contrasting climate years (2021, 2022) and use the D e n itrification D e c omposition (DNDC) model to estimate GHG emissions for the observed hydrologic conditions. Five distinct clusters of field hydrology patterns were evident in each year, but cluster characteristics were not stable across years. In 2021, average GHG emissions (8.14 mt CO 2 -eq ha -1 ) were twice as high as in 2022 (3.81 mt CO 2 -eq ha -1 ). Importantly, intra-annual variability between fields was also high, underlining the need to characterize representative emission distributions across the landscape and across seasons to appropriately target GHG mitigation strategies and generate accurate baseline values. Simulation results were also analyzed to identify main drivers of emissions, with readily identified factors such as flooding period and hydrologic interactions with crop residues and nitrogen management practices emerging as important. These insights provide a foundation for understanding landscape variability in GHG emissions from rice in Eastern India and suggest priorities for mitigation that honor the hydrologic complexity of the region., Competing Interests: The authors declare that they have no conflicts of interest., (© 2024 The Authors.)

Published

2024

20. The Dilemma of Insulin Delivery into the Brain: A Comprehensive Review.

Author

Hatami H, Askari VR, Rahimi VB, Hasnain MS, and Nayak AK

Abstract

Insulin is a peptide hormone that is essential for regulating body homeostasis. Furthermore, it is involved in various neurological functions such as memory, behaviors, and cognition. The ubiquitous distribution of insulin receptors on various brain cells, such as neurons, microglia, astrocytes, and oligodendrocytes, and their differential localization across various brain regions, including the hippocampus, hypothalamus, and olfactory bulb, collectively underscore the crucial involvement of insulin in the modulation of cerebral functions. Along with ageing, in some pathological conditions such as diabetes and brain insulin resistance, the need for exogenous insulin is felt to compensate for insulin deficiency. In these cases, the biggest obstacle to the delivery of insulin to the brain is the blood-brain barrier (a physical barrier consisting of endothelial cells with tight junctions), which prevents the direct entry of most substances possessing high molecular weight, like insulin, into the brain. Therefore, different delivery methods have been proposed by researchers for insulin delivery that directly or indirectly cause the transfer of insulin to the brain. Some of these methods lack high efficiency and cause many side effects for the patient. In this regard, many new technologies have come to the aid of researchers and have introduced more effective delivery strategies, including the use of nanocarriers. Despite the promising outcomes demonstrated in the experimental models, the utilization of these techniques in human studies remains at a nascent stage and necessitates further comprehensive investigation. This review article aims to examine the diverse methods of insulin administration to the brain by gathering extensive information on insulin and its obstacles to brain delivery., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

21. Endothelial calcium dynamics elicited by ATP release from red blood cells.

Author

Nayak AK, Das SL, and Misbah C

Subjects

Humans, Calcium Signaling, Erythrocytes metabolism, Adenosine Triphosphate metabolism, Calcium metabolism, Endothelial Cells metabolism

Abstract

Red blood cells (RBCs) exhibit an interesting response to hydrodynamic flow, releasing adenosine triphosphate (ATP). Subsequently, these liberated ATP molecules initiate a crucial interaction with endothelial cells (ECs), thereby setting off a cascade involving the release of calcium ions (Ca 2 + ). Ca 2 + exerts control over a plethora of cellular functions, and acts as a mediator for dilation and contraction of blood vessel walls. This study focuses on the relationship between RBC dynamics and Ca 2 + dynamics, based on numerical simulations under Poiseuille flow within a linear two-dimensional channel. It is found that the concentration of ATP depends upon a variety of factors, including RBC density, channel width, and the vigor of the flow. The results of our investigation reveals several features. Firstly, the peak amplitude of Ca 2 + per EC escalates in direct proportion to the augmentation of RBC concentration. Secondly, increasing the flow strength induces a reduction in the time taken to reach the peak of Ca 2 + concentration, under the condition of a constant channel width. Additionally, when flow strength remains constant, an increase in channel width corresponds to an elevation in calcium peak amplitude, coupled with a decrease in peak time. This implies that Ca 2 + signals should transition from relatively unconstrained channels to more confined pathways within real vascular networks. This notion gains support from our examination of calcium propagation in a linear channel. In this scenario, the localized Ca 2 + release initiates a propagating wave that gradually encompasses the entire channel. Notably, our computed propagation speed agrees with observations., (© 2024. The Author(s).)

Published

2024

22. Nanovesicles as Potential Carriers for Delivery of Antiviral Drugs: A Comprehensive Review.

Author

Bindhani S and Nayak AK

Abstract

Different nanocarriers-based strategies are now extensively being used as an important strategy for improving drug efficacy and responsiveness, reducing toxicity issues related to drugs and harmful side effects, and overcoming the numerous significant difficulties related to absorption and bioavailability. Amongst different nanocarriers, nanovesicles are excellent and versatile systems for effectively delivering biomolecules, drugs, and targeted ligand distribution and location. Nanovesicles are nanosized self-assembling spherical capsules with an aqueous core and one/more lipid(s) layers. Several synthetic nanovesicles have been developed and investigated for their prospective uses in delivering drugs, proteins, peptides, nutrients, etc. Important procedures for nanovesicle manufacturing are thin-film hydration, unshaken method, ethanol injection, ether injection, proliposomes, freeze-drying, hot method, cold method, reverse-phase evaporation, and ultrasonication. Liposomes, liposomes, ethosomes, exosomes, and transferosomes (elastic vesicles) are the nonvesicular candidates extensively investigated to deliver antiviral drugs. This review article comprehensively reviews different nanovesicles, their compositions, manufacturing, and applications as potential carriers for effectively delivering different antiviral drugs to treat viral diseases., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

23. Wound Healing Activity of Topical Herbal Gels Containing Barringtonia acutangula Fruit Extract: In silico and In vivo Studies.

Author

Priyanka K, Sahoo RN, Nanda A, Kanhar S, Das C, Sahu A, Naik PK, and Nayak AK

Subjects

Animals, Rats, Administration, Topical, Rats, Wistar, Male, Skin drug effects, Skin metabolism, Computer Simulation, Plant Extracts chemistry, Plant Extracts pharmacology, Plant Extracts isolation & purification, Plant Extracts administration & dosage, Wound Healing drug effects, Fruit chemistry, Gels chemistry

Abstract

The current study describes the efficacy of B. acutangula fruit extract in wound healing via incorporation within topical gels. B. acutangula fruit extract was produced by solvent extraction method. The bioactive extract was incorporated within Carbopol 940-based topical gels, which were applied topically over the excision and incision wounds. The change in healing process was observed till 20 days. The percentages of closure of excision wound area were 92.89 % and 93.43 %, when treated with topical herbal gels containing B. acutangula fruit extract of 5 % and 10 %, respectively. The tensile strengths of incision area in rats treated with topical herbal gels containing 5 % and 10 % methanol extract of B. acutangula fruits were found to be 25±5.12 g and 30±4.10 g, respectively. The wound healing activity of topical herbal gels containing B. acutangula fruit extract in rats was found to be significant when compared with that of the reference standard and untreated groups. In addition, in silico studies suggested about good skin permeability and binding to the proteins responsible for delaying wound healing. It can be concluded that this topical herbal gels containing B. acutangula fruit extract could be used clinically for the treatment of wounds., (© 2024 Wiley-VHCA AG, Zurich, Switzerland.)

