DOI: https://doi.org/10.21203/rs.3.rs-1673523/v1
Background
Chest wall sinus with infection is a refractory disease caused by a variety of susceptible factors, and the treatment is still challenging.For clinically complex cases, although there are various surgical methods to choose from, it is still very difficult to achieve clinical cure,especially for patients with older age and many underlying diseases.Complete resection of chest wall sinus and application of repair and reconstruction technology may bring hope to refractory cases.
Case presentation
Herein,We report a case of a 67-year-old woman who had undergone breast cancer surgery and a history of multiple cycles of radiotherapy and chemotherapy.One year ago, she had a fistula in the left chest wall with yellow purulent fluid.After admission to our hospital, chest computed tomography (CT) showed the formation of the left chest wall sinus, accompanied by high-density images of the left clavicle, part of the ribs and part of the sternu.According to the patient's symptoms, signs and imaging examination, we preliminarily diagnosed the patient as chest wall sinus with infection and chronic osteomyelitis.Therefore, in the first-stage operation,the patient underwent left chest wall sinus resection, left partial rib resection, left partial clavicular resection and left partial sternal resection,After surgery, the wound surface was changed with gauze dressing with sensitive antibiotic solution every day until the wound surface was clean and new granulation was formed.In the second-stage operation, the wound surface was appropriately expanded, and the pedicled latissimus dorsi myocutaneous flap was transferred to the chest wall defect. Finally, the skin paddle was sutured without tension to the normal skin around the chest, and two drainage tubes were placed.Anti-infection, anti-spasm, anti-coagulation and other treatments were given after operation, and the survival of myocutaneous flap, wound healing and sinus disappearance were observed.
Conclusions
The application of pedicled latissimus dorsi myocutaneous flap in the treatment of intractable chronic chest wall sinus is an effective method. It does not change the shape of the thorax. The clinical effect is satisfactory in the near and medium term, which is worthy of clinical promotion.
The occurrence of chronic empyema and chest wall sinus is often caused by the presence of pus cavity and sinus that cannot be completely eliminated after thoracic surgery, and may also be combined with bronchopleural fistula (BPF), residual bone and other necrotic tissues, making local infection difficult to control, and ultimately unhealed for a long time.It is always a challenge for thoracic surgeons to achieve complete cure[1,2,3].For some cases of complex chest wall sinus with deep position or tortuous shape, it is difficult to achieve the curative effect only through dressing change or incision and drainage.Although with the continuous improvement of thoracic surgical techniques, there is still a certain incidence of chest wall sinus infection[4].Due to long-term chronic infection, some patients with refractory chest wall sinus are often accompanied by chronic consumption or systemic poisoning symptoms, and even develop osteomyelitis, mediastinal infection and so on[5].
Chest wall sinus with infection is one of the common manifestations of chronic osteomyelitis. Due to the special position of chest wall bone and the important anatomical proximity, the treatment of chest wall sinus is quite difficult.In order to achieve the effect of clinical cure, it is necessary to ensure that there is no dead space and effusion in the tissue defect after debridement, thereby reducing the possibility of infection recurrence[6].Although there are some clinical reports on the operation of the chest wall sinus with infection, there are few reports on the transfer of pedicled latissimus dorsi myocutaneous flap for the treatment of complex and huge chest wall tissue defects caused by chest wall sinus.It is critical not only to completely eliminate infectious lesion space, but also to keep chest wall shape as constant as possible[3].
Here we report a case of huge chest wall defect caused by complex chest wall sinus. It was successfully treated by transplantation of pedicled latissimus dorsi myocutaneous flap. The shape of chest wall remained basically unchanged after operation. There was no recurrence of chest wall sinus on chest CT.
A 67-year-old female patient presented with left chest wall sinus one year ago. Local redness, pain and persistent purulent discharge occurred around the sinus orifice.Reviewing the medical history, the patient had undergone left mastectomy 20 years ago due to the diagnosis of left breast cancer, followed by regular radiotherapy and chemotherapy for several times. At the same time, she suffered from coronary heart disease, hypertension and other cardiovascular diseases.She underwent coronary stent implantation in 2017, 2019 and 2020 respectively.Currently, she regularly takes anticoagulant drugs and antihypertensive drugs.Due to repeated non-healing of chest wall wound and formation of chest wall defect, ulcer and fistula caused by debridement, the patient was admitted to our hospital for further treatment.Chest CT scan showed partial defect of left chest wall with sinus formation, high-density shadow of left clavicle and some ribs. According to the patient's symptoms and imaging examination, we diagnosed chest wall sinus with infection and chronic osteomyelitis.
