Your search keyword '"A. Jahanbakhsh"' showing total 96 results

1. Nous: Drop-Freeness and Duplicate-Freeness for Consistent Updating in SDN Multicast Routing

Author

Gao, Xiaofeng, Majidi, Akbar, Gao, Yucen, Wu, Guanhao, Jahanbakhsh, Nazila, Kong, Linghe, and Chen, Guihai

Abstract

Consistent routing updates through Software-Defined Networking (SDN) can be difficult due to the asynchronous and distributed nature of the data plane. Recent studies have achieved consistent unicast routing updates. However, achieving consistent updates with drop-freeness and duplicate-freeness remains a challenge for multicast with fewer known results. This paper proposes a Novel Ordered Update Scheme called Nous, a novel approach that offers a comprehensive solution for consistently updating multicast routing based on SDN. To avoid duplicate entries, Nous configures the inport match field in the forwarding rules. Nous implements a dependency graph to schedule update operations dynamically. It also solves the Replace Operation Tree Migration Problem (ROTMP) using a greedy solution. To compare the greedy solution with the optimal solution, we employ the state-of-the-art mathematical programming solver Gurobi Optimizer 7.5 (for solving the optimization problem), Mininet 2.0, and Floodlight 1.2 (for simulation and comparison) to obtain a near-optimal solution. Simulation results show that using the greedy solution, Nous can usually achieve near-optimal solutions to the ROTMP with an average of fewer than 1.2 rounds and within 10 ms in different scenarios. This makes Nous the first ordered update scheme to guarantee two consistent states simultaneously.

Published

2024

2. Developing a Semi-Supervised Strategy in Time Series Mapping of Wetland Covers: A Case Study of Zrebar Wetland, Iran

Author

Shahabi, Himan, Gholamnia, Mehdi, Mohammadi, Jahanbakhsh, Paryani, Sina, Neshat, Aminreza, Shirzadi, Ataollah, Shahid, Shamsuddin, Ghanbari, Ronak, Malakyar, Farzad, and Clague, John J.

Abstract

Wetlands, essential for Earth’s health, ecological balance, and local economies, require accurate monitoring and assessment for effective conservation. Data-driven models based on remote sensing are highly capable of monitoring the status and classification of wetlands. This study developed a semi-supervised framework for mapping wetland covers in Zrebar, Iran, using Landsat time series data from 1984 to 2022. A pixel purification technique was applied to the temporal candidate images to refine the initial training data (conventional scenario) and generate purified training data (proposed scenario). The Support Vector Machine (SVM) algorithm was utilized to classify the land cover within the wetland, and the accuracy of the two scenarios was evaluated and compared. Over the study period, the analysis of land cover changes within Zrebar Wetland revealed significant spatial and temporal changes in soil and farmland, reed, and water from 1984 to 2022. The omission error rates for the classes soil and farmland, reed, and water were decreased from 0.14, 0.14, and 0.12 for scenario 1 to 0.03, 0.05, and 0.05 for scenario 2, respectively. In addition, the commission error for these classes decreased from 0.13, 0.18, and 0.09 for scenario 1 to 0.04, 0.06, and 0.04 after applying the filtered training data in the scenario 2. Finally, the overall accuracy of the initial training data (scenario 1) and the filtered training data (scenario 2) were 0.86 and 0.94, respectively. These results underscore the effectiveness of the proposed strategy in enhancing the accuracy of land cover classification within the wetland over time, highlighting its potential for future wetland conservation efforts.

Published

2024

3. Intermediate temperature fracture resistance evaluation of cement emulsified asphalt mortar

Author

Jahanbakhsh, Hamid, Hosseini, Payam, Nejad, Fereidoon Moghadas, and Habibi, Mehran

Subjects

Fatigue (Materials) -- Analysis, Cements (Building materials) -- Mechanical properties, Asphalt -- Mechanical properties, Cracking (Chemical) -- Chemical properties, Materials -- Analysis, Environmental quality, Business, Construction and materials industries

Abstract

ABSTRACT Cement emulsified asphalt mortar (CEAM) as part of the slab track system is subjected to various combinations of repeated train loading and varying environmental conditions leading to fatigue cracking. [...]

Published

2019

4. Hydrogen Solubility in Confined Water

Author

Firuznia, Rojan, Jahanbakhsh, Amirmohammad, Nazifi, Sina, and Ghasemi, Hadi

Abstract

Confined water has demonstrated distinct structural and dynamic properties compared to bulk water. Although many studies have explored the water structure within simple geometries using materials such as carbon and silica, studies on gas solubility in confined water and the underlying physics of water structure–solubility remain limited. Recent research has illuminated the concept of “oversolubility”, wherein gases display increased solubility within liquids confined in small pores compared to their bulk form. This study focuses on zeolites, naturally abundant materials with versatile applications, to study the hydrogen solubility within confined water through careful experimentation. Our findings underscore the relationship between the pore dimension and gas solubility enhancement within confined water. Hydrogen solubility is closely associated with the rearrangement of water molecules within the porous framework of the zeolite. Our research shows that a 2 nm pore size results in the greatest increase in hydrogen solubility in the water trapped inside the zeolite framework. The double donor–double acceptor (DDAA) bonds play a critical role in hydrogen solubility. Our research provides fundamental insight into the role of the molecular bonding type on hydrogen solubility in water, paving the way for potential applications in hydrogen storage and utilization.

Published

2024

5. Self-organized patterning of crocodile head scales by compressive folding

Author

Santos-Durán, Gabriel N., Cooper, Rory L., Jahanbakhsh, Ebrahim, Timin, Grigorii, and Milinkovitch, Michel C.

Abstract

Amniote integumentary appendages constitute a diverse group of micro-organs, including feathers, hair and scales. These structures typically develop as genetically controlled units1, the spatial patterning of which emerges from a self-organized chemical Turing system2,3with integrated mechanical feedback4,5. The seemingly purely mechanical patterning of polygonal crocodile head scales provides an exception to this paradigm6. However, the nature and origin of the mechanical stress field driving this patterning remain unclear. Here, using precise in ovo intravenous injections of epidermal growth factor protein, we generate Nile crocodile embryos with substantially convoluted head skin, as well as hatchlings with smaller polygonal head scales resembling those of caimans. We then use light-sheet fluorescence microscopy to quantify embryonic tissue-layer geometry, collagen architecture and the spatial distribution of proliferating cells. Using these data, we build a phenomenological three-dimensional mechanical growth model that recapitulates both normal and experimentally modified patterning of crocodile head scales. Our experiments and numerical simulations demonstrate that crocodile head scales self-organize through compressive folding, originating from near-homogeneous skin growth with differential stiffness of the dermis versus the epidermis. Our experiments and theoretical morphospace analyses indicate that variation in embryonic growth and material properties of skin layers provides a simple evolutionary mechanism that produces a diversity of head-scale patterns among crocodilian species.

Published

2024

6. Investigation and determination of acrylamide in 24 types of roasted nuts and seeds using microextraction method coupled with gas chromatography–mass spectrometry: central composite design

Author

Nematollahi, Amene, Kamankesh, Marzieh, Hosseini, Hedayat, Hadian, Zahra, Ghasemi, Jahanbakhsh, and Mohammadi, Abdorreza

Abstract

Abstract: Acrylamide is a probable human carcinogen which could produce during food processing via Maillard reaction between asparagine and reducing sugars at elevated temperatures. In this study, microextraction technique was developed for the quantitative analysis of acrylamide in 24 types of roasted nuts and seeds including almond, pistachio, peanut and hazelnut and roasted seeds including sunflower, pumpkin and watermelon. Dispersive liquid liquid microextraction coupled to gas chromatography–mass spectrometry (DLLME–GC–MS) used for acrylamide determination in samples. Critical parameters in analysis step were studied and optimized using central composite design. The risk assessment estimation was done by Monte Carlo Simulation. The detection limit and quantitation limit of offered technique were calculated 0.6 and 2 µg/kg, respectively. The recovery percent for acrylamide in samples was higher than 95%. Relative standard deviation was obtained 8.9% (n = 6). The method was showed good linearity (R2= 0.998) in the range of 5–500 µg/kg. According to the results, acrylamide level in roasted nuts and seeds is variable between 33.36 and 250.90 µg/kg. The highest mean value of acrylamide was found in roasted almond at concentration 176.88 µg/kg and the lowest amount of acrylamide was detected in roasted hazelnuts at concentration 90.61 µg/kg. Divergences in acrylamide amounts in samples were attributed to differences in their composition, roasting time and temperature used in their manufacture. Our results showed that dietary acrylamide exposure through intake of roasted nuts and seeds, is relatively low and the risk of carcinogenicity is considerable. Graphic abstract:

