Open Access

Clinical analysis of tumescent anesthesia technique combined with superficial fascia rotational atherectomy in axillary bromhidrosis

  • Authors:
    • Yong-Ping Shi
    • Ju-Hong Li
    • Yu Wang
    • Yanfei Wu
  • View Affiliations

  • Published online on: April 20, 2023     https://doi.org/10.3892/etm.2023.11965
  • Article Number: 266
  • Copyright: © Shi et al. This is an open access article distributed under the terms of Creative Commons Attribution License.

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Abstract

Axillary bromhidrosis, which involves the apocrine sweat glands, severely affects adolescents. The present study aimed to evaluate the effect of tumescent anesthesia technique combined with superficial fascia rotational atherectomy treatment for axillary bromhidrosis. The present retrospective study included a total of 60 patients with axillary bromhidrosis. These patients were divided into experimental and control groups. Patients in the control group were treated using the tumescent anesthesia technique combined with conventional surgery, while patients in the experimental group were treated using the anesthesia technique combined with superficial fascia rotational atherectomy. The intraoperative blood loss, operation time, histopathological examination and dermatology life quality index (DLQI) score were used to assess the treatment effect. The intraoperative blood loss and operation time were significantly lower in the experimental group compared with the control group. The histopathological results revealed that the sweat gland tissues in experiment group significantly decreased compared with that in control group. Furthermore, there was a significant improvement in axillary odor degree for postoperative patients, and the DLQI scores in experiment group were significantly lower compared with those in control group. The tumescent anesthesia technique combined with superficial fascia rotational atherectomy is a promising approach to treating patients with axillary bromhidrosis.

Introduction

Axillary bromhidrosis is a disease that involves the apocrine sweat glands and it is characterized as a combination of wet earwax, hyperhidrosis and bromhidrosis (1,2). The bacteria decomposition on the armpit surface skin of patients with axillary bromhidrosis produces a spicy and pungent odor. This odor severely affects interactions between individuals and negatively impacts life quality. Therefore, patients with axillary bromhidrosis usually carry a significant psychosocial burden and axillary bromhidrosis can lead to a severe sense of inferiority (3,4). Furthermore, surgical strategies require expensive treatment fees and the sweat gland tissue cannot be cleanly removed. Meanwhile, the recurrence rate for postoperative patients remains high. In addition, nodules that form in the armpits easily cause pain and adverse reactions. Furthermore, surgical strategies easily cause noticeable scars affecting the physical appearance of the patients. The serious psychological damage to patients with axillary bromhidrosis has become a prominent social problem (5-7). However, the pathogenesis of axillary bromhidrosis remains unclear. Therefore, there is an urgent need to identify effective methods to treat patients with axillary bromhidrosis (8,9). Various surgical strategies, including subcutaneous tissue resection, simultaneous removal of subcutaneous tissues and axillary skin, minimally invasive surgery and partial axillary skin resection with subsequent ablation of subcutaneous tissue, have been utilized to treat this disease; however, surgical therapy for patients with severe axillary bromhidrosis can easily cause scar formation, delayed wound healing, hemorrhage and axillary nerve damage or infection (10-12). At present, the tumescent anesthesia technique combined with superficial fascia rotational atherectomy has been reported as an effective method for treating patients with axillary bromhidrosis (13).

The tumescent anesthesia technique combined with superficial fascia rotational atherectomy, which is a rapidly developing technology for treating axillary bromhidrosis, has been widely used for the treatment of patients with axillary bromhidrosis in the clinic and the therapy results for axillary bromhidrosis have gained the attention of physicians and patients (13,14). The tumescent anesthesia technique, which is a variant form of local anesthesia, has been used in clinical anesthesia for several years and involves local anesthetic and epinephrine injected into the tissue (15). The tumescent anesthesia technique has been successful in various surgical procedures, including superficial fascia atherectomy surgery, liposuction and varicose vein treatment. In addition, the tumescent anesthesia technique has advantages of being less invasive and more cost-effective and presenting good clinical outcomes in treating patients with axillary bromhidrosis (16). Superficial fascia rotational atherectomy destroys the axillary apocrine sweat gland tissue using rotational atherectomy to decrease sweat gland secretion and scar tissue at the damaged sweat gland and duct tissue and prevent the secretion of axillary apocrine sweat gland tissue to the skin (17). Rotational atherectomy has advantages in treating axillary apocrine sweat glands compared with other surgical procedures, such as simpler operation procedure and greater control, high efficiency, shorter operation time, reduced discomfort during the operation, wide scraping and suction range, suitability for large areas of axillary apocrine sweat gland and low postoperative recurrence rate (18). Rotational atherectomy has been widely used for the treatment of patients with axillary bromhidrosis to decrease the adverse effect (13,17,19). Therefore, rotational atherectomy on patients with axillary bromhidrosis serves a key role in treating and preventing disease progression.

