Advanced nanocarrier- and microneedle-based transdermal drug delivery strategies for skin diseases treatment

Qu, Fei; Geng, Rui; Liu, Yijing; Zhu, Jintao

doi:10.7150/thno.69999

Cited by 84 publications

(65 citation statements)

References 189 publications

(207 reference statements)

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“…In addition, when treated with high concentrations of PAMAM-NH 2 dendrimers, PCNA was highly expressed in all layers of the skin, and the nuclear immune response was enhanced, thus indicating a cell proliferation disorder. Collectively, microscopic evaluations and immunohistochemical analyses showed that cationic PAMAM dendrimers readily led to significant skin toxicity and that low concentrations should be considered for practical external use [118,133].…”

Section: Skin Toxicitymentioning

confidence: 99%

Safety Challenges and Application Strategies for the Use of Dendrimers in Medicine

Naeem

Xiao

et al. 2022

Pharmaceutics

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Dendrimers are used for a variety of applications in medicine but, due to their host–guest and entrapment characteristics, are particularly used for the delivery of genes and drugs. However, dendrimers are intrinsically toxic, thus creating a major limitation for their use in biological systems. To reduce such toxicity, biocompatible dendrimers have been designed and synthesized, and surface engineering has been used to create advantageous changes at the periphery of dendrimers. Although dendrimers have been reviewed previously in the literature, there has yet to be a systematic and comprehensive review of the harmful effects of dendrimers. In this review, we describe the routes of dendrimer exposure and their distribution in vivo. Then, we discuss the toxicity of dendrimers at the organ, cellular, and sub-cellular levels. In this review, we also describe how technology can be used to reduce dendrimer toxicity, by changing their size and surface functionalization, how dendrimers can be combined with other materials to generate a composite formulation, and how dendrimers can be used for the diagnosis of disease. Finally, we discuss future challenges, developments, and research directions in developing biocompatible and safe dendrimers for medical purposes.

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Section: Skin Toxicitymentioning

confidence: 99%

Safety Challenges and Application Strategies for the Use of Dendrimers in Medicine

Naeem

Xiao

et al. 2022

Pharmaceutics

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“…This treatment technique has gained enormous attention from researchers owing to its various benefits, i.e., it avoids the degradation of therapeutics in the gastrointestinal tract, circumvents the first-pass metabolism in the liver (in the case of oral delivery), and prevents the invasive and painful approach via the intravenous delivery of drugs (Figure 3) (Fernando et al, 2018;Qu et al, 2022); hence, it is considered an effective approach in transdermal drug delivery. Microneedles are composed of an array of micron-sized needles that pierce the SC (10-20 um) and deliver the actives directly to the viable epidermis, bypassing the SC barrier and providing high drug bioavailability compared to Frontiers in Drug Delivery frontiersin.org creams and the transdermal patch (Figure 1) (Waghule et al, 2019;Avcil and Çelik, 2021;Ali et al, 2022;Qu et al, 2022). Due to these various advantages, microneedles and their patches have also been translated to clinical stages in the delivery of vaccines (Fernando et al, 2018); however, this strategy has some limitations, such as compatibility, loading capacity, dose restriction due to small size of microneedles, irritation, and inflammatory immune response (Avcil and Çelik, 2021).…”

Section: Microneedlesmentioning

confidence: 99%

Recent advances and future prospective of topical and transdermal delivery systems

Tapfumaneyi

Imran

Mohammed

et al. 2022

Front. Drug. Deliv.

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Recent advances in topical and transdermal drug delivery systems have enabled targeted delivery of therapeutics to the site of action by enhancing drug permeation across the stratum corneum and increased bioavailability. Despite various technological advancements, some dermatoses still have limited treatment options due to potential adverse effects and challenges in formulation development. To address some of the limitations posed by conventional dermatotherapy, nano-based technologies have been developed and have demonstrated a significant improvement in dermatotherapy. Their distinct physicochemical properties demonstrate their overall superior therapeutic efficacy in providing sustained and effective targeted drug release, as well as improved solubility of hydrophobic actives with optimized drug formulations. These nanocarriers are commonly classified as polymeric, lipid-based, metallic, and vesicular nanocarriers, including nanoemulsions, nanofibers, and microneedles. This mini-review aims to address recent advances in nano-based technologies, providing a brief insight on some of the current and prospective technologies and approaches aimed at improving transdermal delivery.

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“…Transdermal drug delivery approaches can avoid first-pass metabolism, control the drug release rates over a prolonged time, and reduce the risk of systemic side effects ( Morry et al, 2015 ). Skin also acts as a reservoir, which enables the diffusion of the penetrated drugs from skin continuously for a longer period and presents an opportunity of lower frequency of administration ( Qu et al, 2022 ). As the stratum corneum (SC) layer of the skin is the capital barrier which limits the penetration of most drugs, many approaches have been adopted to disrupt the SC layer and increase skin permeability, including physical enhancers (iontophoresis, electroporation, sonophoresis, and microneedles), chemical enhancers (alcohol and peptide), and delivery vehicles (spherical nucleic acid and lipoplexes) ( Ita 2017 ; Phatale et al, 2022 ; Qu et al, 2022 ).…”

Section: Transdermal Drug Delivery Systemsmentioning

confidence: 99%

“…Skin also acts as a reservoir, which enables the diffusion of the penetrated drugs from skin continuously for a longer period and presents an opportunity of lower frequency of administration ( Qu et al, 2022 ). As the stratum corneum (SC) layer of the skin is the capital barrier which limits the penetration of most drugs, many approaches have been adopted to disrupt the SC layer and increase skin permeability, including physical enhancers (iontophoresis, electroporation, sonophoresis, and microneedles), chemical enhancers (alcohol and peptide), and delivery vehicles (spherical nucleic acid and lipoplexes) ( Ita 2017 ; Phatale et al, 2022 ; Qu et al, 2022 ). It is reported that transdermal drug delivery approaches enable topical drug delivery to the periarticular tissues of TMJs, which offer a painless and convenient platform to treat TMJOA-associated conditions ( Figure 2 and Table 2 ).…”

Section: Transdermal Drug Delivery Systemsmentioning

confidence: 99%

Drug delivery systems for treatment of temporomandibular joint osteoarthritis

et al. 2022

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The number of people suffering from temporomandibular joint osteoarthritis (TMJOA) has been increasing. TMJOA cause joint noise, pain on TMJ and/or masticatory muscles, and restricted mandibular movement, which disturb eating, laughing and conversation, and impose serious lifestyle impediments. Chondrocyte apoptosis, extracellular matrix degradation, synovitis, and subchondral bone remodeling are the main pathological features of TMJOA. Various drug delivery systems are developed to controlled release at specific activation sites with high bioactivity and inhibit rapid dilution to enable long-term therapeutic response, which present great potential for the treatment of TMJOA. This review focuses on recently developed drug delivery systems by different administration in the TMJOA treatment, and summarizes their effects, duration, safety, and limitations, which would pave the way for development of TMJOA therapy.

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Advanced nanocarrier- and microneedle-based transdermal drug delivery strategies for skin diseases treatment

Cited by 84 publications

References 189 publications

Safety Challenges and Application Strategies for the Use of Dendrimers in Medicine

Safety Challenges and Application Strategies for the Use of Dendrimers in Medicine

Recent advances and future prospective of topical and transdermal delivery systems

Drug delivery systems for treatment of temporomandibular joint osteoarthritis

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