Published

2024

7. Identification of the authenticity and geographical origin of Iranian lime juice by targeted method and machine learning

Author

Roozbahani, Zahra Alaei, Labbafi, Mohsen, Aghakhani, Ali, Izadi, Saeed, and Ghasemi, Jahanbakhsh

Abstract

The objective of the current study was to identify the authenticity of lime juice and its geographic origin using targeted approaches based on the AIJN guideline and machine learning. Iranian lime juice (Mexican and Persian), sampled from different regions of the country, was analyzed with chemical features for quality and authenticity. To improve the effectiveness of different machine learning techniques, the forward feature selection method was applied to evaluate the applicability of the chemical features in the classification of lime juice based on geographic region. The findings demonstrated that the samples complied with the AIJN standard in terms of the majority of these features, including density, brix, volatile acids, ethanol, HMF, volatile oils, heavy metals, acidity, citric acid, d-isocitric acid, formalin, glucose, fructose, sucrose, ash, NO3, phosphorus, potassium, magnesium, calcium, copper, zinc, and iron. However, sodium (34.6 ± 14.5 mg/l) and malic acid (5.7 ± 2.3 g/l) contents were higher, and sugar-free extract (68 ± 9.9 g/l) was lower than the limit defined by the AIJN. The feature selection method led to SVM with 90%, kNN with 94%, and RF and DT with 100% accuracy in identifying the geographic region of lime juice samples. In all supervised learning techniques except kNN, copper, zinc, and iron were the most vital features in the geographical classification of samples. This is the first time that the authenticity and geographical origin of Iranian lime juice have been well determined using conventional analysis methods and machine learning as an accessible and straightforward identification scheme instead of modern analysis methods.

Published

2024

8. Induced heating-healing characterization of activated carbon modified asphalt concrete under microwave radiation

Author

Karimi, Mohammad M., Jahanbakhsh, Hamid, Jahangiri, Behnam, and Nejad, F. Moghadas

Subjects

Asphalt concrete -- Mechanical properties -- Thermal properties -- Analysis, Business, Construction and materials industries

Abstract

ABSTRACT This research investigates the crack healing ability of activated carbon (AC) modified asphalt concrete through microwave radiation. As a binder-based conductive additive, AC is expected to increase the electro-magnetic [...]

Published

2018

9. Induction heating and healing of carbon black modified asphalt concrete under microwave radiation

Author

Jahanbakhsh, Hamid, Karimi, Mohammad M., Jahangiri, Behnam, and Nejad, F. Moghadas

Subjects

Carbon black -- Research, Asphalt concrete -- Mechanical properties -- Research, Induction heating -- Research -- Mechanical properties -- Analysis, Radiation (Physics) -- Analysis, Fatigue (Materials) -- Research -- Analysis, Business, Construction and materials industries

Abstract

ABSTRACT This study focused on induced heating and healing of asphalt concrete. Carbon black (CB) was added to asphalt binder as a conductive component to increase the electro-magnetic sensitivity of [...]

Published

2018

10. A model to measure the spread power of rumors

Author

Jahanbakhsh-Nagadeh, Zoleikha, Feizi-Derakhshi, Mohammad-Reza, Ramezani, Majid, Akan, Taymaz, Asgari-Chenaghlu, Meysam, Nikzad-Khasmakhi, Narjes, Feizi-Derakhshi, Ali-Reza, Ranjbar-Khadivi, Mehrdad, Zafarani-Moattar, Elnaz, and Balafar, Mohammad-Ali

Abstract

With technologies that have democratized the production and reproduction of information, a significant portion of daily interacted posts in social media has been infected by rumors. Despite the extensive research on rumor detection and verification, so far, the problem of calculating the spread power of rumors has not been considered. To address this research gap, the present study seeks a model to calculate the Spread Power of Rumor (SPR) as the function of content-based features in two categories: False Rumor (FR) and True Rumor (TR). For this purpose, the theory of Allport and Postman will be adopted, which it claims that importance and ambiguity are the key variables in rumor-mongering and the power of rumor. Totally 42 content features in two categories “importance” (28 features) and “ambiguity” (14 features) are introduced to compute SPR. The proposed model is evaluated on two datasets, Twitter and Telegram. The results showed that (i) the spread power of False Rumor documents is rarely more than True Rumors. (ii) there is a significant difference between the SPR means of two groups False Rumor and True Rumor. (iii) SPR as a criterion can have a positive impact on distinguishing False Rumors and True Rumors.

Published

2023

11. Novel Soft-Computing Approach to Better Predict Flexible Pavement Roughness

Author

Naseri, Hamed, Shokoohi, Mohammad, Jahanbakhsh, Hamid, Karimi, Mohammad M, and Waygood, E.O.D.

Abstract

Road infrastructures are fundamental parts of peoples’ lives, allowing them to access various destinations and activities. Accordingly, infrastructure should be in an appropriate condition. A pavement maintenance plan should be optimized, and pavement condition should be predicted accurately to obtain optimal pavement maintenance solutions. Therefore, the prediction of pavement conditions with high accuracy has been an immense concern. This study aims to introduce a new approach to accurately predict pavement international roughness index (IRI) over the long term. To this end, all the vital parameters, including initial IRI, pavement age, lane width, traffic loadings, structural characteristics, climatic features, and pavement distresses, are considered. With all the vital parameters, the prediction problem includes 58 variables. Thus, the application of a proper feature-selection technique is vital. To this end, a novel hybrid feature-selection method is introduced by a combination of arithmetic optimization algorithm and stochastic gradient descent regression (AOA-SGDR). Moreover, the performance of the proposed feature-selection method is compared with Lasso and all features. Five machine-learning algorithms, including random forest regression (RFR), support vector machine, multi-layer perceptron, decision-tree regression, and multiple linear regression, are employed for the prediction process. By employing AOA-SGDR, the average testing-data mean absolute error (MAE) reduces by at least 7.92%. Meanwhile, RFR provides the highest accuracy, with average testing-data MAE of 0.095 m/km. Moreover, analyzing the parameters indicates that initial IRI, pavement age, equivalent single axle load (ESAL), and structural number (SN) have the most significant relative influence on IRI.

Published

2023

12. Co-Inoculation of Arbuscular Mycorrhizal Fungi and Plant Growth-Promoting Rhizobacteria Improve Growth, Biochemical Attributes, and Nutritional Status of Potato (Solanum tuberosumL.) Minitubers

Author

Barzegari Barogh, Roghayeh, Hassanpanah, Davoud, Esmaeilpour, Behrouz, Godehkahriz, Sodabeh Jahanbakhsh, and Kalateh Jari, Sepideh

Abstract

The ongoing deterioration of the earth's natural resources and the increase in the use of chemical fertilizers pose serious concerns about the future of agriculture. Biofertilizers are increasingly being used as a substitute for synthetic fertilizers because they are perceived as being more sustainable. The objective of this study was to evaluate the effect of plant growth-promoting rhizobacteria (PGPR) and arbuscular mycorrhizal fungi (AMF) on the growth, biochemical properties, and nutritional status of potato (Solanum tuberosumL.) minitubers. A pot experiment was conducted via inoculation of PGPR at five levels (Azotobacter chroococcumand Pseudomonas putidaat rates of 100 and 200 mL, and control) separately and in interaction with AMF at three levels (Funneliformis mosseae, Rhizophagus intraradices,and control) on potato plants. The factorial experiment was designed based on a completely randomized design with 15 treatments and five replicates. Co-inoculation of PGPR and AMF significantly improved plant growth and yield of potato minitubers. Accordingly, the interaction ofP. putidaat 100 mL and R. intraradicesled to increase minituber number (116%), minituber weight (181%), shoot dry weight (248%), root dry weight (120%), chlorophyll (Chl) content (57%), carotenoid content (10%), ascorbic acid (8%), proline (18%), total soluble solids (TSS, 49%), TSS to titration acidity (TA, 46%), phosphorus (72%), potassium (27%), zinc (24%), and Fe (17%) compared with the control. Heat map analysis indicated that minitubers weight, shoot dry weight, and TSS had the higher variation in potato tubers with AMF and PGPR inoculations, which can be identified as indicators for further investigations. The interaction of R. intraradicesand P. putidais effective in improving minituber yield of potato plants, which can be beneficial for producers.

