Capacidade terapêutica da fitoterapia na odontologia: uma análise abrangente das proteínas antimicrobianas, anti-inflamatórias e reparadoras / Therapeutic capacity of phytotherapy in dentistry: a comprehensive analysis of antimicrobial, anti-inflammatory, and reparative properties

Introdução: A fitoterapia se baseia na utilização de plantas medicinais, através de diferentes formulações farmacêuticas com fins terapêuticos. Na Odontologia, os fitoterápicos têm sido alvo de estudos, devido suas propriedades benéficas, além de apresentarem biocompatibilidade, baixo custo e fácil acesso. Objetivo: Realizar um levantamento na literatura científica sobre a utilização da fitoterapia na Odontologia, com vistas aos efeitos antimicrobiano, anti-inflamatório e reparador. Material e Métodos: A busca ocorreu entre fevereiro a julho/2023, nas bases PubMed e LILACS, além de livre busca, cruzando-se os descritores "Phytotherapy", "Dentistry", "Anti-inflamatory Agents", "Anti-Infective Agents", "Wound Healing", "Fitoterapia", "Odontologia", "Anti-inflamatório", "Antimicrobiano" e "Cicatrização". Após leitura inicial, seguida da análise crítica com aplicação dos critérios estabelecidos, foram selecionadas 50 referências. Desenvolvimento: Diversas plantas são empregadas sob a forma de fitoterapia, como Aloe vera (babosa), Matricaria recutita (camomila), Copaifera (copaíba), Punica granatum (romã), Uncaria tomentosa (unha-de-gato), Malva sylvestris (malva), Althaea officinalis (malvaísco), Myracrodruon urundeuva (Aroeira), Lippia sidoides (Alecrim pimenta) e Glycyrrhiza glabra (Alcaçuz). Na Odontologia, pesquisas evidenciaram resultados satisfatórios para o tratamento de afecções da cavidade oral, especialmente com caráter inflamatório e infeccioso, além de aclerar a cicatrização. Esses achados apontam que a fitoterapia é um tratamento eficaz, acessível e com mínimos efeitos colaterais. Considerações finais: Com base na literatura revisada, a fitoterapia parece ser uma alternativa promissora no tratamento de afecções orais, devido aos seus notáveis efeitos cicatrizantes, antimicrobianos e anti-inflamatórios. Contudo, mais pesquisas com metodologias adequadas são necessárias para que se estabeleçam protocolos clínicos seguros e eficazes.

Introduction: Phytotherapy is based on the use of medicinal plants through different pharmaceutical formulations for therapeutic purposes. In Dentistry, phytotherapeutics have been the subject of studies due to their beneficial properties, as well as their biocompatibility, low cost, and easy accessibility. Objective: To conduct a literature review on the use of phytotherapy in Dentistry, focusing on antimicrobial, anti-inflammatory, and reparative effects. Materials and Methods: The search took place between February and July 2023, using PubMed and LILACS databases, in addition to a free search, crossing the descriptors "Phytotherapy," "Dentistry," "Anti-inflammatory Agents," "Anti-Infective Agents," "Wound Healing," "Fitoterapia," "Odontologia," "Anti-inflammatory," "Antimicrobial," and "Cicatrização." After an initial reading, followed by critical analysis with the application of established criteria, 50 references were selected. Development: Various plants are employed in phytotherapy, such as Aloe vera (aloe), Matricaria recutita (chamomile), Copaifera (copaiba), Punica granatum (pomegranate), Uncaria tomentosa (cat's claw), Malva sylvestris (mallow), Althaea officinalis (marshmallow), Myracrodruon urundeuva (Brazilian copaiba), Lippia sidoides (rosemary pepper), and Glycyrrhiza glabra (licorice). In Dentistry, research has shown satisfactory results for the treatment of oral cavity conditions, especially those with inflammatory and infectious characteristics, as well as accelerating healing. These findings suggest that phytotherapy is an effective, accessible treatment with minimal side effects. Final considerations: Based on the reviewed literature, phytotherapy appears to be a promising alternative in the treatment of oral conditions due to its notable healing, antimicrobial, and anti-inflammatory effects. However, more research with appropriate methodologies is necessary to establish safe and effective clinical protocols.

Topical frankincense treatment for frostbite based on microcirculation improvements.