The tumescent anesthesia technique and rotational atherectomy have been considered effective therapies for patients with axillary bromhidrosis, according to previous clinical studies (13,16,19). However, to the best of our knowledge, clinical studies for the tumescent anesthesia technique combined with superficial fascia rotational atherectomy treatment for axillary bromhidrosis remain limited (11,17). The present study investigated the clinical characteristics of the anesthesia technique combined with superficial fascia rotational atherectomy treatment in patients with axillary bromhidrosis.

Materials and methods

Patients

A total of 60 patients (female, n=41; male, n=19) aged 16~27 with axillary bromhidrosis, who were treated in the First Hospital of Jiaxing, Jiaxing, China from January 2017 to December 2020, were included in the present retrospective clinical study. All patients had a history of axillary bromhidrosis. All protocols used for the present study were prospectively reviewed and approved by the Use Committee of the First Hospital of Jiaxing (approval no. LS-2018-117) and written informed consent was obtained from all patients.

The study inclusion criteria were: i) History of axillary bromhidrosis; ii) meeting the Park's diagnostic criteria for axillary bromhidrosis (20); iii) symptoms that disturbed the patient quality of life; iv) absence of infection on the axillary skin or other disease that could affect the operation; v) no axillary bromhidrosis surgery within 3-6 months prior to the start of the study; vi) absence of active or progressive heart, lung, liver or kidney disease; vii) patients on a long-term hormones and aspirin therapy who were advised to stop taking these at one week preoperative; viii) patients who were able to communicate effectively to give consent.

The study exclusion criteria were: i) Very high expectation of treatment for axillary bromhidrosis; ii) severe psychological disorder; iii) anticoagulant or antiplatelet drug therapy increasing the risk of bleeding; iv) history of surgery ≥3 times in the axillary 3-6 months before surgery; v) active or progressive heart, lung, liver or kidney disease; vi) menstruating patients; vii) breastfeeding patients; viii) allergy to anesthesia and ix) participation in other clinical trials.

Trial design

The present study was retrospective. Study participants were equally distributed between the experimental and control groups (n=30/group). The tumescent anesthesia technique combined with conventional surgery was performed on the patients in the control group, while the anesthesia technique combined with superficial fascia rotational atherectomy was performed for patients in the experimental group. A set of negative-pressure suction devices was used to collect peeled tissue.

Preoperative preparation

The rotational atherectomy system (Terumo Corporation), which comprises the host, perfusion lighting rod, planer head, power output line and pressurized infusion devices, was used to treat patients in the experimental group. Anesthesia perfusion solution (100 ml), which consisted of 0.5% lidocaine and 0.1% u-epinephrine, was prepared for local infiltration anesthesia. The blood routine for the two groups of patients was checked and four items of blood coagulation including platelet, prothrombin and thrombin time and fibrinogen were obtained. The presence of symptoms such as redness, swelling, ulceration and furuncle on the underarm skin was monitored. The scribe area on the axillary was 0.5 cm larger than the axillary hair area. The surgery aimed to completely remove the axillary bromhidrosis.

