Objective:To investigate the application of retroauricular sulcus incision in surgery for benign tumor in superficial lobe of parotid gland.Methods:A total of 20 patients were reviewed who underwent the resection of benign tumor in the superficial lobe of parotid gland with retroauricular sulcus incision at the Department of Otorhinolaryngology, the Linyi City People Hospital between May 2015 and March 2017. There were 12 males and 8 females with an age range of 12-66 years old, including 15 cases with mixed tumor and 5 cases with adenolymphoma. Surgical procedure included facial never dissection from the main trunk to facial never cervical trunk, temporal trunk and peripheral branches. After resection of tumor and superficial lobe of parotid gland, and sternocleidomastoid muscle flap was used to fill the defect in parotid area. All patients were postoperatively followed up after surgery.Results:Surgeries were successfully operated in all patients. Follow-up for 2 years showed there was no presence of recurrence, salivary fistula, Frey syndrome, scar affecting facial appearance, or significant deformity in the surgical area.Conclusion:Surgery for superficial lobe of parotid gland and facial nerve dissection through retroauricular sulcus incision have some advantages such as incision concealment, simple procedure for facial nerve dissection, simultaneous repair of tissue defects with sternocleidomastoid muscle flap, and less complications.

Objective:To investigate the application of retroauricular groove incision in the resection of benign tumors in the deep lobe of parotid.Methods:From January 2017 to January 2022, 19 patients (11 males and 8 females, age ranged from 17 to 69 years, with a median age of 48) with benign tumor in the deep lobe of parotid gland underwent parotidectomy through retroauricular sulcus incision in Linyi People′s Hospital. Among them, 17 cases with tumor diameter≤4.0 cm underwent simple retroauricular groove incision, and 2 cases were dumbbell type with tumor diameter>4.0 cm on the medial side of mandible protruding into the parapharyngeal space, in which the deep lobe and tumor of parotid gland were resected through retroauricular sulcus incision combined with intraoral incision.Results:Tumors were completely removed through retroauricular sulcus incision in 17 cases, and dumbbell type tumors were removed through retroauricular sulcus incision combined with intraoral incision in 2 cases. Postoperative pathological examinations showed pleomorphic adenoma in 13 cases, basal cell adenoma in 4 cases and Warthin′s tumor in 2 cases. Temporary mandibular marginal branch paralysis occurred in 2 patients and returned to normal 3 weeks after operation. All incisions healed in Phase I. By following-up of 1-5 years with a median follow-up time of 3.1 years, none of the patients had Frey syndrome, salivary fistula, other complications and tumor recurrence. The patients and their families were satisfied with the postoperative facial appearances.Conclusion:The retroauricular groove approach can not only preserve the function of parotid superficial lobe and facial nerve, but also has less trauma, less tissue defect and hidden scar. As the advantages of less complication, low recurrence rate and good cosmetic effect, the incision is worthy of clinical application.

Objective:To explore the causal relationship between blood metabolites and keloids.Methods:The study was a two-sample bidirectional Mendelian randomization (MR) analysis-based study. Blood metabolites of 7 824 adult volunteers and 8 299 participants and data related to 481 912 keloid patients were obtained from the genome-wide association studies (GWAS) Catalog database. Single nucleotide polymorphisms (SNPs) significantly associated with blood metabolites and keloids were screened for inclusion as instrumental variables in the MR analysis by setting a significance threshold of P<1.0×10 -5, chain imbalance analysis [ r2 = 0.001, kilobase pairs (kb) = 10, 000)], and the F statistic ( F≥10) . Five method of MR analysis, i.e., inverse variance weighting (IVW) as the main method and MR-Egger regression, weighted median, simple modeling, and weighted modeling as auxiliary method, were used to analyze the causal relationship between blood metabolites (exposure factors) and keloids (outcome variables) . Sensitivity analyses were performed on eligible blood metabolite SNPs to assess the reliability and stability of the findings: heterogeneity was assessed by Cochran Q-test and MR-Egger regression test, MR Egger intercept test to rule out horizontal pleiotropy, leave-one-out test to determine if the presence of a single SNP significantly affected the result of the MR analyses, MR-PRESSO method was used to test for outliers of SNPs, which were corrected by false discovery rate (FDR) (FDR <0.2) to control the false positive rate. Reverse MR analysis was performed with keloid as the exposure factor, and blood metabolites screened by the aforementioned MR analysis were used as outcome variables for effect analysis and sensitivity analysis. The data were analyzed using R 4.3.2 software and the TwoSampleMR program package therein, and the causal effect values of the MR analysis were expressed as the ratio ( OR) and 95% CI, with P<0.05 being considered as a statistically significant difference, i. e., the evidence of a potential causal effect was substantial. Forest plots, funnel plots, and scatter plots were constructed to visualize the result of MR analysis and sensitivity analysis. Results:A total of 1 400 blood metabolites with 34 843 SNPs were obtained from the GWAS Catalog database, all of which were consistent with the hypothesis that genetic variants are closely associated with exposure factors; a total of 24 197 210 SNPs were obtained from the keloid dataset. IVW analysis revealed that one blood metabolite, succinyl taurine (16 ∶ 1n-7), had 28 SNPs with keloid with a causal relationship ( OR=1.13, 95% CI 1.06-1.19, P<0.001, FDR=0.070) ; MR-Egger regression method ( OR = 1.11, 95% CI 1.04-1.19, P=0.005), weighted median method ( OR = 1.11, 95% CI 1.02-1.20, P=0.014) and weighted modeling method ( OR=1.12, 95% CI 1.04 to 1.20, P=0.004) analyses also showed that succinyl taurine (16 ∶ 1n-7) was a risk factor for keloid disease; the result of the simple modeling method only showed that the causal relationship between succinyl taurine (16 ∶ 1n-7) and keloid disease was not significant ( OR=1.10, 95% CI 0.85-1.41, P=0.485) . MR overall analysis showed a significant positive causal relationship between succinyl taurine (16 ∶ 1n-7) and keloid, i.e., elevated levels of succinyl taurine (16 ∶ 1n-7) were associated with an increased risk of keloid disease. Cochran Q-test ( Q = 26.98, P=0.465), MR-Egger regression test ( Q = 26.65, P = 0.428), MR-Egger intercept test ( P = 0.574), and MR-PRESSO composite test ( P=0.569) showed that there was no heterogeneity and horizontal pleiotropy among SNPs ( P>0.05) ; the leave-one-out test confirmed that individual SNPs did not have a significant effect on the overall result, indicating that the result had reliability and stability. The inverse MR analysis suggested that there was no causal relationship between keloid on succinyl taurine (16 ∶ 1n-7) (IVW: OR=0.98, 95% CI 0.93-1.04, P=0.490) . Conclusions:There is a significant positive causal relationship between the blood metabolite succinyl taurine (16 ∶ 1n-7) and keloids, and succinyl taurine (16 ∶ 1n-7) is a risk factor for keloid disease.