ETHNOPHARMACOLOGICAL RELEVANCE: The Chinese traditional medicine frankincense, which can promote blood circulation, is often used to treat skin lesions, including frostbite. AIM OF THE STUDY: To explore the properties of frankincense oil extract (FOE) and its active ingredients and their effect on frostbite wound recovery as an approach to understand the mechanism associated with microcirculation-improvement therapy. MATERIALS AND METHODS: The microcirculation-improving effects of FOE and its active ingredients were evaluated using liquid nitrogen-induced frostbite animal models. The rewarming capacity of FOE on the skin was determined through infrared detection, and frostbite wound healing was evaluated following haematoxylin and eosin (H&E) staining and fibre analysis. Moreover, related factors were examined to determine the anti-apoptotic, anti-inflammatory, and microcirculatory properties of FOE and its active ingredients on affected tissue in the context of frostbite. RESULTS: FOE and its active ingredients rapidly rewarmed wound tissue after frostbite by increasing the temperature. Moreover, these treatments improved wound healing and restored skin structure through collagen and elastin fibre remodelling. In addition, they exerted anti-apoptotic effects by decreasing the number of apoptotic cells, reducing caspase-3 expression, and eliciting anti-inflammatory effects by decreasing COX-2 and ß-catenin expression. They also improved microcirculatory disorders by decreasing HIF-1α expression and increasing CD31 expression. CONCLUSIONS: FOE and its active components can effectively treat frostbite by enhancing microcirculation, inhibiting the infiltration of inflammatory cells, decreasing cell apoptosis, and exerting antinociceptive effects. These findings highlight FOE as a new treatment option for frostbite, providing patients with an effective therapeutic strategy.

Programmed surface platform orchestrates anti-bacterial ability and time-sequential bone healing for implant-associated infection.

Implant-associated infection (IAI) has become an intractable challenge in clinic. The healing of IAI is a complex physiological process involving a series of spatiotemporal connected events. However, existing titanium-based implants in clinic suffer from poor antibacterial effect and single function. Herein, a versatile surface platform based on the presentation of sequential function is developed. Fabrication of titania nanotubes and poly-γ-glutamic acid (γ-PGA) achieves the efficient incorporation of silver ions (Ag+) and the pH-sensitive release in response to acidic bone infection microenvironment. The optimized PGA/Ag platform exhibits satisfactory biocompatibility and converts macrophages from pro-inflammatory M1 to pro-healing M2 phenotype during the subsequent healing stage, which creates a beneficial osteoimmune microenvironment and promotes angio/osteogenesis. Furthermore, the PGA/Ag platform mediates osteoblast/osteoclast coupling through inhibiting CCL3/CCR1 signaling. These biological effects synergistically improve osseointegration under bacterial infection in vivo, matching the healing process of IAI. Overall, the novel integrated PGA/Ag surface platform proposed in this study fulfills function cascades under pathological state and shows great potential in IAI therapy.

Tailored extracellular matrix-mimetic coating facilitates reendothelialization and tissue healing of cardiac occluders.

Minimally invasive transcatheter interventional therapy utilizing cardiac occluders represents the primary approach for addressing congenital heart defects and left atrial appendage (LAA) thrombosis. However, incomplete endothelialization and delayed tissue healing after occluder implantation collectively compromise clinical efficacy. In this study, we have customized a recombinant humanized collagen type I (rhCol I) and developed an rhCol I-based extracellular matrix (ECM)-mimetic coating. The innovative coating integrates metal-phenolic networks with anticoagulation and anti-inflammatory functions as a weak cross-linker, combining them with specifically engineered rhCol I that exhibits high cell adhesion activity and elicits a low inflammatory response. The amalgamation, driven by multiple forces, effectively serves to functionalize implantable materials, thereby responding positively to the microenvironment following occluder implantation. Experimental findings substantiate the coating's ability to sustain a prolonged anticoagulant effect, enhance the functionality of endothelial cells and cardiomyocyte, and modulate inflammatory responses by polarizing inflammatory cells into an anti-inflammatory phenotype. Notably, occluder implantation in a canine model confirms that the coating expedites reendothelialization process and promotes tissue healing. Collectively, this tailored ECM-mimetic coating presents a promising surface modification strategy for improving the clinical efficacy of cardiac occluders.

A dendritic cell-recruiting, antimicrobial blood clot hydrogel for melanoma recurrence prevention and infected wound management.