Surgical method

The patient was instructed to lie on their back, with both upper limbs abducted and raised, elbows bent and hands placed at the side of their head with palms facing up to fully expose the axillary skin. Subsequently, 40-50 ml anesthesia perfusion solution was injected above the scribe area. The incision was performed at the midpoint of the armpit. A flap was formed using vascular forceps on the subcutaneous fat layer of the incision. For patients in the experimental group, the rotational atherectomy cutter head was extended from the incision into the axillary hair area to conduct a saw-style suction. For patients in the control group, a conventional cutter head was used. A pressure suction force of 0.3-0.4 kPa was set on the negative pressure suction device, and a speed of 1,000-1,200 revolutions/min was set on the rotational atherectomy cutter head. Subsequently, subcutaneous fat, dermal apocrine sweat glands and hair follicles in the scribe area were destroyed and sucked. Finally, the thickness of the remaining flap was ~0.5 cm. The plucking was used to test the degree of destruction on the apocrine sweat glands.

Clinical data

Clinical data from all pretreatment patients with axillary bromhidrosis in the present study were collected, including age, sex, degree of axillary bromhidrosis odor (21), family and surgical history, skin quality, surgery time, intraoperative blood loss, axillary odor degree and quality of life score (21). These were recorded through WeChat, text messages, phone calls and follow-up visits.

Axillary skin histology

After obtaining informed consent from patients, ~5 mm full-thickness tissue was cut from the preoperative and postoperative axillary incision skin and the excised tissues were fixed with 4% paraformaldehyde at 4˚C for 12 h. Subsequently, the axillary tissue was embedded in paraffin blocks, cut into 5-µm sections for conventional hematoxylin at room temperature for 5 min and eosin staining at room temperature for 5 min and tested by YS, who was blinded to the control and experimental groups. Finally, the structural components of the tissue were observed using an optical microscope (light, 200x).

Evaluation of surgical effect

The therapeutic efficacy of tumescent anesthesia technique combined with superficial fascia rotational atherectomy for patients with axillary bromhidrosis was evaluated at 6-month follow-up. The surgery was considered curative, effective and ineffective based on postoperative axillary odor scores as follows: i) Curative, the axillary odor score was grade 0 or 1 and was significantly improved compared with that in the control group; ii) effective, axillary odor score for postoperative patients significantly improved compared with that in the control group but the effect did not reach the curative standard; and iii) ineffective, axillary odor score of the experimental group was not significantly improved compared with that in the control group and the grade for postoperative patients remained at grade 2 or 3.

Evaluation of patient satisfaction

The dermatology life quality index (DLQI) was used to evaluate patient satisfaction. DLQI, which is a questionnaire survey, has been widely used as an evaluation for the health-related life quality of patients with skin diseases (21). DLQI score system was used to evaluate the clinical effect of surgery and patient satisfaction (Table I). According to the total DLQI score, the satisfaction of these two groups of patients with axillary bromhidrosis was evaluated and compared (Table II).

Table I

Contents and scores for DLQI.

Table I

Contents and scores for DLQI.

DLQI itemNo effect scoreLittle effect scoreEffect scoreSevere effect score
Itching, soreness, pain or tingling of the skin0123
Embarrassment or embarrassment caused by skin problems0123
Impact of skin problems on your life0123
Effect of your skin problems on choice of clothes0123
Impact of your skin problems on your social or leisure activities0123
Difficulties on skin caused by exercise0123
Does the skin problem hinder your work or study?0123
Does the skin problem cause problems with spouse, or good friends or relatives?0123
Does your skin problem cause sexual problems?0123
How big is the problem caused by skin problem treatment?0123

[i] DLQI, dermatology life quality index.

Table II

Total DLQI scoring system.

Table II

Total DLQI scoring system.

DLQI total scoreEffect of axillary bromhidrosis on life quality
0-1None
2-5Little
6-10Moderate
11-20Relatively large
21-30Severe

[i] DLQI, dermatology life quality index.

Statistical analysis

SPSS 19.0 software (IBM Corp.) was used for statistical analysis. Continuous data are presented as mean ± standard deviation of independent experimental repeats three times, while descriptive data are presented as percentages. Measurement data and count data, were analyzed by paired t and χ2 test, respectively. If the expected count in <20% of cells of the analyzed contingency table was >5, χ2 test was used. If the expected count in <20% of the cells of the analyzed contingency table was ≤, Fisher's exact test was used to analyze the data changes between the experimental and control group. P<0.05 was considered to indicate a statistically significant difference.