Published

2024

24. Lipid-Gelucire based rectal delivery of ramipril prodrug exhibits significant lowering of intra-ocular pressure in normotensive rabbit: sustained structural relaxation release kinetics and IVIVC.

Author

Nandi S, Swain R, Habibullah S, Sahoo RN, Nayak AK, and Mallick S

Subjects

Animals, Rabbits, Suppositories, Male, Biological Availability, Antihypertensive Agents administration & dosage, Antihypertensive Agents pharmacokinetics, Antihypertensive Agents pharmacology, Lipids chemistry, Drug Liberation, Administration, Oral, Polyethylene Glycols, Intraocular Pressure drug effects, Prodrugs administration & dosage, Prodrugs pharmacokinetics, Prodrugs pharmacology, Ramipril administration & dosage, Ramipril pharmacokinetics, Ramipril pharmacology, Administration, Rectal, Delayed-Action Preparations

Abstract

Carboxylesterase enzymes convert a prodrug ramipril into the biologically active metabolite ramiprilat. It is prescribed for controlling ocular hypertension after oral administration. High concentrations of carboxylesterase enzymes in rectal and colon tissue can transform ramipril significantly to ramiprilat. Sustained rectal delivery of ramipril has been developed for intra-ocular pressure lowering effect using a normotensive rabbit model. Rectal suppositories have been formulated using a matrix base of HPMC K100-PEG 400-PEG 6000, incorporating varying amounts of Gelucire by the fusion moulding method. The presence of Gelucire in the suppository exhibited sustained structural relaxation-based release kinetics of RM compared to its absence. Intravenous and oral administration of ramipril has decreased IOP in the treated rabbit up to 90 and 360 min, respectively. Treated rabbits with suppositories have revealed decreased IOP for an extended period compared to the above. Formulation containing GEL 3% reduced intra-ocular pressure to 540 min, with the highest area under the decreased IOP curve. Compared to oral, the pharmacodynamic bioavailability of ramipril has been improved significantly using a sustained-release rectal suppository. A rectal suppository for sustained delivery of ramipril could be used to lower IOP significantly.

Published

2024

25. Effect of the global electroneutrality condition on electromigration Taylor-Aris dispersion in a microcapillary with finite Debye layer thickness.

Author

Chatterjee A and Nayak AK

Abstract

In this work, the electromigration dispersion (EMD) due to the charged electrolytes in microchannels is considered without using the thin electrical double layer assumption. The electrokinetic flow and transport of ions are actuated within a rectangular micro-/nanochannel having a negative surface charge density under the influence of an external electric field. Due to the local variation of the conductivity and the nonvalidity of the electroneutrality condition, the local electric field varies as a function of the solute concentration, wall surface charge density, valency, and Debye layer length. The resulting electrokinetic flow due to the external electric field drives the fluid along with the charged species, where the Taylor-Aris dispersion separates the solutes into their different constituents. The local concentration dependence of the electric field leads to the formation of concentration profiles that are slightly asymmetric with respect to the standard Gaussian distribution. Including a finite Debye layer thickness has an effect on the advection of the species as well as the diffusion of the species. It is found that in cases where Debye layers are thicker, the species advects faster within the microchannel. This might give valuable insights into the nature of the EMD. Our model aims to predict the evolution of ionic concentration at all positions within the channel. A study of the higher-order statistics in skewness and kurtosis has also been conducted to obtain a better understanding of the idealized model consisting of a buffer solution., (© 2024 Author(s). Published under an exclusive license by AIP Publishing.)

Published

2024

26. An immunoinformatic approach for developing a multi-epitope subunit vaccine against Monkeypox virus.

Author

Nayak AK, Chakraborty A, Shukla S, Kumar N, and Samanta S

Abstract

An in-silico approach was implemented to develop a multi-epitope subunit vaccine construct against the recent outbreak of the Monkeypox virus. The contribution of 10 different antigenic proteins based on their antigenicity led to the selection of 10 HTL, 9 CTL, and 6 BCL epitopes. The construct was further investigated for its allergenicity, antigenicity, and physio-chemical properties using servers such as AllerTOP and Allergen FP, VaxiJen and ANTIGENPro, and ProtParam respectively. The secondary structure of the vaccine was predicted using the SOPMA server followed by I-TASSER for the 3D structure. After refinement and validation of structural stability of the modelled vaccine, a molecular docking assay was implemented to study the interaction of the known TLR4 receptor with that of the constructed vaccine using the ClusPro server. The docked vaccine and TLR4 receptor were studied using the molecular dynamics (MD) simulation to validate the stability of the complex. After codon optimization the cDNA was constructed and in-silico cloning of the vaccine construct was carried out. The vaccine was also subjected to computational immune assay which predicted a powerful immune response against the Monkeypox virus validating that the developed multi-epitope vaccine construct can be a potent vaccine candidate., Supplementary Information: The online version contains supplementary material available at 10.1007/s40203-024-00220-5., Competing Interests: Conflict of interestThe authors declare no competing interests., (© The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2024. Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.)

Published

2024

27. Targeting HIF-1α in sickle cell disease and cancer: unraveling therapeutic opportunities and risks.

Author

Ubaid S, Kashif M, Laiq Y, Nayak AK, Kumar V, and Singh V

Subjects

Humans, Animals, Fetal Hemoglobin metabolism, Neovascularization, Pathologic, Anemia, Sickle Cell physiopathology, Anemia, Sickle Cell drug therapy, Neoplasms pathology, Neoplasms drug therapy, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Tumor Microenvironment, Molecular Targeted Therapy

Abstract

Introduction: HIF-1α, a key player in medical science, holds immense significance in therapeutic approaches. This review delves into its complex dynamics, emphasizing the delicate balance required for its modulation. HIF-1α stands as a cornerstone in medical research, its role extending to therapeutic strategies. This review explores the intricate interplay surrounding HIF-1α, highlighting its critical involvement and the necessity for cautious modulation., Areas Covered: In sickle cell disease (SCD), HIF-1α's potential to augment fetal hemoglobin (HbF) production and mitigate symptoms is underscored. Furthermore, its role in cancer is examined, particularly its influence on survival in hypoxic tumor microenvironments, angiogenesis, and metastasis. The discussion extends to the intricate relationship between HIF-1α modulation and cancer risks in SCD patients, emphasizing the importance of balancing therapeutic benefits and potential hazards., Expert Opinion: Managing HIF-1α modulation in SCD patients requires a nuanced approach, considering therapeutic potential alongside associated risks, especially in exacerbating cancer risks. An evolutionary perspective adds depth, highlighting adaptations in populations adapted to low-oxygen environments and aligning cancer cell metabolism with primitive cells. The role of HIF-1α as a therapeutic target is discussed within the context of complex cancer biology and metabolism, acknowledging varied responses across diverse cancers influenced by intricate evolutionary adaptations.