Surgical resection, the mainstay for melanoma treatment, faces challenges due to high tumor recurrence rates and complex postoperative wound healing. Chronic inflammation from residual disease and the risk of secondary infections impede healing. We introduce an innovative, injectable hydrogel system that integrates a multifaceted therapeutic approach. The hydrogel, crosslinked by calcium ions with sodium alginate, encapsulates a blood clot rich in dendritic cells (DCs) chemoattractants and melanoma cell-derived nanovesicles (NVs), functioning as a potent immunostimulant. This in situ recruitment strategy overcomes the limitations of subcutaneous tumor vaccine injections and more effectively achieves antitumor immunity. Additionally, the hydrogel incorporates Chlorella extracts, enhancing its antimicrobial properties to prevent wound infections and promote healing. One of the key findings of our research is the dual functionality of Chlorella extracts; they not only expedite the healing process of infected wounds but also increase the hydrogel's ability to stimulate an antitumor immune response. Given the patient-specific nature of the blood clot and NVs, our hydrogel system offers customizable solutions for individual postoperative requirements. This personalized approach is highlighted by our study, which demonstrates the synergistic impact of the composite hydrogel on preventing melanoma recurrence and hastening wound healing, potentially transforming postsurgical melanoma management.

Cura por vacío (VAC), a propósito de un caso en Atención Primaria / Vacuum assisted closure (VAC), about a case in primary care

El síndrome compartimental agudo requiere de la descompresión quirúrgica, mediante fasciotomía, esta técnica debe ser urgente y será clave para evitar la instauración de graves secuelas. El posterior abordaje de estas heridas de difícil y lenta cicatrización suponen un reto para los profesionales de la salud y un problema para la salud pública debido a los altos costes y elevada morbilidad. La terapia de presión negativa (TPN) o cura por vacío (VAC, "vacuum assisted closure") es un tratamiento no invasivo que consigue la curación de las heridas favoreciendo la vascularización, la aparición del tejido de granulación y eliminación del exceso de exudado[AU]

Acute compartment syndrome requires surgical decompression by fasciotomy, this technique must be urgent and will be key to avoid the establishment of serious sequels. The subsequent approach to these wounds, which are difficult and slow to heal, is a challenge for health professionals and a problem for public health due to high costs and high morbidity. Negative pressure therapy (NPWT) or vacuum assisted closure (VAC) is a non-invasive treatment that achieves wound healing by promoting vascularization, the appearance of granulation tissue and elimination of excess exudate[AU]

A síndrome compartimental aguda requer descompressão cirúrgica, por fasciotomia, esta técnica deve ser urgente e será fundamental para evitar o estabelecimento de sequelas graves. O tratamento subsequente destas feridas difíceis e de cicatrização lenta é um desafio para os profissionais de saúde e um problema desaúde pública devido aos elevados custos e à elevada morbilidade. A terapia por pressão negativa (NPWT) ou o encerramento assistido por vácuo (VAC) é um tratamento não invasivo que permite a cicatrização de feridas através da promoção da vascularização, do aparecimento de tecido de granulação e da remoção do excesso de exsudado[AU]

Mesenchymal stem cells in wound healing: A bibliometric analysis as a powerful research tool.

Bibliographic analysis is still very rarely used in experimental basic study papers. The comprehensive bibliometric analysis of scientific literature on research progress and challenges in stem cell therapy for diabetic chronic wounds, which was conducted in the work of Shi et al can be a case study and a source of valuable information for writing reviews and experimental papers in this field. Basic experimental studies on a role of mesenchymal stem cells (MSCs) in wound healing that are published in 2023-2024, such as Zhang et al in 2023, Hu et al in 2023, Wang et al in 2023 are certainly also subjects for applying this powerful tool to analyze current research, challenges and perspectives in this field. This is due to the fact that these studies have addressed a great variety of aspects of the application of MSCs for the treatment of chronic wounds, such as using both the cells themselves and their various products: Sponges, hydrogels, exosomes, and genetic constructions. Such a wide variety of directions in the field of study and biomedical application of MSCs requires a deep understanding of the current state of research in this area, which can be provided by bibliometric analysis. Thus, the use of such elements of bibliographic analysis as publication count by year and analysis of top-10 keywords calculated independently or cited from bibliometric analysis studies can be safely recommended for every basic study manuscripts, primarily for the "Introduction" section, and review.

