Your search keyword '"Muhammad Mubashir"' showing total 30 results

1. Extracellular lipase production from Bacillus cereus by using agro-industrial waste.

Author

Mazhar H, Afzal A, Afzal H, Noureen A, Ahmad MMI, Amaan S, Abbas N, Zhu H, and Khawar MB

Abstract

Lipases are crucial biocatalysts in various industrial applications, and there is considerable interest in developing sustainable methods for their synthesis. This study focuses on the isolation, screening, and comparison of Bacillus cereus strains to produce extracellular lipases utilizing agro-industrial waste through solid-state fermentation. The results indicate that B. cereus exhibited optimal lipase production with soybean extract, yielding 41.2 ± 1.08 µ/ml (p < 0.05), followed by bagasse with 40.5 ± 0.97 µ/ml (p < 0.05). Other substrates, including rice bran (9.9 µ/ml), wheat bran (25.8 µ/ml), sunflower seed (24.0 µ/ml), and oat bran (10.2 µ/ml), demonstrated significantly lower enzyme activity. Additionally, lipase production from fruit peels was assessed, with banana yielding 21.1 µ/ml, orange 20.3 µ/ml, melon 16.3 µ/ml, and watermelon 16.43 µ/ml. Various oil wastes were also evaluated, showing lipase activities of 14.6 µ/ml (Sitara oil), 13.3 µ/ml (Shan oil), 11.0 µ/ml (automobile oil), and 10.2 µ/ml (cooking oil). The bacterial lipases produced from B. cereus demonstrated maximum hydrolysis of tributyrin agar medium at 40°C (p < 0.05). The findings suggest that utilizing different agro-industrial wastes for the production of extracellular lipase could help mitigate environmental pollution while providing a viable option for commercial enzyme production., Competing Interests: Declarations. Conflict of interest: The authors have declared that there is no conflict of interest. Ethical approval: Not applicable., (© 2024. Akadémiai Kiadó Zrt.)

Published

2024

2. LH-stimulated periodic lincRNA HEOE regulates follicular dynamics and influences estrous cycle and fertility via miR-16-ZMAT3 and PGF2α in pigs.

Author

Liu M, Chen J, Liu S, Zhang C, Chao X, Yang H, Xu Q, Wang T, Bi H, Ding Y, Wang Z, Muhammad A, Muhammad M, Schinckel AP, and Zhou B

Subjects

Animals, Female, Swine, Granulosa Cells metabolism, Granulosa Cells drug effects, Apoptosis drug effects, Apoptosis genetics, Gene Expression Regulation drug effects, Mice, Cell Proliferation drug effects, RNA, Long Noncoding genetics, RNA, Long Noncoding metabolism, MicroRNAs genetics, MicroRNAs metabolism, Estrous Cycle, Ovarian Follicle metabolism, Ovarian Follicle drug effects, Fertility genetics, Luteinizing Hormone metabolism, Dinoprost metabolism

Abstract

Disruption of the estrous cycle affects fertility and reproductive health. Follicular dynamics are key to the regularity of the estrous cycle. We identified a novel lincRNA, HEOE, showing significant upregulation in the ovaries during the estrus phase across various pig breeds. Functional analysis revealed that HEOE is responsive to luteinizing hormone (LH) stimulation, modulating transcriptional suppression and alternative splicing in ovarian granulosa cells (GCs). This leads to increased GC apoptosis and inhibition of proliferation. Mechanistically, HEOE inhibits miR-16 maturation in the nucleus, and sequesters miR-16 in the cytoplasm, thereby collectively reducing miR-16's inhibition on ZMAT3, enhancing the expression of ZMAT3, a key factor in the p53 pathway and alternative splicing, thereby regulating follicular development. This effect was validated in both mice and pig follicles. Persistent overexpression or suppression of HEOE throughout the estrous cycle impairs cycle regularity and reduces litter size. These outcomes are associated with HEOE reduced follicular PGF2α levels and modulation of the cAMP signaling pathway. Our data, combined with public databases, indicate that the high expression of HEOE during the estrus phase is crucial for maintaining the estrous cycle. HEOE is a potential therapeutic target for regulating fertility and ensuring estrous cycle regularity in pigs., 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

3. Longitudinal-Torsional Frequency Coupling Design of Novel Ultrasonic Horns for Giant Magnetostrictive Transducers.

Author

Mughal KH, Shirinzadeh B, Qureshi MAM, Munir MM, and Rehman MSU

Abstract

The use of advanced brittle composites in engineering systems has necessitated robotic rotary ultrasonic machining to attain high precision with minimal machining defects such as delamination, burrs, and cracks. Longitudinal-torsional coupled (LTC) vibrations are created by introducing helical slots to a horn's profile to enhance the quality of ultrasonic machining. In this investigative research, modified ultrasonic horns were designed for a giant magnetostrictive transducer by generating helical slots in catenoidal and cubic polynomial profiles to attain a high amplitude ratio (TA/LA) and low stress concentrations. Novel ultrasonic horns with a giant magnetostrictive transducer were modelled to compute impedances and harmonic excitation responses. A structural dynamic analysis was conducted to investigate the effect of the location, width, depth and angle of helical slots on the Eigenfrequencies, torsional vibration amplitude, longitudinal vibration amplitude, stresses and amplitude ratio in novel LTC ultrasonic horns for different materials using the finite element method (FEM) based on the block Lanczos and full-solution methods. The newly designed horns achieved a higher amplitude ratio and lower stresses in comparison to the Bezier and industrial stepped LTC horns with the same length, end diameters and operating conditions. The novel cubic polynomial LTC ultrasonic horn was found superior to its catenoidal counterpart as a result of an 8.45% higher amplitude ratio. However, the catenoidal LTC ultrasonic horn exhibited 1.87% lower stress levels. The position of the helical slots was found to have the most significant influence on the vibration characteristics of LTC ultrasonic horns followed by the width, depth and angle. This high amplitude ratio will contribute to the improved vibration characteristics that will help realize good surface morphology when machining advanced materials.

