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1. Investigation on morphological and molecular fingerprints of penguin brain using label-free optical imaging and spectroscopic techniques

Author

Sunil Bhatt, Ashwani Kumar Verma, Prabir G. Dastidar, Punit Kumar, Pramila Thapa, Tony George Jacob, Tara Sankar Roy, Soumya Iyengar, Senthil Kumaran, Balpreet Singh Ahluwalia, and Dalip Singh Mehta

Subjects
Label-free imaging, Quantitative phase imaging, Autofluorescence spectroscopy, Raman spectroscopy, Penguin brain, Medicine, Science
Abstract

Abstract The morphology and molecular study of the penguin brain are crucial to define its survival in the extreme conditions of Antarctica. The present study focusses on extracting different optical parameters of the penguin brain using label-free optical imaging and spectroscopic techniques. In label-free optical imaging, we have used quantitative phase imaging, which provides morphological information about the neurons in brain tissue, giving the quantitative phase value of 5 to 20 radians corresponding to the 8 µm tissue section. In label-free spectroscopic techniques, we have used autofluorescence and Raman spectroscopy. Autofluorescence spectroscopy provides molecular information about nicotinamide dinucleotide, flavins, lipofuscins, and porphyrins in the brain’s spectral range of 420 nm to 700 nm. Raman spectroscopy provides multiple peaks associated with different molecules in the brain; among them, few signals are observed at approximately 1305 cm−1, 1448 cm−1, and 1661 cm−1, which correspond to vibrational modes indicative of vibrational features within lipids and protein structures, as well as the presence of amide groups within brain tissue constituents. All these techniques provide the microscopic and molecular fingerprint of the penguin brain, which can be useful for understanding penguin’s anatomical, physiological, and social behavior.

Published
2025
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2. Scrotoliths in the testicular tunica vaginalis in an elderly male cadaver: clinical implications

Author

Dibakar Borthakur, Rima Dada, Rajesh Kumar, and Tony George Jacob

Subjects
Medicine
Abstract

Scrotoliths, or “scrotal pearls,” are calcified fibrous loose bodies found within the tunica vaginalis, often seen during radiological evaluation or autopsies. Chronic inflammation due to trauma, parasitic infestations, and torsion and subsequent detachment of the appendices of the testis or epididymis are postulated mechanisms suggested for their formation. They are benign but can mimic a tumor. Scrotoliths can be diagnosed with high-resolution ultrasonography. Here, we report a case in which, during routine dissection, two scrotoliths were found within the tunica vaginalis of the left testis in an elderly male cadaver. Histologically, the central portion of the scrotoliths exhibited concentric collagen lamellae that enclosed calcified remains of tissue debris. There were no arterioles, venules, or microfilarial larvae seen within them. Awareness about the histological findings can help understand the mechanism that led to their formation.

Published
2024
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4. Application of the Single Source—Detector Separation Algorithm in Wearable Neuroimaging Devices: A Step toward Miniaturized Biosensor for Hypoxia Detection

Author

Thien Nguyen, Soongho Park, Jinho Park, Asma Sodager, Tony George, and Amir Gandjbakhche

Subjects
near-infrared spectroscopy, breath holding, cerebral tissue oxygen saturation, cerebral tissue oxygenation, spatially resolved spectroscopy, Technology, Biology (General), QH301-705.5
Abstract

Most currently available wearable devices to noninvasively detect hypoxia use the spatially resolved spectroscopy (SRS) method to calculate cerebral tissue oxygen saturation (StO2). This study applies the single source—detector separation (SSDS) algorithm to calculate StO2. Near-infrared spectroscopy (NIRS) data were collected from 26 healthy adult volunteers during a breath-holding task using a wearable NIRS device, which included two source—detector separations (SDSs). These data were used to derive oxyhemoglobin (HbO) change and StO2. In the group analysis, both HbO change and StO2 exhibited significant change during a breath-holding task. Specifically, they initially decreased to minimums at around 10 s and then steadily increased to maximums, which were significantly greater than baseline levels, at 25–30 s (p-HbO < 0.001 and p-StO2 < 0.05). However, at an individual level, the SRS method failed to detect changes in cerebral StO2 in response to a short breath-holding task. Furthermore, the SSDS algorithm is more robust than the SRS method in quantifying change in cerebral StO2 in response to a breath-holding task. In conclusion, these findings have demonstrated the potential use of the SSDS algorithm in developing a miniaturized wearable biosensor to monitor cerebral StO2 and detect cerebral hypoxia.