Results

Clinical data obtained from the two groups of patients with axillary bromhidrosis

The baseline characteristics of the two groups including age, sex, family and preoperative surgery history, preoperative odor degree and DLQI were not statistically different, indicating baseline material between the two groups were relatively balanced (Table III). In addition, the odor degree in postoperative patients were significantly lower than that in control group and some postoperative patients experienced hematoma complication.

Table III

Clinical data.

Table III

Clinical data.

CharacteristicExperimental groupControl groupP-value
Mean age, years23.5±3.923.1±3.4>0.05
Sex  >0.05
     Male, n811 
     Female, n2219 
Family history of axillary bromhidrosis  >0.05
     Yes1412 
     No1618 
Preoperative surgery history  >0.05
     Yes21 
     No2829 
Preoperative odor degree  >0.05
     Grade 0/100 
     Grade 2813 
     Grade 32217 
Preoperative dermatology life quality index score  >0.05
     0-100 
     2-500 
     6-1034 
     11-202223 
     21-3053 
Comparison of intraoperative blood loss and operation time

For 30 patients in the experimental group and control group, the intraoperative blood loss was 7.5-11.5 and 36.5-41.0 ml, respectively; mean blood loss was 9.20±0.91 and 39.10±1.10 ml, respectively (Table IV). The difference was statistically significant. These results suggested that the intraoperative blood loss was significantly less in the experimental group compared with that in the control group. Furthermore, for the experimental and control groups, the operation time was 70-85 and 80-115 min, respectively, and the mean operation time was 78.20±3.30 and 95.60±7.80 min, respectively. The difference was statistically significant. This indicated that the operation time was shorter in the experimental group compared with that in the control group.

Table IV

Intraoperative blood loss and operation time.

Table IV

Intraoperative blood loss and operation time.

GroupNumber of patientsMean intraoperative blood loss, mlMean operation time, min
Experimental30 9.2±0.91a 78.2±3.3a
Control3039.1±1.195.6±7.8

[i] aP<0.05 vs. control.

Histopathological examination

The pre- and postoperative images for patients who underwent anesthesia technique combined with superficial fascia rotational atherectomy for the removal of apocrine sweat glands are presented in Fig. 1. Hypertrophic sweat gland and hair follicle tissue were compared between preoperative (control group) and postoperative groups (experimental group). The histopathological results revealed that preoperative skin samples contained a large amount of hypertrophic sweat glands and hair follicle tissue. However, no sweat gland tissue was observed in postoperative skin tissue. The removed tissues were mainly sweat gland tissues and hair follicles. The histopathological results revealed that the anesthesia technique combined with superficial fascia rotational atherectomy treatment was effective in patients with axillary bromhidrosis.

Comparison of axillary odor degrees at ≥6 months postoperative

The comparison of axillary odor degrees at ≥6 months postoperative between the two groups is presented in Table V. Of the 30 preoperative patients in the experimental group, eight patients were grade 2 and 22 were grade 3. Of the 30 postoperative patients in the experimental group, 28, 2 and 0 patients were grades 0/1, 2 and 3, respectively. Among the 30 preoperative patients in the control group, 13 and 17 patients were grade 2 and 3, respectively. Of the postoperative patients in the control group, 22, 7 and 1 patients were grade 0/1, 2 and 3, respectively. The difference between the postoperative patients in the two groups was statistically significant and indicated that both the tumescent anesthesia technique combined with conventional surgery. The tumescent anesthesia technique combined with superficial fascia rotational atherectomy have a good treatment effect.

Table V

Axillary bromhidrosis degree >6 months after surgery.

Table V

Axillary bromhidrosis degree >6 months after surgery.

 Grade
Group0/123
Experimental282a0
Control2271

[i] aP<0.05 vs. control.

Comparison of life quality of patients

The comparison of the life quality of postoperative patients is presented in Table VI. In the experimental group, 28, 2 and 0 postoperative patients had total DLQI scores of 0-1, 2-5, 6-10, 11-20 and 21-30, respectively. In the control group, 22, 8 and 0 postoperative patients had total DLQI scores of 0-1, 2-5, 6-10, 11-20 and 21-30, respectively. The difference in postoperative total DLQI score between these two groups was statistically significant. These results indicated that superficial fascia rotational atherectomy surgery could improve the life quality of patients.

