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1.
Acta cir. bras ; Acta cir. bras;37(9): e370902, 2022. tab, graf, ilus
Artigo em Inglês | LILACS, VETINDEX | ID: biblio-1402980

RESUMO

Purpose: To investigate the active ingredients of walnut ointment (WO) and its mechanism in repairing wounds. Methods: The ingredients of WO were detected by gas chromatography­mass spectrometry. The effect of linoleic acid (LA) was tested by in vitro Alamar Blue (AB) reagent. Image J software, histological and immunohistochemical analysis were used to confirm the healing effect of LA in the porcine skin model. The animals were euthanized after the experiment by injection of pentobarbital sodium. Results: LA, 24% in WO, promotes keratinocytes and fibroblasts proliferation, which were 50.09% and 15.07% respectively higher than control (p < 0.05). The healing rate of the LA group (96.02% ± 2%, 98.58% ± 0.78%) was higher than the saline group (82.11% ± 3.37%, 88.72% ± 1.73%) at week 3 and week 4 (p < 0.05). The epidermal thickness of the LA was 0.16 ± 0.04 mm greater and the expression of the P63 and CK10 proteins was stronger in the LA group than the control (p < 0.05). Conclusions: LA, which is the main components in WO can promote full-thickness burning wounds (FBWs) by stimulating cell proliferation and differentiation.


Assuntos
Pomadas/química , Cicatrização/efeitos dos fármacos , Queratinócitos/efeitos dos fármacos , Ácido Linoleico/uso terapêutico , Nozes/química , Queimaduras/terapia , Fibroblastos
2.
Int. j. morphol ; 39(4): 1139-1146, ago. 2021. ilus
Artigo em Inglês | LILACS | ID: biblio-1385447

RESUMO

SUMMARY: The cutaneous wounds of trunk and tail healing scar-free or with scar were different in lizard species. Full- thickness cutaneous injuries of tail and body of Scincella tsinlingensis were examined by histomorphological and immunohistochemistrical methods. The results showed that all injuries healed without scarring. The process of the wound healing of S. tsinlingensis involved hemostasis, re-epithelialization, proliferation and remodelling, which also could be further subdivided into six stages. Stage I, 0-2 day post wound (dpw), the blood oozed gradually, no obvious wound contraction, minimal blood loss. Stage II, 2-10 dpw, the wound bed covered by the fibrin clot of blood, tissue fluid and tissue debris. Stage III, 7d-15 dpw, the wrinkled wound epitheliums was gradually stratified, and its surface was keratinized and exfoliated. Stage IV, 10-28 dpw, pigment cells were distributed at the boundary between epidermis and dermis, with few blood vessels and no granulation tissue formation. Stage V, 20-70 dpw, opaque scales covered the wound epithelium with randomly scattered melanophores in the base of the epidermis. Stage VI, 45-135 dpw, the epidermis and dermis restored to the thickness of the original skin. Regenerated scales were similar to scales of the uninjured dermis. The positive immunostaining of matrix metalloproteinases-9, cytokeratin 6, alpha smooth muscle actin, caspase 3 and transforming growth factor-β3 showed the specificity of healing period and different stages, which participated in skin wounds healing of S. tsinlingensis.


RESUMEN: En las diferentes especies de lagartos las heridas cutáneas del tronco y la cola sin cicatrices, o con algún tipo de cicatriz son diversas. En este estudio se examinaron las heridas cutáneas de espesor total de la cola y el cuerpo de Scincella tsinlingensis mediante métodos histomorfológicos e inmunohistoquímicos. Los resultados indicaron que todas las lesiones sanaron sin cicatrices visibles. El proceso de cicatrización de heridas de S. tsinlingensis implicó hemostasia, reepitelización, proliferación y remodelación, que también podrían subdividirse en seis etapas. Etapa I, 0-2 días después de la herida (dph), la sangre filtraba gradualmente, sin contracción evidente de la herida, con pérdida mínima de sangre. Etapa II, 2-10 dph, el lecho de la herida estaba cubierto por el coágulo de sangre, líquido tisular y restos tisulares de fibrina. Etapa III, 7-15 dph, los epitelios de la herida se estratificaron gradualmente y su superficie se queratiniza y exfolia. Etapa IV, 10-28 dph, las células pigmentarias se distribuyeron en el límite entre la epidermis y la dermis, con pocos vasos sanguíneos y sin formación de tejido de granulación. Etapa V, 20-70 dph, escamas opacas cubrieron el epitelio de la herida con melanóforos dispersos al azar en la base de la epidermis. Etapa VI, 45-135 dph, la epidermis y la dermis restauradas al grosor de la piel original. Las escamas regeneradas eran similares a las escamas de la dermis sin herida. La inmunotinción positiva de metaloproteinasas- 9 de matriz, citoqueratina 6, actina de músculo liso alfa, caspasa 3 y factor de crecimiento transformante-β3 mostró la especificidad del período de curación y las diferentes etapas, que participaron en la curación de heridas cutáneas de S. tsinlingensis.