Published

2024

4. Influence of Confining Element Stiffness on the In-Plane Seismic Performance of Confined Masonry Walls.

Author

Ajmal MM, Qazi AU, Ahmed A, Mughal UA, Kazmi SMS, and Munir MJ

Abstract

Confined masonry (CM) construction is being increasingly adopted for its cost-effectiveness and simplicity, particularly in seismic zones. Despite its known benefits, limited research exists on how the stiffness of confining elements influences the in-plane behavior of CM. This study conducted a comprehensive parametric analysis using experimentally validated numerical models of single-wythe, squat CM wall panels under quasi-static reverse cyclic loading. Various cross-sections and reinforcement ratios were examined to assess the impact of the confining element stiffness on the deformation response, the cracking mechanism, and the hysteretic behavior. The key findings included the observation of symmetrical hysteresis in experimental CM panels under cyclic loading, with a peak lateral strength of 114.3 kN and 108.5 kN in push-and-pull load cycles against 1.7% and 1.3% drift indexes, respectively. A finite element (FE) model was developed based on a simplified micro-modeling approach, demonstrating a maximum discrepancy of 2.6% in the peak lateral load strength and 5.4% in the initial stiffness compared to the experimental results. The parametric study revealed significant improvements in the initial stiffness and seismic strength with increased depth and reinforcement in the confining elements. For instance, a 35% increase in the lateral strength was observed when the depth of the confining columns was augmented from 150 mm to 300 mm. Similarly, increasing the steel reinforcement percentage from 0.17% to 0.78% resulted in a 16.5% enhancement in the seismic strength. These findings highlight the critical role of the stiffness of confining elements in enhancing the seismic performance of CM walls. This study provides valuable design insights for optimizing CM construction in seismic-prone areas, particularly regarding the effects of confining element dimensions and reinforcement ratios on the structural resilience.

Published

2024

5. Electroosmotic and Gyrotactic Microorganisms Effects on MHD Al 2 O 3 -Cu/Blood Hybrid Nanofluid Flow through Multi-Stenosed Bifurcated Artery.

Author

Khanduri U, Sharma BK, Almohsen B, and Bhatti MM

Subjects

Humans, Constriction, Pathologic, Arteries, Hot Temperature, Electroosmosis, Hemodynamics

Abstract

Background: The purpose of this study is to investigate the electroosmotic flow of a hybrid nanofluid (Al2O3-Cu/Blood) with gyrotactic microorganisms through a bifurcated artery with mild stenosis in both parent and daughter arteries. The flow is subjected to a uniform magnetic field, viscous dissipation, and a heat source., Methods: The governing equations undergo the non-dimensional transformation and coordinate conversion to regularize irregular boundaries, then solve the resulting system using the Crank-Nicolson method., Results: In both sections of the bifurcated artery (parent and daughter artery), the wall shear stress (WSS) profile decreases with increasing stenotic depth. Nusselt profile increases with an increase in the heat source parameter., Conclusions: The present endeavour can be beneficial for designing better biomedical devices and gaining insight into the hemodynamic flow for therapeutic applications in the biomedical sciences., Competing Interests: The authors declare no conflict of interest., (© 2024 The Author(s). Published by IMR Press.)

Published

2024

6. The Role of Nanofluids in Renewable Energy Engineering.

Author

Bhatti MM, Vafai K, and Abdelsalam SI

Abstract

The phenomenon of nanofluid flows is intrinsically characterized by several scales and intricate physical processes [...].

Published

2023

7. Metastatic prostate tumor to testes: Sign of advance disease.

Author

Ahmed SA, Nawaz MM, Masood Y, Maqbool H, and Mir K

Abstract

Prostate cancer is the second most common cause of mortality for males in the United States. Metastases may be present, typically in the axial skeletal region. To date, few patients have presented with metastases to the testicles. We present the case of an adult male with diagnosed prostate cancer who presented and subsequently diagnosed bilateral testicular metastases. Testicular metastases secondary to diagnosed prostate cancer are very rare. Patients present with these metastases may have unfavorable prognosis. This case demonstrates that prostate cancer may metastasize to rare locations such as the testes, requiring further surgical intervention., (© 2023 The Authors.)