Published
2024
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5. The use of functional near-infrared spectroscopy in tracking neurodevelopmental trajectories in infants and children with or without developmental disorders: a systematic review

Author

Wan-Chun Su, Rebekah Colacot, Nora Ahmed, Thien Nguyen, Tony George, and Amir Gandjbakhche

Subjects
functional near-infrared spectroscopy, neurodevelopment, trajectory, longitudinal study, developmental disorders, Psychiatry, RC435-571
Abstract

Understanding the neurodevelopmental trajectories of infants and children is essential for the early identification of neurodevelopmental disorders, elucidating the neural mechanisms underlying the disorders, and predicting developmental outcomes. Functional Near-Infrared Spectroscopy (fNIRS) is an infant-friendly neuroimaging tool that enables the monitoring of cerebral hemodynamic responses from the neonatal period. Due to its advantages, fNIRS is a promising tool for studying neurodevelopmental trajectories. Although many researchers have used fNIRS to study neural development in infants/children and have reported important findings, there is a lack of synthesized evidence for using fNIRS to track neurodevelopmental trajectories in infants and children. The current systematic review summarized 84 original fNIRS studies and showed a general trend of age-related increase in network integration and segregation, interhemispheric connectivity, leftward asymmetry, and differences in phase oscillation during resting-state. Moreover, typically developing infants and children showed a developmental trend of more localized and differentiated activation when processing visual, auditory, and tactile information, suggesting more mature and specialized sensory networks. Later in life, children switched from recruiting bilateral auditory to a left-lateralized language circuit when processing social auditory and language information and showed increased prefrontal activation during executive functioning tasks. The developmental trajectories are different in children with developmental disorders, with infants at risk for autism spectrum disorder showing initial overconnectivity followed by underconnectivity during resting-state; and children with attention-deficit/hyperactivity disorders showing lower prefrontal cortex activation during executive functioning tasks compared to their typically developing peers throughout childhood. The current systematic review supports the use of fNIRS in tracking the neurodevelopmental trajectories in children. More longitudinal studies are needed to validate the neurodevelopmental trajectories and explore the use of these neurobiomarkers for the early identification of developmental disorders and in tracking the effects of interventions.

Published
2023
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6. Publication models and how to choose the right journal

Author

Tony George Jacob and Peush Sahni

Subjects
impact factor, indexing, open access, pseudojournals, rejection rate, Diseases of the musculoskeletal system, RC925-935
Abstract

A key step in publishing one's manuscript is selecting the journal. If not done right, your work could lose its relevance. There are numerous factors that you may consider in choosing an appropriate journal for your manuscript and these have been listed out in this article. These include journal metrics, reputation, audience, the range and type of articles that the journal covers, turnaround time, its circulation and reach, and the business model of the journal. We, in this article, have covered certain important metrics of a journal like an impact factor, citation index, rejection rate, and the Eigen factor. We have also described the business models that govern scientific publication today – both the traditional and the open-access model – in adequate detail, along with their key advantages and disadvantages. We hope that this article would help you make the key decision of finding the right journal for your manuscript.

Published
2022
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7. Nerve fibre morphometry with transmission electron microscopy: Application of the nucleator probe in ImageJ

Author

Punit Kumar, Saroj Sharma, Charanjeet Kaur, Indra Pal, Daya Nand Bhardwaj, Tapas Chandra Nag, Tara Sankar Roy, and Tony George Jacob