After admission, the patient continued to be given local cleaning and dressing changes on the wound surface. The purulent secretions at the sinus orifice were subjected to microbial culture and drug susceptibility tests. The results of the three secretion cultures were all suggestive of Pseudomonas aeruginosa. We chose sensitive antibiotics for systemic anti-infective treatment. At the same time, nutritional support, correction of hypoalbuminemia, and strict control of blood sugar were given.Enhanced chest CT and three-dimensional reconstruction were performed. Before chest CT examination, 50% meglumine solution was injected into sinus orifice through a thin drainage tube to fully understand the shape, scope and adjacent conditions of sinus.Due to the long course of disease and lack of confidence in treatment, the patients were given necessary psychological counseling and appropriate anti anxiety drug treatment.
The operation was divided into two stages, both under general anesthesia.Before first- stage operation, we injected methylene blue solution from sinus orifice to make sinus wall fully stained to guide the scope of surgical curettage, which could not only ensure the complete removal of the diseased sinus wall tissue, but also avoided too much damage to the normal tissue and even the important organs behind the sternum.Taking the sinus orifice of chest wall as a center, a fusiform incision with a length of about 8 cm was made along the 1 cm around sinus orifice. The direction and length of the incision were determined according to the sinus shape shown on preoperative chest CT and the position of the myocutaneous flap to be filled.After incision of the skin, the sternum and infected area were fully exposed, sinus wall tissue was fully scraped with a curette, and then necrotic bone was completely removed with a rongeur, including part of first rib on the left, part of clavicle on the left, and part of sternum. When the chest wall wound tissue was fresh and there was no dye attached, the wound was washed alternately with iodophor water, hydrogen peroxide and normal saline.Due to the huge wound defect after debridement, in order to ensure the cleanliness of the wound, improve local blood supply and prepare for the second-stage operation, vacuum sealing drainage(VSD) were performed after the operation(Fig. 1).
When the patient's general condition was good after first-stage operation, after the vacuum sealing drainage device was removed, the daily incision dressing change, anti-infection, nutritional support and other treatments were continued.When the granulation of sinus wound was fresh, the secretion was significantly reduced, and the infection was preliminarily controlled,we were ready for the second-stage operation.Continue to appropriately expanded the wound along the original incision, thoroughly debrideed the necrotic tissue until the wound was fresh, and measured the size of the chest wall defect was about 15 cm x 8 cm. After hemostasis, rinsed the wound with a large amount of iodophor, hydrogen peroxide, and normal saline alternately.The patient's body position was changed to 90°lateral lying position. According to the preoperative planned flap incision, the pedicled latissimus dorsi myocutaneous flap was selected as the living tissue to fill the defect wound. The computed tomography angiography(CTA) examination of the subclavian artery showed that there were internal thoracic artery and thoracodorsal artery on the affected side without malformation.During the operation,first of all,an incision was made along the outer edge of latissimus dorsi muscle, starting from the proximal axillary apex, and the proximal and distal ends of latissimus dorsi muscle were dissociated and fully exposed in turn to protect the thoracodorsal artery and vein. Finally, a latissimus dorsi muscle flap with thoracodorsal neurovascular bundle of sufficient length was formed. The size of the latissimus dorsi muscle flap was about 30cmx8cm, while the skin island of about 16cmx8cm was reserved.During harvesting of the myocutaneous flap, the blood supply should be preserved as much as possible, while avoiding excessive distortion of the pedicle of the myocutaneous flap.We first made a subcutaneous tunnel between the acquisition site of the myocutaneous flap and the sternal wound, transferred the myocutaneous flap to the chest wall defect wound, then sutured and fixed it with the soft tissue around the wound, closely combined the myocutaneous flap with the bottom of the chest wall wound to eliminate the dead space, and finally placed a drainage tube(Fig. 2).The patient was treated with anti infection, anti spasm and anticoagulation after operation. The color and temperature of the myocutaneous flap was closely observed and tested. The transplanted myocutaneous flap was kept warm, and the incision was avoided from compression to protect the smooth blood flow.The patient pulled out all drainage tubes on the 4th postoperative day and was discharged from the hospital on the 7th day. At present, the patient was followed up for 4 months after the operation, and no malignant tumor tissue was found in the routine pathology after the two operations. Repeat chest CT showed that the chest wall sinus disappeared completely, and the pedicled myocutaneous flap grew well.
The complex chest wall sinus can reach deep into the sternum from the body surface and spread to the ribs and even clavicle. It often presents a pathological blind lumen, while the morphology of the lumen is complex and diverse. The lumen wall is full of unhealthy necrotic bone and granulation tissue, often accompanied by pathogenic microbial infection[7].Chest wall sinus is often caused by chest infection, trauma or postoperative radiotherapy and chemotherapy of chest and neck tumors. Chronic sinus wall fibrous organic thickening, accompanied by skin scar formation, and infection caused by multiple branches of sinus is difficult to control.Therefore, we need to design a surgical method that can completely solve these problems and achieve one-stage cure[8].