Published

2023

13. Laboratory Investigation of Modified Roller Compacted Concrete Pavement (RCCP) Containing Macro Synthetic Fibers

Author

Jahanbakhsh, Peyman, Saberi K, Farshad, Soltaninejad, Mostafa, and Hashemi, S. Hamid

Abstract

This experimental study examines the impacts of two macro synthetic fiber additives (i.e., polypropylene and polyolefin) on laboratory characteristics of roller compacted concrete pavement (RCCP). The mixtures were made at different dosages of 2.0, 3.0, and 4.0 kg/m3. The compressive, splitting tensile, and flexural strengths of RCCP mixtures were determined at 7, 14, and 28 days. Evidently, the test results disclosed adding 2.0 and 3.0 kg/m3fiber additives could improve the compressive strength of modified specimens although adding 4.0 kg/m3lowered the compressive strength. In the meantime, the tensile and flexural strengths of RCCP mixtures were considerably improved due to fiber additives, especially at later ages. It is worth mentioning that specimens with polypropylene fiber could manifest higher tensile and flexural strengths compared to polyolefin fiber and any further increase up to 4.0 kg/m3fiber additives reduced the strength of mixtures over time. Regardless of the fiber type, the toughness of mixtures containing 3.0 kg/m3fibers outperformed plain concrete for enduring flexural loads. Noteworthy, the Vebe test outcomes revealed that adding synthetic fibers could increase the Vebe time significantly. Finally, the relationships between the splitting tensile strength, flexural strength, and compressive strength were obtained as fr=0.60fc′,and ft=0.41fc′,respectively.

Published

2023

14. MiFi: Bounded Update to Optimize Network Performance in Software-Defined Data Centers

Author

Majidi, Akbar, Gao, Xiaofeng, Zhu, Shunjia, Jahanbakhsh, Nazila, Zheng, Jiaqi, and Chen, Guihai

Abstract

A controller needs to solve the multi-commodity flow problem and globally update the network under tight time constraints to maintain optimal network configurations. This centralized optimization in data centers involves many variables and constraints, which has a slow convergence speed and little scalability. In this paper, we propose MiFi, which aims to Minimize Flow cost or intuitively average transmission delay (delay or latency of flows), under reconfiguration budget constraints in data centers. Thus, we formulate this optimization problem as a constrained Markov Decision Process and propose a set of algorithms to solve it in a scalable manner. We first develop a propagation algorithm to identify the flows mostly affected in terms of latency and configuration in the next update. Then, we set a limitation range (the subset of switches requiring network updates) for updating them to improve adaptability and scalability by updating a less number of flows each time to achieve fast operations. Further, based on the Drift-Plus-Penalty method in Lyapunov theory, we propose a heuristic policy without prior information of flow demand and a renewal policy with a performance guarantee to minimize the additive optimality gap. To the best of our knowledge, MiFi is the first paper that studies the range and frequency of flow reconfigurations, which has both theoretical and practical significance in the area. Emulations and numerical simulations, which are much better than the estimated theoretical bound, show that MiFi outperforms the state of the art algorithms in terms of latency by over 45% while making improvements in adaptability and scalability.

Published

2023

15. MD analysis of heat transfer of carbon nanotube flow on nanopumping process to improve the hydrodynamic and thermal performances.

Author

Kou, Guiyue, Jahanbakhsh, Milad, Molaee, Mohammadali, Abbasi, Narges, Shahgholi, Mohamad, and Inc, Mustafa

Subjects

*HEAT transfer, *RADIAL distribution function, *CARBON nanotubes, *TARGETED drug delivery, *HEAT flux, *MASS transfer

Abstract

A carbon nanotube (CNT) is a promising structure for nanoscale heat and mass transfer processes and targeted drug delivery (TDD). These appropriate behavior of CNTs cause this nanometric arrangement to be used in various clinical purposes, as drug delivery process. Here, we report nanopumping behavior of CNT sample in presence of an atomic defect and external heat flux (HF). Molecular Dynamics (MD) approach in this computational research consists of two main steps. In first step, equilibrium of defined compounds is described by Temperature (T) and Total Energy (TE) reporting. Results indicated that defined samples reach an equilibrium state after 1 ns. Next, nanopumping process is done by implementing external HF and metallic tips oscillating in vicinity of defected CNT as second step. Physical quantities such as T, TE, radial distribution function (RDF), nanopumping time, kinetic energy (KE), and Velocity (V)/T profiles of defined compounds were reported after two main processes were done. MD outputs indicated C 20 molecule (target particle in nanopumping process) displaced inside CNT after 46.68 (ps), and by defining external flux, this time decreased to 43.12 (ps). Finally, we concluded that atomic defect and HF are important parameters that can be controlled nanopumping process in various clinical applications. [ABSTRACT FROM AUTHOR]

Published

2022

16. Upper Eocene and Lower Oligocene planktic foraminifera from the Bandar Abbas hinterland, southern Iran: Biostratigraphy and sea-level changes

Author

Daneshian, Jahanbakhsh, Sadat Tabatabaei, Mahboobeh, and Tahmasbi Sarvestani, Alireza

Abstract

Rupelian planktic foraminifera were studied from outcrop sections in the Zagros Basin near Khamir and Gachestan (Pabdeh Formation, S Iran). The study area is situated in the hinterland of Bandar Abbas and comprises mainly Eocene and Oligocene deposits. We have identified 40 species of planktic taxa that belong to 15 genera of the families Globigerinidae, Globigerinitidae and Chiloguembelinidae. Their biostratigraphic ranges cover a total of five planktic foraminiferal biozones (E16 to O3) and provide a baseline for correlation. The planktic foraminiferal assemblages comprise a suite of surface-, intermediate- and deep-dwelling taxa, and a comparison of their abundances shows them to correlate with global eustatic sea-level curves.

Published

2022

17. Electric Field Effects on the Structural and Dynamical Properties of a Glyceline Deep Eutectic Solvent

Author

Jahanbakhsh-Bonab, Parisa, Sardroodi, Jaber Jahanbin, and Avestan, Mohammad Sadegh

Abstract

Deep eutectic solvents (DESs) are green solvents that have been considered as promising alternatives to conventional volatile organic solvents. In this work, we employed molecular dynamics simulations to examine the effect of external electric fields (EEFs) on the structural and transport properties of DESs comprising a 2:1 molar ratio of glycerol (Gly) and choline chloride (ChCl). Our calculated physicochemical properties such as viscosity, self-diffusion coefficient, isothermal compressibility, and density of DESs in the absence of EEFs are consistent with the reported experimental data. We calculate the radial distribution function (RDF), coordination number, and the number of hydrogen bonds to study the arrangement of DES species under EEFs with more details at the microscopic level. Furthermore, we obtain the EEF effects on the mean-square-displacement (MSD), self-diffusion coefficient, isothermal compressibility, ionic transference numbers, and viscosity. Our study shows that there is no discernible difference in the position of the first maximum peak of RDFs following EEF application. In addition, applying the EEF leads to an increase and a decrease in the self-diffusion coefficient of DES species and viscosity, respectively, compared to those in DES with no EEF. We find that the movement’s correlation of Gly and Cl reduces with the increasing strength of EEF. We believe that our findings could increase our knowledge in the application of DESs in the designing of novel green solvents.

Published

2022

18. Sociological Analysis of Branding of Professional Football League Players

Author

Pashaie, Sajjad, Piątkowska, Monika, Hoseini, Mir Davood, Dostimehr, Ali, and Jahanbakhsh, Iraj

Abstract

The role of branding the sports performance of Iranian professional football League players was investigated by adopting a survey-based research strategy. Players with a history of competing in the Iranian Football League made up the statistical population for the study. 200 players were selected from this population as the study sample. The questionnaire data obtained were analyzed using IBM®SPSS® Amos TM 23 software. The validity and reliability of the questionnaires were acceptable and a good fit. The results showed that the structural equation model used is a strong theoretical model for studying the branding of Iranian League players, and that such branding has a significant positive effect on sports performance. Therefore, sports clubs need to understand the power of branding players to increase their athletic performance in sports expertise, competitive style and fair play. On the other hand, the most important aspect of branding is branding the whole club, rather than each product or player, since each individual product can benefit from the income belonging to the brand family of the club or organization. It is suggested that professional and strategic methods can help players and motivate them to acquire the necessary skills to grow branding.

Published

2022

19. Quantitative determination of tumor platinum concentration of patients with advanced Breast, lung, prostate, or colorectal cancers undergone platinum-based chemotherapy

Author

Mostaghimi, Hesameddin, Mehdizadeh, Ali, Jahanbakhsh, Mohammad, Dehghanian, Amir, and Askari, Ramin

Subjects

Chemotherapy -- Methods -- Patient outcomes, Cancer research, Platinum compounds -- Health aspects, Health

Abstract

Byline: Hesameddin. Mostaghimi, Ali. Mehdizadeh, Mohammad. Jahanbakhsh, Amir. Dehghanian, Ramin. Askari Context: Previous studies have reported direct relationship between tumor reduction and its platinum concentration following platinum-based (Pt-based) chemotherapy. However, [...]