Subjects
Application of the nucleator probe with ImageJ, Science
Abstract

Stereology and semiautomated binary image histomorphometry are two common methods used for morphometry of nerve fibres. Nucleator probe can be used for the estimation of morphometric parameters like diameter, perimeter, area and volume of a structure that is approximately either a circle or a sphere. In this study, we estimated these parameters with the help of ImageJ software on calibrated transmission electron micrographs. We procured samples of the cochlear nerve (CN) during winter months, within 6-12 hours of death, to reduce post-mortem autolytic changes. The temporal bones containing the CN were fixed by immersion in chilled paraformaldehyde. After dissecting out from the petrous part of the temporal bone, the CN were osmicated and processed for embedding in resin. From the resin blocks, silver coloured (70 nm) ultrathin sections were cut and picked on 300-mesh copper grids, stained with uranyl acetate and lead citrate and viewed under Tecnai G2-20 transmission electron microscope. The transmission electron micrographs had scale bars embedded into them by the software at the time of imaging, and the morphometric parameters of randomly selected nerve fibres were measured using the ImageJ software. The ImageJ software could become a low-cost and dependable tool for nerve fibre morphometry. • Nucleator probe is used for the estimation of morphometric parameters like diameter, perimeter, area or volume • Morphometric parameters were estimated by the ImageJ software on calibrated transmission electron micrographs • The ImageJ software could become a low-cost and dependable tool for nerve fibre morphometry

Published
2023
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9. Aberrant Cutaneous Nerve Loops in the Axilla

Author

Vishwajit Ravindra Deshmukh, Harshita Bhardwaj, Feroz Khan, and Tony George Jacob

Subjects
axilla, lymph node, nerve plexus, intercostobrachial nerve, surgery, Medicine
Abstract

During routine dissection classes, conducted for first year undergraduate medical students, we encountered a rare anatomical variation in relation to the intercostobrachial nerve (ICBN). The ICBN represents the lateral undivided cutaneous branch of second intercostal nerve. In this case, the ICBN formed nerve loops with branches of the lateral cutaneous branch of the third intercostal nerve. These loops eventually gave branches that probably supplied the floor of the axilla and proximal arm. Nowadays, this ICBN is gaining clinical importance during the axillary lymph node dissections and mammary gland surgeries. Damage to the ICBN, may results in the sensory deficits in patients undergoing surgery. In our case report, ICBN was making aberrant nerve loop along with the branches from the third intercostal nerve. Knowledge regarding the origin, formation and route of ICBN is of clinical significance to axillary surgeons, radiologist and anesthesiologists.

Published
2017
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10. ARTIFICIAL NEURAL NETWORK BASED ULTRASONIC SENSOR SYSTEM FOR DETECTION OF ADULTERATION IN EDIBLE OIL

Author

TONY GEORGE, ELIZABETH RUFUS, and ZACHARIAH C. ALEX

Subjects
Adulteration detection, Ultrasound, Artificial neural network, Non- destructive testing, sensor., Engineering (General). Civil engineering (General), TA1-2040, Technology (General), T1-995
Abstract

This paper presents the design, development and experimental validation of an ultrasonic sensor system for the detection of adulteration in edible oil. Variation of ultrasonic wave propagation characteristics like attenuation coefficient, reflection coefficient and velocity of propagation in pure and adulterated oil were used for developing the algorithm to detect the adulteration. Measurement cell was designed for operating ultrasonic transducer at 1 MHz using COMSOL 4.4. Artificial Neural Network (ANN) based algorithm was also developed for improving the efficiency of the sensor system. It is found that this system can detect adulteration with an accuracy of 99.53% for sunflower oil added in pure coconut oil, whereas 98.82% for palm oil added in pure coconut oil.

Published
2017

11. Development of a Novel Technique to Dissect the Mesentery That Preserves Mesenteric Continuity and Enables Characterization of the ex vivo Mesentery

Author

Ashutosh Kumar, Muneeb A. Faiq, Hare Krishna, Vijay Kishan, Gladwin V. Raj, John Calvin Coffey, and Tony George Jacob

Subjects
development, mesoduodenum, mesocolon, peritoneum, posterior abdominal wall, retroperitoneum, Surgery, RD1-811
Abstract