The patient has a clear history, localized swelling and sinus formation have occurred at the time of treatment, and a small amount of purulent secretion can be seen flowing out of the sinus orifice. Its clinical diagnosis is not difficult.We choose to inject meglumine diatrizoate solution from the sinus orifice before chest CT examination, that is, contrast fistulography, which can show the shape, depth and branches of the sinus to a certain extent, so as to provide basis for the formulation of operation plan.Because the shape of sinus is often tortuous, complex and changeable, ordinary dressing change, disinfection and debridement are difficult to go deep into the interior of the sinus, so the complex chest wall sinus often discharges pus repeatedly, and the patient is in great pain.In the process of diagnosis and treatment, although thorough debridement can alleviate the progress of the disease to a certain extent, the huge chest wall defect is the key to follow-up treatment, especially the repair and reconstruction in an ideal state.
The tissue flap transplantation carried out in recent years can not only eliminate the residual cavity and sinus, but also keep the shape of the thorax basically unchanged. Moreover, the free myocutaneous flap does not need skin grafting due to the huge skin defect of the chest wall. After operation, the color of the skin paddle can be observed regularly and the blood supply can be understood in time.Tissue flaps commonly used in clinic include muscle flap, myocutaneous flap, greater omentum and so on[9,10].In order to eliminate the chest wall tissue defect caused by debridement, increase local blood supply, improve local tissue healing and anti infection ability are very important. For patients with large tissue defect after debridement, pedicled myocutaneous flap with good blood supply should be used to fill the chest wall defect[11,12].Since the patient has undergone total mastectomy for breast cancer, and the nearby pectoralis major muscle and surrounding tissues are weak, we chose the latissimus dorsi myocutaneous flap with close anatomical location and abundant blood supply to repair the huge chest wall defect[13,14].
For the case with large chest wall defect and history of breast cancer surgery, it is a good scheme to transfer the pedicled latissimus dorsi myocutaneous flap to fill the defect wound by subcutaneous tunnel.The advantages are as follows: (a) it is easy to anatomy, easy to obtain, large in volume and rich in muscle tissue, which can meet the filling requirements of nearby huge chest wall defects;(b)Generally, there will be no serious complications. It can be sutured in one stage without skin grafting;(c)The pedicled myocutaneous flap has rich blood supply and strong anti-infection ability. It has unique advantages for fixed chest wall residual cavity infection;(d)Due to its strong plasticity, fully free pedicled myocutaneous flap can fully fill the residual cavity and its dead corner as long as its width and dimension are sufficient;(e)The thoracic function and stability are less affected, and the preserved skin paddle is convenient to observe the blood supply after operation;(f)Due to the strong activity of the musculocutaneous flap, it is easy to activate and repair the connective tissue with the chest wall wound, so as to easily generate a new vascular network and further promote the dissipation of inflammation;(g)The success rate of operation is high. Generally, secondary operation will not be performed due to poor blood supply. The operation time is short and the incidence of complications such as thrombosis is low[15,16,17,18].According to the postoperative follow-up observation of this patient, the myocutaneous flap survived well and the quality of life was significantly improved.
To sum up, it can be seen from the diagnosis and treatment process of this case that although the huge chest wall defect caused by chronic chest wall sinus is rare, it is harmful. At the same time, the patient has experienced total mastectomy.The patients are older and have many basic diseases. In order to avoid the fatal consequences caused by the in-depth progress of sinus, surgery should be performed as soon as possible on the basis of actively improving the general condition.From the short-term follow-up of patients, the application of pedicled latissimus dorsi myocutaneous flap in the treatment of huge chest wall defect caused by complex chest wall sinus is an effective method, and the design of myocutaneous flap is flexible. It is easy to cut and keep the shape of the thorax unchanged, and the clinical effect is satisfactory.
Computed tomography
Bronchopleural fistula
Vacuum sealing drainage
Computed tomography angiography
Ethics approval and consent to participate
All procedures carried out in this study were in accordance with the ethical standards of the institutional and national responsible committee on human experimentation and the Helsinki Declaration of 1964 and its later amendments or equivalents. This study was approved by the Ethics Committee of Tongde Hospital of Zhejiang Province. Informed consent was obtained from all individual patients included in the study.
Consent for publication
Written Informed consent for publication was obtained from all individual patients included in the study.
Availability of data and materials
The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.
Competing interests
The authors declare that they have no competing interests.
Funding
None.
Authors' contributions
L Wang, Z Liu and C Zhang designed the study. L Wang collected the data, prepared material and performed the data analysis. The first draft of the manuscript was written by L Wang. All authors read and approved the final manuscript.
Acknowledgements
Not applicable.