Macrophage Polarization: A Novel Target and Strategy for Pathological Scarring.

BACKGROUND: Abnormal scarring imposes considerable challenges and burdens on the lives of patients and healthcare system. Macrophages at the wound site are found to be of great concern to overall wound healing. There have been many studies indicating an inextricably link between dysfunctional macrophages and fibrotic scars. Macrophages are not only related to pathogen destruction and phagocytosis of apoptotic cells, but also involved in angiogenesis, keratinization and collagen deposition. These abundant cell functions are attributed to specific heterogeneity and plasticity of macrophages, which also add an extra layer of complexity to correlational researches. METHODS: This article summarizes current understanding of macrophage polarization in scar formation and several prevention and treatment strategies on pathological scarring related to regulation of macrophage behaviors by utilizing databases such as PubMed, Google Scholar and so on. RESULTS: There are many studies proving that macrophages participate in the course of wound healing by converting their predominant phenotype. The potential of macrophages in managing hypertrophic scars and keloid lesions have been underscored. CONCLUSION: Macrophage polarization offers new prevention strategies for pathological scarring. Learning about and targeting at macrophages may be helpful in achieving optimum wound healing.

Trem2 acts as a non-classical receptor of interleukin-4 to promote diabetic wound healing.

BACKGROUND: The immunoglobulin superfamily protein Trem2 (triggering receptor expressed on myeloid cells 2) is primarily expressed on myeloid cells where it functions to regulate macrophage-related immune response induction. While macrophages are essential mediators of diabetic wound healing, the specific regulatory role that Trem2 plays in this setting remains to be established. OBJECTIVE: This study was developed to explore the potential importance of Trem2 signalling in diabetic wound healing and to clarify the underlying mechanisms through which it functions. METHODS AND RESULTS: Following wound induction, diabetic model mice exhibited pronounced upregulation of Trem2 expression, which was primarily evident in macrophages. No cutaneous defects were evident in mice bearing a macrophage-specific knockout of Trem2 (T2-cKO), but they induced more pronounced inflammatory responses and failed to effectively repair cutaneous wounds, with lower levels of neovascularization, slower rates of wound closure, decreased collagen deposition following wounding. Mechanistically, we showed that interleukin (IL)-4 binds directly to Trem2, inactivating MAPK/AP-1 signalling to suppress the expression of inflammatory and chemoattractant factors. Co-culture of fibroblasts and macrophages showed that macrophages from T2-cKO mice suppressed the in vitro activation and proliferation of dermal fibroblasts through upregulation of leukaemia inhibitory factor (Lif). Injecting soluble Trem2 in vivo was also sufficient to significantly curtail inflammatory responses and to promote diabetic wound healing. CONCLUSIONS: These analyses offer novel insight into the role of IL-4/Trem2 signalling as a mediator of myeloid cell-fibroblast crosstalk that may represent a viable therapeutic target for efforts to enhance diabetic wound healing.

Fostering collaboration: an exploration of knowledge exchange between Rongoa Maori practitioners and surgical clinicians.

BACKGROUND: This research investigates the potential for collaboration of Rongoa Maori, the Indigenous healing practices of Maori, with New Zealand's contemporary healthcare system. It aims to bridge the gap between Rongoa Maori and Western medicine by exploring the perspectives of practitioners from both fields, identifying barriers to integration, and highlighting potential areas for collaboration. METHODS: Qualitative interviews were conducted with both Rongoa practitioners and Western surgeons. The data collected were subjected to thematic analysis to extract key themes related to the integration process, challenges faced, and the potential for mutual recognition and respect between the two healing paradigms. RESULTS: The study reveals a deep respect for Rongoa Maori among Western surgeons but identifies significant systemic barriers that impede its integration. These include bureaucratic challenges and the absence of clear referral pathways. Rongoa practitioners express concerns over being overlooked within the healthcare system and highlight a lack of awareness among healthcare professionals about their practices. Despite these challenges, there is a shared interest in collaborative approaches to healthcare that respect and incorporate Rongoa Maori. CONCLUSIONS: The findings underscore the need for systemic changes to facilitate the integration of Rongoa Maori into mainstream healthcare, including the development of clear referral pathways and initiatives to raise awareness among healthcare professionals. The study highlights the need for a more collaborative healthcare approach that values the contributions of Rongoa Maori, aiming to improve patient care through holistic practices.