Introduction: The conventional model of abdominal anatomy described multiple mesenteries. Dissection techniques were based on this. Recent studies demonstrate the mesentery is continuous from duodenojejunal flexure to anorectal junction. Given this, it is important to update dissection techniques related to the mesentery in the cadaveric setting.Materials and Methods: A technique of mesenteric dissection was developed and tested in a cohort of 20 adult human cadavers (12 male and 8 female). As the technique enabled excision of the mesentery as a single unit, it was possible to characterize the anatomy of the ex vivo mesentery.Results: The technique developed enabled dissection of an intact and continuous mesentery in all cadavers examined. Examination of the ex vivo mesentery demonstrated that a mesoduodenum was present in all cases. The mesentery was continuous from the mesoduodenum to the mesorectum and ended at the level of the anorectal junction.Conclusions: A technique was developed that reproducibly enabled dissection of an intact and continuous mesentery from the duodenum to the anorectal junction. A mesoduodenum was consistently observed and noted to be in continuity with the remainder of the mesentery.

Published
2020
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12. The Sizes and Albedos of Centaurs 2014 YY49 and 2013 NL24 from Stellar Occultation Measurements by RECON

Author

Ryder H. Strauss, Rodrigo Leiva, John M. Keller, Elizabeth Wilde, Marc W. Buie, Robert J. Weryk, JJ Kavelaars, Terry Bridges, Lawrence H. Wasserman, David E. Trilling, Deanna Ainsworth, Seth Anthony, Robert Baker, Jerry Bardecker, James K Bean Jr., Stephen Bock, Stefani Chase, Bryan Dean, Chessa Frei, Tony George, Harnoorat Gill, H. Wm. Gimple, Rima Givot, Samuel E. Hopfe, Juan M. Cota Jr., Matthew Kehrli, Rebekah King, Sean L. Haley, Charisma Lara, Nels Lund, Martin L. Mattes, Keitha McCandless, Delsie McCrystal, Josh McRae, Leonardo Emmanuel Rodriguez Melgarejo, Paola Mendoza, Alexandra Miller, Ian R. Norfolk, Bruce Palmquist, Robert D. Reaves, Megan L Rivard, Michael von Schalscha, Ramsey Schar, Timothy J Stoffel, Diana J. Swanson, Doug Thompson, J. A. Wise, Levi Woods, and Yuehai Yang

Subjects
Stellar occultation, Centaur group, Astronomy, QB1-991
Abstract

In 2019, the Research and Education Collaborative Occultation Network (RECON) obtained multiple-chord occultation measurements of two Centaur objects: 2014 YY _49 on 2019 January 28 and 2013 NL _24 on 2019 September 4. RECON is a citizen-science telescope network designed to observe high-uncertainty occultations by outer solar system objects. Adopting circular models for the object profiles, we derive a radius $r={16}_{-1}^{+2}$ km and a geometric albedo ${p}_{V}={0.13}_{-0.024}^{+0.015}$ for 2014 YY _49 and a radius $r={66}_{-5}^{+5}$ km and a geometric albedo ${p}_{V}={0.045}_{-0.008}^{+0.006}$ for 2013 NL _24 . To the precision of these measurements, no atmosphere or rings are detected for either object. The two objects measured here are among the smallest distant objects measured with the stellar occultation technique. In addition to these geometric constraints, the occultation measurements provide astrometric constraints for these two Centaurs at a higher precision than has been feasible by direct imaging. To supplement the occultation results, we also present an analysis of color photometry from the Pan-STARRS surveys to constrain the rotational light curve amplitudes and spectral colors of these two Centaurs. We recommend that future work focus on photometry to more deliberately constrain the objects’ colors and light curve amplitudes and on follow-on occultation efforts informed by this astrometry.

Published
2021
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15. Core-shell hydrogel particles harvest, concentrate and preserve labile low abundance biomarkers.

Author

Caterina Longo, Alexis Patanarut, Tony George, Barney Bishop, Weidong Zhou, Claudia Fredolini, Mark M Ross, Virginia Espina, Giovanni Pellacani, Emanuel F Petricoin, Lance A Liotta, and Alessandra Luchini