Table VI

DLQI score at >6 months after surgery.

Table VI

DLQI score at >6 months after surgery.

 DLQI score
Group0-12-56-1011-2021-30
Experimental2622a00
Control193710

[i] aP<0.05 vs. control. DLQI, dermatology life quality index.

Discussion

Axillary bromhidrosis, which is a common and bothersome odor, affects individuals worldwide, especially in Asia. Various types of surgery are performed to eliminate axillary bromhidrosis, but none of these has achieved satisfactory results (6,8). The present study used the rotational atherectomy technology to treat axillary bromhidrosis according to rotational atherectomy instruction and experienced technician advice. Secretions from the axillary apocrine sweat glands are converted into unsaturated fatty acids, causing a particular odor via microbial breakdown (22). A previous study showed that the apocrine sweat glands of patients with axillary bromhidrosis exhibit both hyperplasia and hypertrophy (9). At present, axillary bromhidrosis treatment by surgery is the most effective method. Surgical treatment for axillary bromhidrosis can achieve long-term good efficacy by removing or decreasing apocrine sweat gland tissue (23). In the present study, this surgical method was modified; tumescent anesthesia technique combined with superficial fascia rotational atherectomy was performed to treat the axillary bromhidrosis. The apocrine sweat glands were removed, while the superficial axillary fascia tissue was preserved. Furthermore, the surgery time was significantly shortened, the intraoperative blood loss was decreased and the treatment result was satisfactory for these patients. Moreover, this surgical approach led to fewer complications.

A recent study showed that non-surgical modern modalities such as microwave-based therapy exhibit promising therapy efficacy (24). Axillary bromhidrosis and bromhidrosis have serious social, emotional and professional consequences. There are several treatments for axillary hyperhidrosis. Studies evaluated the efficacy and safety of microwave devices for axillary hyperhidrosis and bromhidrosis (1,25) and suggested that microwave-based therapy could relieve hematoma and pain.

In the present study, the family history, preoperative surgery history, preoperative odor degree and total DLQI score of patients with axillary bromhidrosis were statistically analyzed and the results were consistent with the results reported by previous studies (2,26). The tumescent anesthesia technique combined with superficial fascia rotational atherectomy has been widely used to treat dermatological disease because this approach is safe and easy to control (13,27). During surgical operations, the use of the tumescent anesthesia technique alleviates pain and decreases bleeding. In addition, clinicians can easily separate the skin flap from the superficial fascia layer using the tumescent anesthesia technique. The tumescent anesthesia technique has advantages of the effectiveness of local anesthesia because of low invasiveness, cost-effectiveness and good clinical outcomes in treating patients with axillary bromhidrosis (2). Therefore, in the present study, the tumescent anesthesia technique combined with superficial fascia rotational atherectomy was performed to treat axillary bromhidrosis.

Intraoperative blood loss and operation time are used to evaluate the effect of the tumescent anesthesia technique combined with superficial fascia rotational atherectomy on patients with axillary bromhidrosis (28). Therefore, in the present study, intraoperative blood loss and operation time were used to compare the clinical effect. The intraoperative blood loss for patients in the experimental and control groups was 9.20±0.91 and 39.10±1.10 ml, respectively. The operation time for patients in the experimental and control groups was 78.20±3.30 and 95.60±7.80 min, respectively. These results were similar to the results of Fang et al (29), in which intraoperative blood loss was 41.0 ml and operation time was 99.0 min when the tumescent anesthesia technique combined with conventional surgery was performed. Furthermore, the intraoperative blood loss and operation time for patients in the control group were similar to those reported in a previous study (5). However, the intraoperative blood loss and operation time in the experimental group were less than those reported by a previous study (30). This suggested that the tumescent anesthesia technique combined with superficial fascia rotational atherectomy is a promising method for treating axillary bromhidrosis.