Published

2023

8. Entropy Generation and Thermal Radiation Analysis of EMHD Jeffrey Nanofluid Flow: Applications in Solar Energy.

Author

Sharma BK, Kumar A, Gandhi R, Bhatti MM, and Mishra NK

Abstract

This article examines the effects of entropy generation, heat transmission, and mass transfer on the flow of Jeffrey fluid under the influence of solar radiation in the presence of copper nanoparticles and gyrotactic microorganisms, with polyvinyl alcohol-water serving as the base fluid. The impact of source terms such as Joule heating, viscous dissipation, and the exponential heat source is analyzed via a nonlinear elongating surface of nonuniform thickness. The development of an efficient numerical model describing the flow and thermal characteristics of a parabolic trough solar collector (PTSC) installed on a solar plate is underway as the use of solar plates in various devices continues to increase. Governing PDEs are first converted into ODEs using a suitable similarity transformation. The resulting higher-order coupled ODEs are converted into a system of first-order ODEs and then solved using the RK 4th-order method with shooting technique. The remarkable impacts of pertinent parameters such as Deborah number, magnetic field parameter, electric field parameter, Grashof number, solutal Grashof number, Prandtl number, Eckert number, exponential heat source parameter, Lewis number, chemical reaction parameter, bioconvection Lewis number, and Peclet number associated with the flow properties are discussed graphically. The increase in the radiation parameter and volume fraction of the nanoparticles enhances the temperature profile. The Bejan number and entropy generation rate increase with the rise in diffusion parameter and bioconvection diffusion parameter. The novelty of the present work is analyzing the entropy generation and solar radiation effects in the presence of motile gyrotactic microorganisms and copper nanoparticles with polyvinyl alcohol-water as the base fluid under the influence of the source terms, such as viscous dissipation, Ohmic heating, exponential heat source, and chemical reaction of the electromagnetohydrodynamic (EMHD) Jeffrey fluid flow. The non-Newtonian nanofluids have proven their great potential for heat transfer processes, which have various applications in cooling microchips, solar energy systems, and thermal energy technologies.

Published

2023

9. Oxidative Stress in Beta-thalassemia Patients: Role of Enzymatic and Non-enzymatic Modulators.

Author

Fatima T, Khan S, Khan MM, Kamran R, Uddin MW, and Sohrab S

Subjects

Humans, Oxidative Stress physiology, Reactive Oxygen Species, Vitamin D, Case-Control Studies, Antioxidants metabolism, beta-Thalassemia genetics, beta-Thalassemia pathology

Abstract

Background: Oxidative stress is a pathophysiological state that arises due to an imbalance created between ROS generation and the antioxidant potential of the host cell. Transfusion- dependent beta-thalassemia major patients are at high risk of cellular and molecular damages induced by ROS mainly due to iron overload caused by repetitive blood transfusion., Objectives: To analyze oxidative stress status levels in β-thalassemia patients. To analyze the expression profile of enzymatic (NOS2, OGG1, HuR, SOD2) and non-enzymatic (VDR) redox regulators in β-thalassemia patients. To assess polymorphism in VDR (rs2228570) and NOS2 (rs944725) in β-thalassemia patients. To analyze serum vitamin D levels of β-TM patients compared to healthy individuals., Methods: The present case-control study aimed to identify Vitamin D levels in the serum of β-thalassemia patients and compared it with healthy subjects. The study further analyzed VDR FOKI (rs2228570) polymorphism through ARMS-PCR. Expression profiling of VDR, anti-oxidant enzyme (SOD2 and GPx), and their respective regulator (HuR and NrF2) transcripts was done by the 2 -ΔΔCt method., Results: The study reports that there is no a significant difference between the Vitamin D levels among healthy and patients. VDR polymorphism analysis (rs2228570) demonstrates that although the C allele is prevalent in the study cohort, the frequency of the T allele is comparatively higher in β-thalassemia patients as compared to healthy subjects. Furthermore, patients express lower levels of anti-oxidant enzymes despite having increased oxidative stress., Conclusion: The study reports that β-thalassemia patients are at higher risk of cellular and molecular damages induced by oxidative stress and their associated pathologies inefficient enzymatic and non-enzymatic anti-oxidant defense systems., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2023

10. Magnetic Nanoparticles for Drug Delivery through Tapered Stenosed Artery with Blood Based Non-Newtonian Fluid.

Author

Bhatti MM, Sait SM, and Ellahi R

Abstract

Nanoparticles play an essential role in biomedical applications. A most promising area in nanomedicine is drug targeting which is done with the aid of magnetized nanoparticles. In this study, the hemodynamics of hybrid nanofluid flow with gold and copper nanoparticles suspended in it is investigated. This research primarily focuses on magnetic drug delivery which is propagated through a tapered stenosed artery under three situations, including converging, diverging, and non-tapering arteries. To explore the rheological characteristics of blood, a Sutterby fluid, which is a non-Newtonian fluid, is postulated. The energy equation also incorporates the effects of the magnetic field and joule heating, as well as the viscous dissipation function. Lubrication theory provides a mathematical framework for model formulation. The hypothesized modeling is simplified to a set of nonlinear differential equations that are then solved using a perturbation method up to the second order of approximation. Graphs are used to describe the outcomes of different evolving parameters. The Sutterby fluid parameter opposes the flow negligibly, whereas the Hartmann number and thermal Grashof number strengthen the flow field. Copper nanoparticles (in the absence of gold nanoparticles) are observed to deplete the thermal profile substantially more than gold nanoparticles. Nevertheless, the thermal profile is enhanced by the presence of both nanoparticles (hybrid nanofluids). For greater values of the Sutterby fluid parameter, the wall shear stress has been observed to rise considerably, whereas the inverse is true for the Hartmann number and the thermal Grashof number. The present results have been improved to give significant information for biomedical scientists who are striving to study blood flow in stenosis situations, as well as for those who will find the knowledge valuable in the treatment of different diseases.