Urolithin A alleviates cell senescence by inhibiting ferroptosis and enhances corneal epithelial wound healing.

Purpose: To analyze the therapeutic effect and mechanism of Urolithin A (UA) on delayed corneal epithelial wound healing. Methods: The C57BL/6 mice were continuously exposed to hyperosmotic stress (HS) for 7 days followed by the removal of central corneal epithelium to establish a delayed corneal epithelial wound healing model in vivo. In vitro, the human corneal epithelial cell line (HCE-T) was also incubated under HS. UA was administered in vivo and in vitro to study its effects on corneal epithelial cells. Senescence-associated ß-galactosidase (SA-ß-gal) staining was performed to detect the level of cell senescence. Transcriptome sequencing (RNA-seq) was conducted to elucidate the molecular mechanism underlying the effect of UA on corneal epithelial repair. Additionally, the expression of senescence-related and ferroptosis-related genes and the levels of lipid peroxides (LPO) and malondialdehyde (MDA) were measured. Results: Hyperosmotic stress (HS) significantly increased the proportion of SA-ß-gal staining positive cells in corneal epithelial cells and upregulated the expression of p16 and p21 (p < 0.0001). Topical application of UA decreased the accumulation of senescent cells in corneal epithelial wounds and promoted epithelial wound healing. The results of RNA-seq of HS-induced corneal epithelial cells showed that the ferroptosis pathway was significantly dysregulated. Further investigation revealed that UA decreased the level of oxidative stress in HCE-T cells, including the levels of LPO and MDA (p < 0.05). Inhibition of ferroptosis significantly prevented cellular senescence in HS-induced HCE-T cells. Conclusion: In this study, UA promoted HS-induced delayed epithelial wound healing by reducing the senescence of corneal epithelial cells through the inhibition of ferroptosis.

L-PRF in extra-oral wound care.

Leukocyte- and platelet-rich fibrin (L-PRF), a by-product of centrifuged autologous whole blood, contains high concentrations of platelets, leukocytes, and fibrin (the latter spontaneously creating a strong 3-D network (a membrane)). L-PRF membranes possess several characteristics essential in wound healing, including a barrier function, an antibacterial and analgesic activity, and the release of growth factors enhancing tissue regeneration and neo-vasculogenesis. This review investigated the role of L-PRF in treating non-responding chronic wounds such as diabetic foot, venous leg ulcers, pressure ulcers, complex wounds, leprosy ulcers (Hansen's Disease), and other demanding wounds. Chronic wounds affect millions worldwide, negatively impacting their quality of life, productivity, and life expectancy while incurring high treatment costs for themselves and private and public health systems. L-PRF has demonstrated clear adjunctive advantages in treating chronic skin wounds, shortening the time to complete wound closure, and improving patient-reported outcome measures (including reducing pain and minimizing the need for analgesics). Also, in other demanding wounds, L-PRF facilitates healing. To help clinicians, this article also proposes recommendations for the use of L-PRF in the treatment of extra-oral wounds.

Anti-tumor potential of high salt in breast Cancer cell lines.

BACKGROUND: Recent 23Na-MRI reports show higher salt deposition in malignant breast tissue than in surrounding normal tissue. The effect of high salt on cancer progression remains controversial. Here, we investigated the direct effect of high salt on breast cancer progression in vitro. METHODS: Here, the impact of high salt on apoptosis, proliferation, cell cycle, adhesion, and migration of MDA-MB-231 and MCF-7 cells was studied using MTT, scratch, and clonogenic assays, as well as RT-PCR and flow cytometry. Gene expression was analyzed using Real-Time PCR and western blotting. The effect of high salt on global transcriptomics changes in MDA MB-231 cells was studied using RNA-sequencing analysis. RESULTS: Flow cytometry with Annexin V and CFSE revealed that high salt-induced dose-dependent apoptosis and inhibited proliferation. High salt-induced cell cycle arrest at the G1/S phase of the cell cycle. p-MDM2 is known to suppress p53, which plays a crucial role in regulating apoptosis and cell cycle arrest under cellular stress conditions. High salt treatment led to decreased p-MDM2 and increased p53 expression, suggesting that high salt induces apoptosis through p53 stabilization. decreased p-MDM2 and increased p53 expression. High salt also reduced migration and adhesion of cells in a dose-dependent manner suggesting its inhibitory effect on metastatic properties as evident from wound healing assay. RNA sequencing analysis revealed overexpression of tumor suppressor genes and genes associated with anti-tumor activity (PCDHGA11, EIF3CL, RAVER1, TNFSF15, RANBP3L) and under-expression of genes involved in cancer-promoting activity (MT1X, CLDN14, CSF-2). CONCLUSION: Our results unequivocally demonstrate the anti-tumor efficacy of high salt against breast cancer cells, suggesting its potential as a therapeutic strategy in cancer treatment.

