A bimetallic nanocomposite electrode for direct and rapid biosensing of p53 DNA plasmid

Hamidi‐Asl, Ezat; Raoof, Jahan Bakhsh; Naghizadeh, N.; Sharifi, Simin; Hejazi, Mohammad Saeid

doi:10.1007/s12039-015-0917-8

Cited by 16 publications

(6 citation statements)

References 42 publications

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“…Using novel procedures to manipulate matter at an atomic or molecular level is known as nanotechnology that has gained wide application in all fields of sciences (Ahmadian et al, 2019; Dizaj, Lotfipour, Barzegar‐Jalali, Zarrintan, & Adibkia, 2016; Forouzideh et al, 2020; Hamidi‐Asl, Raoof, Naghizadeh, Sharifi, & Hejazi, 2015; Sharifi et al, 2019; Yazdani, Ahmadian, Sharifi, Shahi, & Dizaj, 2018). The development of drug delivery through nanoparticulate systems has a specified increase to technical novelty in the biomedicine area (Maleki Dizaj et al, 2019; Maleki Dizaj, Sharifi, & Jahangiri, 2019).…”

Section: Introductionmentioning

confidence: 99%

Therapeutic benefits of rutin and its nanoformulations

Negahdari

Bohlouli

Sharifi

et al. 2020

Phytotherapy Research

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165

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Background Rutin as a natural flavonoid compound has revealed an extensive range of therapeutic potentials. Purpose The current paper is focused on the numerous studies on rutin nanoformulations regarding its broad spectrum of therapeutic potentials. Study and methods A review was conducted in electronic databases (PubMed) to identify relevant published literature in English. No restrictions on publication date were imposed. Results The literature search provided 7,078 results for rutin. Among them, 25 papers were related to the potential biological activities of rutin nanoformulations. Polymeric nanoparticles were the most studied nanoformulations for rutin (14 titles) and lipid nanoparticles (5 titles) were in second place. The reviewed literature showed that rutin has been used as an antimicrobial, antifungal, and anti‐allergic agent. Improving the bioavailability of rutin using novel drug‐delivery methods will help the investigators to use its useful effects in the treatment of various chronic human diseases. Conclusion It can be concluded that the preparation of rutin nanomaterials for the various therapeutic objects confirmed the enhanced aqueous solubility as well as enhanced efficacy compared to conventional delivery of rutin. However, more investigations should be conducted to confirm the improved bioavailability of the rutin nanoformulations.

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Section: Introductionmentioning

confidence: 99%

Therapeutic benefits of rutin and its nanoformulations

Negahdari

Bohlouli

Sharifi

et al. 2020

Phytotherapy Research

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165

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“…Nanotechnology, described as the study of materials at the atomic, molecular, and supramolecular levels, has shown promise in the field of CVDs. Nanotechnology is known as the application of nanotechnology to biological structures to prevent, identify, heal, or restore injured cells [3][4][5][6][7]. It is becoming increasingly important in the treatment of cardiovascular diseases.…”

Section: Introductionmentioning

confidence: 99%

Recent Advances in Nanomaterials for Therapy and Diagnosis of Cardiovascular Disease

Gupta

2021

JPRI

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Cardiovascular diseases (CVDs) are among the world’s widely affected disorders, including ischemia and stroke. Acute Myocardial ischemia (AMI) is a deadly disease caused by irreversible damage to the left ventricular heart tissues. The thromboembolic plaque stops the oxygen supply to the main blood vessels and ventricles. During chronic inflammation, myocardial infarction and free radicals damage stable myocardium, smooth muscles cell, and epithelial cells caused by outer membrane loss and ventricular wall smoothing and dilation. Specially constructed scaffolds made of biological and nanoparticles have been created to shield the left ventricle from further injury and recover ischemic endothelial cells. Preclinical experiments have demonstrated that scaffolds containing growth factors and cells will regenerate ischemic tissue into a stable pericardium in good working order. Various medicinal approaches that treat cardiovascular disease conditions at different stages are discussed in this review article, with biomaterials receiving special attention. This review further addresses the manipulation and manufacturing of biomedical implantable devices using nanomedicine methods and drug delivery principles. The use of graphene and exosomal nanovesicle in cardiovascular therapeutics recently progressed in research studies.

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“…Nanotechnology, as the technology of materials on an atomic, molecular, and supramolecular scale, has shown promises for CVDs application. Nanotechnology is generally defined as the use of nanotechnology in preventing, diagnosing, curing disease or repairing damaged tissues in biological systems [3][4][5][6][7]. In recent years, by improving our understanding of diseases at the molecular level and the development of nanoscale technologies, nanorechnology has witnessed a growth explosion in the world.…”

Section: Introductionmentioning

confidence: 99%

The Application of Nanomaterials in Cardiovascular Diseases: A Review on Drugs and Devices

Dizaj

Rad²,

Safaei³

et al. 2019

J Pharm Pharm Sci

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Cardiovascular diseases (CVDs) are still one of the main causes of death. In recent years, nanotechnology has offered new materials and strategies for more effective and safe treatment as well as diagnosis of CVDs. This review highlights the recent advances in nanotechnology applications in CVD therapy. The manipulation and the production of biomedical implantable devices based on nanomedicine approaches as well as drug delivery concepts for diagnosing and treatment of CVDs are discussed in this paper.

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A bimetallic nanocomposite electrode for direct and rapid biosensing of p53 DNA plasmid

Cited by 16 publications

References 42 publications

Therapeutic benefits of rutin and its nanoformulations

Therapeutic benefits of rutin and its nanoformulations

Recent Advances in Nanomaterials for Therapy and Diagnosis of Cardiovascular Disease

The Application of Nanomaterials in Cardiovascular Diseases: A Review on Drugs and Devices

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