Published

2022

11. Study of the Magnetized Hybrid Nanofluid Flow through a Flat Elastic Surface with Applications in Solar Energy.

Author

Bhatti MM, Öztop HF, and Ellahi R

Abstract

The main theme of the present study is to analyze numerically the effects of the magnetic field on the hybrid nanofluid flow over a flat elastic surface. The effects of the thermal and velocity slips are also analyzed in view of the hybrid nanofluid flow. It is considered a combination of titanium oxide (TiO 2 ) and copper oxide (CuO) nanoparticles that are suspended in the incompressible and electrically conducting fluid (water). The behavior of the Brownian motion of the nanoparticles and the thermophoretic forces are contemplated in the physical and mathematical formulations. Moreover, the impact of the Joule heating and viscous dissipation are also discussed using the energy equation. The mathematical modeling is simulated with the help of similarity variables. The resulting equations are solved using the Keller-Box method with a combination of finite difference schemes (FDSs). Hybrid nanofluids provide significant advantages over the usual heat transfer fluids. Therefore, the use of nanofluids is beneficial to improve the thermophysical properties of the working fluid. All of the results are discussed for the various physical parameters involved in governing the flow. From the graphical results, it is found that the hybrid nanoparticles improve the concentration, temperature, and velocity profiles, as well as the thickness of the relevant boundary layer. The conjunction of a magnetic field and the velocity slip, strongly opposes the fluid motion. The boundary layer thickness and concentration profile are significantly reduced with the higher levels of the Schmidt number.

Published

2022

12. Pathological Distal Tibial and Fibular Fracture in a Paediatric Patient: A Case Report.

Author

Siddiqui MM and Pillai A

Abstract

Paediatric distal tibial and fibular fractures are seen quite regularly in orthopaedic trauma practice. Most patients are managed conservatively with closed reduction or casting while only a selected few required surgical treatment. Surgical options include plating, percutaneous Kirschner wires, rigid intramedullary nails, and flexible intramedullary nailing. This is dependent upon the patient's age, fracture site, comminution, and concomitant injuries. Here, we present an interesting case of a patient with an unusual lesion seen at the fracture site. This lesion was curetted out during surgery and filled with an injectable synthetic Cerament bone void filler (Bone Support AB, Lund, Sweden), which later formed into bone and allowed the bone to remodel., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2022, Siddiqui et al.)

Published

2022

13. A Systematic Review on the Incidence of Stent Migration in the Treatment of Acute and Chronic Iliofemoral Disease Using Dedicated Venous Stents.

Author

Badesha AS, Siddiqui MM, Bains BRS, Bains PRS, and Khan T

Subjects

Chronic Disease, Humans, Iliac Vein diagnostic imaging, Incidence, Quality of Life, Retrospective Studies, Stents, Treatment Outcome, Vascular Patency, Vascular Diseases, Venous Thrombosis diagnostic imaging, Venous Thrombosis epidemiology, Venous Thrombosis therapy

Abstract

Objectives: This systematic review investigated the incidence of stent migration in patients with acute and chronic deep venous iliofemoral disease who were treated with dedicated venous stents. Procedural approaches, clinical and stent patency outcomes, and other complications are described., Methods: MEDLINE and Embase were searched for literature published from January, 2012 to December, 2021. Evidence on the study population and procedural characteristics, and outcomes related to symptomatic changes, health-related quality of life, stent patency and complications was presented., Results: Fourty-two studies were identified from 857 articles found through the database searches. Five-hundred seventy acute deep vein thrombosis patients and 2,859 chronic disease patients were included. Ten dedicated venous stent brands were employed. There were six episodes of stent migration (0.17% of patients) of which three involved a closed-cell stent and one involved a hybrid-design stent. The 12-month primary patency rate in patients with acute deep vein thrombosis ranged from 86 to 88%, whilst secondary patency was 96%. Amongst the chronic-disease cohort the primary and secondary patency were noted to range from 59 to 94%, and 87 to 100%, respectively. The pooled 12-month primary and secondary stent patency rates were 73.8% and 91.5%, respectively., Conclusions: Iliofemoral stenting using dedicated venous stents is associated with a low rate of stent migration although this may be due to a lack of reporting. Further research with specific surveillance protocols is necessary to reliably determine the true incidence of stent migration., (Copyright © 2022. Published by Elsevier Inc.)

Published

2022

14. Renal endometriosis: A benign disease with malignant presentation.

Author

Nawaz MM, Masood Y, Usmani AS, Basheer MI, Sheikh UN, and Mir K

Abstract

Endometriosis is a common gynecological disorder in which endometrial tissue is located outside the uterine cavity. Urinary tract involvement by endometriosis is uncommon. Renal endometriosis is a rare disorder and is not evident on imaging. It may be misdiagnosed as malignant disease and patients may undergo invasive procedures for it. We report a case of a young lady who presented with symptoms typical for renal mass, and was diagnosed as a tumor on imaging. Patient underwent radical surgery and histology revealed renal endometriosis., (© 2022 The Authors.)