Published

2024

28. Plastic Pandemic after COVID-19: A Global Health Concern.

Author

Sahni C, Reddy KRC, Nayak AK, and Seth S

Subjects

Humans, Pandemics, Personal Protective Equipment supply & distribution, Waste Management methods, COVID-19 prevention & control, COVID-19 epidemiology, Global Health, Plastics

Abstract

Abstract: COVID-19 pandemic has increased the amount of plastic burden to environment and complexities of plastic waste management. Change in behavioral pattern with advent of this pandemic led to increased practice of hygiene and increased use of different types of personal protective equipment. Unfortunately, rapid rise in production of the PPEs (like Hazmat suit, gloves, etc.) and single-use plastics used in RT-PCR and other testing are the biggest source for increased non-biodegradable plastic waste leading to amplified burden on plastic waste management. A number of measures like prioritizing the policies directed towards changes at behavioral, social and institutional level need to be started. Also, reduction in plastic waste along with proper plastic waste management policies should be implemented. To prevent the transition from one pandemic to other; improvement in government policies with public private partnership are the need of the hour.

Published

2024

29. Reticular synthesis of two-dimensional ionic covalent organic networks as metal-free bifunctional electrocatalysts for oxygen reduction and evolution reactions.

Author

Jhariat P, Warrier A, Sasmal A, Das S, Sarfudeen S, Kumari P, Nayak AK, and Panda T

Abstract

Bifunctional electrocatalysts for the oxygen reduction reaction (ORR) and the oxygen evolution reaction (OER) are the heart of metal-air batteries, fuel cells, and other energy storage systems. Here, we report a series of a novel class of redox-active viologen-based ionic covalent organic networks (vCONs) which are directly used as metal-free bifunctional electrocatalysts towards ORR and OER applications. These vCONs (named vGC, vGAC, vMEL and vBPDP) were synthesized by the well-known Zincke reaction. The installation of redox-active viologen moieties among the extended covalent organic architectures played a crucial role for exceptional acid/base stability, as well as bifunctional ORR and OER activities, confirmed by the cyclic voltammetry (CV) curves. Among all of them, vBPDP showed high ORR efficiency with a half-wave potential of 0.72 V against a reversible hydrogen electrode (RHE) in 1 M KOH electrolyte. In contrast, vMEL demonstrated high OER activity with an overpotential of 320 mV at a current density of 10 mAcm -2 and a Tafel slope of 109.4 mV dec -1 in 1 M KOH electrolyte solution. This work is exceptional and unique in terms of directly used pristine ionic covalent organic networks that are used as bifunctional (ORR and OER) electrocatalysts without adding any metals or conductive materials.

Published

2024

30. Strigolactone GR24-mediated mitigation of phosphorus deficiency through mycorrhization in aerobic rice.

Author

Mitra D, Panneerselvam P, Chidambaranathan P, Nayak AK, Priyadarshini A, Senapati A, and Mohapatra PKD

Abstract

Strigolactones (SLs) are a new class of plant hormones that play a significant role in regulating various aspects of plant growth promotion, stress tolerance and influence the rhizospheric microbiome. GR24 is a synthetic SL analog used in scientific research to understand the effects of SL on plants and to act as a plant growth promoter. This study aimed to conduct hormonal seed priming at different concentrations of GR24 (0.1, 0.5, 1.0, 5.0 and 10.0 µM with and without arbuscular mycorrhizal fungi (AMF) inoculation in selected aerobic rice varieties (CR Dhan 201, CR Dhan 204, CR Dhan 205, and CR Dhan 207), Kasalath-IC459373 (P-tolerant check), and IR-36 (P-susceptible check) under phosphorus (P)-deficient conditions to understand the enhancement of growth and priming effects in mycorrhization. Our findings showed that seed priming with 5.0 µM SL GR24 enhanced the performance of mycorrhization in CR Dhan 205 (88.91 %), followed by CR Dhan 204 and 207, and AMF sporulation in CR Dhan 201 (31.98 spores / 10 gm soil) and CR Dhan 207 (30.29 spores / 10 g soil), as well as rice growth. The study showed that the highly responsive variety CR Dhan 207 followed by CR Dhan 204, 205, 201, and Kasalath IC459373 showed higher P uptake than the control, and AMF treated with 5.0 µM SL GR24 varieties CR Dhan 205 followed by CR Dhan 207 and 204 showed the best performance in plant growth, chlorophyll content, and soil functional properties, such as acid and alkaline phosphatase activity, soil microbial biomass carbon (MBC), dehydrogenase activity (DHA), and fluorescein diacetate activity (FDA). Overall, AMF intervention with SL GR24 significantly increased plant growth, soil enzyme activity, and uptake of P compared to the control. Under P-deficient conditions, seed priming with 5.0 µM strigolactone GR24 and AMF inoculum significantly increased selected aerobic rice growth, P uptake, and soil enzyme activities. Application of SLs formulations with AMF inoculum in selected aerobic rice varieties, CR Dhan 207, CR Dhan 204, and CR Dhan 205, will play an important role in mycorrhization, growth, and enhancement of P utilization under P- nutrient deficient conditions., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published

2024

31. Exploring genetic divergence and marker-trait associations for leaffolder Cnaphalocrocis medinalis (Guenee) resistance in rice landraces.

Author

Nayak AK, Golive P, Sasmal A, Devanna BN, Anilkumar C, Mukherjee AK, Dash SS, Das Mohapatra S, and Subudhi H

Abstract

Rice production faces a significant threat from the rice leaffolder, Cnaphalocrocis medinalis . To address this challenge, growing resistant varieties stands out as a sustainable and eco-friendly pest management strategy. This necessitates identifying resistant sources and understanding their inheritance patterns through employing DNA markers for marker-assisted resistance breeding. Our study involves screening for resistant cultivars following the SES of IRRI, assessing genetic diversity among landraces using molecular markers, and identifying genomic regions associated with resistance. Screening indicated that 33.33%, 27.08%, 19.79%, and 19.80% of genotypes were resistant, moderately resistant, susceptible, and admixture, respectively. Landraces were categorized into three clusters, with clusters I and II predominantly containing moderately resistant and resistant cultivars, and cluster III mainly susceptible types. Molecular variance analysis revealed 12% variation among populations and 88% within the population. Simple linear regression identified significant marker-trait associations, with markers RM 162 and RM 284 on chromosomes 6 and 8, respectively, found highly associated with leaffolder resistance. Phenotypic variation in leaffolder damage correlated highly with the allelic effects of these markers. Further confirmation of marker linkage with resistance loci was established through independent assays on highly resistant and susceptible genotypes. The information derived from genetic diversity and marker-trait associations will be useful for future marker-assisted resistance breeding programs, enhancing the sustainability of rice production., Competing Interests: Conflict of interestOn behalf of all authors, the corresponding author states that there is no conflict of interest., (© King Abdulaziz City for Science and Technology 2024. Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.)

