In order to identify whether the regeneration of costal cartilage is the basis of post-surgical repair of pectus excavatum and thoracic cage remodeling, 151 cases were followed up for 0.25 to 14 years. The main procedures in treatment were 3 steps: To curve the mental strut as a bow, to repair the perichondrium as a tube, and to persist in post-operative therapy. The results showed that regeneration of the costal cartilages appeared 3 months postoperatively in the cases treated by this method. It was concluded that a satisfactory thoracic cage could be remodeled by improving the technique of repairing pectus excavatum and persisting in postoperative therapy according to the regeneration regularity.
The surgical treatment of pectus excavatum has a history of more than 100 years, which has gone through from traditional open surgery to the current popular minimally invasive surgery. Nuss procedure, as the most classic minimally invasive operation, has been improved in accordance with the clinical needs since its inception to achieve fewer complications and better results, but there are still limitations that are difficult to break through, attracting a large number of scholars to make continuous innovation and develop updated devices and operation methods. This article reviews the history of funnel chest surgery, application and improvement of Nuss operation, double compression and complete fixation bar system and Wang procedure.
Abstract: Objective To study thoracic bone remodeling and clinical effects after minimally invasive correctionfor pectus excavatum (PE) in children. Methods A retrospective review was conducted of a prospectively gathereddatabase of 74 child patients who underwent minimally invasive repair of PE at General Hospital of Beijing MilitaryDistrict between Apr. 2009 and Sept. 2010. Of the patients, 63 were males and 11 females; the age was( 11.90±8.50)years, 11 patients < 10-year-old among them. Under general anesthesia, two incisions were made at the side midaxillaryline, and the introducer created a tunnel at the trans-substernum and shaped the thoracic cavity. The bar was then insertedinto the retrosternum by video-assistant thoracoscopic monitoring. All patients were checked by chest computerizedtomography(CT) scan preoperatively and one week after operation, with three-dimensional reconstruction. The sagittalview was by means of the center line of the body of thoracic vertebrae. The distance between the sternum and the frontaledge of the body of thoracic vertebrae was measured and the return of displacement of the heart was observed. ResultsAll 74 operations were successful; there were no deaths. One bar was used for 66 patients (89.19%), while two barswere used for the other 8 patients (10.81%). Comparing the results of pre- with post-correction, for patients youngerthan 10 years(n=11) who had one bar placed, the inferior extremity of the manubrium and midsternum displacedforward to 3.76-22.92 mm. For 11-17 year-old patients(n=55) , anterior displacement of only the middle and lowerpart of the midsternum was 2.08-10.42 mm. There was a significant difference between the two groups in the inferiorextremity of the midsternum displaced(t=14.24, P < 0.05). For those patients with two bars, the inferior extremity ofthe manubrium and the midsternum were each displaced forward 4.19-15.03 mm at 7 d after operation. At 7 d after operation,the cardiac position in 65 patients( 87.84%) of the all putted back by CT image. The chest shape of patients who received twobars was better than that of patients who received one bar. After 6-23 months of follow-up, it was pre-operative symptomsdisappeared in the patients, chest shape was satiation. Cardiac position in all patients was completely recovered. ConclusionThe thoracic bones of children with PE after minimally invasive repair have favorable remodeling. Older children requiregreater strength of support of the sternum during correction, but still realize a satisfactory therapeutic effect.
ectus exeavatum is the most common chest wall deformity. The impairment of cardiopulmonaryfunction, severe psychological injury and other complications will be caused by the deformity. ″TheSternal Turnover″and″ The Sternal Elevation″are respective difference in indications andcharacteristics to treatment of pectus exeavatum. Pectus excavatum deformity will be repaired with theproper procedure and postoperative treatment. Their exercise tolerance and cardiac function will alsobe impro...
