Objective:To investigate the clinical outcomes of lining repair during the reconstruction of nasal defects.Methods:From January 2010 to December 2022, our team treated 15 nasal defect patients aged between 18 and 62 years with an average age of 38, including 8 males and 7 females. The range of the defect was more than one subunit in all cases. And forehead pedicled flaps were chosen for repair. For nasal reconstruction, expander was implanted to expand the central forehead flap. The choice of support depended on the range of the defect, including rib-rib cartilage composite grafts, rib cartilage grafts and ear cartilage grafts. The repair of the lining was selected with the original skin, local nasolabial flapor forehead pedicled flap to repair the mucosal defect of the nose. Postoperative follow-up was conducted to observe the effects.Results:Among the 15 patients, 8 cases underwent rib-rib cartilage composite grafts. 3 cases had rib cartilage grafts, and 4 cases had ear cartilage grafts. All the flaps survived with 1 case experiencing infection. Postoperative follow-up for 0.5 to 2 years showed that the appearance of nasal defects in all 15 cases was significantly improved, with satisfactory results.Conclusions:The repair of nasal defect lining requires a comprehensive analysis based on the specific location, range of the defect, and the selection of the donor area in order to ultimately determine the surgical approach.

Pulmonary fibrosis(PF)is a chronic progressive end-stage lung disease.However,the mechanisms un-derlying the progression of this disease remain elusive.Presently,clinically employed drugs are scarce for the treatment of PF.Hence,there is an urgent need for developing novel drugs to address such diseases.Our study found for the first time that a natural source of Prismatomeris connata Y.Z.Ruan(Huang Gen,HG)ethyl acetate extract(HG-2)had a significant anti-PF effect by inhibiting the expression of the transforming growth factor beta 1/suppressor of mothers against decapentaplegic(TGF-β1/Smad)pathway.Network pharmacological analysis suggested that HG-2 had effects on tyrosine kinase phosphorylation,cellular response to reactive oxygen species,and extracellular matrix(ECM)disassembly.Moreover,mass spec-trometry imaging(MSI)was used to visualize the heterogeneous distribution of endogenous metabolites in lung tissue and reveal the anti-PF metabolic mechanism of HG-2,which was related to arginine biosyn-thesis and alanine,asparate and glutamate metabolism,the downregulation of arachidonic acid meta-bolism,and the upregulation of glycerophospholipid metabolism.In conclusion,we elaborated on the relationship between metabolite distribution and the progression of PF,constructed the regulatory metabolic network of HG-2,and discovered the multi-target therapeutic effect of HG-2,which might be conducive to the development of new drugs for PF.