Your search keyword '"Jangili P"' showing total 14 results

1. Theoretical investigation of electromagnetohydrodynamic flow of a couple stress fluid through a circular microchannel

Author

Kumar, Brijesh, Jangili, Srinivas, and Ramana Murthy, J V

Published

2023

2. Machine learning-driven early biomarker prediction for type 2 diabetes mellitus associated coronary artery diseases

Author

Shraddha Jangili, Hariprasad Vavilala, Gopi Sumanth Bhaskar Boddeda, Suryanaryana Murty Upadhyayula, Ramu Adela, and Srinivasa Rao Mutheneni

Subjects

Type 2 diabetes, Coronary artery disease, Machine learning, Risk factors, Prediction, Public aspects of medicine, RA1-1270

Abstract

Background: Non-communicable diseases such as type 2 diabetes mellitus (T2DM) and coronary artery disease (CAD) are causing a significant burden on the human health care system. The present study aims to implement a machine learning (ML) based predictive model for T2DM, CAD and their co-occurrence, followed by identifying key variables for the occurrence of disease. Methods: The study is a data driven approach that applied various supervised ML models to predict the disease occurrence based on biochemical, demographic and physical data collected from 123 subjects. In addition, performance metrics like accuracy and AUC were used to evaluate the classification accuracy of ML models. Results: The data (n = 123 subjects) consist of male (83) and female (40) populace with ages from 35 to 70 years. Among all ML models, the Random Forest was outperformed with an accuracy of 76% (AUC:0.95). Similarly, in T2DM (AUC:0.92) and T2DM + CAD (AUC:0.94) classification, Random Forest achieved the highest accuracy followed by logistic regression for CAD data (AUC:0.98). The major risk factors recognized for T2DM, CAD and T2DM + CAD are HbA1c, FBS, CK-MB, APO.AII, APO.E, IP.10, and total cholesterol. Conclusion: The results suggest that the ML algorithms predict the prevalence of T2DM, CAD and concomitance in the populace through the integration of biochemical, physical and demographic factors. Based on the identified risk contributors for disease occurrence, preventive measures can be drafted to reduce the disease burden.

Published

2023

3. Generalized anxiety causing globus pharyngeus: A prospective study

Author

Saai Ram Thejas, Jangili Sharanya, and Ganganamoni Rajamohan

Subjects

anxiety, clonazepam, escitalopram, globus, hamilton-a anxiety scale, Medicine

Abstract

Background: Globus is a feeling of a sensation of a lump in the throat. A variety of explanations (physical and psychological) have been proposed in its etiology, but it is nonspecific nature and high incidence makes a causative association hard to establish or refute. Objective: To associate the role of Anxiety in the etiology of globus pharyngeus. Materials and Methods: A prospective study was conducted in a rural private hospital in South India. One hundred and ninety-three patients with a sensation of lump in the throat were assessed after obtaining consent. A strict inclusion and exclusion criteria meant only 54 made it to the final study. A pan endoscopy was conducted to rule out local lesions. In each patient with absence of a local lesion, Hamilton-A Anxiety (HAM-A) Scale was issued for the levels of anxiety (values between 0 and 56) and the visual analog scale (VAS) for uneasiness experienced (values between 1 and 10) before and after 12-weeks treatment. Management included oral escitalopram and clonazepam. Results: At the end of the study, the average score for HAM-A Scale was 13.96 compared to 26.17 before treatment, an improvement of 46.65%. The average values before and after treatment in the VAS before and after treatment were 7.43 and 3.33, an improvement of 55.18%. Conclusion: In the absence of a local cause, the diagnosis of globus should be looked at from psychological viewpoints. Undiagnosed or untreated anxiety can cause globus and it is more commonly seen in women in the age group of 36–45 years. The P value was significant in this study where we treated anxiety leading to globus (