In the present study, the axillary odor degree and DLQI score were used to assess the effect of the tumescent anesthesia technique combined with superficial fascia rotational atherectomy. In a previous study conducted in 2019 by Van et al (2), the quality of life of patients with axillary bromhidrosis was assessed using the DLQI score. The mean DLQI score for preoperative patients was 16.10, whereas for postoperative patients it decreased to 3.30. In the present study, the DLQI scores for postoperative patients in the two groups were significantly decreased compared with the scores for preoperative patients in the two groups and these results were consistent with the results reported by a previous study (31), and the removal of sweat gland and hair follicle tissue is more complete in the experimental group. However, the present results showed recurrence in some patients who still had a grade 2/3 odor degree 6 months after surgery and indicated some protective effect for patients. In addition, 28, 2 and 0 postoperative patients in the experimental group were grade 0/1, grade 2 and grade 3, respectively. Compared with the preoperative patients in the experimental group, postoperative patients in the experimental group achieved a significant improvement in axillary odor degree and this result was consistent with the results of Wu et al (22).

Rotational atherectomy using smaller size burrs and lower rotational speeds is a conservative approach that provided improved immediate results, with increased safety and improved long-term outcomes. The present clinical study showed that the tumescent anesthesia technique combined with superficial fascia rotational atherectomy decreased bleeding, surgery time and DLQI score. Overall, the tumescent anesthesia technique combined with superficial fascia rotational atherectomy showed a good effect on patients with axillary bromhidrosis.

Acknowledgements

Not applicable.

Funding

Funding: No funding was received.

Availability of data and materials

The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.

Authors' contributions

YPS conceived the study. YPS, JHL, YWa and YWu analyzed and interpreted data. YPS and JHL confirm the authenticity of all the raw data. All authors have read and approved the final manuscript.

Ethics approval and consent to participate

The present study was approved by the Ethics Committee of the Affiliated Hospital of Jiaxing University (approval Number: LS2018-117), The First Hospital of Jiaxing.

Patient consent for publication

Written informed consent was obtained from all patients.

Competing interests

The authors declare that they have no competing interests.

References

1 

Sánchez-Carpintero I, Martín-Gorgojo A and Ruiz-Rodríguez R: Microwave treatment for axillary hyperhidrosis and bromhidrosis. Actas Dermosifiliogr. 108:418–422. 2017.PubMed/NCBI View Article : Google Scholar : (In English, Spanish).

2 

Van TN, Manh TN, Minh PPT, Minh TT, Huu ND, Cao KP, Huu QN, Cam VT, Huyen ML, Hau KT, et al: The effectiveness of local surgical technique in treatment of axillary bromhidrosis. Open Access Maced J Med Sci. 7:187–191. 2019.PubMed/NCBI View Article : Google Scholar

3 

Zhao H, Li S, Nabi O, Hu L, Gao X and Luo F: Treatment of axillary bromhidrosis through a mini-incision with subdermal vascular preservation: A retrospective study in 396 patients. Int J Dermatol. 55:919–925. 2016.PubMed/NCBI View Article : Google Scholar

4 

Lee KG, Kim SA, Yi SM, Kim JH and Kim IH: Subdermal coagulation treatment of axillary Bromhidrosis by 1,444 nm Nd: YAG laser: A comparison with surgical treatment. Ann Dermatol. 26:99–102. 2014.PubMed/NCBI View Article : Google Scholar

5 

He J, Wang T and Dong J: Effectiveness of botulinum toxin A injection for the treatment of secondary axillary bromhidrosis. J Plast Reconstr Aesthet Surg. 70:1641–1645. 2017.PubMed/NCBI View Article : Google Scholar

6 

Li CY, Wang XF, Zhou HY, Fang QQ and Tan WQ: Refined tumescent liposuction-curettage with pruning in small incisions for treatment of axillary bromhidrosis. Dermatol Ther. 34(e14690)2021.PubMed/NCBI View Article : Google Scholar

7 

Li ZR, Sun CW, Zhang JY, Qi YQ and Hu JZ: Excision of apocrine glands with preservation of axillary superficial fascia for the treatment of axillary bromhidrosis. Dermatol Surg. 41:640–644. 2015.PubMed/NCBI View Article : Google Scholar