Subjects
Medicine, Science
Abstract

The blood proteome is thought to represent a rich source of biomarkers for early stage disease detection. Nevertheless, three major challenges have hindered biomarker discovery: a) candidate biomarkers exist at extremely low concentrations in blood; b) high abundance resident proteins such as albumin mask the rare biomarkers; c) biomarkers are rapidly degraded by endogenous and exogenous proteinases.Hydrogel nanoparticles created with a N-isopropylacrylamide based core (365 nm)-shell (167 nm) and functionalized with a charged based bait (acrylic acid) were studied as a technology for addressing all these biomarker discovery problems, in one step, in solution. These harvesting core-shell nanoparticles are designed to simultaneously conduct size exclusion and affinity chromatography in solution. Platelet derived growth factor (PDGF), a clinically relevant, highly labile, and very low abundance biomarker, was chosen as a model. PDGF, spiked in human serum, was completely sequestered from its carrier protein albumin, concentrated, and fully preserved, within minutes by the particles. Particle sequestered PDGF was fully protected from exogenously added tryptic degradation. When the nanoparticles were added to a 1 mL dilute solution of PDGF at non detectable levels (less than 20 picograms per mL) the concentration of the PDGF released from the polymeric matrix of the particles increased within the detection range of ELISA and mass spectrometry. Beyond PDGF, the sequestration and protection from degradation for a series of additional very low abundance and very labile cytokines were verified.We envision the application of harvesting core-shell nanoparticles to whole blood for concentration and immediate preservation of low abundance and labile analytes at the time of venipuncture.

Published
2009
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20. Investigation on morphological and molecular fingerprints of penguin brain using label-free optical imaging and spectroscopic techniques.

Author

Bhatt, Sunil, Verma, Ashwani Kumar, Dastidar, Prabir G., Kumar, Punit, Thapa, Pramila, Jacob, Tony George, Roy, Tara Sankar, Iyengar, Soumya, Kumaran, Senthil, Ahluwalia, Balpreet Singh, and Mehta, Dalip Singh

Abstract

The morphology and molecular study of the penguin brain are crucial to define its survival in the extreme conditions of Antarctica. The present study focusses on extracting different optical parameters of the penguin brain using label-free optical imaging and spectroscopic techniques. In label-free optical imaging, we have used quantitative phase imaging, which provides morphological information about the neurons in brain tissue, giving the quantitative phase value of 5 to 20 radians corresponding to the 8 µm tissue section. In label-free spectroscopic techniques, we have used autofluorescence and Raman spectroscopy. Autofluorescence spectroscopy provides molecular information about nicotinamide dinucleotide, flavins, lipofuscins, and porphyrins in the brain’s spectral range of 420 nm to 700 nm. Raman spectroscopy provides multiple peaks associated with different molecules in the brain; among them, few signals are observed at approximately 1305 cm−1, 1448 cm−1, and 1661 cm−1, which correspond to vibrational modes indicative of vibrational features within lipids and protein structures, as well as the presence of amide groups within brain tissue constituents. All these techniques provide the microscopic and molecular fingerprint of the penguin brain, which can be useful for understanding penguin’s anatomical, physiological, and social behavior. [ABSTRACT FROM AUTHOR]

Published
2025
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21. Integrating the Sustainable Development Goals into India's Legal Education Landscape: The What, Why and How of a Reform Paradigm.

Author

Puthucherril, Tony George, Sharma, Charu, Shenoy, Amritha V., Sood, Saurabh, and Lal, Stuti

Subjects
LAW schools, ENVIRONMENTAL management, SUSTAINABLE development, ACADEMIA, LEGAL rights
Abstract

In this era of the Anthropocene, where four of the nine planetary boundaries have been crossed, the need for environmental stewardship, social equity and sustainability cannot be over-emphasized. So critical is the sustainability discourse that it has transcended disciplinary boundaries, permeating various aspects and sectors of human endeavour. A critical area where sustainability, as evidenced by the sustainable development goals (SDGs) framework, exerts influence is higher education and, more importantly, legal education. This article examines the intersection between sustainability (SDGs), human rights and legal education. It makes a case that if legal education, like other disciplines, has to propel the pursuit of a more liveable and equitable future, it is imperative to embed sustainability (SDGs) within legal education's academic landscape. This central theme is examined against India's legal education scenario. While there are a few isolated attempts to foster a culture of sustainability within the realm of legal academia in India, among these, the efforts of Jindal Global University and its law school, namely, Jindal Global Law School, stand out due to their steadfast commitment to this ideal. Jindal Global University (JGU) and Jindal Global Law School (JGLS) have strategically positioned sustainability as a foundational tenet of their institutional ethos, and their endeavours serve as a compelling example for institutions in India and elsewhere seeking to elevate their commitment to sustainability. Accordingly, based on the proactive initiatives of JGU and JGLS, this article develops a reform paradigm centred on what, why and how to revamp India's legal education sector to infuse it with a sustainable culture. [ABSTRACT FROM AUTHOR]

Published
2025
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30. Developments in legislating dam safety in India: a tale of ifs and buts?