Published

2017

20. Text-based automatic personality prediction: a bibliographic review

Author

Feizi-Derakhshi, Ali-Reza, Feizi-Derakhshi, Mohammad-Reza, Ramezani, Majid, Nikzad-Khasmakhi, Narjes, Asgari-Chenaghlu, Meysam, Akan, Taymaz, Ranjbar-Khadivi, Mehrdad, Zafarni-Moattar, Elnaz, and Jahanbakhsh-Naghadeh, Zoleikha

Abstract

Personality detection is an old topic in psychology and automatic personality prediction (or perception) (APP) is the automated (computationally) forecasting of the personality on different types of human generated/exchanged contents (such as text, speech, image, and video). The principal objective of this study is to offer a shallow (overall) review of natural language processing approaches on APP since 2010. With the advent of deep learning and following it transfer-learning and pre-trained model in NLP, APP research area has been a hot topic, so in this review, methods are categorized into three: pre-trained independent, pre-trained model based, and multimodal approaches. In addition, to achieve a comprehensive comparison, reported results are informed by datasets.

Published

2022

21. Direct voltammetric determination of carbendazim by utilizing a nanosized imprinted polymer/MWCNTs-modified electrode

Author

Ghorbani, Adel, Ojani, Reza, Ganjali, Mohammad Reza, and Raoof, Jahanbakhsh

Abstract

Recently, cost-effective and rapid analysis of carbendazim, in surface, drinking and ground water has attracted a huge deal of interest. Nevertheless, for given applications, the use of present biological receptor-based sensing approaches is limited based on the costs and stability. Hence, the best alternatives are the cost-effective and robust imprinted polymeric receptors. The current study deals with synthesizing MIPs (molecularly imprinted polymers) for carbendazim utilizing methacrylic acid in chloroform as a porogen. The MIP’s binding affinity with carbendazim was assessed in aqueous media. Superior imprinting features for carbendazim were found by MIPs synthesized in chloroform. Imprinted polymers were prepared using bulk polymerization, by mixing MAA as a functional monomer, carbendazim as a template, EGDMA as a cross-linker and AIBN as a initiator were dissolved in chloroform. Here, it was demonstrated carbendazim MIPs merged into a CP (carbon paste) electrode as a MIP-CP sensor platforms to detect the carbendazim. By this simple sensor format, precise determining of carbendazim is allowed utilizing an electrochemical method. We have achieved a detection limit of 3.1 × 10−8mol L−1for this compound in linear range of 0.1–100 μM. By the simple procedure, low production cost, and easy preparation, the MIP sensor becomes attractive for sensitive and selective detection of analytes, even in less-armed laboratories with nominal training.

Published

2021

22. Relating Pore‐Scale Observations to Continuum‐Scale Models: Impact of Ganglion Dynamics on Flow Transport Kinetics

Author

Nhunduru, Rumbidzai A. E., Jahanbakhsh, Amir, Shahrokhi, Omid, Wlodarczyk, Krystian L., Garcia, Susana, and Maroto‐Valer, M. Mercedes

Abstract

Continuum‐scale models used to model and predict two‐phase flow in the subsurface are often based on averaged flow parameters and do not consider pore‐scale fluid flow phenomena, for example, ganglion dynamics and thin‐film flow. As such, a major challenge in upscaling two‐phase flow for groundwater engineering applications is understanding the impact of disconnected flow and ganglion dynamics on continuum‐scale flow functions such as relative permeability‐saturation and capillary pressure‐saturation curves. In this study, we explored how changes in wettability and fluid velocity affect ganglion dynamics. We conducted pore‐scale numerical simulations with OpenFOAM to investigate the displacement of decane by water. Additionally, we examined how displaced phase saturation (a continuum‐scale flow function) responds to changes in dynamic fluid connectivity. We identified three different fluid flow regimes, that is, the connected pathway flow regime, ganglion dynamics (GD) flow regime, and droplet traffic flow regime, and studied the effects of changes in the wettability of the porous medium and the velocity of the invading fluid on the transitions between these different regimes. Our research showed that transitions between connected and disconnected pore‐scale flow regimes, which are induced by changes in fluid velocity and wettability, have a significant impact on both fluid displacement efficiency and average fluid flow transport kinetics. The transport and confinement of hydrocarbons, organic pollutants or carbon dioxide (CO2) within rock pores is a complicated process that occurs on a minuscule scale and is crucial to groundwater engineering activities. The interplay of intricate fluid dynamics and alterations in rock and fluid characteristics at the microscopic level can have a considerable influence on continuum‐scale flow properties. Continuum‐scale models used to predict fluid flow in the subsurface are usually based on averaged flow parameters and do not account for the physics that occur at the pore scale. This often leads to disparities between the flow predictions made at the pore scale and at the field scale. A long‐standing challenge in scaling up flow from the pore scale to the continuum scale lies in addressing the impact of disconnected fluid ganglia and ganglion dynamics on overall flow transport kinetics. This work aims to bridge this gap between the pore and continuum scales. We investigate the behavioral response of the saturation function (a continuum‐scale function) to wettability and flow rate‐induced changes in dynamic fluid connectivity. Changes in wettability and fluid flow rate induce transitions between connected and disconnected pore‐scale flow regimesTransitions between pore‐scale flow regimes have significant effects on the saturation function and flow transport kineticsThe Lomeland, Ebeltoft, and Thomas (L‐E‐T) relative permeability model can capture the effects of pore‐scale changes in fluid connectivity Changes in wettability and fluid flow rate induce transitions between connected and disconnected pore‐scale flow regimes Transitions between pore‐scale flow regimes have significant effects on the saturation function and flow transport kinetics The Lomeland, Ebeltoft, and Thomas (L‐E‐T) relative permeability model can capture the effects of pore‐scale changes in fluid connectivity

Published

2024

23. The Use of Bio-Active Compounds of Citrus Fruits as Chemopreventive Agents and Inhibitor of Cancer Cells Viability

Author

Tajaldini, Mahboubeh and Asadi, Jahanbakhsh

Abstract

Common therapy of cancer, such as chemotherapy, has various side effects for the patients. In recent studies, new therapeutic approaches in cancer treatment are adjuvant therapy, along with a reduction in side effects of chemotherapy drugs. Treatment by herbal medicines may have some advantages over treatment with single purified chemicals, also in terms of side effects, the use of plants in cancer treatment is a more secure method. Citrus fruits are one of the most consumed natural products in the world due to the presence of various metabolites and bioactive compounds, such as phenols, flavonoids and, carotenoids. Bioactive compounds of citrus modulate signaling pathways and interact with signaling molecules such as apoptotic and cell cycle (P53, P21, etc.) and thus have a wide range of pharmacological activities, including anti-inflammatory, anti-cancer and oxidative stress. The findings discussed in this review strongly support their potential as anti-cancer agents. Therefore, the purpose of this review was to examine the effects of active compounds in citrus as a therapy agent in cancer treatment.

Published

2021

24. Book Review / Compte rendu: Muslims and Capitalism: An Uneasy Relationship?

Author

Jahanbakhsh, Forough

Published

2021

25. Porosity development in central Alborz Upper Jurassic deposits (N-Iran): sequence stratigraphy, diagenesis and mechanical stratigraphy

Author

Daneshian, Jahanbakhsh, Saleh, Zahra, Swennen, Rudy, and Mosaddegh, Hossein

Abstract

The Lar Formation at the Marghsoo section in the central Alborz Mountains provides an opportunity to characterize porosity related to dissolution by meteoric and hydrothermal water and its link to a newly developed sequence stratigraphic framework. Eight microfacies make up the systems tracts of the Lar Formation. The vertical and horizontal stacking geometries of the microfacies is related to the depositional facies of a ramp depositional system. The vertical stacking of inherent porosity and late fracture porosity is related to the stacking patterns of microfacies within the systems tracts, which make up six depositional sequences (DS1-6). In addition, four types of secondary porosity were identified, namely vuggy, intercrystalline, fracture, and solution-enlarged fracture porosity. Vuggy and intercrystalline porosities are controlled by changes in relative sea-level and rock composition. These porosities are present at the sequence boundaries and top of the late highstand systems tracts (HST) capping DS1-5. This, however, is not the case for DS6, which comprises only a transgressive system tract (TST). The characteristics and intensity of fracture porosity and solution-enlarged fracture porosity of each microfacies are to a large extent controlled by its mechanical properties, i.e. the mechanical stratigraphy. Typically, the microfacies composing the HSTs are brittle and therefore fractured when affected by tectonic stress. In contrast the more ductile and unfractured microfacies composing the TSTs do not display a clear relationship to tectonic stress. Thus fracture porosity within the microfacies composing the HSTs is common and within the TSTs it is uncommon. Finally, the upward migration of hydrothermal fluids along normal faults and fractures also led to the production of saddle and ferroan dolomite and the formation of vertical conduits.