8 

Chen W, Zhang X, Zhang L and Xu Y: Treatment of axillary bromhidrosis in adolescents by combining electrocauterization with ultrasound-guided botulinum toxin type A injection. J Plast Reconstr Aesthet Surg. 74:3114–3119. 2021.PubMed/NCBI View Article : Google Scholar

9 

Hsu KC and Wang KY: Sparing subcutaneous septa avoids skin necrosis in the treatment of axillary bromhidrosis with suction-curettage shaving. J Cosmet Dermatol. 18:892–896. 2019.PubMed/NCBI View Article : Google Scholar

10 

Yang H, Xu G, Huang CL, Xia Y, Wang XW, Chen Q, Wang SJ, Zhang LY and Tan WQ: Effectiveness and complications of improved liposuction-curettage through mini-incisions for the treatment of axillary osmidrosis. Plast Surg (Oakv). 25:234–241. 2017.PubMed/NCBI View Article : Google Scholar

11 

Lee ET: Shortening of incision by ‘Pinch and Turn-Over Technique’ in the treatment of axillary osmidrosis. Aesthetic Plast Surg. 43:267–277. 2019.PubMed/NCBI View Article : Google Scholar

12 

Wang T, Dong J and He J: Long-term safety and efficacy of botulinum toxin a treatment in adolescent patients with axillary bromhidrosis. Aesthetic Plast Surg. 42:560–564. 2018.PubMed/NCBI View Article : Google Scholar

13 

Holt NF: Tumescent anaesthesia: Its applications and well tolerated use in the out-of-operating room setting. Curr Opin Anaesthesiol. 30:518–524. 2017.PubMed/NCBI View Article : Google Scholar

14 

Gupta T, Weinreich M, Greenberg M, Colombo A and Latib A: Rotational atherectomy: A contemporary appraisal. Interv Cardiol. 14:182–189. 2019.PubMed/NCBI View Article : Google Scholar

15 

Nandhra S, Wallace T, El-Sheikha J, Carradice D and Chetter I: A randomised controlled trial of perivenous tumescent anaesthesia in addition to general anaesthesia for surgical ligation and stripping of the great saphenous vein. Phlebology. 35:305–315. 2020.PubMed/NCBI View Article : Google Scholar

16 

Güven A, Schaffartzik W and Allert S: Fettabsaugungen im ambulanten Setting (Liposuctions in the ambulatory setting). Handchir Mikrochir Plast Chir. 53:400–406. 2021.PubMed/NCBI View Article : Google Scholar

17 

Nawrocki S and Cha J: The etiology, diagnosis, and management of hyperhidrosis: A comprehensive review: Therapeutic options. J Am Acad Dermatol. 81:669–680. 2019.PubMed/NCBI View Article : Google Scholar

18 

Prasetyono TOH and Kusumastuti N: Optimal time delay of epinephrine in One-per-mil solution to visualize operation field. J Surg Res. 236:166–171. 2019.PubMed/NCBI View Article : Google Scholar

19 

Abdel-Wahab M, Richardt G, Joachim Büttner H, Toelg R, Geist V, Meinertz T, Schofer J, King L, Neumann FJ and Khattab AA: High-speed rotational atherectomy before paclitaxel-eluting stent implantation in complex calcified coronary lesions: The randomized ROTAXUS (Rotational Atherectomy Prior to Taxus Stent Treatment for Complex Native Coronary Artery Disease) trial. JACC Cardiovasc Interv. 6:10–19. 2013.PubMed/NCBI View Article : Google Scholar

20 

Dai Y, Xu AE and He J: A refined surgical treatment modality for bromhidrosis: Subcutaneous scissor with micropore. Dermatol Ther: 30, 2017 doi: 10.1111/dth.12484.