Published

2024

32. Greulich and Pyle atlas: a non-reliable skeletal maturity assessment method in the North Indian population.

Author

Tiwari PK, Nayak AK, Verma A, Pandey SK, Mishra A, Devadas D, Yadav A, and Gupta M

Subjects

South Asian People, Adolescent, Female, Humans, Male, Young Adult, Infant, Newborn, Infant, Child, Reproducibility of Results, Child, Preschool, Asian People, Age Determination by Skeleton methods

Abstract

Forensic age assessments are crucial in the evaluation of criminal responsibility and preventing false age claims. Of all the methods available, the Greulich and Pyle (GP) atlas is most commonly used for age estimation purposes. Therefore, the current study sought to analyze the reliability and applicability of the GP standard and, additionally, to determine any possible association between the socioeconomic status (SES), food habits, and estimated skeletal maturity in the North Indian population. The study included 627 (334 males and 293 females) healthy children up to 19 years of age with varying SES and food habits. The skeletal age (SA) was estimated by three different evaluators using the GP atlas. The chronological mean age (CA) and SA were compared in different age cohorts. A paired t-test and a Pearson chi-square test were applied to show the difference between CA and estimated SA and the association of skeletal maturity with SES and food habits. The estimated skeletal age in males was retarded by 0.142 years or 1.72 months (p ≤ 0.05), whereas in females, it was retarded by 0.259 years or 3.12 months (p ≤ 0.05). In males, the GP method has significantly underestimated SA in age cohorts 3-4, 4-5, 6-7, 7-8, 8-9, and 12-13, whereas it overestimated in 10-11 and 18-19 years. However, in females, the SA was significantly underestimated in age groups 10-11, 12-13, and 14-15, respectively. Estimated skeletal maturity had no significant association with SES and food habits. The current study concludes that the GP atlas may not be applicable to North India's population. The observed difference in assessed skeletal maturity may be due to geographical region, genetics, hormonal effects, etc., which require further investigation. Hence, population-specific standards are necessary to determine the bone age of Indian children accurately., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

33. Reducing the environmental impact of rice production in subtropical India by minimising reactive nitrogen loss.

Author

Chatterjee D, Das SR, Mohanty S, Muduli BC, Bhatia A, Nayak BK, Rees RM, Drewer J, Nayak AK, Adhya TK, Parameswaran C, Meher J, Mondal B, Sutton MA, and Pathak H

Subjects

Nitrogen analysis, Agriculture methods, Ammonia analysis, Soil, Fertilizers analysis, Nitrous Oxide analysis, Oryza

Abstract

The future of reactive nitrogen (N) for subtropical lowland rice to be characterised under diverse N-management to develop adequate sustainable practices. It is a challenge to increase the efficiency of N use in lowland rice, as N can be lost in various ways, e.g., through nitrous oxide (N 2 O) or dinitrogen (N 2 ) emissions, ammonia (NH 3 ) volatilization and nitrate (NO 3 - ) leaching. A field study was carried out in the subsequent wet (2021) and dry (2022) seasons to assess the impacts of different N management strategies on yield, N use efficiency and different N losses in a double-cropped rice system. Seven different N-management practices including application of chemical fertilisers, liquid organic fertiliser, nitrification inhibitors, organic nutrient management and integrated nutrient management (INM) were studied. The application of soil test-based neem-coated urea (NCU) during the wet season resulted in the highest economic yield, while integrated nutrient management showed the highest economic yield during the dry season. Total N losses by volatilization of NH 3 , N 2 O loss and leaching were 0.06-4.73, 0.32-2.14 and 0.25-1.93 kg ha -1 , corresponding to 0.06-5.84%, 0.11-2.20% and 0.09-1.81% of total applied N, respectively. The total N-uptake in grain and straw was highest in INM (87-89% over control) followed by the soil test-based NCU (77-82% over control). In comparison, recovery efficiency of N was maximum from application of NCU + dicyandiamide during both the seasons. The N footprint of paddy rice ranged 0.46-2.01 kg N-eq. t -1 during both seasons under various N management. Ammonia volatilization was the process responsible for the largest N loss, followed by N 2 O emissions, and NO 3 - leaching in these subtropical lowland rice fields. After ranking the different N management practices on a scale of 1-7, soil test-based NCU was considered the best N management approach in the wet year 2021, while INM scored the best in the dry year 2022., Competing Interests: Declaration of competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

34. Rice-based integrated farming system improves the soil quality, bacterial community structure and system productivity under sub-humid tropical condition.

Author

Nayak PK, Nayak AK, Panda BB, Senapati A, Panneerselvam P, Kumar A, Tripathi R, Poonam A, Shahid M, Mohapatra SD, Kaviraj M, and Kumar U

Subjects

Tropical Climate, Agriculture methods, Bacteria, Soil Microbiology, Soil chemistry, Oryza

Abstract

Rice-based integrated farming system improves the productivity and profitability by recycling resources efficiently. In the sub-humid tropics, rice production without sufficient nutrient replenishment often leads to soil health and fertility degradation. There has been very limited research on soil health and fertility after adopting a multi-enterprising rice-based integrated farming system (IFS), notably in the rice-fish-livestock and agroforestry system, when compared to a conventional farming system (CS). Therefore, the present study analyzed the dynamics of soil properties, soil bacterial community structure and their possible interaction mechanisms, as well as their effect on regulating soil quality and production in IFS, IFSw (water stagnant area of IFS) and CS. The results indicated that soil nutrient dynamics, bacterial diversity indices (Shannon index, Simpson index, Chao 1, ACE and Fisher index) and system productivity were higher in IFSw and IFS compared to CS. Moreover, relative operational taxonomic units of dominant bacterial genera (Chloroflexi, Acidobacteria, Verrucomicrobia, Planctomycetes, Cyanobacteria, Crenarchaeota and Gemmatimonadetes) were also higher in IFSw and IFS compared to CS. Mean soil quality index (SQI) was highest in IFSw (0.780 ± 0.201) followed by IFS (0.770 ± 0.080) and CS (0.595 ± 0.244). Moreover, rice equivalent yields (REY) and rice yields were well correlated with the higher levels of soil biological indices (SQI Biol ) in IFS. Overall, our results revealed that rice-based IFS improved the soil health and fertility and ensuing crop productivity through positive interaction with soil bacterial communities and nutrient stoichiometry leading to agroecosystem sustainability., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

35. Social and biological evaluation of antimicrobial resistance (SOBEAR) in rural India: a study protocol.

Author

Pattnaik M, Nayak AK, Karna S, Rehman T, Sahoo SK, Palo SK, Kanungo S, Kshatri JS, Parai D, Walia K, Pati S, and Bhattacharya D

Subjects

Humans, Qualitative Research, Drug Resistance, Bacterial, Health Knowledge, Attitudes, Practice, India, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Quinolones