Published

2021

26. Low-Temperature CO2Splitting in a Noncatalytic Dielectric-Barrier Discharge Plasma: Effect of Operational Parameters with a New Strategy of Experimentation

Author

Jahanbakhsh, Mohammad Reza, Taghvaei, Hamed, Khalifeh, Omid, Ghanbari, Mahla, and Rahimpour, Mohammad Reza

Abstract

In this study, low-temperature CO2decomposition to CO was investigated experimentally through a dielectric-barrier discharge plasma reactor with the main objective of improving CO2conversion and energy efficiency without using a catalyst. In this regard, the effects of key operating parameters including input power, total flow rate, and CO2volume fraction were evaluated to find the best operating conditions. In contrast with the strategy of experimentation in previous studies at which every parameter has to be analyzed individually while others are kept constant, in this study, all combinations of the operating parameters were included and tested experimentally. There was a direct correlation between power and conversion, but this was less noticeable for higher powers. Thus, the highest conversion of 12.2% could be obtained at a power, CO2fraction, and total flow of 30 W, 5%, and 400 mL/min, respectively. It was also observed that the maximum obtained energy efficiencies were related to the higher total flows and higher CO2volume fractions; thus, the best energy efficiency was around 7% for a total flow of 400 mL/min and CO2volume fraction of 25%. Besides, precise predicting correlations indicating the degree of sensitivity of conversion and energy efficiency toward variation of each parameter were developed based on full factorial experimental design. Analysis of variance demonstrated an excellent agreement between the experimental data and the proposed models. The strategy of experimentation that we adopted in this study gave us a new insight into the effects of operating parameters on the cold CO2decomposition process relative to previous studies.

Published

2020

27. Low-Temperature CO2 Splitting in a Noncatalytic Dielectric-Barrier Discharge Plasma: Effect of Operational Parameters with a New Strategy of Experimentation.

Author

Jahanbakhsh, Mohammad Reza, Taghvaei, Hamed, Khalifeh, Omid, Ghanbari, Mahla, and Rahimpour, Mohammad Reza

Published

2020

28. Prophylactic effects of biogenic selenium nanoparticles on acute toxoplasmosis: An in vivo study

Author

Shakibaie, Mojtaba, Ezzatkhah, Fatemeh, Gabal, Esraa, Badparva, Ebrahim, Jahanbakhsh, Sareh, and Mahmoudvand, Hossein

Abstract

In this investigation, the in vivo efficacy and safety of biogenic selenium nanoparticles (SeNPs) are assessed against acute toxoplasmosis caused by Toxoplasma gondii(Sarcocystidae) in the mice.

Published

2020

29. Safflower (Carthamus tinctorius) Biochemical Properties, Yield, and Oil Content Affected by 24-Epibrassinosteroid and Genotype under Drought Stress

Author

Zafari, Mahnaz, Ebadi, Ali, Jahanbakhsh, Sodabe, and Sedghi, Mohammad

Abstract

The steroid hormones, including brassinosteroids, regulate plant growth under stress. It is hypothesized that 24-epibrassinosteroids (24-EBR) can affect safflower (Carthamus tinctorius) biochemical properties, crop yield, and oil content under drought stress. The objective of our study was to determine the response of three safflower genotypes (Goldasht, Faraman, and Sina) to exogenous 24-EBR (0 and 10–7M) under drought stress, including 85, 65, and 45% of field capacity in 2015. Stress decreased chlorophyll-a, chlorophyll-b, total chlorophyll, carotenoid, relative water content (RWC), seed yield, and oil percentage. The activities of superoxide dismutase (SOD), catalase (CAT), polyphenol oxidase (PPO), and proline contents increased in response to either drought stress or 24-EBR. Genotypes behaved significantly different under stress. 24-EBR significantly increased plant chlorophyll contents and oil percentage, and it significantly reduced the malondialdehyde (MDA) content via increasing the proline and carotenoid contents under stress. 24-EBR can increase safflower oil and seed yield under drought stress.

Published

2020

30. Wheat Straw Mulching Helps Improve Yield in Sesame (Sesamum indicumL.) Under Drought Stress

Author

Behzadnejad, Jahanbakhsh, Tahmasebi-Sarvestani, Zeinolabedin, Aein, Ahamd, and Mokhtassi-Bidgoli, Ali

Abstract

Because water resources for irrigation are limited worldwide, it is essential to embrace proper water-saving practices. Field studies were laid out as a factorial split experiment in a randomized complete block design with three replications in 2015 and 2016 to determine the effect of wheat straw mulch (0 and 7.5 tons ha−1) under different irrigation treatments (100%, 80%, 60%, and 40% of the required water) on the physiological characteristics, grain yield, and oil content of sesame (Sesamum indicumL.) genotypes (Borazjan 2, Halil, and Jiroft). Seed yield, 1000-seed weight, seed number, and capsule number were decreased by 64%, 65%, 60%, 70%, and 66%, respectively, as a result of increments in water deficit (from 100 to 40%). However, the application of 7.5 tons ha−1of mulch mitigated the negative effect of water stress as said factors decreased only by 42%, 40%, 46%, 44%, and 45% as a result of increments in water deficit (from 100 to 40%). Catalase activity (CAT), superoxide dismutase (SOD) activity, proline content, and water use efficiency (WUE) increased with increases in water deficiency, while relative water content (RWC), photosynthetic pigment, and leaf area index (LAI) decreased as water stress rose from 100 to 40%. Applying 7.5 tons ha−1of straw mulch in 60% available water can be considered a promising management strategy due to both reduction in irrigation water requirements and improvement of low-yield sesame fields in water-deficient areas.

Published

2020

31. Selective Inhibition of Esophageal Cancer Stem-like Cells with Salinomycin

Author

Zarei, Mahdi, Jazi, Marie S., Tajaldini, Mahboubeh, Khosravi, Ayyoob, and Asadi, Jahanbakhsh

Abstract

Background: Targeting Cancer Stem-Like Cells (CSLCs) can provide promising new therapeutic strategies to inhibit cancer progression, metastasis and recurrence. Salinomycin (Sal), an antibacterial ionophore, has been shown to inhibit CSCs specifically. Recently, it has been reported that Sal can destabilize TAZ, the hypo pathway transducer in CSLCs. Objectives: Here, in the current study, we aimed to assess the differential toxicity of Sal in esophageal CSLCs and its relation to TAZ gene expression. Methods: The esophageal cancer cell line, KYSE-30, was used for the enrichment of CSLCs. The expression of TAZ was knocked down using specific siRNA transfection and then the cytotoxicity of Sal was measured using XTT assay. The qRT-PCR method was used for gene expression assessment and the sphere formation ability was monitored using light microscopy. Results: Our findings showed that esophageal CSLCs over-express stemness-associated genes, including SOX2, OCT4 as well as TAZ (~14 fold, P value=0.02) transcription coactivator. We found Sal can selectively inhibit KYSE-30 CSLCs viability and sphere formation ability; however, TAZ knockdown does not change its differential toxicity. Conclusion: Overall, our results indicated that Sal can selectively decrease the viability of esophageal CSLCs in a TAZ-independent manner.

Published

2020

32. Efficacy and Safety Curcuma zadoariaL. to Inactivate the Hydatid Cyst Protoscoleces

Author

Mahmoudvand, Hossein, Pakravanan, Mahbobeh, Kheirandish, Farnaz, Jahanbakhsh, Sareh, Sepahvand, Maryam, Niazi, Massumeh, Rouientan, Abdolreza, and Aflatoonian, Mohammad R.

Abstract

Background: The present work aimed to evaluate the chemical composition of Curcuma zadoaria essential oil and to investigate its efficacy and safety against hydatid cyst protoscoleces. Methods: Collected protoscoleces from liver fertile hydatid cysts of infected sheep were exposed to different concentrations of the essential oil (75, 150, 300 μl/mL) for 5-30 min in vitro and ex vivo. Then, by using the eosin exclusion assay, the viability of protoscoleces was studied. In the next step, 24 male NMRI mice were examined to assess the toxicity of C. zadoaria essential oil by measuring the biochemical and hematological parameters. Results: Based on the obtained results, the LD50 value of intraperitoneal injection of the C. zadoaria essential oil was 1.76 mL/kg of body weight and the maximum non-fatal dose was 0.96 mL/kg of body weight. C. zadoaria essential oil had a strong proto scolicidal activity in vitro so that at the 300 and 150 μl/ml entirely eliminates the parasite after 5 and 10 minutes; whereas, weak proto scolicidal activity was observed at lower doses. Ex vivo assay, no similar effect with in vitro was observed, therefore, more time is required to show a potent proto scolicidal activity. C. zadoaria essential oil at the concentrations of 300 and 150 μl/mL after an exposure time of 7 and 12 min, killed 100% of protoscoleces within the hydatid cyst, respectively. After intraperitoneal injection of the C. zadoaria essential oil for 2 weeks, no significant difference (p > 0.05) was observed in the clinical chemistry and hematologic parameters at the doses of 0.15, 0.3, 0.6 mL/kg. Conclusion: The obtained results in vitro and ex vivo exhibited that C. zadoaria essential oil had a favorable proto scolicidal activity on hydatid cyst protoscoleces. However, more supplementary works are required to verify these findings by assessing clinical subjects.