Published

2023

4. A Way Forward for A Greener Future – Sustainability in Oral Health Care

Author

Hephzibah Blessy Jangili and Navya Vyas

Subjects

Oral health care, sustainability, climate change, Public aspects of medicine, RA1-1270

Abstract

Oral health professionals promote universal oral health for diseases that are primarily preventable and/or treated in their early stages. The delivery of oral health care, whether through therapeutic interventions, preventive care, or long-term maintenance, causes pollutants and has a significant carbon footprint. Oral health practitioners share a moral obligation to society to offer optimal oral health services, ensure patient safety, and decrease their environmental impact. To ensure the long-term viability of oral healthcare services, all organisations should recognise the critical need to work together to develop knowledge, identify remedial possibilities, and exchange best practices that are environmentally friendly.

Published

2023

5. Analytical solution to optimise the entropy generation in EMHD flow of non-Newtonian fluid through a microchannel

Author

Siva, Thota, Jangili, Srinivas, and Kumbhakar, Bidyasagar

Published

2022

6. Heat transfer analysis of MHD and electroosmotic flow of non-Newtonian fluid in a rotating microfluidic channel: an exact solution

Author

Siva, T., Jangili, S., and Kumbhakar, B.

Published

2021

7. Ultrasound activatable antiangiogenic sonosensitizer for VEGFR associated glioblastoma tumor models

Author

Subin Son, Chuangli Zhang, Miae Won, Paramesh Jangili, Minhyeok Choi, Jiasheng Wu, and Jong Seung Kim

Subjects

antiangiogenesis, glioblastoma, sonodynamic therapy, VEGFR blockage, Chemistry, QD1-999, Biology (General), QH301-705.5

Abstract

Abstract Angiogenic signaling pathway is a major contributing factor in cancer recurrence and progression, which can cause significantly reduced treatment outcomes, especially in the oxygen‐dependent photo‐ and sonodynamic therapies. VEGF and its receptor (VEGFR) play a crucial role in angiogenesis progression; precisely, upregulated VEGF signaling is mainly associated with angiogenesis progression in many types of cancers. Herein, we report a sunitinib‐conjugated sonosensitizer (TK‐RB: tyrosine kinase‐rose bengal) to enhance the anticancer efficacy through VEGF inhibition‐mediated antiangiogenesis in conjunction with cellular/tumor damage by ROS generated under ultrasound irradiation. TK‐RB reveals good selectivity and cytotoxicity toward VEGFR‐positive cells (U87MG) over VEGFR‐negative cells (MCF‐7). The fluorescent imaging analysis in vivo/ex vivo and the tumor growth investigation in nude mice with U87MG glioblastoma tumor xenografts demonstrate that rose bengal having tyrosine kinase inhibitor (TK‐RB) provides an enhanced antitumor effect. The current strategy will make a great contribution to optimizing anticancer performance by utilizing sonodynamic therapy together with antiangiogenics in several different malignancies.

Published

2021

8. Irreversibility analysis for reactive third-grade fluid flow and heat transfer with convective wall cooling

Author

Samuel O. Adesanya, J.A. Falade, Srinivas Jangili, and O. Anwar Bég

Subjects

Entropy generation, Convective cooling, Reactive third grade viscoelastic fluid, Irreversibility ratio, Thermal polymer processing, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Inherent irreversibility in the flow of a reactive third grade fluid though a channel with convective heating is examined. It is well known that heat dissipated from the exothermic chemical reaction passes through fluid in an irreversible manner and as a result entropy is generated continuously within the channel. Analytical solutions of the resulting dimensionless nonlinear boundary-value-problems arising from the governing equations were obtained by using perturbation method. These solutions are utilized to obtain the entropy generation rate and Bejan number for the system. The influence of various important parameters on the entropy generation rate and Bejan number are shown graphically and discussed accordingly.