Ultrasound Induces Similar Temporal Endothelial Expression Patterns of eNOS and KLF2 as Normal Flow.

OBJECTIVE: To determine the sensitivity of vascular endothelial cells to long durations of low-intensity pulsed ultrasound (LIPUS) compared to normal flow and identify the duration that maximizes expression of two mechanosensitive genes related to healthy endothelial function, endothelial nitric oxide synthase (eNOS) and Krüppel-like factor 2 (KLF2). METHODS: Custom ultrasound exposure tanks were developed and the acoustic field was characterized. Human umbilical vein endothelial cells were seeded into culture plates and exposed to LIPUS at a frequency of 1 MHz and acoustic pressure of 217 kPa for 20 min, 1 h, 6 h, 9 h, or 24 h. As a comparator, other cells were exposed to normal flow. RT-qPCR was used to assess mRNA expression of eNOS and KLF2. RESULTS: Maximum eNOS and KLF2 expression occurred at 6 h and was localized to the beam path. Both genes exhibited qualitatively similar patterns of expression under LIPUS compared to normal flow. LIPUS induced a more rapid beneficial response compared to normal flow, but flow induced higher expression of both genes. eNOS expression after 6 h of LIPUS was dependent on RNA yield and culture duration prior to experiments. CONCLUSION: Endothelial cells exposed to longer durations of LIPUS than typically employed exhibited greater expression of beneficial genes. The temporal gene expression patterns resulting from LIPUS and normal flow suggest activation of similar signaling pathways. However, LIPUS also caused increased RNA yield that may be linked to proliferation, which would suggest more of a wound healing than atheroprotective phenotype.

A comprehensive evaluation of dermal fibroblast therapy in clinical trials for treating skin disorders and cosmetic applications: a scoping review.

BACKGROUND: Fibroblast cells have the ability to improve skin conditions through regenerative medicine and cell-based therapies. The purpose of this scoping review is to assess the contribution of fibroblast cells to skin homeostasis and extracellular matrix deposition in clinical trials involving skin disorders and cosmetic applications. METHODS: Using targeted search terms, published publications from January 2000 to August 2023 that addressed fibroblast uses in clinical trials of skin conditions were obtained from bibliographic databases like PubMed, Scopus, and Web of Science (WoS). Precise inclusion and exclusion criteria were used during the screening process. The potential benefits of induction treatment with fibroblasts lead to the choosing of clinical trials for this kind of treatment. RESULTS: Out of the 820 published ppapers initially identified, only 35 studies fulfilled our meticulous eligibility criteria after careful screening. To ensure clarity, we methodically eliminated any duplicate or irrelevant published papers, thereby offering a transparent account of our selection process. CONCLUSION: This study highlights the advantages of fibroblast therapy in treating skin conditions such as diabetic foot, venous leg ulcers, and cosmetic reasons. Fibroblasts possess remarkable regenerating capabilities, making dermal fibroblast therapy crucial in cell-based and skin regenerative treatments. Nevertheless, additional research is required for more disorders and cosmetic applications.

Granulocyte colony stimulating factor promotes scarless tissue regeneration.

Mammals typically heal with fibrotic scars, and treatments to regenerate human skin and hair without a scar remain elusive. We discovered that mice lacking C-X-C motif chemokine receptor 2 (CXCR2 knockout [KO]) displayed robust and complete tissue regeneration across three different injury models: skin, hair follicle, and cartilage. Remarkably, wild-type mice receiving plasma from CXCR2 KO mice through parabiosis or injections healed wounds scarlessly. A comparison of circulating proteins using multiplex ELISA revealed a 24-fold higher plasma level of granulocyte colony stimulating factor (G-CSF) in CXCR2 KO blood. Local injections of G-CSF into wild-type (WT) mouse wound beds reduced scar formation and increased scarless tissue regeneration. G-CSF directly polarized macrophages into an anti-inflammatory phenotype, and both CXCR2 KO and G-CSF-treated mice recruited more anti-inflammatory macrophages into injured areas. Modulating macrophage activation states at early time points after injury promotes scarless tissue regeneration and may offer a therapeutic approach to improve healing of human skin wounds.