Abstract

Background: Antimicrobial resistance (AMR) has been one of the biggest global health threats in recent years, mostly in low- and middle-income countries, which requires urgent research using a multidisciplinary research approach. The use of large quantities of antimicrobial drugs inappropriately for humans, poultry and agriculture has been recognized as a leading cause of antibiotic resistance and the predominance of drug-resistance pathogens in the environment. This protocol aims to describe the use/misuse of antibiotics (ABs) in the community and evaluate clinical samples from healthcare settings to detect genes associated with antimicrobial resistance., Methods: We will conduct a community-level survey in different villages of the Tigiria block to assess knowledge and awareness on ABs and AMR. We will conduct in-depth interviews (IDIs) with doctors, pharmacists, nurses and drug sellers, as well as focus group discussions (FGDs) with ASHA and ANM workers who are involved in antibiotic supplies to the community. Quantitative data from the community survey and qualitative data of IDIs and FGDs will be linked and analyzed using statistical modeling and iterative thematic content analysis. Specimens (stool, urine, blood and wound/pus) will be collected from clinically diagnosed patients of different healthcare centers of Tigiria block. The samples will be cultured for bacterial isolation and antibiotic sensitivity testing. Genomic DNA will be isolated from positive bacterial cultures and sequenced using PCR to evaluate high-threat multi-drug resistance organisms (MDROs), screening of plasmid-mediated quinolone resistance (PMQR) genes, antimicrobial genes responsible for MDR and quinolone resistance-determining regions (QRDRs)., Conclusion: This is the community-based protocol to evaluate the knowledge, attitudes, awareness and practices regarding ABs and AMR. The study protocol establishes a foundation for evaluating population-based prevalence and risk factors for AMR and MDROs in rural areas of the Odisha state, India., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Pattnaik, Nayak, Karna, Rehman, Sahoo, Palo, Kanungo, Kshatri, Parai, Walia, Pati and Bhattacharya.)

Published

2024

36. Influence of Nano-Particulate Impurities and β-glucans on the Stability of Protein-Based Formulations.

Author

Satapathy SR, Sahoo RN, and Nayak AK

Abstract

Pharmaceutical grade sugars manufactured under Current Good Manufacturing Practice (cGMP) and complied with International Pharmaceutical Excipients Council (IPEC) quality standards, also contain a significant amount of nano-particulate impurities (NPIs). This review will focus on the origin of NPIs, the mechanism of their interference with Dynamic light scattering (DLS) and endotoxin tests, filtration technology to effectively reduce the NPIs, methodologies for analytical quantification of NPIs, guidance for setting the limits of threshold concentration and the overall impact of NPIs on the therapeutic activity, performance, stability of biopharmaceuticals and protein-based formulations. NPIs with an average particle size of 100 to 200 nm are present in sugars and are a combination of various chemicals such as dextrans (with the presence of β-glucans), ash, inorganic metal salts, aromatic colorants, etc. These NPIs primarily originate from raw materials and cannot be removed during the sugar refinement process. While it is commonly believed that filtering the final formulation with a 0.22 μ sterilizing grade filter removes all microbes and particles, it is important to note that NPIs cannot be filtered using this standard sterile filtration technology. Exceeding the threshold limit of NPIs can have detrimental effects on formulations containing proteins, monoclonal Antibodies (mAbs), nucleic acids, and other biopharmaceuticals. NPIs and β-glucans have a critical impact on the functionality and therapeutic activity of biomolecules and if present below the threshold limit of reaction, stability and shelf-life of biologics formulation will be greatly improved and the risk of immunogenic reactions must be significantly decreased., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

37. Two-component nematic superconductivity in 4Hb-TaS 2 .

Author

Silber I, Mathimalar S, Mangel I, Nayak AK, Green O, Avraham N, Beidenkopf H, Feldman I, Kanigel A, Klein A, Goldstein M, Banerjee A, Sela E, and Dagan Y

Abstract

Most superconductors have an isotropic, single component order parameter and are well described by the standard (BCS) theory for superconductivity. Unconventional, multiple-component superconductors are exceptionally rare and are much less understood. Here, we combine scanning tunneling microscopy and angle-resolved macroscopic transport for studying the candidate chiral superconductor, 4Hb-TaS 2 . We reveal quasi-periodic one-dimensional modulations in the tunneling conductance accompanied by two-fold symmetric superconducting critical field. The strong modulation of the in-plane critical field, H c2 , points to a nematic, unconventional order parameter. However, the imaged vortex core is isotropic at low temperatures. We suggest a model that reconciles this apparent discrepancy and takes into account previously observed spontaneous time-reversal symmetry breaking at low temperatures. The model describes a competition between a dominating chiral superconducting order parameter and a nematic one. The latter emerges close to the normal phase. Our results strongly support the existence of two-component superconductivity in 4Hb-TaS 2 and can provide valuable insights into other systems with coexistent charge order and superconductivity., (© 2024. The Author(s).)

Published

2024

38. Surface Tailoring-Modulated Bifunctional Oxygen Electrocatalysis with CoP for Rechargeable Zn-Air Battery and Water Splitting.

Author

Kumar MM, Aparna C, Nayak AK, Waghmare UV, Pradhan D, and Raj CR

Abstract

The transition metal phosphide (TMP)-based functional electrocatalysts are very promising for the development of electrochemical energy conversion and storage devices including rechargeable metal-air batteries and water electrolyzer. Tuning the electrocatalytic activity of TMPs is one of the vital steps to achieve the desired performance of these energy devices. Herein, we demonstrate the modulation of the bifunctional oxygen electrocatalytic activity of nitrogen-doped carbon-encapsulated CoP (CoP@NC) nanostructures by surface tailoring with ultralow amount (0.56 atomic %) of Ru nanoparticles (2.5 nm). The CoP at the core and the Ru nanoparticles on the shell have a facile charge transfer interaction with the encapsulating NC. The strong coupling of Ru with CoP@NC boosts the electrocatalytic performance toward oxygen reduction (ORR), oxygen evolution (OER), and hydrogen evolution (HER) reactions. The surface-tailored catalyst requires only 35 mV to deliver the benchmark current density of 10 mA·cm -2 for HER. A small potential gap of 620 mV between ORR and OER is achieved, making the catalyst highly suitable for the development of rechargeable zinc-air batteries (ZABs). The homemade ZAB delivers a specific capacity of 780 mA·hg Zn -1 and peak power density of 175 mW·cm -2 with a very small voltaic efficiency loss (1.1%) after 300 cycles. The two-electrode water splitting cell (CoP@NC-Ru||CoP@NC-Ru) delivers remarkably low cell voltage of 1.47 V at the benchmark current density. Stable current density of 25 mA·cm -2 for 25 h without any significant change is achieved. Theoretical studies support the charge transfer interaction-induced enhanced electrocatalytic activity of the surface-tailored nanostructure.

Published

2024

39. Shape and Phase-Controlled One-Pot Synthesis of Air Stable Cationic AgCdS Nanocrystals, Optoelectronic and Electrochemical Hydrogen Evolution Studies.