Published

2017

9. Oral mucosal melanoma: A case report

Author

Ramlal Gantala, Uma M Jangili, Tejaswi Katne, and Srikanth G Gotoor

Subjects

Gingiva, malignant melanoma, palate, Dentistry, RK1-715, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Malignant melanoma is most deadly of all primary skin cancers. Over 90% of melanomas occur on the skin. Half of such melanomas occur in the oral cavity, followed by nasal cavity (44%) and sinuses (8%). In the oral cavity, the most frequent sites of occurrence are hard palate and maxillary gingiva. Mucosal melanomas represent a diagnostic challenge than the more common cutaneous melanomas because oral melanomas demonstrate significant heterogeneity in morphological features, developmental process, and biological behaviour. This case report highlights an exophytic, lobulated oral malignant melanoma involving maxillary gingiva and is presented to reemphasize the fact that any pigmented lesion in the oral cavity should be examined with suspicion; proper investigation should be carried out to rule out any untoward experiences later.

Published

2017

10. Math

Author

Srinivas Jangili, Nagaraju Gajjela, and O. Anwar Bég

Subjects

MHD flow, Micropolar fluid, Entropy generation analysis, Convective cooling, Heat generation, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The present study investigates the entropy generation in magnetized-micropolar fluid flow in between two vertical concentric rotating cylinders of infinite length. The surface of the inner cylinder is heated while the surface of the outer cylinder is cooled. Internal heat generation is incorporated. The Eringen thermo-micropolar fluid model is used to simulate the micro-structural rheological flow characteristics in the annulus region. The flow is subjected to a constant, static, axial magnetic field. The surface of the inner cylinder is prescribed to be isothermal whereas the surface of the outer cylinder was exposed to convection cooling. The conservation equations are normalized and closed-form solutions are obtained for the velocity, microrotation, temperature, entropy generation number, Bejan number and total entropy generation rate. The effects of the relevant parameters are displayed graphically. It is observed that the external magnetic force enhances the entropy production rate and it is maximum in the proximity of the inner cylinder. This causes more wear and tear at the surface of the inner cylinder. Greater Hartmann number also elevates microrotation values in the entire annulus region. The study is relevant to optimization of chemical engineering processes, nuclear engineering cooling systems and propulsion systems utilizing non-Newtonian fluids and magnetohydrodynamics.

Published

2016

11. Flow of Two Immiscible Couple Stress Fluids between Two Permeable Beds

Author

Dr. Srinivas Jangili and Ramana Murthy Venkata Josyula

Subjects

Immiscible fluids, Couple stress fluid, Permeable beds, Darcy’s law, Beavers-Joseph (BJ) slip boundary condition., Mechanical engineering and machinery, TJ1-1570

Abstract

The paper deals with the flow of two immiscible couple stress fluids between two homogeneous permeable beds. The flow is considered in two zones: zone I and II contain free flow of two immiscible couple stress fluids between two permeable porous beds at the bottom and top. The flow in the free channel bounded by two permeable beds is assumed to be governed by Stokes’s couple stress fluid flow equations and that in the permeable beds by Darcy’s law. The continuity of velocity, vorticity, shear stress and couple stress are imposed at the fluid-fluid interface and Beavers-Joseph (BJ) slip boundary conditions are employed at the fluid-porous interface. The equations are solved analytically and the expressions for velocity, skin friction and volumetric flow rate are obtained. The effects of the physical governing parameters on velocity are investigated.

Published

2016

12. Irreversibility analysis for reactive third-grade fluid flow and heat transfer with convective wall cooling.

Author

Adesanya, Samuel O., Falade, J.A., Jangili, Srinivas, and Anwar Bég, O.