Objective:To explore the causal relationship between blood metabolites and keloids.Methods:The study was a two-sample bidirectional Mendelian randomization (MR) analysis-based study. Blood metabolites of 7 824 adult volunteers and 8 299 participants and data related to 481 912 keloid patients were obtained from the genome-wide association studies (GWAS) Catalog database. Single nucleotide polymorphisms (SNPs) significantly associated with blood metabolites and keloids were screened for inclusion as instrumental variables in the MR analysis by setting a significance threshold of P<1.0×10 -5, chain imbalance analysis [ r2 = 0.001, kilobase pairs (kb) = 10, 000)], and the F statistic ( F≥10) . Five method of MR analysis, i.e., inverse variance weighting (IVW) as the main method and MR-Egger regression, weighted median, simple modeling, and weighted modeling as auxiliary method, were used to analyze the causal relationship between blood metabolites (exposure factors) and keloids (outcome variables) . Sensitivity analyses were performed on eligible blood metabolite SNPs to assess the reliability and stability of the findings: heterogeneity was assessed by Cochran Q-test and MR-Egger regression test, MR Egger intercept test to rule out horizontal pleiotropy, leave-one-out test to determine if the presence of a single SNP significantly affected the result of the MR analyses, MR-PRESSO method was used to test for outliers of SNPs, which were corrected by false discovery rate (FDR) (FDR <0.2) to control the false positive rate. Reverse MR analysis was performed with keloid as the exposure factor, and blood metabolites screened by the aforementioned MR analysis were used as outcome variables for effect analysis and sensitivity analysis. The data were analyzed using R 4.3.2 software and the TwoSampleMR program package therein, and the causal effect values of the MR analysis were expressed as the ratio ( OR) and 95% CI, with P<0.05 being considered as a statistically significant difference, i. e., the evidence of a potential causal effect was substantial. Forest plots, funnel plots, and scatter plots were constructed to visualize the result of MR analysis and sensitivity analysis. Results:A total of 1 400 blood metabolites with 34 843 SNPs were obtained from the GWAS Catalog database, all of which were consistent with the hypothesis that genetic variants are closely associated with exposure factors; a total of 24 197 210 SNPs were obtained from the keloid dataset. IVW analysis revealed that one blood metabolite, succinyl taurine (16 ∶ 1n-7), had 28 SNPs with keloid with a causal relationship ( OR=1.13, 95% CI 1.06-1.19, P<0.001, FDR=0.070) ; MR-Egger regression method ( OR = 1.11, 95% CI 1.04-1.19, P=0.005), weighted median method ( OR = 1.11, 95% CI 1.02-1.20, P=0.014) and weighted modeling method ( OR=1.12, 95% CI 1.04 to 1.20, P=0.004) analyses also showed that succinyl taurine (16 ∶ 1n-7) was a risk factor for keloid disease; the result of the simple modeling method only showed that the causal relationship between succinyl taurine (16 ∶ 1n-7) and keloid disease was not significant ( OR=1.10, 95% CI 0.85-1.41, P=0.485) . MR overall analysis showed a significant positive causal relationship between succinyl taurine (16 ∶ 1n-7) and keloid, i.e., elevated levels of succinyl taurine (16 ∶ 1n-7) were associated with an increased risk of keloid disease. Cochran Q-test ( Q = 26.98, P=0.465), MR-Egger regression test ( Q = 26.65, P = 0.428), MR-Egger intercept test ( P = 0.574), and MR-PRESSO composite test ( P=0.569) showed that there was no heterogeneity and horizontal pleiotropy among SNPs ( P>0.05) ; the leave-one-out test confirmed that individual SNPs did not have a significant effect on the overall result, indicating that the result had reliability and stability. The inverse MR analysis suggested that there was no causal relationship between keloid on succinyl taurine (16 ∶ 1n-7) (IVW: OR=0.98, 95% CI 0.93-1.04, P=0.490) . Conclusions:There is a significant positive causal relationship between the blood metabolite succinyl taurine (16 ∶ 1n-7) and keloids, and succinyl taurine (16 ∶ 1n-7) is a risk factor for keloid disease.