21 

Mattei PL, Corey KC and Kimball AB: Psoriasis Area Severity Index (PASI) and the Dermatology Life Quality Index (DLQI): The correlation between disease severity and psychological burden in patients treated with biological therapies. J Eur Acad Dermatol Venereol. 28:333–337. 2014.PubMed/NCBI View Article : Google Scholar

22 

Wu CJ, Chang CK, Wang CY, Liao YS and Chen SG: Efficacy and safety of botulinum Toxin A in axillary bromhidrosis and associated histological changes in sweat glands: A prospective randomized double-blind side-by-side comparison clinical study. Dermatol Surg. 45:1605–1609. 2019.PubMed/NCBI View Article : Google Scholar

23 

Schafer CN, Hurst EA, Rosman IS and Council ML: Endocrine mucin-producing sweat gland carcinoma treated with mohs micrographic surgery. Dermatol Surg. 48:362–364. 2022.PubMed/NCBI View Article : Google Scholar

24 

Huang YL, Hu S and Cheng CY: How We Do It: Image-guided microwave-based therapy for axillary hyperhidrosis and osmidrosis. Dermatol Surg. 47:738–739. 2021.PubMed/NCBI View Article : Google Scholar

25 

Zhang B and Huang L: Subcutaneous tissue necrosis with fat liquefaction, hematoma, inflammatory mass after microwave-based treatment for axillary hyperhidrosis. J Cosmet Dermatol. 21:4365–4369. 2022.PubMed/NCBI View Article : Google Scholar

26 

Malik AS, Porter CL and Feldman SR: Bromhidrosis treatment modalities: A literature review. J Am Acad Dermatol: Jan 19, 2021. doi: 10.1016/j.jaad.2021.01.030 (Epub ahead of print).

27 

Lee MS, Gordin JS, Stone GW, Sharma SK, Saito S, Mahmud E, Chambers J, Généreux P and Shlofmitz R: Orbital and rotational atherectomy during percutaneous coronary intervention for coronary artery calcification. Catheter Cardiovasc Interv. 92:61–67. 2018.PubMed/NCBI View Article : Google Scholar

28 

Wadhwa H, Tigchelaar SS, Chen MJ, Koltsov JCB, Bellino MJ, Bishop JA and Gardner MJ: Tranexamic acid does not affect intraoperative blood loss or in-hospital outcomes after acetabular fracture surgery. Eur J Orthop Surg Traumatol. 32:363–369. 2022.PubMed/NCBI View Article : Google Scholar

29 

Fang CL, Tsai CB, Chen MS, Yang HY and Fang KJ: Factors affecting the efficacy of suction curettage using an arthroscopic shaver for bromhidrosis. Dermatol Surg. 47:245–249. 2021.PubMed/NCBI View Article : Google Scholar

30 

Kushioka J, Yamashita T, Okuda S, Maeno T, Matsumoto T, Yamasaki R and Iwasaki M: High-dose tranexamic acid reduces intraoperative and postoperative blood loss in posterior lumbar interbody fusion. J Neurosurg Spine. 26:363–367. 2017.PubMed/NCBI View Article : Google Scholar

31 

Grove GL, Togsverd-Bo K, Schwensen JFB, Andersson NW, Nissen CV, Zachariae C and Haedersdal M: Impact of microwave thermolysis energy levels on patient-reported outcomes for axillary hyperhidrosis and osmidrosis. Lasers Surg Med. 55:105–115. 2023.PubMed/NCBI View Article : Google Scholar

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Shi Y, Li J, Wang Y and Wu Y: Clinical analysis of tumescent anesthesia technique combined with superficial fascia rotational atherectomy in axillary bromhidrosis. Exp Ther Med 25: 266, 2023
APA
Shi, Y., Li, J., Wang, Y., & Wu, Y. (2023). Clinical analysis of tumescent anesthesia technique combined with superficial fascia rotational atherectomy in axillary bromhidrosis. Experimental and Therapeutic Medicine, 25, 266. https://doi.org/10.3892/etm.2023.11965
MLA
Shi, Y., Li, J., Wang, Y., Wu, Y."Clinical analysis of tumescent anesthesia technique combined with superficial fascia rotational atherectomy in axillary bromhidrosis". Experimental and Therapeutic Medicine 25.6 (2023): 266.
Chicago
Shi, Y., Li, J., Wang, Y., Wu, Y."Clinical analysis of tumescent anesthesia technique combined with superficial fascia rotational atherectomy in axillary bromhidrosis". Experimental and Therapeutic Medicine 25, no. 6 (2023): 266. https://doi.org/10.3892/etm.2023.11965