Published

2022

15. Rheological Modeling of Metallic Oxide Nanoparticles Containing Non-Newtonian Nanofluids and Potential Investigation of Heat and Mass Flow Characteristics.

Author

Rizwan M, Hassan M, Makinde OD, Bhatti MM, and Marin M

Abstract

Nanofluids have great potential due to their improved properties that make them useful for addressing various industrial and engineering problems. In order to use nanofluids on an industrial scale, it is first important to discuss their rheological behavior in relation to heat transfer aspects. In the current study, the flow characteristics of nanofluids are discussed using a mathematical model that is developed by fundamental laws and experimental data. The data are collected in the form of viscosity versus shear rate for different homogeneous ethylene glycol- (EG) based nanofluids, which are synthesized by dispersing 5-20% nanoparticle concentrations of SiO 2 , MgO, and TiO 2 with diameters of (20-30 nm, 60-70 nm), (20 nm, 40 nm), and (30 nm, 50 nm), respectively. The data are fitted into a rheological power-law model and further used to govern equations of a physical problem. The problem is simplified into ordinary differential equations by using a boundary layer and similarity transformations and then solved through the numerical Runge-Kutta (RK) method. The obtained results in the form of velocity and temperature profiles at different nanoparticle concentrations and diameters are displayed graphically for discussion. Furthermore, displacement and momentum thicknesses are computed numerically to explain boundary-layer growth. The results show that the velocity profile is reduced and the temperature profile is raised by increasing the nanoparticle concentration. Conversely, the velocity profile is increased and the temperature profile is decreased by increasing the nanoparticle diameter. The results of the present investigation regarding heat and mass flow behavior will help engineers design equipment and improve the efficacy and economy of the overall process in the industry.

Published

2022

16. Computational Framework of Magnetized MgO-Ni/Water-Based Stagnation Nanoflow Past an Elastic Stretching Surface: Application in Solar Energy Coatings.

Author

Bhatti MM, Bég OA, and Abdelsalam SI

Abstract

In this article, motivated by novel nanofluid solar energy coating systems, a mathematical model of hybrid magnesium oxide (MgO) and nickel (Ni) nanofluid magnetohydrodynamic (MHD) stagnation point flow impinging on a porous elastic stretching surface in a porous medium is developed. The hybrid nanofluid is electrically conducted, and a magnetic Reynolds number is sufficiently large enough to invoke an induced magnetic field. A Darcy model is adopted for the isotropic, homogenous porous medium. The boundary conditions account for the impacts of the velocity slip and thermal slip. Heat generation (source)/absorption (sink) and also viscous dissipation effects are included. The mathematical formulation has been performed with the help of similarity variables, and the resulting coupled nonlinear dimensionless ordinary differential equations have been solved numerically with the help of the shooting method. In order to test the validity of the current results and the convergence of the solutions, a numerical comparison with previously published results is included. Numerical results are plotted for the effect of emerging parameters on velocity, temperature, magnetic induction, skin friction, and Nusselt number. With an increment in nanoparticle volume fraction of both MgO and Ni nanoparticles, the temperature and thermal boundary layer thickness of the nanofluid are elevated. An increase in the porous medium parameter (Darcy number), velocity slip, and thermal Grashof number all enhance the induced magnetic field. Initial increments in the nanoparticle volume fraction for both MgO and Ni suppress the magnetic induction near the wall, although, subsequently, when further from the wall, this effect is reversed. Temperature is enhanced with heat generation, whereas it is depleted with heat absorption and thermal slip effects. Overall, excellent thermal enhancement is achieved by the hybrid nanofluid.

Published

2022

17. Mathematical modeling and simulation of electromagnetohydrodynamic bio-nanomaterial flow through physiological vessels.

Author

Ramesh K, Tripathi D, Bhatti MM, Ghachem K, Khan SU, and Kolsi L

Subjects

Computer Simulation, Gold, Models, Theoretical, Metal Nanoparticles, Nanostructures

Abstract

Gold-based metal nanoparticles serve a key role in diagnosing and treating important illnesses such as cancer and infectious diseases. In consideration of this, the current work develops a mathematical model for viscoelastic nanofluid flow in the peristaltic microchannel. Nanofluid is considered as blood-based fluid suspended with gold nanoparticles. In the investigated geometry, various parametric effects such as Joule heating, magnetohydrodynamics, electroosmosis, and thermal radiation have been imposed. The governing equations of the model are analytically solved by using the lubrication theory where the wavelength of the channel is considered large and viscous force is considered more dominant as compared to the inertia force relating the applications in biological transport phenomena. The graphical findings for relevant parameters of interest are given. In the current analysis, the ranges of the parameters have been considered as: 0 < κ < 6 , 0 < λ 1 < 0 . 6 , 2 < M < 8 , 0 < ζ 1 < 3 , 0 < ζ 2 < 3 , 0 . 1 < ϕ 1 < 0 . 4 , 0 < B r < 3 , 0 < β < 3 , 0 < R n < 0 . 3 and 0 < ϕ < π / 2 . The current results reveal that, A stronger magnetic field leads the enhancement in nanoparticle temperature and shear stress, and it reduces the velocity and trapping bolus. The nanoparticle temperature rises with the increasing parameters such as Brinkman number and Joule heating parameter.

