Comparative Effects of Strain-counterstrain and Muscle Energy Techniques on Neck Pain and Functional Disability in Patients with Cervicogenic Headache

The primary objective of this study is to compare effects of SCS and METs on reduction of neck pain intensity and improvement in functional disability in individuals with CGH. The secondary objective is to assess the impact of both techniques on ROM in cervical spine

Start Date01 Feb 2025

Sponsor / Collaborator

University of Faisalabad

NCT06778694

/ Not yet recruitingNot ApplicableIIT

Comparative Effects of Motor Control and Isolated Strengthening Lumbar Exercises on Functional Outcomes in Patients with Chronic Low Back Pain

Comparative effects of motor control and isolated strengthening lumbar exercises on functional outcomes in patients with chronic low back pain

Start Date01 Feb 2025

Sponsor / Collaborator

University of Faisalabad

NCT06759675

/ Not yet recruitingNot ApplicableIIT

Comparative Effects of Group Based Exercises with and Without Cognitive Functional Therapy on Clinical Outcomes in Patients with Chronic Low Back Pain

1.1Research objective The objective of the study is to find the comparative effects of group based exercises with and without cognitive functional therapy on clinical outcomes in patients with chronic low back? 1.2 Hypothesis Null Hypothesis H0= There is no significant difference of clinical outcomes between the cognitive functional therapy with group exercises and group based exercises only in patients with chronic low back pain.
Alternative Hypothesis H1= There is a significant difference of clinical outcomes between the cognitive functional therapy with group exercises and group based exercises only in patients with chronic low back pain.

Start Date01 Jan 2025

Sponsor / Collaborator

University of Faisalabad

100 Clinical Results associated with University of Faisalabad

0 Patents (Medical) associated with University of Faisalabad

401

Literatures (Medical) associated with University of Faisalabad

01 Jun 2025·MethodsX

Four-stage Lobatto analysis on 3D magneto-hydrodynamic radiative non-newtonian nanofluid flow and heat transportation over a stretchable surface under Brownian motion and thermophorsis impact

Article

Author: Majeed, Aaqib ; Kouki, Marouan ; Ali, Parvez

Viscous dissipation and thermal radiation are essential in governing the dynamics of boundary layer flow, particularly in high-temperature engineering systems such as gas turbines, combustion engines, and industrial furnaces. Thermal radiation emerges as a primary factor of heat transfer under such conditions, while viscous dissipation contributes to the transformation of kinetic energy into thermal energy through internal frictional forces within the fluid. The present study investigates the three dimensional magneto-hydrodynamic (MHD) flow of a radiative Eyring-Powell nanofluid towards a stretchable, porous surface. The governing equations, initially formulated as partial differential equations (PDEs), are reduced to a set of coupled ordinary differential equations (ODEs) through similarity transformations. These transformed equations are numerically solved using MATLAB bvp5c solver. A detailed parametric analysis is performed to examine the impact of key dimensionless quantities, including slip parameter, Lewis number, Eckert number, thermophoresis parameter, magnetic field strength and Brownian motion parameter, on velocity profile, temperature profile and concentration distributions. The analysis reveals that the fluid velocity decreases with an increase in the magnetic field strength, whereas it exhibits an increasing trend with higher values of the Eyring-Powell fluid parameter. This paper convers the following key points:•Modeled the dynamical flow equation for hybrid Eyring-Powell nanofluid.•Analyzed the magnetic force impact on the velocity curve.•Graphical interpretations are presented, highlighting the effects of physical parameters.

04 May 2025·Numerical Heat Transfer, Part B: Fundamentals

Thermal prediction of rotatory multiwall carbon nanotubes subject to convective boundary conditions and slip effects: Implicit finite difference simulations

Author: Majeed, Aaqib ; Aziz, Sakeena ; Khan, Sami Ullah

This article presents the modeling and simulations 3D magneto-hydrodynamic rotating nanofluid flow through a stretched surface.Water is employed as the base liquid, and multiwall carbon nanotubes (MWCNTs) are used as nanosized materials.The unique structure of MWCNTs makes them stand out among the crowd.The principal concern is to enhance the thermal transport efficiency, chem. durability, and important optical and electronics properties.The classical Navier Stokes problem based upon the law of conservation of mass, momentum and energy with the Xue models implementation is transformed into an ordinary differential equation by applying similarity approach.Velocity slip and convective boundary conditions are also considered under the Lorentz force.The final form of nondimensional ODEs are, then, solved numerically using finite difference method with the assistance of MATLABs powerful software.The impression of pertinent convergence flow constraints on fluid velocity, temperature, heat transfer rate, and friction factor are exposed through tables and graphs.A numerical comparison is used to evaluate the code efficiency, and the results show excellent agreement.The effect of the Biot number appears to be raising the temperatureConversely, increasing the rotation and slip parameter parametric values results in a declining trend in the velocity profile.

30 Apr 2025·International Journal of Modern Physics B

Cavitating bubbly flow of non-Newtonian second grade fluid through nozzles: Application of reduction of cavitation damage and noise

Author: Ellahi, R. ; Nadeem, M. S. ; Zeeshan, A. ; Majeed, A. ; Sait, Sadiq M.

This research is focused on studying the behavior of bubbles in one-dimensional nozzle flows. The study delves into the complex flow of cavitating bubbles within geometries of varying cross-sectional areas, using a second-grade fluid. The cavitation phenomenon poses a potential threat, as it can harm surfaces upon bubble collapse or interaction with adjacent boundaries. Thus, the proposed model unveils the intricate behavior of cavitating bubbles in response to nozzle shape and fluid properties. The governing equations are first modeled using the Rayleigh–Plesset equation along with continuity and momentum equations for bubbly liquids. They are then simplified and nondimensionalized to solve by means of the RK method. The influence of several nondimensional parameters, including the Reynolds number, fluid parameter, cavitation number and the number of bubbles, on the flow behavior of second-grade fluid through various channels is illustrated using graphs. To validate the results, the Newtonian formulation was applied in the current setting, and it was found that the obtained results matched the available literature. Also, critical values of void fractions for the radius of the bubble are presented. The non-Newtonian properties of the fluid are observed a significant outcome for the reduction of cavitation damage and noise.

100 Deals associated with University of Faisalabad

100 Translational Medicine associated with University of Faisalabad

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