Assuntos
Animais , Fenômenos Fisiológicos da Pele , Cicatrização/fisiologia , Lagartos , Imuno-Histoquímica
3.
Artigo em Chinês | WPRIM | ID: wpr-1015888

RESUMO

Skin wound healing is one of the difficult problems in clinical medicine. The long-term wound healing has a great impact on patients and causes huge social and economic burden. Hydrogels have good biocompatibility, biodegradability and plasticity, and have excellent properties of hemostasis, antibacteri-al and water retention. They are widely used as skin wound dressing. The exosomes derived from stem cells contain the unique contents and membrane components of stem cells. These exosomes have the simi-lar repair function as stem cells, and avoid the safety problems of teratoma and graft immune rejection caused by stem cell therapy, and therefore has become the research hotspot of cell-free repair. However, exosomes in the treatment process will face high clearance rate, short half-life and difficulty in large-scale preparation, which limits the therapeutic effect of exosomes. Hydrogel loaded stem cell exosomes can not only prevent exosome from being rapidly removed, but also play the role of exosome and hydrogel in pro-moting wound healing, skin repair synergy, and thereafter has potential application value in wound repair research. In this paper, production and characteristics of exosomes, commonly used hydrogel materials, stem cell exosomes from different sources, exosomes extraction and identification methods have been sum-marized. Furthermore, stem cell exosomes related mechanisms of wound repair, protective and sustained release effects of hydrogel on exosomes, and synergistic effects of hydrogel and exosome are also reviewed. This paper provides a reference for the future research in the field of skin repair.

4.
Artigo em Inglês | WPRIM | ID: wpr-212031

RESUMO

Management of incisional scar is intimately connected to stages of wound healing. The management of an elective surgery patient begins with a thorough informed consent process in which the patient is made aware of personal and clinical circumstances that cannot be modified, such as age, ethnicity, and previous history of hypertrophic scars. In scar prevention, the single most important modifiable factor is wound tension during the proliferative and remodeling phases, and this is determined by the choice of incision design. Traditional incisions most often follow relaxed skin tension lines, but no such lines exist in high surface tension areas. If such incisions are unavoidable, the patient must be informed of this ahead of time. The management of a surgical incision does not end when the sutures are removed. Surgical scar care should be continued for one year. Patient participation is paramount in obtaining the optimal outcome. Postoperative visits should screen for signs of scar hypertrophy and has a dual purpose of continued patient education and reinforcement of proper care. Early intervention is a key to control hyperplastic response. Hypertrophic scars that do not improve by 6 months are keloids and should be managed aggressively with intralesional steroid injections and alternate modalities.


Assuntos
Humanos , Cicatriz/prevenção & controle , Cicatriz Hipertrófica/prevenção & controle , Queloide/prevenção & controle , Glândulas Sebáceas/fisiologia , Pele/fisiopatologia , Cicatrização
6.
Artigo em Chinês | WPRIM | ID: wpr-569195

RESUMO

Open skin wounds were made in 28 Wistar rats, and the changes of the connective tissue cells were observed by electron microscopy during wound healing. The fibroblasts and macrophages were increased in the early stage, later on the fibroblasts might be transformed into myofibroblasts which became preponderant cells in the wound gradually and led to wound contraction and scar formation. The intercellular substances were phagocytosed by fibroclasts simultaneously. The mast cells were closely apposed to the fibroblasts or myofibroblasts and represented active functions, such as degranulation. Considerably they released the granule contents to the extracellular space and effected the other cells functions. It shows that the cells mentioned above interplay and take part in the wound healing.

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