ObjectiveTo summarize the clinical experience and investigate the safety and reliability of uniportal procedure for the correction of pectus excavatum (PE). MethodsFrom November 2010 to November 2015, 203 PE patients (164 males, 39 femalzs average age of 5.7±3.0 years, ranging from 2 to 19 years) underwent the correction operation with only single 2 cm incision on right lateral chest. There were 188 patients under 12 years of age and 15 patients above 12 years. According to Park classification, 176 patients were symmetric and 27 were asymmetric. ResultsAll operations were performed successfully. The average operating time was 16.1±5.2 min with a range of 4-65 min and the average postoperative hospital stay was 6.4±1.3 d, ranging from 4-14 d. A single incision was made on the right chest and only one bar was inserted in the patients. Postoperative follow-up was 1-56 months (mean, 27.6 months). There was no complication occurred such as bar turnover, displacement and redepressed sternum. Totally, 84 patients received bar removal procedure. ConclusionIn terms of operation time and surgical trauma, uniportal procedure for PE is superior to Nuss procedure. And there is no significant difference in the safety and effectiveness between two procedures. Uniportal procedure is especially suitable for the treatment of PE children under 12 years of age.
ObjectiveTo investigate the effect of anterior chest wall depression on the cardiac function and the effectiveness of minimally invasive surgery for pectus excavatum by comparing cardiac function and morphology between pre- and post-operation. MethodsBetween August 2009 and December 2010, 102 adult patients with pectus excavatum were treated with minimally invasive surgery, including the primary operation in 95 cases and the reoperation in 7 cases. There were 84 males and 18 females, aged 18-57 years (mean, 23.4 years). The haller index (HI) was 4.59 ± 1.51. Of 102 patients, 59 were classified as pectus excavatum type I and 43 as type II; 42 had clinical symptoms and 19 had the physical sign of heart. The preoperative chest CT examination showed cardiac compression in all patients and heart displacement in 74 patients. The left ventricular ejection fraction (LVEF) was 68.9% ± 6.2%. ResultsThe procedure was successful in all patients, and no death or serious complication occurred. The patients were followed up 12-28 months (mean, 21 months). The clinical symptoms and cardiac physical sign of the patients disappeared after operation. HI was 2.70 ± 0.33 at 12 months after operation, showing significant difference when compared with preoperative HI (t=5.83, P=0.00). According to Nuss’s evaluation method, the results were excellent in 99 patients and good in 3 patients. CT examination showed complete relief of cardiac compression in 101 patients and mild cardiac compression in 1 patient; the heart position was normal at 12 months after operation. Electrocardiogram returned to normal in 4 patients having abnormal electrocardiogram. LVEF was 70.5% ± 4.8% after operation, showing no significant difference when compared with preoperative LVEF (t=1.08, P=0.30). ConclusionThe main effects of pectus excavatum in adults on heart are compression and displacement. Cardiac compression may be relieved efficiently and the patient’s clinical symptoms can be abated by minimally invasive surgery.
ObjectiveTo investigate the changes and clinical significance of cardiac structure and function evaluation by cardiac magnetic resonance imaging (CMR) for patients with pectus excavatum deformity at preoperation. MethodsWe retrospectively analyzed 54 patients (24 children and 30 adults) who underwent pectus excavatum surgery from June 2012 to June 2014. There were 48 males and 6 females at age of 7-33 (19.08±5.17) years. All the patients underwent CMR using 1.5 Tesla scanner for evaluation of compressing and displacement of the heart. The major and minor dimensions of right ventricle were measured. The right ventricle end-diastole volume (RVEDV), right ventricle end-systolic volume (RVESV), and right ventricle ejection fraction (RVEF) were also recorded and analyzed. ResultsThe heart compression and displacement occurred in 83.3% of the children group and 90.0% of the adults group. The extent of heart displacement in the adults was more serious than that in the children (76.86%±13.30% vs. 67.99%±8.15%, P<0.05). The structure of right ventricle were striking distorted because right atrum or right ventricule below valve ring was compressed locally, with the major dimension of right ventricle obviously increased, and the minor dimension of right ventricle obviously decreased. The indices of right ventricle major dimension and right ventricle minor dimension were 61.14±0.44 mm/m2 and 14.82±2.52 mm/m2 in the children, 49.54±15.40 mm/m2 and 18.90 ±3.14 mm/m2 in the adults. The RVEDV and RVESV were significantly higher in the adults than those in the children (139.09±29.08 ml vs. 121.50±31.27 ml; 73.61±16.05 ml vs. 64.92±19.28 ml; P<0.05). RVEF was similar between the children and the adults (45.29%±4.14% vs. 46.30±6.09%). The patients' symptoms disappeared after correction of pectus excavatum. ConclusionCMR is an useful method for evaluating right ventricular structure and functions in patients with cardiac compression and distortion by pectus excavatum before operation, which can bring strong indications for pectus excavatum repair surgery.
