Publications by authors named "Farshid Sefat"

Cutaneous leishmaniasis (CL), a zoonotic and neglected disease, is prevalent in numerous regions, particularly in tropical and sub-tropical countries. In Iran, endemic foci of leishmaniasis exist in specific regions, with zoonotic cutaneous leishmaniasis (ZCL) caused by Leishmania major being common in most rural areas. Toll-like receptors (TLRs) play a crucial role in both innate and adaptive immunities, and the investigation of TLR2 rs5743708 and TLR4 (rs4986790 and rs4986791) polymorphisms in parasitic diseases can have significant implications for patient treatment.

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Background: Recently, there has been a significant evolution in our understanding of the molecular pathways causing the genesis and progression of cancer via the inter-individual variations. Thus, one-size-fits-all methods for cancer treatment have been replaced by precision oncology (PO) targeting individual cancer symptoms, offering increased effectiveness, and decreased safety concerns and cost load.

Objective: The identification of novel actionable indications, rapid, precise, and comprehensive detection of complex phenotypes in every individual, pioneering clinical trial projects with enhanced response feedback, and widespread availability of innovative targeted anticancer management for every patient are vital for the effective implementation of next-generation precision oncology.

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  • - The study explored the safety and effectiveness of injecting placental mesenchymal stromal cells-derived extracellular vesicles into knees of patients with osteoarthritis, comparing it to a control group who received saline injections.
  • - In a triple-blind, randomized clinical trial involving 62 knees (31 patients), various measures, including pain and function assessments, were taken before and after the treatment, but no significant improvements were found between the two groups after 2 and 6 months.
  • - The conclusion highlighted that while the injection was safe with no severe reactions observed, it did not lead to any clinical improvement in knee osteoarthritis symptoms or MRI findings.
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Bio-wastes are organic materials achieved through biological sources. The rice crop produces a substantial amount of biowaste in the form of rice husk, which is rich in cellulose. In this research, cellulose was extracted from rice husk by alkalization and bleaching process.

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The intersection of nanotechnology and pharmacology has revolutionized the delivery and efficacy of chemotherapeutic agents, notably docetaxel, a key drug in cancer treatment. Traditionally limited by poor solubility and significant side effects, docetaxel's therapeutic potential has been significantly enhanced through its incorporation into nanoplatforms, such as nanofibers and nanoparticles. This advancement offers targeted delivery, controlled release, and improved bioavailability, dramatically reducing systemic toxicity and enhancing patient outcomes.

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Introduction: Wound healing is characterized as a complicated and sophisticated biological process through which tissue heals and repairs itself after injury. However, the normal wound healing process relies on different growth factors as well as the presence of an accurate cytokine level to ensure appropriate cellular responses. In the case of wound healing, the effects of various growth factors have been studied, but the effects of transforming growth factor beta (TGF-β) on wound healing have been found to be more significant because of its broad spectrum of impacts on healing the wounded tissues or skins.

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  • Cellular ACE2 (cACE2) is crucial for maintaining a balance between harmful AngII and protective Ang (1-7) in the brain's renin-angiotensin system, essential for normal brain function.
  • SARS-CoV-2 uses cACE2 to enter cells, leading to its downregulation, which disrupts the balance of brain-RAS and undermines neuroprotective pathways, resulting in inflammation and oxidative stress.
  • This disruption is linked to various neurological issues in COVID-19 patients, including sensory disturbances and cerebrovascular problems, highlighting the importance of RAS in brain health during viral infections.
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The prevalence of visual impairments in human societies is worrying due to retinopathy complications of several chronic diseases such as diabetes, cardiovascular diseases, and many more that are on the rise worldwide. Since the proper function of this organ plays a pivotal role in people's quality of life, identifying factors affecting the development/exacerbation of ocular diseases is of particular interest among ophthalmology researchers. The extracellular matrix (ECM) is a reticular, three-dimensional (3D) structure that determines the shape and dimensions of tissues in the body.

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The current review aimed to assess the reliability and efficacy of tissue-engineered composite grafts in the reconstruction of large maxillofacial defects resulting from trauma or a benign pathologic disease. A systematic review of the literature was conducted using PubMed/Medline, Embase, and Scopus up to March 2022. The eligibility criteria included patients who had been treated with composite allogeneic tissue engineering for immediate/delayed reconstruction of large maxillofacial defects with minimum/no bone harvesting site.

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  • Treatments for cartilage and osteochondral lesions are common, but repairing damaged cartilage is challenging due to its avascular nature and inability to self-repair.
  • Large articular cartilage defects are particularly difficult to treat and often result in failures, as articular cartilage lacks the necessary blood supply and nerves for natural healing.
  • Advances in tissue engineering, especially using stem cells, offer promising new techniques for cartilage reconstruction, with the article detailing various treatment types, grades of lesions, and the immune response to cartilage injuries.
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Different types of stem cells have remarkable characteristics such as high proliferation rate, multi/pluripotency, self-renewal, and broad differentiation that can effectively treat diseases, cancers, and damage. Despite abundant therapeutic applications of stem cells in medical science, numerous risks threaten stem cell transplantation. Tumor development, immune response, cellular senescence, dosage effects, and administration timing are critical risks that should be considered in stem cell therapy.

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Corneal transplantation is considered a convenient strategy for various types of corneal disease needs. Even though it has been applied as a suitable solution for most corneal disorders, patients still face several issues due to a lack of healthy donor corneas, and rejection is another unknown risk of corneal transplant tissue. Corneal tissue engineering (CTE) has gained significant consideration as an efficient approach to developing tissue-engineered scaffolds for corneal healing and regeneration.