Published

2020

33. A review on the use of operational research techniques in the medical records department

Author

Bagherian, Hossein, Jahanbakhsh, Maryam, and Tavakoli, Nahid

Abstract

Introduction: Various operational research (OR) techniques have been used in different areas of healthcare. One of the areas in which OR techniques can be effective is the medical records department (MRD). The aim of this study is to review the applications of OR in the management of MRD and its related processes.Methods: This is a review article. In order to collect data, English-language studies published between 2000 and 2018, related to the use of OR techniques in MRD, in the Medline, Science Direct, ProQuest and Web of science databases were investigated. From 1165 retrieved studies, 19 articles met the inclusion criteria and were included in the final review.Results: The results showed that different OR techniques such as linear programming, integer programming, simulation, hierarchical analysis process, etc. have been used in various aspects of the MRD and its ongoing processes such as improving efficiency, workload management, resource allocation, optimal scheduling of staff work hours, patient scheduling, patient admission and discharge.Conclusion: It can be concluded that if the managers and experts of MRD and health information management become familiar with the principles and techniques of OR and become aware of the importance of these techniques in improving efficiency of MRD, there is a hope that in the future these techniques will find their true place in MRD and ultimately enhance the quality of services provided to patients.

Published

2020

34. Antinociceptive effects of green synthesized copper nanoparticles alone or in combination with morphine

Author

Mahmoudvand, Hossein, Khaksarian, Mojtaba, Ebrahimi, Katrin, Shiravand, Sima, Jahanbakhsh, Sareh, Niazi, Massumeh, and Nadri, Sedigheh

Abstract

The aim of this study was to evaluate the antinociceptive effect of biosynthetic copper nanoparticles from aqueous extract of Capparis spinosafruit.

Published

2020

35. Bronsted Acidic Ionic Liquids (BAILs)-Catalyzed Synthesis of 1,8-Dioxo-Octahydroxanthene and 2,2′-Arylmethylene Bis(3-Hydroxy-5,5-Dimethyl-2-Cyclohexene-1-One) Derivatives Under Eco-Friendly Conditions

Author

Ashtarian, Jahanbakhsh, Heydari, Reza, Maghsoodlou, Malek-Taher, and Yazdani-Elah-Abadi, Afshin

Abstract

A simple and efficient one-pot process for the synthesis of 1,8-dioxo-octahydroxanthene and 2,2′-arylmethylene bis(3-hydroxy-5,5-dimethyl-2-cyclohexene-1-one) derivatives via the Knoevenagel–Michael cascade reactions of aromatic aldehydes and dimedone catalyzed by Bronsted acidic ionic liquids (BAILs) in solvent-free and aqueous conditions is described in this study. These heterocycles were prepared in the presence of Bronsted acidic ionic liquids as a suitable, economical, readily synthesized and eco-friendly catalyst. This method offers several advantages such as high yields, simplicity of the workup, low cost, short reaction times, green conditions and use of a reusable catalyst.

Published

2020

36. Prophylactic Activity of Biogenic Selenium Nanoparticles Against Chronic Toxoplasma gondiiInfection

Author

Keyhani, Amir, Shakibaie, Mojtaba, Mahmoudvand, Hossein, Jahanbakhsh, Sareh, Kareshk, Amir T., Shojaee, Saeedeh, and Ziaali, Naser

Abstract

Background: Studies showed that biogenic selenium nanoparticles (SeNPs) have a number of pharmacological properties, such as antimicrobial ones.Objective: The present investigation assesses the efficacy of biogenic selenium nanoparticles (SeNPs) as a new patent against latent toxoplasmosis in a mice model.Methods: Male BALB/c mice were orally treated with SeNPs at the doses of 2.5, 5, 10 mg/kg once a day for 14 days. On the 15th day, the mice were infected with the intraperitoneal inoculation of 20-25 tissue cysts from the Tehran strain of Toxoplasma gondii. The mean numbers of brain tissue cysts and the mRNA levels of TNF-α, IL-12, IL-10, IFN-γ, and inducible nitric oxide synthase (iNOS) in mice of each tested group were measured. Moreover, serum clinical chemistry factors in treated mice were examined to determine the safety of SeNPs.Results: The mean number of the brain tissue cysts was significantly (P<0.001) decreased in mice treated with SeNPs at doses 2.5 (n=37), 5 (n=11), and 10 mg/kg (n=3) based on a dose dependent manner compared with the control group (n=587). The mRNA levels of IFN-γ, TNF-α, IL-12, and iNO were significantly increased in mice treated with SeNPs at the doses 10 mg/kg compared with control subgroups (p<0.05). No significant variation (p>0.05) was observed in the clinical chemistry parameters among the mice in the control subgroups compared with groups treated with SeNPs.Conclusion: The results of the present study showed a new patent in the treatment of toxoplasmosis; so that taking the biogenic selenium nanoparticles in concentrations of 2.5-10 mg/kg for 2 weeks was able to prevent severe symptoms of the toxoplasmosis in a mice model. This indicated the prophylactic effects of SeNPs with no considerable toxicity against latent toxoplasmosis. However, more studies are required to elucidate the correct anti-Toxoplasma mechanisms of SeNPs.

Published

2020

37. The Frequency of HIV-1 Infection in Iranian Children and Determination of the Transmitted Drug Resistance in Treatment-Naïve Children

Author

Jarchi, Maryam, Bokharaei-Salim, Farah, Esghaei, Maryam, Kiani, Seyed J., Jahanbakhsh, Fatemeh, Monavari, Seyed Hamidreza, Ataei-Pirkooh, Angila, Marjani, Arezoo, and Keyvani, Hossein

Abstract

Background: The advent of resistance-associated mutations in HIV-1 is a barrier to the success of the ARTs. Objective: In this study, the abundance of HIV-1 infection in Iranian children, and also detection of the TDR in naïve HIV-1 infected pediatric (under 12 years old) were evaluated. Materials: From June 2014 to January 2019, a total of 544 consecutive treatment-naïve HIV-1- infected individuals enrolled in this study. After RNA extraction, amplification, and sequencing of the HIV-1 pol gene, the DRM and phylogenetic analysis were successfully performed on the plasma specimens of the ART-naïve HIV-1-infected-children under 12 years old. The DRMs were recognized using the Stanford HIV Drug Resistance Database. Results: Out of the 544 evaluated treatment-naïve HIV-1-infected individuals, 15 (2.8%) cases were children under 12 years old. The phylogenetic analyses of the amplified region of pol gene indicated that all of the 15 HIV-1-infected pediatric patients were infected by CRF35_AD, and a total of 13.3% (2/15) of these children were infected with HIV-1 variants with SDRMs (one child harbored two related SDRMs [D67N, V179F], and another child had three related SDRMs [M184V, T215F, and K103N]), according to the last algorithm of the WHO. No PIs-related SDRMs were observed in HIV-1-infected children. Conclusion: The current study demonstrated that a total of 13.3% of treatment-naïve HIV-1-infected Iranian pediatrics (under 12 years old) were infected with HIV-1 variants with SDRMs. Therefore, it seems that screening to recognize resistance-associated mutations before the initiation of ARTs among Iranian children is essential for favorable medication efficacy and dependable prognosis.

Published

2019

38. Deep Transferable Compound Representation across Domains and Tasks for Low Data Drug Discovery

Author

Abbasi, Karim, Poso, Antti, Ghasemi, Jahanbakhsh, Amanlou, Massoud, and Masoudi-Nejad, Ali

Abstract

The main problem of small molecule-based drug discovery is to find a candidate molecule with increased pharmacological activity, proper ADME, and low toxicity. Recently, machine learning has driven a significant contribution to drug discovery. However, many machine learning methods, such as deep learning-based approaches, require a large amount of training data to form accurate predictions for unseen data. In lead optimization step, the amount of available biological data on small molecule compounds is low, which makes it a challenging problem to apply machine learning methods. The main goal of this study is to design a new approach to handle these situations. To this end, source assay (auxiliary assay) knowledge is utilized to learn a better model to predict the property of new compounds in the target assay. Up to now, the current approaches did not consider that source and target assays are adapted to different target groups with different compounds distribution. In this paper, we propose a new architecture by utilizing graph convolutional network and adversarial domain adaptation network to tackle this issue. To evaluate the proposed approach, we applied it to Tox21, ToxCast, SIDER, HIV, and BACE collections. The results showed the effectiveness of the proposed approach in transferring the related knowledge from source to target data set.