Published

2022

18. Free Convective Flow of Hamilton-Crosser Model Gold-water Nanofluid Through a Channel with Permeable Moving Walls.

Author

Pattnaik PK, Abbas MA, Mishra S, Khan SU, and Bhatti MM

Subjects

Computer Simulation, Gold, Hot Temperature, Metal Nanoparticles, Water

Abstract

Background: The present manuscript analyzes the influence of buoyant forces of a conducting time-dependent nanofluid flow through porous moving walls. The medium is also filled with porous materials. In addition to that, uniform heat source and absorption parameters are considered that affect the nanofluid model., Introduction: The model is based on the thermophysical properties of Hamilton-Crosser's nanofluid model, in which a gold nanoparticle is submerged into the base fluid water. Before simulation is obtained by a numerical method, suitable transformation is used to convert nonlinear coupled PDEs to ODEs., Method: Runge-Kutta's fourth-order scheme is applied successfully for the first-order ODEs in conjunction with the shooting technique., Result: Computations for the coefficients of rate constants are presented through graphs, along with the behavior of several physical parameters augmented by the flow phenomena., Conclusion: The present investigation may be compatible with the applications of biotechnology. It is seen that the inclusion of volume concentration and the fluid velocity enhances near the middle layer of the channel and retards near the permeable walls. Also, augmented values of the Reynolds number and both cooling and heating of the wall increase the rate of shear stress., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2022

19. Double-diffusion convective biomimetic flow of nanofluid in a complex divergent porous wavy medium under magnetic effects.

Author

Javid K, Hassan M, Tripathi D, Khan S, Bobescu E, and Bhatti MM

Subjects

Diffusion, Porosity, Biomimetics, Magnetic Fields, Nanotechnology

Abstract

We explore the physical influence of magnetic field on double-diffusive convection in complex biomimetic (peristaltic) propulsion of nanofluid through a two-dimensional divergent channel. Additionally, porosity effects along with rheological properties of the fluid are also retained in the analysis. The mathematical model is developed by equations of continuity, momentum, energy, and mass concentration. First, scaling analysis is introduced to simplify the rheological equations in the wave frame of reference and then get the final form of equations after applying the low Reynolds number and lubrication approach. The obtained equations are solved analytically by using integration method. Physical interpretation of velocity, pressure gradient, pumping phenomena, trapping phenomena, heat, and mass transfer mechanisms are discussed in detail under magnetic and porous environment. The magnitude of velocity profile is reduced by increasing Grashof parameter. The bolus circulations disappeared from trapping phenomena for larger strength of magnetic and porosity medium. The magnitude of temperature profile and mass concentration are increasing by enhancing the Brownian motion parameter. This study can be productive in manufacturing non-uniform and divergent shapes of micro-lab-chip devices for thermal engineering, industrial, and medical technologies., (© 2021. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2021

20. Conical Statistical Optimal Near-Field Acoustic Holography with Combined Regularization.

Author

Cheng W, Ni J, Song C, Ahsan MM, Chen X, Nie Z, and Liu Y

Abstract

For the sound field reconstruction of large conical surfaces, current statistical optimal near-field acoustic holography (SONAH) methods have relatively poor applicability and low accuracy. To overcome this problem, conical SONAH based on cylindrical SONAH is proposed in this paper. Firstly, elementary cylindrical waves are transformed into those suitable for the radiated sound field of the conical surface through cylinder-cone coordinates transformation, which forms the matrix of characteristic elementary waves in the conical spatial domain. Secondly, the sound pressure is expressed as the superposition of those characteristic elementary waves, and the superposition coefficients are solved according to the principle of superposition of wave field. Finally, the reconstructed conical pressure is expressed as a linear superposition of the holographic conical pressure. Furthermore, to overcome ill-posed problems, a regularization method combining truncated singular value decomposition (TSVD) and Tikhonov regularization is proposed. Large singular values before the truncation point of TSVD are not processed and remaining small singular values representing high-frequency noise are modified by Tikhonov regularization. Numerical and experimental case studies are carried out to validate the effectiveness of the proposed conical SONAH and the combined regularization method, which can provide reliable evidence for noise monitoring and control of mechanical systems.

Published

2021

21. Analysis of security and privacy challenges for DNA-genomics applications and databases.

Author

Arshad S, Arshad J, Khan MM, and Parkinson S

Subjects

Confidentiality, DNA, Genomics, Humans, Computer Security, Privacy

Abstract

DNA technology is rapidly moving towards digitization. Scientists use software tools and applications for sequencing, synthesizing, analyzing and sharing of DNA and genomic data, operate lab equipment and store genetic information in shared datastores. Using cutting-edge computing methods and techniques, researchers have decoded human genome, created organisms with new capabilities, automated drug development and transformed food safety. Such software applications are typically developed to progress scientific understanding and as such cyber security is never a concern for these applications. However, with the increasing commercialisation of DNA technologies, coupled with the sensitivity of DNA data, there is a need to adopt a security-by-design approach. In this paper we investigate bio-cyber security threats to genomic-DNA data and software applications making use of such data to advance scientific research. Specifically, we adopt an empirical approach to analyse and identify vulnerabilities within genomic-DNA databases and bioinformatics software applications that can lead to cyber-attacks affecting the confidentiality, integrity and availability of such sensitive data. We present a detailed analysis of these threats and highlight potential protection mechanisms to help researchers pursue these research directions., (Copyright © 2021. Published by Elsevier Inc.)