Author

Tony George Puthucherril

Subjects
Management, Monitoring, Policy and Law
Abstract

Given the many dams worldwide, safety is critical as a dam failure can negatively impact human health, property and the environment. India has a substantial stock of dams, ranking third after the US and China. However, about 80 percent of its large dams are over 25 years old, and nearly 227 dams are over 100 years. These ‘geriatric’ dams continue to function but raise serious safety concerns, with a classic example being the 127-year-old Mullaperiyar Dam. Although India’s track record of dam safety is more or less satisfactory, there has been poor maintenance and several failures. Even though ‘water’ under India’s Constitution is a matter that India’s States determine, India recently enacted the Dam Safety Act, 2021 at the national level. Many have expressed criticism of this statute for being ‘anti-federal’. This article evaluates the law on dam safety in India by highlighting the salience of India’s Dam Safety Act. The core argument is that given legislative laxity on the part of States in adopting dam safety measures, and the limitations on a State to legislate beyond its borders, the Union did need to intervene via the Dam Safety Act. By enacting this statute, the Union has not usurped the States’ powers. Instead, it has fortified cooperative federalism by creating institutional structures at the central and State levels to ensure that dam safety is not compromised and that people do not have to lose their lives unnecessarily.

Published
2023
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31. Investigations of open-shell open-shell interactions : NO-O₂ and NO₂-O₂ complexes

Author

Starkey, Tony George and Howard, Brian J.

Subjects
537.5, Microwave spectroscopy, Van der Waals forces, Fourier transform infrared spectroscopy
Abstract

This thesis details research undertaken in the investigation of the open-shell open-shell Van der Waals complexes between nitric oxide (NO) and oxygen (O2) and between nitrogen dioxide (NO2 ) and oxygen (O2 ). The Fourier transform microwave spectroscopy technique was used during the experimental work. Spectra were recorded for a mixture of NO and O2 over the frequency range 7.0 to 18.2 GHz. Detailed ab initio calculations have been performed on the potential energy surface of both NO-O2 and NO2-O2 using Multi-reference Rayleigh Schrodinger Second Order Perturbation Theory. These calculations were performed for the four distinct states of NO-O2, 2A", 4A", 2A' and 4A', and for the two distinct states of NO,sub>2-O2, 2A and 4A. Predicted rotational spectra have been generated by modelling the systems with a rigid-rotor Hamiltonians. The effective Hamiltonians included the rotational Hamiltonian, ℋrot, fine structure terms and hyperfine structure terms. It was not possible, for rationalizable reasons, to fit the predicted spectra for NO-O2 to the experimental observations. Experimental details, calculation methods and rotational theory are discussed in the main body of the thesis. Predicted spectra, relevant calculations and other data is presented in the appendices.

Published
2007

34. Water Federalism, Tribunalization of Water Justice and Hydro-Politics: India’s Inter-State River Water Disputes Act at 65 Years

Author

Tony George Puthucherril

Abstract

India’s water federalism is at a crossroads. It is a unique two-tier system that has the constitutional and enabling provisions for water management and inter-state water dispute resolution as its base. These support the tribunal system that adjudicates inter-state river water disputes and administers water justice. More than six decades have elapsed since its establishment. At the same time, during this period, the per capita water availability has fallen drastically. India is now one of the world’s most water-stressed countries. Water disputes between States are becoming more animated and highly volatile. This article examines water federalism in India in terms of two questions: 1) Should water be transferred from the State List to the Concurrent List? 2) Should India persist with the tribunal system or replace it with the judicial process at the Supreme Court level? The first assumes importance as India persists with the river linking project. The second is relevant because the Inter-State River Water Disputes Act is almost 65 years old. In 2016, India’s Supreme Court re-wrote the law, and, more recently, the Union Government sought to revamp the Inter-State River Water Disputes Act through amendments. All these impel the need to re-look the idea of water federalism as it operates in India in its entirety.