Author

Chaturvedi J, Munthasir ATM, Nayak AK, Tripathi LN, Thilagar P, and Jagirdar BR

Abstract

CdS-based materials are extensively studied for photocatalytic water splitting. By incorporating Ag + into CdS nanomaterials, the catalyst's charge carrier dynamic can be tuned for photo-electrochemical devices. However, photo-corrosion and air-stability of the heterostructures limit the photocatalytic device's performance. Here, a one-pot, single molecular source synthesis of the air-stable AgCdS ternary semiconductor alloy nanostructures by heat-up method is reported. Monoclinic and hexagonal phases of the alloy are tuned by judicious choice of dodecane thiol (DDT), octadecyl amine (ODA), and oleyl amine (OLA) as capping agents. Transmission electron microscope (TEM) and powder X-ray diffraction characterization of the AgCdS alloy confirm the monoclinic and hexagonal phase (wurtzite) formation. The high-resolution TEM studies confirm the formation of AgCdS@DDT alloy nanorods and their shape transformation into nano-triangles. The nanoparticle coalescence is observed for ODA-capped alloys in the wurtzite phase. Moreover, OLA directs mixed crystal phases and anisotropic growth of alloy. Optical processes in AgCdS@DDT nano-triangles show mono-exponential decay (3.97 ± 0.01 ns). The monoclinic phase of the AgCdS@DDT nanorods exhibits higher electrochemical hydrogen evolution activity in neutral media as compared to the AgCdS@ODA/OLA alloy nanocrystals. DDT and OLA-capped alloys display current densities of 14.1 and 14.7 mA cm -2 , respectively, at 0.8 V (vs RHE)., (© 2023 Wiley-VCH GmbH.)

Published

2024

40. Unraveling the Mystery of Multi-Oocyte Follicles: An Observational Study.

Author

Sahni C, Seth S, Nayak AK, and Singh R

Subjects

Female, Male, Humans, Fertilization in Vitro, Diethylstilbestrol, Semen, Oocytes

Abstract

Introduction: Significant progress has been made in understanding oocyte fertilization and early developmental stages through in vitro fertilization (IVF) techniques. However, irregularities such as conjoined oocytes and binucleate giant oocytes, which are exceptions to the normal rule of one diploid female gamete per follicle, can potentially lead to chromosomal disorders in embryos and are recommended to be excluded from IVF attempts. The formation of primordial follicles during ovarian development, known as follicle assembly, is a critical process that establishes the ovarian follicle reserve. Multi-oocyte follicles (MOFs) containing two or more oocytes have been observed in various species, including humans, and their clinical significance on fertility and reproductive health remains unclear. Genetic and environmental factors, such as gene knockout and exposure to endocrine disruptors, have been implicated in MOF formation, but the mechanisms are not fully understood and require further investigation., Material & Method: In this Observational study, 350 slides of ovarian tissues were scanned using an AI-based automated microscope, Grundium Ocus 20, and the TIFF images were stored in cloud storage. The slides were examined using third-party software, Pathcore Seeden Viewer, for morphometry of binovular follicles., Results: In our observational study, we examined 350 ovarian tissue slides in detail by using an AI-based microscope, uncovering 22 slides from seven different tissues with binovular and multinovular oocytes. These rare multi-oocyte follicles (MOFs) challenge the conventional one-oocyte-per-follicle paradigm. MOFs are likely formed when oocytes fail to separate during cortical sex cord proliferation, regulated by factors several molecular factorsas well as environmental factors., Discussion: Multiple Ovarian Follicles (MOFs) are rare phenomena where two or more oocytes exist in one follicle. They arise when oocytes fail to separate during ovarian development, which is governed by hormones such as follicle-stimulating hormone (FSH), inhibin, BMP-15, GDF-9, and GCNF. MOFs can be caused by dysregulation and exposure to chemicals such as diethylstilbestrol (DES) and isoflavones. Binovular oocytes, which occur when two oocytes are released during ovulation and are fertilised by different sperm, can result in non-identical twins, which are influenced by genetic and environmen-tal factors such as maternal age, heredity, hormonal imbalances, and assisted reproductive techniques such as in vitro fertilisation (IVF). Polynuclear oocytes with many nuclei can develop as a result of meiotic spindle defects and environmental influences. Identifying these oocyte types may aid in improving ART results by improving knowledge of the reasons of infertility and devising appropriate interventions.

Published

2024

41. Amlodipine Ocular Delivery Restores Ferning Patterns and Reduces Intensity of Glycosylated Peak of Carrageenan-Induced Tear Fluid: An In-Silico Flexible Docking with IL-β1.

Author

Nanda A, Sahoo RN, Gour M, Swain SK, Das D, Nayak AK, and Mallick S

Subjects

Animals, Rabbits, Glycosylation, Administration, Ophthalmic, Male, Tears metabolism, Tears chemistry, Amlodipine administration & dosage, Amlodipine chemistry, Molecular Docking Simulation, Interleukin-1beta metabolism, Carrageenan

Abstract

Background: The tear ferning test can be an easy clinical procedure for the evaluation and characterization of the ocular tear film., Objective: The objective of this study was to examine the restoration of tear ferning patterns and reduction of glycosylation peak after amlodipine application in carrageenan-induced conjunctivitis., Methods: At the rabbit's upper palpebral region, carrageenan was injected for cytokine-mediated conjunctivitis. Ferning pattern and glycosylation of the tear fluid were characterized using various instrumental analyses. The effect of amlodipine was also examined after ocular instillation and flexible docking studies., Results: Optical microscopy showed a disrupted ferning of the tear collected from the inflamed eye. FTIR of the induced tear fluid exhibited peaks within 1000-1200 cm -1 , which might be due to the protein glycosylation absent in the normal tear spectrogram. The glycosylation peak reduced significantly in the tear sample collected from the amlodipine-treated group. Corresponding energy dispersive analysis showed the presence of sulphur, indicating protein leakage from the lacrimal gland in the induced group. The disappearance of sulphur from the treated group indicated its remedial effect. The flexible docking studies revealed a stronger binding mode of amlodipine with Interleukin-1β (IL-1β). The reduction in the intensity of the glycosylated peak and the restoration offering are probably due to suppression of IL-1β., Conclusion: This study may be helpful in obtaining primary information for drug discovery to be effective against IL-1β and proving tear fluid as a novel diagnostic biomarker., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

42. Recent Advancements in Bioelectronic Medicine: A Review.

Author

Das S, Ghosh B, Sahoo RN, and Nayak AK

Subjects

Humans, Animals, Electronics, Medical

Abstract

Bioelectronic medicine is a multidisciplinary field that combines molecular medicine, neurology, engineering, and computer science to design devices for diagnosing and treating diseases. The advancements in bioelectronic medicine can improve the precision and personalization of illness treatment. Bioelectronic medicine can produce, suppress, and measure electrical activity in excitable tissue. Bioelectronic devices modify specific neural circuits using electrons rather than pharmaceuticals and uses of bioelectronic processes to regulate the biological processes underlining various diseases. This promotes the potential to address the underlying causes of illnesses, reduce adverse effects, and lower costs compared to conventional medication. The current review presents different important aspects of bioelectronic medicines with recent advancements. The area of bioelectronic medicine has a lot of potential for treating diseases, enabling non-invasive therapeutic intervention by regulating brain impulses. Bioelectronic medicine uses electricity to control biological processes, treat illnesses, or regain lost capability. These new classes of medicines are designed by the technological developments in the detection and regulation of electrical signaling methods in the nervous system. Peripheral nervous system regulates a wide range of processes in chronic diseases; it involves implanting small devices onto specific peripheral nerves, which read and regulate the brain signaling patterns to achieve therapeutic effects specific to the signal capacity of a particular organ. The potential for bioelectronic medicine field is vast, as it investigates for treatment of various diseases, including rheumatoid arthritis, diabetes, hypertension, paralysis, chronic illnesses, blindness, etc., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

43. Growing Conditions and Varietal Ecologies Differently Regulates the Growth-regulating-factor (GRFs) Gene Family in Rice.

