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Wounds and the subsequent formation of scars constitute a unified and complex phased process. Effective treatment is crucial; however, the diverse therapeutic approaches for different wounds and scars, as well as varying treatment needs at different stages, present significant challenges in selecting appropriate interventions. Microneedle patch (MNP), as a novel minimally invasive transdermal drug delivery system, has the potential for integrated and programmed treatment of various diseases and has shown promising applications in different types of wounds and scars. In this comprehensive review, the latest applications and biotechnological innovations of MNPs in these fields are thoroughly explored, summarizing their powerful abilities to accelerate healing, inhibit scar formation, and manage related symptoms. Moreover, potential applications in various scenarios are discussed. Additionally, the side effects, manufacturing processes, and material selection to explore the clinical translational potential are investigated. This groundwork can provide a theoretical basis and serve as a catalyst for future innovations in the pursuit of favorable therapeutic options for skin tissue regeneration.
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The various tissue damages are a severe problem to human health. The limited human tissue regenerate ability requires suitable biomaterials to help damage tissue repair and regeneration. Therefore, many researchers devoted themselves to exploring biomaterials suitable for tissue repair and regeneration. Polydopamine (PDA) as a natural and multifunctional material which is inspired by mussel has been widely applied in different biomaterials. The excellent properties of PDA, such as strong adhesion, photothermal and high drug-loaded capacity, seem to be born for tissue repair and regeneration. Furthermore, PDA combined with different materials can exert unexpected effects. Thus, to inspire researchers, this review summarizes the recent and representative development of PDA biomaterials in tissue repair and regeneration. This article focuses on why apply PDA in these biomaterials and what PDA can do in different tissue injuries.
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Materiais Biocompatíveis , Indóis , Polímeros , Humanos , Materiais Biocompatíveis/farmacologia , Cicatrização , RegeneraçãoRESUMO
The incidence of chronic diabetic wounds is increasing with the growing number of diabetic patients, and conventional wound dressings have proven to be ineffective in treating them. To address this challenge, researchers have developed artificial dermal substitutes using collagen and hyaluronic acid, which are crucial extracellular matrices. However, these subsitiues lack precision and targeted treatment. To overcome this limitation, a gene liposome nanocomplex-loaded dermal substitute (GDS) has been developed as a potential solution. This innovative biomaterial combines the benefits of liposome nanocomplexes with dermal substitutes to offer a more accurate and effective treatment option for chronic diabetic wounds. The GDS has the ability to deliver genes and therapeutic agents specifically to the wound site, promoting angiogenesis and accelerating the wound healing process. Overall, the GDS presents a promising new approach for the clinical treatment of chronic diabetic wounds, offering a targeted and effective solution for this growing problem.
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Diabetes Mellitus , Lipossomos , Ratos , Animais , Lipossomos/farmacologia , Cicatrização , Colágeno/farmacologia , Matriz ExtracelularRESUMO
AIM: To investigate the risk factors for eye removal following ocular trauma at a major ophthalmology department in China. METHODS: A retrospective study of patients who underwent eye removal surgery following ocular trauma was completed. Clinical outcomes were consulted in detail through the hospital's computed medical data system. Patients' information including age, gender, cause of ocular trauma, affected eye, and education level was collected and recorded in a standardized database. Chi-squared test, Student's t-test, Fisher's exact test, and bivariate correlation analysis were used for statistical comparisons. RESULTS: The present study included 1675 removal eyes from 1674 patients over the 20-year period. Patients included 80.5% males and 19.5% females, with mean age of 38y. The majority of the patients (70.7%) were blue-collar workers (physical laborers), and 1098 patients (65.6%) did not receive high school education. Work-related injuries were the most common reason for eye removal (n=739, 44.1%), of which 441 cases (59.7%) were related to metal/nail wounds. The most frequent injury type in males was work-related injuries (49.7%), whereas the most frequent injury type in females was home-related injuries (25.8%). CONCLUSION: Work-related injuries are a leading cause of severe ocular injury resulting in eye removal. In addition, men and undereducated patients are more likely to undergo eye removal surgery following ocular trauma. This study identified multiple high-risk factors leading to eye removal following ocular trauma, which is of great importance for preventing severe eye injuries.