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  • The study investigates the endothelialization of artificial scaffolds to improve vascular transplantation, focusing on three different biodegradable fibrous scaffolds: PCL alone, PLGA alone, and a Coaxial scaffold made of both materials.
  • Structural and mechanical properties of the scaffolds were analyzed using scanning electron microscopy and tensile testing, while their biocompatibility was tested with human umbilical vein endothelial cells (HUVEC) and human vascular fibroblasts (HVF).
  • Results indicated all scaffolds supported HUVEC and HVF cell growth, with PLGA membranes showing significantly better cell adhesion and proliferation, suggesting these scaffolds have strong potential for tissue-engineered vascular grafts.
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Incidence of Malignant Melanoma has become the 5th in the UK. To date, the major anticancer therapeutics include cell therapy, immunotherapy, gene therapy and nanotechnology-based strategies. Recently, extracellular vesicles, especially exosomes, have been highlighted for their therapeutic benefits in numerous chronic diseases.

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Polymers are sustainable and renewable materials that are in high demand due to their excellent properties. Natural and synthetic polymers with high flexibility, good biocompatibility, good degradation rate, and stiffness are widely used for various applications, such as tissue engineering, drug delivery, and microfluidic chip fabrication. Indeed, recent advances in microfluidic technology allow the fabrication of polymeric matrix to construct microfluidic scaffolds for tissue engineering and to set up a well-controlled microenvironment for manipulating fluids and particles.

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The ultimate goal of regenerative medicine is to repair, regenerate, or reconstruct functional loss in failed tissues and/or organs. Although regenerative medicine is a relatively new field, multiple diverse research groups are helping regenerative medicine reach its objectives. All endeavors in this field go through in silico, in vitro, in vivo, and clinical trials which are prerequisites to translating such approaches from the bench to the bedside.

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In recent decades, the improvement of photoreceptor-cell transplantation has been used as an effective therapeutic approach to treat retinal degenerative diseases. In this review, the effect of different factors on the differentiation process and stem cells toward photoreceptors along with cell viability, morphology, migration, adhesion, proliferation, and differentiation efficiency is discussed. Scientists are researching to better recognize the reasons for retinal degeneration, as well as discovering novel therapeutic methods to restore lost vision.

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Tendon regeneration and reduction of peritendinous adhesion remain major clinical challenges. This study addresses these challenges by adopting a unique hydrogel derived from the skin secretion of Andrias davidianus (SSAD) and taking advantage of its biological effects, adhesiveness, and controllable microstructures. The SSAD-derived hydrogel contains many cytokines, which could promote tendon healing.

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Electrospinning is an innovative new fibre technology that aims to design and fabricate membranes suitable for a wide range of tissue engineering (TE) applications including vascular grafts, which is the main objective of this research work. This study dealt with fabricating and characterising bilayer structures comprised of an electrospun sheet made of polycaprolactone (PCL, inner layer) and an outer layer made of poly lactic-co-glycolic acid (PLGA) and a coaxial porous scaffold with a micrometre fibre structure was successfully produced. The membranes' propriety for intended biomedical applications was assessed by evaluating their morphological structure/physical properties and structural integrity when they underwent the degradation process.

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Overall perspective of nanotechnology and reinforcement of dental biomaterials by nanoparticles has been reported in the literature. However, the literature regarding the reinforcement of dental biomaterials after incorporating various nanostructures is sparse. The present review addresses current developments of glass ionomer cements (GICs) after incorporating various metallic, polymeric, inorganic and carbon-based nanostructures.

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Liver tissue engineering is a rapidly developing field which combines the novel use of liver cells, appropriate biochemical factors, and engineering principles, in order to replace or regenerate damaged liver tissue or the organ. The aim of this review paper is to critically investigate different possible methods to tackle issues related with liver diseases/disorders mainly using regenerative medicine. In this work the various regenerative treatment options are discussed, for improving the prognosis of chronic liver disorders.

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The current study aimed to evaluate the characteristics and the effects of degradation on the structural properties of Poly(lactic-co-glycolic acid) (PLGA)- and polycaprolactone (PCL)-based nanofibrous scaffolds. Six scaffolds were prepared by electrospinning, three with PCL 15% (/) and three with PLGA 10% (/), with electrospinning processing times of 30, 60 and 90 min. Both types of scaffolds displayed more robust mechanical properties with increased spinning times.

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The cornea comprises a pool of self-regenerating epithelial cells that are crucial to preserving clarity and visibility. Limbal epithelial stem cells (LESCs), which live in a specialized stem cell niche (SCN), are crucial for the survival of the human corneal epithelium. They live at the bottom of the limbal crypts, in a physically enclosed microenvironment with a number of neighboring niche cells.

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Objective: The aim of this study was to assess the safety of poly-lactic co-glycolic acid (PLGA) electrospun membranes as carriers for limbal tissue explants for treatment of limbal stem cell deficiency (LSCD).

Methods And Analysis: Approval was obtained for a first in-man study from the Drug Controller General of India. PLGA membranes were applied to the affected eye of five patients after removal of the vascular pannus.

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At the end of 2019, respiratory coronavirus diseases 2019 (COVID-19) appeared and spread rapidly in the world. Besides several mutations, the outcome of this pandemic was the death up to 15% of hospitalized patients. Mesenchymal stromal cell therapy as a therapeutic strategy seemed successful in treatment of several diseases.

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