Author

Kishore Sahoo R, Jeughale KP, Sarkar S, Selvaraj S, Singh NR, Swain N, Balasubramaniasai C, Chidambaranathan P, Katara JL, Nayak AK, and Samantaray S

Abstract

Background: Growth-regulating factors (GRFs) are crucial in rice for controlling plant growth and development. Among the rice cultivation practices, aerobic methods are water efficient but result in significant yield reduction relative to non-aerobic cultivation. Therefore, mechanistic insights into aerobic rice cultivation are important for improving the aerobic performance of rice., Objectives: This study aimed to examine the evolution of GRFs in different rice species, analyse the phenotypic differences between aerobic and non-aerobic conditions in three rice varieties, and assess the expression of GRFs in these varieties under both aerobic and non-aerobic conditions., Materials and Methods: This study comprehensively examined the GRFs gene family in 11 rice species ( Oryza barthii , Oryza brachyantha , Oryza glaberrima , Oryza glumipatula , Oryza sativa subsp. indica , Oryza longistaminata , Oryza meridionalis , Oryza nivara , Oryza punctata , Oryza rufipogon , Oryza sativa subsp. japonica ) focusing on phylogenetic analysis. Additionally, the expression patterns of 12 GRFs were investigated in three distinct genotypes of O. sativa subsp. indica rice, under both non-aerobic and aerobic conditions., Results: Three major phylogenetic clades were formed based on conserved motifs in the 123 GRFs proteins in eleven rice species. Further, novel motifs were identified especially in O. longistaminata indicative of the species level evolutionary differences in rice. Among the trait performance, the number of tillers was reduced by ~ 36% under aerobic conditions, but the reduction was found to be less in CR Dhan 201, an aerobic variety. Besides, three GRFs namely GRF3, GRF4, and GRF7 were found to be distinct in expression between aerobic and non-aerobic conditions., Conclusion: Three GRF genes namely GRF3, GRF4, and GRF7 could be associated with the aerobic adaptation in rice., Competing Interests: No conflict of interests, (Copyright: © 2021 The Author(s); Published by Iranian Journal of Biotechnology.)

Published

2024

44. Chitosan-carboxymethyl tamarind gum in situ polyelectrolyte complex-based floating capsules of ofloxacin: In vitro-in vivo studies.

Author

Samanta R, Nayak S, Das B, and Nayak AK

Subjects

Animals, Rabbits, Ofloxacin chemistry, Polyelectrolytes, Polymers chemistry, Delayed-Action Preparations chemistry, Capsules, Chitosan chemistry, Tamarindus

Abstract

The current research attempted to design and evaluate sustained stomach-specific ofloxacin delivery by single-unit hydrodynamically balanced system (HBS)-based floating capsules. These HBS-based floating capsules of ofloxacin were prepared using two oppositely ionic polymers, namely cationic-natured low molecular mass chitosan (LMMCH) and anionic-natured carboxymethyl tamarind gum (CMTG). FTIR results indicated the in situ formation of a polyelectrolyte complex in-between two oppositely charged polymers (i.e., in-between -NH 2 group of the cationic natured LMMCH and -COOH groups of the anionic natured CMTG) and the nonexistence of any drug-polymer interaction(s) within these formulated ofloxacin HBS capsules. All these LMMCH-CMTG ofloxacin HBS capsules exhibited drug content uniformity, a sustained in vitro drug-releasing profile over 10 h. The ofloxacin HBS capsules (formulated with 75 mg LMMCH and 25 mg CMTG), which was selected as best formulation (for further studies), exhibited excellent in vitro floatation behaviour in SGF (pH 1.2) over 6 h without any floating lag-time, whereas the same formulation containing barium sulfate (100 mg) instead of drug demonstrated prolonged stomach-specific gastroretention in an in vivo X-ray imaging study using rabbits. Therefore, these types of HBS floating capsules can be useful for stomach-specific gastroretentive floating delivery of other drugs., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

45. Amorphous-Crystalline Interfaces on Hollow Nanocubes Derived from Ir-Doped Ni-Fe-Zn Prussian Blue Analog Enables High Capability of Alkaline/Acidic/Saline Water Oxidations.

Author

Han H, Kim SJ, Jung SY, Oh D, Nayak AK, Jang JU, Bang J, Yeo S, and Shin TH

Abstract

Development of highly efficient and robust electrocatalysts for oxygen evolution reaction (OER) under specific electrolyte is a key to actualize commercial low-temperature water electrolyzers. Herein, a rational catalyst design strategy is first reported based on amorphous-crystalline (a-c) interfacial engineering to achieve high catalytic activity and durability under diverse electrolytes that can be used for all types of low-temperature water electrolysis. Abundant a-c interface (ACI) is implemented into a hollow nanocubic (pre)-electrocatalyst which is derived from Ir-doped Ni-Fe-Zn Prussian blue analogues (PBA). The implemented c-a interface is well maintained during prolonged OER in alkaline, alkalized saline, and acidic electrolytes demonstrating its diverse functionality for water electrolysis. Notably, the final catalyst exhibits superior catalytic activity with excellent durability for OER compared to that of benchmark IrO 2 catalyst, regardless of chemical environment of electrolytes. Hence, this work can be an instructive guidance for developing the ACI engineered electroctalyst which can be diversely used for different types of low-temperature electrolyzers., (© 2023 Wiley-VCH GmbH.)

Published

2023

46. Thyme Oil-Containing Fluconazole-Loaded Transferosomal Bigel for Transdermal Delivery.

Author

Das B, Nayak AK, and Mallick S

Subjects

Fluconazole metabolism, Administration, Cutaneous, Lecithins metabolism, Drug Delivery Systems, Skin metabolism, Liposomes metabolism, Skin Absorption

Abstract

The objective of the present research was to develop fluconazole-loaded transferosomal bigels for transdermal delivery by employing statistical optimization (2 3 factorial design-based). Thin-film hydration was employed to prepare fluconazole-loaded transferomal suspensions, which were then incorporated into bigel system. A 2 3 factorial design was employed where ratios of lipids to edge activators, lipids (soya lecithin to cholesterol), and edge activators (sodium deoxycholate to Tween 80) were factors. Ex vivo permeation flux (Jss) of transferosomal bigels across porcine skin was analyzed as response. The optimal setting for optimized formulation (FO) was A= 4.96, B= 3.82, and C= 2.16. The optimized transferosomes showed 52.38 ± 1.76% DEE, 76.37 nm vesicle size, 0.233 PDI, - 20.3 mV zeta potential, and desirable deformability. TEM of optimized transferosomes exhibited a multilamelar structure. FO bigel's FE-SEM revealed a globule-shaped vesicular structure. Further, the optimized transferosomal suspension was incorporated into thyme oil (0.1% w/w)-containing bigel (TO-FO). Ex vivo transdermal fluconazole permeation from different transferosomal bigels was sustained over 24 h. The highest permeation flux (4.101 μg/cm 2 /h) was estimated for TO-FO bigel. TO-FO bigel presented 1.67-fold more increments of antifungal activity against Candida albicans than FO bigel. The prepared thyme oil (0.1% w/w)-containing transfersomal bigel formulations can be used as topical delivery system to treat candida related fungal infections., (© 2023. The Author(s), under exclusive licence to American Association of Pharmaceutical Scientists.)