Published
2022
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35. Integrating Nanomaterial and High-Performance Fuzzy-Based Machine Learning Approach for Green Energy Conversion

Author

A. V. L. N. Sujith, R. Swathi, R. Venkatasubramanian, Nookala Venu, S. Hemalatha, Tony George, A. Hemlathadhevi, P. Madhu, Alagar Karthick, M. Muhibbullah, and Sameh M. Osman

Subjects
Article Subject, T1-995, General Materials Science, Technology (General)
Abstract

Biomass is a renewable and sustainable green energy material. It is made up of lignin, cellulose, and hemicellulose with considerable amount of water, extractives, and inorganic chemical compounds. The use of biomass materials and other biogenic wastes for energy recovery represents an eco-friendly way. Biomass material selection is one of the most significant aspects for any energy conversion process, and it is a common outsourcing problem that includes material preparation, reactor performance, economic assessment, and calorific value of the products. Fuzzy systems can be quite useful in high-performance computing during the selection of biomass materials. In each engineering process, material selection is a crucial step since each material is having its own set of characteristics. This study presents the application of type-1 fuzzy set for the selection of suitable biomass material for yielding maximum bio-oil. This study focuses on seven locally available materials such as rice straw (M-1), sunflower shell (M-2), hardwood (M-3), wheat straw (M-4), sugarcane bagasse (M-5), corn cop (M-6), and palm shell (M-7). The study evaluated seven important properties of the materials such as lignin (P-1), cellulose (P-2), hemicellulose (P-3), volatile matter (P-4), fixed carbon (P-5), moisture content (P-6), and ash content (P-7). The findings demonstrated that sugarcane bagasse (M-5) is the best option for maximum bio-oil yield. Furthermore, the potential of nanoscale catalysts in improving the yield of bio-oil through real-time experiments was studied. The findings of this work add to our understanding of the application of fuzzy-based systems for energy applications.

Published
2022
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44. Effect of calorie-restriction and rapamycin on autophagy and the severity of caerulein-induced experimental acute pancreatitis in mice

Author

Manish Kumar Sharma, Kumari Priyam, Punit Kumar, Pramod Kumar Garg, Tara Sankar Roy, and Tony George Jacob

Abstract

BackgroundImpaired autophagy contributes to development of acute pancreatitis (AP). We studied the effect of inducing autophagy by calorie-restriction and rapamycin, separately, in the caerulein-induced model of severe AP.MethodsAdult, male, Swiss albino mice were given eight, hourly, intraperitoneal injections of caerulein (Ce) (50µg/Kg/dose). The interventions were calorie restriction (CR) and rapamycin (2mg/Kg). Mice were sacrificed at the 9th hour. Pancreas was harvested for histopathology and immunoblotting. Amylase activity and the levels of cytokines were measured in plasma.ResultsThe histopathological score and amylase activity were significantly lower in calorie-restricted caerulein-induced AP (CRCeAP) in comparison to animals that had unrestricted access to chow. In the CRCeAP group, levels of IL-6 and GM-CSF in plasma were lower and the expression of LC3II and Beclin-1 were higher. On transmission electron-microscopy, the area occupied by autophagic vacuoles was higher in CRCeAP. The expression of caspase-8 and caspase-9 was also higher in CRCeAP. In rapamycin with caerulein-induced AP (Rapa+CeAP), the histopathological score and amylase activity were significantly lower than caerulein-induced AP (CeAP). In Rapa+CeAP, the expression of LC3II and Beclin-1 were higher, whereas; SQSTM1 was decreased. The number of autophagic vacuoles in Rapa+CeAP group was fewer. Interleukin-6 (IL-6), tumor necrosis factor-α (TNF-α) and monocyte chemoattractant protein-1 (MCP-1) were lower in Rapa+CeAP. Caspase-3 increased and high mobility group box 1 (HMGB1) decreased in Rapa+CeAP.ConclusionCalorie-restriction and rapamycin can individually decrease the severity of injury in the caerulein-induced model of severe AP.