Published

2019

39. Fast copolymer network liquid crystals for tunable birefringence colors

Author

Jahanbakhsh, Fatemeh and Lorenz, Alexander

Abstract

A fast-switching, tunable color filter was found in a copolymer network liquid crystal (LC), which was in situ generated in a conventional LC test cell with parallel aligned glass plates and investigated with polarized light. Polarization filters were used to convert the tunable optical phase retardance of the test cells to birefringence colors as is always possible in a LC test cell with carefully adjusted cell gap and effective birefringence. The cell gap of the samples could be adjusted to a value of 9 μm, which is not easily possible in a polymer LC composite without creating defects. In these samples, the typical pastel colors seen frequently in birefringent samples could be avoided. The transmittance spectra were recorded and converted to CIE 1931 color coordinates, which showed that the colors seen had a reasonable distance to the white point. The electro-optic switching times of the samples were investigated: Fast responses of t_on+t_off<5  ms were found, which is an impressive speed for tunable birefringence colors in LCs and LC composites. Upon increasing addressing voltages, a blueshift of the peak seen in the transmittance spectra was observed. The samples consisted of copolymer network LC, generated from a reactive mixture with mesogenic monomer and nonmesogenic comonomer. The tunable color was seen selectively in samples with dodecyl acrylate as comonomer. The experiments show how even a straightforward electro-optic experiment still can result in unexpended findings, which may expand the use of LC composites in nondisplay applications. The polymer morphology in samples with a larger cell gap was investigated with scanning electron microscopy, and interdefect distances of ≈40  μm were found. The appearance of defects in test cells with a cell gap of 9 μm could be avoided because the cell gap was much smaller than the measured interdefect distances in test cells with a larger cell gap.

Published

2019

40. In vitroand ex vivoscolicidal effects of Olea europaeaL. to inactivate the protoscolecs during hydatid cyst surgery

Author

Niazi, Massumeh, Saki, Mojgan, Sepahvand, Maryam, Jahanbakhsh, Sareh, Khatami, Mehrdad, and Beyranvand, Mania

Abstract

Nowadays, surgery is considered as one of the most important treatments for hydatidosis. Due to laceration, the cyst and spread of the content within it (protoscoleces) during the surgery that can put the patient at the risk of re-infection, anaphylaxis shock and even death, surgeons use some chemical drugs as protoscolicidal agents. The study is aimed to evaluate the scolicidal effects of olive (Olea europaeaL.) leaf extract on hydatid cyst protoscoleces in vitroand ex vivo.

Published

2019

41. Tool wear deceleration in turning of Inconel 625

Author

Lotfi, Mohammad, Farid, Ali Akhavan, and Jahanbakhsh, Mehran

Abstract

Rapid tool wear is one of the most important problems in rough turning of Inconel 625 nickel-based super alloys which is less considered as a case study in wear analysis researches. Therefore, in this study, high material removal rate and low tool wear of PVD-TiAlN coated carbide were considered as objective factors in rough turning of Inconel 625 super-alloy. By using an adaptive network-based fuzzy inference system; an input-output relationship model was developed to find the effective parameters. Furthermore, simulated annealing algorithm method was used to define an optimum cutting condition considering low flank wear and high material removal rate. The results indicate that cutting speed and depth of cut with their interaction are the most effective factors on tool wear. While, feed rate is almost ineffective on tool wear propagation which can be increased to obtain higher material removal rate.

Published

2019

42. Potential of amine-based DES for separation of CO2and H2S from NG: Study of temperature effect

Author

Jahanbakhsh-Bonab, Parisa and Sardroodi, Jaber Jahanbin

Abstract

Designing effective Deep eutectic solvents (DESs) for NG sweetening processes requires an understanding of how acid gases are absorbed by DESs. In this regard, the current work provides a summary of the complementary results from the structural, dynamical, and mechanistic absorption evaluation of DESs based on N-methyldiethanolamine (MDEA) using molecular dynamics simulation. The absorption capability of the MDEA-based DES for the extraction of acid gases from NG as a function of temperature demonstrated that the MDEA-based DES extracted 78% and 27% of H2S and CO2, respectively, at 320 K and 0.1 MPa. Additionally, structural analyses including density profiles, radial and spatial distribution functions, hydrogen bond numbers, and molecular interaction energies were explored to gain a more in-depth understanding of the mechanism of acid gas absorption. Moreover, to assess the efficacy of potential DES in NG sweetening procedures, the solubility of acid gases, solubility selectivity, and diffusivity selectivity parameters were determined as functions of temperature. Furthermore, at temperatures between 320 and 400 K, the diffusion coefficients of acid gases and CH4are in the following order: CH4> CO2> H2S. Finally, we believe that new insights into the mechanism of the absorption of H2S and CO2from NG will be beneficial to the design and applications of DESs for sweetening NG in the future.

Published

2023

43. A Chemical Biology Approach to Model Pontocerebellar Hypoplasia Type 1B (PCH1B)

Author

François-Moutal, Liberty, Jahanbakhsh, Shahriyar, Nelson, Andrew D. L., Ray, Debashish, Scott, David D., Hennefarth, Matthew R., Moutal, Aubin, Perez-Miller, Samantha, Ambrose, Andrew J., Al-Shamari, Ahmed, Coursodon, Philippe, Meechoovet, Bessie, Reiman, Rebecca, Lyons, Eric, Beilstein, Mark, Chapman, Eli, Morris, Quaid D., Van Keuren-Jensen, Kendall, Hughes, Timothy R., Khanna, Rajesh, Koehler, Carla, Jen, Joanna, Gokhale, Vijay, and Khanna, May

Abstract

Mutations of EXOSC3 have been linked to the rare neurological disorder known as Pontocerebellar Hypoplasia type 1B (PCH1B). EXOSC3 is one of three putative RNA-binding structural cap proteins that guide RNA into the RNA exosome, the cellular machinery that degrades RNA. Using RNAcompete, we identified a G-rich RNA motif binding to EXOSC3. Surface plasmon resonance (SPR) and microscale thermophoresis (MST) indicated an affinity in the low micromolar range of EXOSC3 for long and short G-rich RNA sequences. Although several PCH1B-causing mutations in EXOSC3 did not engage a specific RNA motif as shown by RNAcompete, they exhibited lower binding affinity to G-rich RNA as demonstrated by MST. To test the hypothesis that modification of the RNA–protein interface in EXOSC3 mutants may be phenocopied by small molecules, we performed an in-silicoscreen of 50 000 small molecules and used enzyme-linked immunosorbant assays (ELISAs) and MST to assess the ability of the molecules to inhibit RNA-binding by EXOSC3. We identified a small molecule, EXOSC3-RNA disrupting (ERD) compound 3 (ERD03), which (i) bound specifically to EXOSC3 in saturation transfer difference nuclear magnetic resonance (STD-NMR), (ii) disrupted the EXOSC3–RNA interaction in a concentration-dependent manner, and (iii) produced a PCH1B-like phenotype with a 50% reduction in the cerebellum and an abnormally curved spine in zebrafish embryos. This compound also induced modification of zebrafish RNA expression levels similar to that observed with a morpholino against EXOSC3. To our knowledge, this is the first example of a small molecule obtained by rational design that models the abnormal developmental effects of a neurodegenerative disease in a whole organism.