Published

2021

22. Transgenerational phenotypic plasticity of diapause induction and related fitness cost in a commercial strain of the parasitoid Aphidius ervi Haliday.

Author

Saeed MM, Tougeron K, Raza ABM, Afzal M, Aqueel A, Le Goff GJ, Renoz F, Pirotte J, and Hance T

Subjects

Animals, Aphids parasitology, Cold Temperature, Life Cycle Stages, Life History Traits, Seasons, Adaptation, Physiological physiology, Diapause, Insect physiology, Hymenoptera physiology

Abstract

Diapause is an adaptation that insects have evolved to synchronize their life cycle with that of seasonal climatic changes and resources availability. However, cues for its induction are not always clear and, in some cases, a maternal effect may be involved. At the population level, just a part of the individuals may exhibit diapause with important consequences in terms of winter survival. Moreover, clear indicators of diapause state are difficult to identify. Diapause induction was thus investigated in the aphid parasitoid species Aphidius ervi Haliday (Hymenoptera: Braconidae) developing in the aphid Sitobion avenae (Hemiptera: Aphididae) at four crossed photothermal regimes (16 °C and 8 °C, 16:8 h L:D and 8:16 h L:D), and during 2 successive generations. We analyzed the reliability of changes in mummy color to assess for the diapausing state compared to dissections, and we measured parasitoid morphological and physiological traits. We observed that the proportion of dark brown mummies increased after one generation under low photothermal regime compared to other regimes. No diapause was recorded at 16 °C, 16:8 h L:D, while we observed 16.2% and 67.5% diapause incidence at 8 °C, 8:16 h L:D, at 1st and 2nd generation, respectively. Diapause induction is thus increased by short day-length conditions and low temperatures as well as by maternal effects. All parasitoid life-history traits (weight, size, fat content, water content, egg-load, and longevity) were affected by the photothermal regime and/or the generation. These results raise new questions on the environmental thresholds needed to induce diapause and on survival and adaptation potential of commercially available parasitoid strains in different environments., (© 2020 Institute of Zoology, Chinese Academy of Sciences.)

Published

2021

23. Entropy Analysis on the Blood Flow through Anisotropically Tapered Arteries Filled with Magnetic Zinc-Oxide (ZnO) Nanoparticles.

Author

Zhang L, Bhatti MM, Marin M, and S Mekheimer K

Abstract

The present analysis deals with the entropy analysis of the blood flow through an anisotropically tapered arteries under the suspension of magnetic Zinc-oxide (ZnO) nanoparticles (NPs). The Jeffrey fluid model is contemplated as blood that is electrically conducting and incompressible. The lubrication approach is used for the mathematical modeling. The second law of thermodynamics is used to examine the entropy generation. The exact solutions are obtained against velocity and temperature profile with the use of computational software. The results for Entropy, Velocity, Bejan number, temperature profile, and impedance profile are discussed by plotting the graphs. ZnO-NPs have promising applications in biomedical engineering due to its low toxicity, economically reliable, and excellent biocompatibility. ZnO-NPs also emerged in medicine i.e., antibacterial and anticancer activity, and also beneficial in antidiabetic treatment. The monitoring of the blood temperature in the case of the tapered artery has supreme importance in controlling the temperature of blood in the living environment. The presence of a magnetic field is advantageous to manage and control the blood motion at different temperatures. The present outcomes are enriched to give valuable information for the research scientists in the field biomedical science, who are looking to examine the blood flow with stenosis conditions and also beneficial in treating multiple diseases.

Published

2020

24. Core curriculum case illustration: blunt traumatic thoracic aortic pseudo aneurysm.

Author

Ramzan MM, Fadl SA, and Robinson JD

Subjects

Accidents, Traffic, Adult, Humans, Male, Aneurysm, False diagnostic imaging, Aorta, Thoracic injuries, Multiple Trauma diagnostic imaging, Thoracic Injuries diagnostic imaging, Tomography, X-Ray Computed, Wounds, Nonpenetrating diagnostic imaging

Abstract

Core Curriculum Illustration: [blunt thoracic aortic pseudo aneurysm]. This is the [40th] installment of a series that will highlight one case per publication issue from the bank of cases available online as part of the American Society of Emergency Radiology (ASER) educational resources. Our goal is to generate more interest in and use of our online materials. To view more cases online, please visit the ASER Core Curriculum and Recommendations for Study online at: http://www.aseronline.org/curriculum/toc.html.

Published

2019

25. Core curriculum case illustration: placental abruption.

Author

Fadl SA, Sabry AS, Ramzan MM, and Linnau KF

Subjects

Adult, Diagnosis, Differential, Female, Humans, Pregnancy, Abruptio Placentae diagnostic imaging, Ultrasonography methods

Abstract

This is the 33rd installment of a series that will highlight one case per publication issue from the bank of cases available online as part of the American Society of Emergency Radiology (ASER) educational resources. Our goal is to generate more interest in and use of our online materials. To view more cases online, please visit the ASER Core Curriculum and Recommendations for Study online at: http://www.erad.org/page/CCIP&#95;TOC .