Published

2023

47. Conveyance of sofosbuvir through vesicular lipid nanocarriers as an effective strategy for management of viral meningitis.

Author

Satapathy BS, Sahoo PK, Pattnaik S, Nayak AK, Maharana L, and Sahoo RN

Abstract

This study aimed to deliver a potential water-soluble antiviral drug (sofosbuvir) through optimized vesicular lipid nanocarriers (LNs) to the rat brain as a novel strategy against viral meningitis. A 2 3 factorial design approach was established to assess the effect of formulation composition and process variables on the physicochemical properties of the LNs. Sofosbuvir-loaded LNs (SLNs) were developed by lipid layer hydration method utilizing optimized parameters and evaluated for various in vitro characterizations like FTIR, DSC, XRD, FESEM, vesicle size, zeta potential, drug carrying capacity and drug release. Plasma and brain pharmacokinetic (PK) studies were conducted in Sprague-Dawley rats. FTIR data depicted the absence of any major interaction between the drug and the excipients. DSC revealed a sharp endothermic peak for the drug. XRD showed the amorphic nature of the SLNs. Optimized SLNs were spherical as depicted from FESEM with 42.43 nm size, -49.21 mV zeta potential, 8.31% drug loading and sustained drug release in vitro . Plasma/brain PK studies depicted significant improvement in key PK parameters, viz . AUC, AUMC, MRT, and V d , compared to those for the free drug. A more than 3.5-fold increase in MRT was observed for optimized SLNs (11.2 h) in brain tissue compared to the free drug (3.7 h). Ex vivo hemolysis data confirmed the non-toxic nature of the SLNs to human red blood cells. In silico docking study further confirmed strong interaction between the drug and selected protein 4YXP (herpes simplex) with docking score of -7.5 and 7EWQ protein (mumps virus) with docking score of -7.3. The optimized SLNs may be taken for further in vivo studies to pave the way towards clinical translation., Competing Interests: The authors of the article have no conflicts of interest to declare., (This journal is © The Royal Society of Chemistry.)

Published

2023

48. Silica sources for arsenic mitigation in rice: machine learning-based predictive modeling and risk assessment.

Author

Khanam R, Nayak AK, Kulsum PGPS, Mandal J, Shahid M, Tripathy R, Bhattacharyya P, Selvam P, Munda S, Manickam S, Debnath M, and Bandaru RG

Subjects

Humans, Silicon Dioxide metabolism, Soil, Edible Grain chemistry, Risk Assessment, Arsenic analysis, Oryza metabolism, Soil Pollutants analysis

Abstract

Arsenic (As) is a well-known human carcinogen, and the consumption of rice is the main pathway for the South Asian people. The study evaluated the impact of the amendments involving CaSiO 3 , SiO 2 nanoparticles, silica solubilizing bacteria (SSB), and rice straw compost (RSC) on mitigation of As toxicity in rice. The translocation of As from soil to cooked rice was tracked, and the results showed that RSC and its combination with SSB were the most effective in reducing As loading in rice grain by 53.2%. To determine the risk of dietary exposure to As, the average daily intake (ADI), hazard quotient (HQ), and incremental lifetime cancer risk (ILCR) were computed. The study observed that the ADI was reduced to one-third (0.24 μg kg -1 bw) under RSC+SSB treatments compared to the control. An effective prediction model was established using random forest model and described the accumulation of As by rice grains depend on bioavailable As, P, and Fe which explained 48.5, 5.07%, and 2.6% of the variation in the grain As, respectively. The model anticipates that to produce As benign rice grain, soil should have P and Fe concentration more than 30 mg kg -1 and 12 mg kg -1 , respectively if soil As surpasses 2.5 mg kg -1 ., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

49. Is predictive coding falsifiable?

Author

Bowman H, Collins DJ, Nayak AK, and Cruse D

Subjects

Humans, Neuroimaging

Abstract

Predictive-coding has justifiably become a highly influential theory in Neuroscience. However, the possibility of its unfalsifiability has been raised. We argue that if predictive-coding were unfalsifiable, it would be a problem, but there are patterns of behavioural and neuroimaging data that would stand against predictive-coding. Contra (vanilla) predictive patterns are those in which the more expected stimulus generates the largest evoked-response. However, basic formulations of predictive-coding mandate that an expected stimulus should generate little, if any, prediction error and thus little, if any, evoked-response. It has, though, been argued that contra (vanilla) predictive patterns can be obtained if precision is higher for expected stimuli. Certainly, using precision, one can increase the amplitude of an evoked-response, turning a predictive into a contra (vanilla) predictive pattern. We demonstrate that, while this is true, it does not present an absolute barrier to falsification. This is because increasing precision also reduces latency and increases the frequency of the response. These properties can be used to determine whether precision-weighting in predictive-coding justifiably explains a contra (vanilla) predictive pattern, ensuring that predictive-coding is falsifiable., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

50. Impact of long-term resource conservation techniques on biogeochemical characteristics and biological soil quality indicators in a rice green-gram farming system.

Author

Dash PK, Bhattacharyya P, Shahid M, Kumar U, Padhy SR, Swain CK, Senapati A, Bihari P, and Nayak AK

Subjects

Carbon analysis, Environmental Biomarkers, Quality Indicators, Health Care, Agriculture methods, Fertilizers, Nitrogen analysis, Soil chemistry, Oryza

Abstract

Nutrient management in resource conservation practices influence the structural and functional microbial diversities and thereby affect biological processes and biochemical properties in soil. We studied the long-term effects of resource conservation technologies on functional microbial diversity and their interactions with soil biochemical properties and enzymatic activities in tropical rice-green gram cropping system. The experiment includes seven treatments viz., conventional practice (CC), brown manuring (BM), green manuring (GM), wet direct drum sowing, zero tillage, green manuring-customized leaf colour chart based-N application (GM-CLCC-N) and biochar (BC) application. The result of the present study revealed that microbial biomass nitrogen (N), carbon (C) and phosphorus (P) in GM practice were increased by 23.3, 37.7 and 35.1%, respectively than CC. GM, BM and GM-CLCC-N treatments provide higher yields than conventional practice. The average well color development value, Shannon index and McIntosh index were significantly higher by 26.6%, 86.9% and 29.2% in GM as compared to control treatment. So, from this study we can conclude that resource conservation practices like GM, GM-CLCC N and BM in combination with chemical fertilizers provide easily decomposable carbon source to support the microbial growth. Moreover, dominance of microbial activity in biomass amended treatments (GM, GM-CLCC N and BM) indicated that these treatments could supply good amount of labile C sources on real time basis for microbial growth that may protect the stable C fraction in soil, hence could support higher yield and soil organic carbon build-up in long run under rice-green gram soil., (© 2023. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2023