Published
2022
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45. Groundwater management in India's Punjab and Haryana: a case of too little and too late?

Author

Sushruti Tripathi, Surya Gupta, Armin Rosencranz, and Tony George Puthucherril

Subjects
Geography, geography.geographical_feature_category, Abundance (ecology), Drainage basin, Integrated water resources management, Cusp (anatomy), Water resource management, Law, Green Revolution, Groundwater, Energy (miscellaneous), Water scarcity, Waterlogging (agriculture)
Abstract

The North Indian states of Punjab and Haryana (P&H) are a part of the water-rich Indo-Gangetic river basin. Despite this abundance, both states are on the cusp of a severe water crisis due to groun...

Published
2021
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49. Genome‐Wide Association Study in 3,173 Outbred Rats Identifies Multiple Loci for Body Weight, Adiposity, and Fasting Glucose

Author

Jordan A. Tripi, Paul J. Meyer, Hao Chen, Tengfei Wang, Oksana Polesskaya, Celine L. St. Pierre, Aidan P. Horvath, Leah C. Solberg Woods, Cassandra L. Versaggi, Wenyan Han, Shelly B. Flagel, Connor Martin, Keita Ishiwari, Christopher P. King, Tony George, Jerry B. Richards, Abraham A. Palmer, Hannah Bimschleger, Riyan Cheng, Angel Garcia Martinez, Alesa R. Hughson, Apurva S. Chitre, Katie Holl, Jianjun Gao, Alexander Lamparelli, Terry E. Robinson, and Alexander F. Gileta

Subjects
Male, Candidate gene, Endocrinology, Diabetes and Metabolism, Medicine (miscellaneous), 030209 endocrinology & metabolism, Single gene, Genome-wide association study, Biology, Body weight, Polymorphism, Single Nucleotide, Article, Fasting glucose, Endocrinology & Metabolism, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, medicine, Animals, Obesity, 030212 general & internal medicine, Gene, Adiposity, Genetic association, Genetics, Nutrition and Dietetics, Body Weight, Fasting, medicine.disease, Rats, Glucose, Genetic Loci, Female, Genome-Wide Association Study
Abstract

Author(s): Chitre, Apurva S; Polesskaya, Oksana; Holl, Katie; Gao, Jianjun; Cheng, Riyan; Bimschleger, Hannah; Garcia Martinez, Angel; George, Tony; Gileta, Alexander F; Han, Wenyan; Horvath, Aidan; Hughson, Alesa; Ishiwari, Keita; King, Christopher P; Lamparelli, Alexander; Versaggi, Cassandra L; Martin, Connor; St Pierre, Celine L; Tripi, Jordan A; Wang, Tengfei; Chen, Hao; Flagel, Shelly B; Meyer, Paul; Richards, Jerry; Robinson, Terry E; Palmer, Abraham A; Solberg Woods, Leah C | Abstract: ObjectiveObesity is influenced by genetic and environmental factors. Despite the success of human genome-wide association studies, the specific genes that confer obesity remain largely unknown. The objective of this study was to use outbred rats to identify the genetic loci underlying obesity and related morphometric and metabolic traits.MethodsThis study measured obesity-relevant traits, including body weight, body length, BMI, fasting glucose, and retroperitoneal, epididymal, and parametrial fat pad weight in 3,173 male and female adult N/NIH heterogeneous stock (HS) rats across three institutions, providing data for the largest rat genome-wide association study to date. Genetic loci were identified using a linear mixed model to account for the complex family relationships of the HS and using covariates to account for differences among the three phenotyping centers.ResultsThis study identified 32 independent loci, several of which contained only a single gene (e.g., Epha5, Nrg1, Klhl14) or obvious candidate genes (e.g., Adcy3, Prlhr). There were strong phenotypic and genetic correlations among obesity-related traits, and there was extensive pleiotropy at individual loci.ConclusionsThis study demonstrates the utility of HS rats for investigating the genetics of obesity-related traits across institutions and identify several candidate genes for future functional testing.

Published
2020
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