Subjects

THERMAL expansion, THERMAL analysis, ANALYTICAL chemistry, HIGH temperatures, HEAT transfer

Abstract

Inherent irreversibility in the flow of a reactive third grade fluid though a channel with convective heating is examined. It is well known that heat dissipated from the exothermic chemical reaction passes through fluid in an irreversible manner and as a result entropy is generated continuously within the channel. Analytical solutions of the resulting dimensionless nonlinear boundary-value-problems arising from the governing equations were obtained by using perturbation method. These solutions are utilized to obtain the entropy generation rate and Bejan number for the system. The influence of various important parameters on the entropy generation rate and Bejan number are shown graphically and discussed accordingly. [ABSTRACT FROM AUTHOR]

Published

2017

13. Mathematical modeling of entropy generation in magnetized micropolar flow between co-rotating cylinders with internal heat generation.

Author

Jangili, Srinivas, Gajjela, Nagaraju, and Anwar Bég, O.

Subjects

ENTROPY, MICROPOLAR elasticity, FLUID flow, MAGNETISM, NEWTONIAN fluids, MAGNETOHYDRODYNAMICS

Abstract

The present study investigates the entropy generation in magnetized-micropolar fluid flow in between two vertical concentric rotating cylinders of infinite length. The surface of the inner cylinder is heated while the surface of the outer cylinder is cooled. Internal heat generation is incorporated. The Eringen thermo-micropolar fluid model is used to simulate the micro-structural rheological flow characteristics in the annulus region. The flow is subjected to a constant, static, axial magnetic field. The surface of the inner cylinder is prescribed to be isothermal whereas the surface of the outer cylinder was exposed to convection cooling. The conservation equations are normalized and closed-form solutions are obtained for the velocity, microrotation, temperature, entropy generation number, Bejan number and total entropy generation rate. The effects of the relevant parameters are displayed graphically. It is observed that the external magnetic force enhances the entropy production rate and it is maximum in the proximity of the inner cylinder. This causes more wear and tear at the surface of the inner cylinder. Greater Hartmann number also elevates microrotation values in the entire annulus region. The study is relevant to optimization of chemical engineering processes, nuclear engineering cooling systems and propulsion systems utilizing non-Newtonian fluids and magnetohydrodynamics. [ABSTRACT FROM AUTHOR]

Published

2016

14. Nanomaterial designing strategies related to cell lysosome and their biomedical applications: A review.

Author

Rathore B, Sunwoo K, Jangili P, Kim J, Kim JH, Huang M, Xiong J, Sharma A, Yang Z, Qu J, and Kim JS

Subjects

Animals, Autophagy, Drug Delivery Systems methods, Endocytosis, Humans, Nanostructures chemistry, Nanotechnology methods, Lysosomes metabolism, Nanomedicine methods, Nanostructures therapeutic use

Abstract

Lysosomes, an important organelle of eukaryotic cells, are covered with the cell membrane and contain an array of degradative enzymes. The disrupt in lysosomal functions may lead to the development of severe diseases. In nanotechnology, nanomaterials working mechanism and its biomedical output are highly dependent on the lysosomes as it plays a crucial role in intracellular transport. Several nanomaterials specifically designed for lysosome-related actions are highly advantageous in trafficking and delivering the loaded imaging/therapeutic agents. But for other applications, especially gene-based therapeutic delivery into the sub-organelles such as mitochondria and nucleus, lysosomal related degradation could be an obstacle to achieve a maximal therapeutic index. In order to understand the relationship between lysosomes and designed nanomaterials for kind of desired application in biomedical research, complete knowledge of their various designing strategies, size dependent or ligand supportive cellular uptake mechanisms, trafficking, and localizations in eukaryotic cells is highly desired. In this review, we intended to discuss various nanomaterial types that have been applied in biomedical applications based on lysosomal internalization and escape from endo/lysosomes and explored their related advantages/disadvantages. Additionally, we also deliberated nanomaterials direct translocation mechanism, their autophagic accumulation and the underlying mechanism to induced autophagy. Finally, some challenges and critical issues in current research from clinical application perspective has also been addressed. Great understanding of these factors will help in understanding and facilitating the development of safe and effective lysosomal related nanomaterial-based imaging/therapeutic systems for future applications., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019