Effective treatment of intractable diseases using nanoparticles to interfere with vascular supply and angiogenic process

Hoseinzadeh, Ahmad; Johari, Hamed Ghoddusi; Anbardar, Mohammad Hossein; Tayebi, Lobat; Vafa, Ehsan; Abbasi, Milad; Vaez, Ahmad; Golchin, Ali; Amani, Ali Mohammad; Jangjou, Ali

doi:10.1186/s40001-022-00833-6

Cited by 13 publications

(5 citation statements)

References 332 publications

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“…Also, low breaking strength has been found in diabetic animal models leading to hampered angiogenesis . Delayed healing and persistent wounds have been linked to impaired angiogenesis …”

Section: Challenges In Diabetic Wound Healingmentioning

confidence: 99%

Biomaterials-Based Strategies to Enhance Angiogenesis in Diabetic Wound Healing

Pal,

Das,

Mukherjee

et al. 2024

ACS Biomater. Sci. Eng.

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Amidst the present healthcare issues, diabetes is unique as an emerging class of affliction with chronicity in a majority of the population. To check and control its effects, there have been huge turnover and constant development of management strategies, and though a bigger part of the health care area is involved in achieving its control and the related issues such as the effect of diabetes on wound healing and care and many of the works have reached certain successful outcomes, still there is a huge lack in managing it, with maximum effect yet to be attained. Studying pathophysiology and involvement of various treatment options, such as tissue engineering, application of hydrogels, drug delivery methods, and enhancing angiogenesis, are at constantly developing stages either direct or indirect. In this review, we have gathered a wide field of information and different new therapeutic methods and targets for the scientific community, paving the way toward more settled ideas and research advances to cure diabetic wounds and manage their outcomes.

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“…Also, low breaking strength has been found in diabetic animal models leading to hampered angiogenesis . Delayed healing and persistent wounds have been linked to impaired angiogenesis …”

Section: Challenges In Diabetic Wound Healingmentioning

confidence: 99%

Biomaterials-Based Strategies to Enhance Angiogenesis in Diabetic Wound Healing

Pal,

Das,

Mukherjee

et al. 2024

ACS Biomater. Sci. Eng.

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“…1. Novel therapeutic strategies have been designed to optimize efficacy, minimize adverse events, and minimize the frequency of interventions [32,33]. Because VEGF and its receptor, VEGFR, play key roles in the pathogenesis of CNV and RVO [34][35][36][37].…”

Section: Fundus Neovascular Diseases and Their Treatmentmentioning

confidence: 99%

Multifunctional nano-in-micro delivery systems for targeted therapy in fundus neovascularization diseases

Liu,

Huang,

Zhang

et al. 2024

J Nanobiotechnol

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Fundus neovascularization diseases are a series of blinding eye diseases that seriously impair vision worldwide. Currently, the means of treating these diseases in clinical practice are continuously evolving and have rapidly revolutionized treatment opinions. However, key issues such as inadequate treatment effectiveness, high rates of recurrence, and poor patient compliance still need to be urgently addressed. Multifunctional nanomedicine can specifically respond to both endogenous and exogenous microenvironments, effectively deliver drugs to specific targets and participate in activities such as biological imaging and the detection of small molecules. Nano-in-micro (NIM) delivery systems such as metal, metal oxide and up-conversion nanoparticles (NPs), quantum dots, and carbon materials, have shown certain advantages in overcoming the presence of physiological barriers within the eyeball and are widely used in the treatment of ophthalmic diseases. Few studies, however, have evaluated the efficacy of NIM delivery systems in treating fundus neovascular diseases (FNDs). The present study describes the main clinical treatment strategies and the adverse events associated with the treatment of FNDs with NIM delivery systems and summarizes the anatomical obstacles that must be overcome. In this review, we wish to highlight the principle of intraocular microenvironment normalization, aiming to provide a more rational approach for designing new NIM delivery systems to treat specific FNDs. Graphical Abstract

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“…Recent research has shown that there is potential for MXene to be used in diagnostic nanomedicine, image processing, biosensing, as an antibacterial agent, and in the treatment of cancer . MXenes have been described as multipurpose theragnostic agents for effective magnetic resonance (MR) and photoacoustic (PA) dual-modality imaging-guided photothermal treatment (PTT) against cancer because of their great biocompatibility, which is a crucial route. , This is possible because of the MXenes’ ability to inhibit the formation of reactive oxygen species. MXenes make it easier to manufacture mediator-free biosensors by allowing for direct electron transfer between the bioreceptors and the electrode and by functioning as biomolecule immobilization frameworks to preserve active proteins.…”

Section: Biocompatibilitymentioning

confidence: 99%

The Need for Smart Materials in an Expanding Smart World: MXene-Based Wearable Electronics and Their Advantageous Applications

Amani,

Tayebi,

Abbasi

et al. 2023

ACS Omega

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As a result of the transformation of inflexible electronic structures into flexible and stretchy devices, wearable electronics now provide great advantages in a variety of fields, including mobile healthcare sensing and monitoring, human− machine interfaces, portable energy storage and harvesting, and more. Because of their enriched surface functionalities, large surface area, and high electrical conductivity, transition metal nitrides and carbides (also known as MXenes) have recently come to be extensively considered as a group of functioning twodimensional nanomaterials as well as exceptional fundamental elements for forming flexible electronics devices. This Review discusses the most recent advancements that have been made in the field of MXene-enabled flexible electronics for wearable electronics. The emphasis is placed on extensively established nonstructural features in order to highlight some MXene-enabled electrical devices that were constructed on a nanometric scale. These attributes include devices configured in three dimensions: printed materials, bioinspired structures, and textile and planar substrates. In addition, sample applications in electromagnetic interference (EMI) shielding, energy, healthcare, and humanoid control of machinery illustrate the exceptional development of these nanodevices. The increasing potential of MXene nanoparticles as a new area in next-generation wearable electronic technologies is projected in this Review. The design challenges associated with these electronic devices are also discussed, and possible solutions are presented.

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Effective treatment of intractable diseases using nanoparticles to interfere with vascular supply and angiogenic process

Cited by 13 publications

References 332 publications

Biomaterials-Based Strategies to Enhance Angiogenesis in Diabetic Wound Healing

Biomaterials-Based Strategies to Enhance Angiogenesis in Diabetic Wound Healing

Multifunctional nano-in-micro delivery systems for targeted therapy in fundus neovascularization diseases

The Need for Smart Materials in an Expanding Smart World: MXene-Based Wearable Electronics and Their Advantageous Applications

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