Cu2O-SnO2-PDA heterozygous nanozyme doped hydrogel mediated conglutinant microenvironment regulation for wound healing therapy.

Bacterial infection significantly hinders the wound healing process. Overuse of antibiotics has led to the rise of drug resistance in bacteria, making the development of smart medical dressings that promote wound healing without antibiotics, a critical need. In this study, Cu2O-SnO2-PDA (PCS) nanoenzymes with Fenton-like activity and high photothermal conversion efficiency were developed. These nanoenzymes were then incorporated into a hydrogel through cross-linking of acrylamide (AM) and N-[Tris-(hydroxymethyl)methyl] acrylamide (THMA), forming a tough, highly-adhesive, and self-healing composite hydrogel (AT/PCS) with antimicrobial properties. The AT/PCS hydrogel exhibits excellent mechanical strength and adhesion, facilitating increased oxygen levels and strong adherence to the wound site. Moreover, it effectively regulates the wound microenvironment by combining synergistic chemodynamic therapy (CDT) and photothermal therapy (PTT) for antibacterial treatment. The AT/PCS hydrogel enhances collagen deposition and expedites wound healing in a rat model, largely due to its potent antibacterial properties.

Essential oils: a potential alternative with promising active ingredients for pharmaceutical formulations in chronic wound management.

Chronic wound is a major clinical challenge that complicates wound healing, mainly associated with bacterial biofilms. Bacterial burden damages tissue and persists inflammation, failing to granulate, leading to morbidity and mortality. Various therapeutic strategies and approaches have been developed for chronic wound healing in clinical practice. As treating biofilm infection is crucial in chronic wounds, a potent antibiofilm agent, essential oils have been explored extensively for their therapeutic properties and as a replacement for antibiotic therapy. Currently, several studies on essential oils and their active compounds in therapeutics, such as adjunctive therapies, nanotechnology-based treatment and their drug delivery systems, help heal chronic wounds. The antimicrobial, anti-inflammatory and antioxidant properties of essential oils make them distinct and are renowned as natural remedies to improve the healing of infected chronic wounds. Consequently, it accelerates wound closure by reducing inflammation, increasing angiogenesis and tissue regeneration. This review focuses on different essential oils and their active compounds that are exploited for the treatment of biofilm infection, chronic inflammation and wound healing. Thus, an effective novel treatment can be developed to improve the current treatment strategy to overcome multidrug resistance bacteria or antibiotic resistance in various chronic wound infections that support wound healing.

Self-assembled ROS-triggered Bletilla striata polysaccharide-releasing hydrogel dressing for inflammation-regulation and enhanced tissue-healing.

The antimicrobial and pro-healing properties remain critical clinical objectives for skin wound management. However, the escalating problem of antibiotic overuse and the corresponding rise in bacterial resistance necessitates an urgent shift towards an antibiotic-free approach to antibacterial treatment. The quest for antimicrobial efficacy while accelerating wound healing without antibiotic treatment have emerged as innovative strategies in skin wound treatment. Here, a dual-function hydrogel with antimicrobial and enhanced tissue-healing properties was developed by utilizing cyclodextrin, ferrocene, polyethyleneimine (PEI), and Bletilla striata polysaccharide (BSP), through multiple non-covalent interactions, which can intelligently release BSP by recognizing the wound inflammatory microenvironment through the cyclodextrin-ferrocene unit. Moreover, the porosity (65 % - 85 %), Young's modulus (400 KPa - 140 KPa), and DPPH scavenge rate (18 % - 40 %) of the hydrogel are modulated by varying the BSP content. The hydrogel exhibits outstanding antibacterial properties (98.3 % reduction of Escherichia coli observed after exposure to HTFC@BSP-20 for 24 h) and favorable biocompatibility. Furthermore, in a rat full-thickness skin wound model, the dual-function hydrogel significantly accelerates wound healing, increased CD31 expression promotes vascular regeneration, reduced TNF-α express and inhibited the inflammation. This multifunctional ROS responsive hydrogel provides a new perspective for antibiotics-free treatment of skin injuries.