Published

2018

44. GPU-accelerated 3-D Finite Volume Particle Method.

Author

Alimirzazadeh, Siamak, Jahanbakhsh, Ebrahim, Maertens, Audrey, Leguizamón, Sebastián, and Avellan, François

Subjects

*GRAPHICS processing units, *FINITE volume method, *PARTICLE methods (Numerical analysis), *SEARCH algorithms, *COMPUTER simulation

Abstract

In previous works (Jahanbakhsh et al., CMAME 298 (2016): 80–107, Jahanbakhsh et al., CMAME 317 (2017): 102–127; see [1] and [2]), the authors introduced SPHEROS, a 3-D particle-based solver based on the Finite Volume Particle Method (FVPM) featuring a spherical top-hat kernel. In the present research, the authors present algorithms and optimization procedures that allowed to significantly accelerate computations by taking advantage of the computational power of Graphics Processing Units (GPUs). The new accelerated solver, GPU-SPHEROS, has been developed in CUDA and runs entirely on GPU, are presented. All the parallel algorithms and data structures have been designed specifically for the GPU many-core architecture. A roofline model has been utilized to assess the performance of the kernels and apply appropriate optimization strategies. In particular, the neighbor search algorithm, accounting for almost a third of the overall compute time, features an efficient Space-Filling Curve (SFC) as well as an optimized octree construction procedure. The memory-bound interaction vector computation, accounting for almost two thirds of the overall compute time, features fixed-size memory pre-allocation and an efficient data ordering to reduce memory transactions and cost of dynamic memory operations i.e. allocation and deallocation. As a case study, the numerical simulation results of water jet deviation by the rotating buckets in a Pelton turbine is presented and compared to available experimental data. For that case, a speedup by a factor of almost six times has been achieved on a single NVIDIA ® Tesla ™ P100-SXM2-16 GB GPU with GP100 Pascal architecture compared to a dual CPU node equipped with two Broadwell Intel ® Xeon ® E5-2690 v4 CPUs with 28 total physical cores. [ABSTRACT FROM AUTHOR]

Published

2018

45. Studying the physiological and yield responses of sunflower inbred lines to full and limited irrigation

Author

Farshad, Nasserghadimi, Soodabeh, Jahanbakhsh, Mehdi, Ghaffari, and Ali, Ebadi

Abstract

In order to study the physiological and yield responses of sunflower inbred lines to full and limited irrigation, an experiment was conducted in the growing season of 2014–2015 in the research field of the Agricultural Research Station in Khoi, Iran. Water withholding was imposed in the flowering stages from R4 (initial flowering) to R6 (full flowering). The results showed that the main effect of irrigation and inbred lines and the interaction effect between irrigation and inbred lines in terms of the proline and protein contents, the catalase, peroxidase, and polyphenol oxidase activities, and seed yield in all inbred lines, and relative water content (RWC) were significant at 1% level. Water withholding in the flowering stage increased the proline content and the catalase, peroxidase, and polyphenol oxidase activities, whereas limited irrigation decreased the protein content and seed yield in all inbred lines and RWC. The lowest protein content and the highest catalase, peroxidase, and polyphenol oxidase activities were observed in BGK 39 under limited irrigation condition, while BGK 37 revealed the highest proline content in such circumstances. The highest seed yield was seen in BGK 1 and BGK 375 in full irrigation condition. Limited irrigation increased the proline content by 49.51%, compared to that of full irrigation condition.

Published

2018

46. Optimal flank wear in turning of Inconel 625 super-alloy using ceramic tool

Author

Jahanbakhsh, M, Akhavan Farid, A, and Lotfi, Mohammad

Abstract

Rapid tool wear is one of the major machinability aspects of nickel-based super alloys. In this article, the effect of cutting parameters on material removal rate and tool wear of a whisker ceramic insert in turning of Inconel 625 was examined. Optical microscope and scanning electron microscope were applied to measure and study tool wear mechanism. Response surface method was used to develop a mathematical model which confirmed by experimental tests. The statistical analysis done by analysis of variance showed that depth of cut is the most effective factor on the tool wear. Experiments showed that increment of feed rate had an insignificant effect on the progress of flank wear, and it is an important controlling factor when material removal rate is considered as a desired output. Finally, optimized cutting condition is presented in this work.

Published

2018

47. Experimental and numerical investigation of low-temperature performance of modified asphalt binders and mixtures

Author

Jahanbakhsh, H., Karimi, Mohammad M., and Tabatabaee, Nader

Abstract

Thermal cracking is the prevalent type of distress experienced by asphalt pavements in cold regions. It is widely assumed that when thermal stresses induced in the pavement exceed the tensile strength of the asphalt surface layer, cracking occurs; however, the role of thermal fatigue should not be ignored. To better describe the low-temperature (LT) performance properties of modified asphalt binders, a new parameter, normalised tensile stress (NTS), was defined in this research. NTS values were compared with bending beam rheometer (BBR), direct tension (DT) and semi-circular bending (SCB) fracture test results. The m-value parameter of the BBR test specifies the type of asphalt binder. This classification changes as the loading time changes and is only valid in the linear viscoelastic range. It showed limited sensitivity to changes in the material properties of modified asphalt binders that showed superior LT damage resistance. In contrast, the results from the DT, SCB and NTS parameters were sensitive to the changes. The results of SCB testing and NTS parameters were in agreement with the existing field data. It was also found that the use of sulphur as a cross-linking agent improved the storage stability of styrene butadiene styrene (SBS)-modified asphalt binder and decreased the amount of SBS required to yield a comparable result by about 50%. In contrast to what has been reported by some investigators, the use of polyphosphoric acid as a cross-linking agent intensified the phase separation of bitumen and SBS, and somewhat reduced the efficacy of SBS modification with regard to LT performance.

Published

2017

48. Characterization of various coatings on wear suppression in turning of Inconel 625: A three-dimensional numerical simulation

Author

Lotfi, Mohammad, Ashrafi, Hossein, Amini, Saeid, Akhavan Farid, A, and Jahanbakhsh, M

Abstract

Applying cutting tool with longer functioning time is a vital issue in machining of the nickel-based super alloys. However, the experimental analysis of this problem is quite expensive. Thus, three-dimensional numerical simulation of tool wear propagation in turning of Inconel 625 super alloy is taken into account, in this study. The cutting insert with complex geometry is modeled by using a reverse engineering method. Based on the cutting tool and workpiece material, Usui wear rate model is exerted to estimate the tool wear rate. In the first section, characterization of TiAlN-coated carbide tool, which is suggested by catalogue, on wear resistance is evaluated and then simulation results are validated with experiments. As a result, increment of depth of cut is the most effective factor on the generation of temperature and stresses on the tool faces resulting in wear rate acceleration. In the second section, different commercial coatings with multicompositions are applied in the simulation to find the best performance against wear. Finally, TiCN coating outperformed other coatings in turning of Inconel 625.

Published

2017

49. Chemical composition and scolicidal activity of Zataria multifloraBoiss essential oil

Author

Mahmoudvand, Hossein, Mirbadie, Seyed Reza, Sadooghian, Saeed, Harandi, Majid Fasihi, Jahanbakhsh, Sareh, and Saedi Dezaki, Ebrahim

Abstract

AbstractZataria multifloraBoiss (Lamiaceae) commonly grows in Iran is a popular medicinal plant with various pharmacological activities mentioned in traditional Iranian medicine and modern phytotherapy. This study was designed to evaluate the chemical composition and scolicidal effects of Z. multifloraessential oil on the protoscoleces of hydatid cysts on an in vitromodel. The components of the Z. multifloraessential oil were identified by GC/MS analysis. Protoscoleces were aseptically aspirated from the livers of naturally infected sheep. Various concentrations of essential oil, thymol and carvacrol were used for 5–30 minutes. Eosin exclusion test was used to determine the viability of protoscoleces. The main components were thymol (41.8%), carvacrol (28.8%), and p-cymene (8.4%). Findings showed that essential oil at the concentrations of 12.5 and 6.25 μL/mL killed 100% protoscoleces after 5 and 20 minutes of exposure, respectively. In addition, thymol and carvacrol at the concentrations of 100 μg/mL and 100 μL/mL killed 100% protoscoleces after 10 minutes incubation, respectively. Obtained results in this investigation for the first time demonstrated that Z. multifloraessential oil and its main components might be a natural source for the production of new scolicidal agents.

Published

2017

50. Identifying and ranking the attributes of hospitals readiness to apply bring your own device: An explanatory sequential mixed study

Author

Jahanbakhsh, Maryam, Amini-Rarani, Mostafa, Tahmasebian, Shahram, and Shahbazi, Masoumeh

Abstract

Objective The Bring Your Own Device (BYOD) approach has promoted the usage of personal mobile devices for organizational and carrier purposes. Applying a BYOD approach might provide various challenges for healthcare organizations. This study endeavored to identify the attributes of hospitals readiness in applying BYOD and to rank these attributes in order to develop appropriate policies for dealing with challenges.Materials and methods This study is an explanatory sequential mixed method design that was carried out in two qualitative and quantitative phases for identifying the BYOD attributes and ranking them, respectively. Semi-structured interviews with 15 experts in the BYOD field were performed through in the qualitative phase. Purposive and snowball sampling approaches were used to choose experts. Thematic analysis was used to analyze qualitative data. The identified attributes were ranked in a quantitative phase by asking 10 experts using fuzzy hierarchical analysis.Results Six main themes and 23 subthemes were identified. The findings of hierarchical analysis showed that ethical considerations, management principles, human resources, legislation considerations, cost, and technical infrastructure as the six main themes, respectively, have priority in hospitals readiness for BYOD.Conclusion Addressing the highlighted priorities, from ethical considerations to technical infrastructure, in the formulation and implementation of formal programs and policies by health managers and authorities will prepare hospitals for the use of BYOD while decreasing the challenges associated with it.

Published

2022