Published

2018

26. Core curriculum case illustration: olecranon fracture.

Author

Fadl SA, Ramzan MM, and Sandstrom CK

Subjects

Bone Plates, Bone Screws, Diagnosis, Differential, Humans, Male, Radius Fractures diagnostic imaging, Radius Fractures therapy, Young Adult, Accidental Falls, Fracture Fixation, Internal methods, Fractures, Bone diagnostic imaging, Fractures, Bone surgery, Olecranon Process injuries

Abstract

This is the 31st installment of a series that will highlight one case per publication issue from the bank of cases available online as part of the American Society of Emergency Radiology (ASER) educational resources. Our goal is to generate more interest in and use of our online materials. To view more cases online please visit the ASER Core Curriculum and Recommendations for Study online at: http://www.erad.org/page/CCIP&#95;TOC .

Published

2018

27. Core curriculum case illustration: medial peritalar dislocation.

Author

Ramzan MM, Fadl SA, and Sandstrom CK

Subjects

Accidental Falls, Aged, Diagnosis, Differential, Humans, Joint Dislocations surgery, Male, Tomography, X-Ray Computed, Joint Dislocations diagnostic imaging, Subtalar Joint diagnostic imaging, Subtalar Joint injuries

Abstract

This is the 29th installment of a series that will highlight one case per publication issue from the bank of cases available online as part of the American Society of Emergency Radiology (ASER) educational resources. Our goal is to generate more interest in and use of our online materials. To view more cases online, please visit the ASER Core Curriculum and Recommendations for Study online at: http://www.aseronline.org/curriculum/toc.htm .

Published

2018

28. Core curriculum illustration: anterior process fracture of the calcaneus.

Author

Fadl SA, Ramzan MM, and Sandstrom CK

Subjects

Accidental Falls, Adult, Diagnosis, Differential, Emergency Medicine education, Female, Fractures, Bone therapy, Humans, Radiology education, Tomography, X-Ray Computed, Calcaneus injuries, Fractures, Bone diagnostic imaging

Abstract

This is the 28th installment of a series that will highlight one case per publication issue from the bank of cases available online as part of the American Society of Emergency Radiology (ASER) educational resources. Our goal is to generate more interest in and use of our online materials. To view more cases online, please visit the ASER Core Curriculum and Recommendations for Study online at http://www.aseronline.org/curriculum/toc.htm .

Published

2018

29. Core curriculum illustration: acute pyelonephritis.

Author

Ramzan MM and Sandstrom CK

Subjects

Aged, 80 and over, Contrast Media, Diagnosis, Differential, Female, Humans, Klebsiella Infections microbiology, Klebsiella pneumoniae isolation & purification, Pyelonephritis microbiology, Klebsiella Infections diagnostic imaging, Pyelonephritis diagnostic imaging, Tomography, X-Ray Computed

Abstract

This is the 26th installment of a series that will highlight one case per publication issue from the bank of cases available online as part of the American Society of Emergency Radiology (ASER) educational resources. Our goal is to generate more interest in and use of our online materials. To view more cases online please visit the ASER Core Curriculum and Recommendations for Study online at: http://www.aseronline.org/curriculum/toc.htm .

Published

2017

30. Sentinel hospital-based surveillance for assessment of burden of rotavirus gastroenteritis in children in Pakistan.

Author

Kazi AM, Warraich GJ, Qureshi S, Qureshi H, Khan MM, and Zaidi AK

Subjects

Cross-Sectional Studies, Hospitals statistics & numerical data, Humans, Pakistan epidemiology, Rotavirus Infections epidemiology, Gastroenteritis epidemiology, Rotavirus pathogenicity

Abstract

Objectives: To determine the burden and molecular epidemiology of rotavirus gastroenteritis in children hospitalized with severe acute watery diarrhea in Pakistan prior to introduction of rotavirus vaccine., Methods: A cross-sectional study was carried out over a period of two years from 2006 - 2008 at five sentinel hospitals in the cities of Karachi, Lahore, Rawalpindi, and Peshawar. Stool samples collected from children under five years of age hospitalized with severe acute watery diarrhea were tested for rotavirus antigen via enzyme immunoassay (EIA) (IDEA REF K6020 Oxoid Ltd (Ely), Cambridge, United Kingdom). A subset of EIA positive stool samples were further processed for genotyping., Results: 6679 children were enrolled and stool specimens of 2039 (30.5%) were positive for rotavirus. Rotavirus positivity ranged from 16.3% to 39.4% in the 5 hospitals with highest positivity in Lahore. 1241 (61%) of all rotavirus cases were in infants under one year of age. Among the strains examined for G-serotypes, the occurrence of G1, G2, G9 and G4 strains was found to be 28%, 24%, 14% and 13%, respectively. Among P-types, the most commonly occurring strains were P6 (31.5%) followed by P8 (20%) and P4 (12%). Prevalent rotavirus genotype in hospitalized children of severe diarrhea were G1P[8] 11.6% (69/593), followed by G2P[4] 10.4% (62/593), and G4P[6] 10.1% (60/593)., Conclusions: Approximately one third of children hospitalized with severe gastroenteritis in urban centers in Pakistan have rotavirus. Introduction of rotavirus vaccine in Pakistan's national immunization program could prevent many severe episodes and diarrheal deaths.

Published

2014