Objective To introduce a novel classification method for pectus excavatum. Methods A retrospective review of 569 operative patients with pectus excavatum between January 2015 and September 2017 in our hospital was performed. The malformations were described and classified from three dimensions: symmetry (abbreviated as S), depth (abbreviated as D) and position (abbreviated as P). The final integral was calculated according to the deformity index, so that the severity of the deformity could be evaluated. All patients underwent Nuss or modified Nuss surgery. Results All pectus excavatum deformities were classified into 24 types. The most common type was S1D2P1, accounting for 27.2% of the total patients followed by S1D2P2, S1D1P2 and S2D2P2, accounting for 12.0%, 11.6% and 11.4% of all patients respectively. S1D3P3, S1D3P4 and S2D3P3 were not found in our patients. According to the integral, 321 patients were mild, 23 severe, and the rest were moderate. The appearance of all patients improved after the operation. Among them, 405 patients were implanted with a plate, 159 with two plates and 5 with three plates. The length of hospital stay was 5-12 d, with an average of 7.3±1.5 d. Conclusion This classification method is a more comprehensive classification, but its scientific and practical characteristics need to be further confirmed.
ObjectiveTo develop a symptom and function assessment scale for patients after Nuss procedure for pectus excavatum and to test its reliability and validity. MethodsFollowing the principles and procedures of patient-reported outcome (PRO) scale development stipulated by the U.S. Food and Drug Administration, an initial draft was formed through literature analysis, qualitative interviews, and Delphi expert consultation. The preliminary draft was used to conduct a pre-survey on patients who underwent Nuss procedure for pectus excavatum at Guangdong Provincial People's Hospital, and the reliability and validity of the scale were tested. ResultsA preliminary PRO-based symptom and function scale was constructed, covering two domains: symptoms and impact on daily functions. The symptom dimension includes six items: chest tightness, palpitations, pain, shortness of breath, foreign body sensation of the steel plate, and distress; while the impact on daily functions includes four items: difficulty in getting out of bed or lying down, raising arms, bending over, and standing or sitting for a long time. A total of 73 patients who underwent Nuss procedure for pectus excavatum were included in the questionnaire survey, with 70 valid questionnaires collected, including 64 males and 6 females, with 56 patients aged 12-17 years and 14 patients≥18 years. Through exploratory factor analysis, two common factors were extracted, with a cumulative variance contribution rate of 70%. The Cronbach's α coefficient of the scale is 0.917. ConclusionThe scale developed in this study has good reliability and validity, high reliability and stability, and can be used as an evaluation tool for the recovery status of patients after Nuss procedure for pectus excavatum.
ObjectiveTo explore the clinical efficacy of thoracoscopy-assisted modified Nuss procedure for pectus excavatum (PE) in children.MethodsThe clinical data of patients with PE who underwent thoracoscopy-assisted modified Nuss procedure from October 2013 to October 2020 in Daping Hospital were retrospectively analyzed.ResultsA total of 86 patients were collected, including 79 males and 7 females with a mean age of 14.03±3.36 years. The operations were performed successfully in all patients without intraoperative cardiac vascular injury or perioperative death. The mean operation time was 87.30±33.45 min, bleeding volume was 19.94±14.60 mL, and the postoperative hospitalization stay time was 6.89±2.59 d. Early postoperative complications included 2 patients of pneumothorax, 2 patients of wound fat liquefaction and infection, 2 patients of bar flipping and displacement. One patient had bar displacement 1 year after the surgery. The total complication rate was 8.14%. All patients were followed up for 3-42 months. The bars were taken out about 36 months after the surgery. According to the evaluation criteria of orthopedic effect, 68 (79.07%) patients were excellent, 10 (11.63%) patients were good, 5 (5.81%) patients were moderate and 3 (3.49%) patients were poor.ConclusionMinimally invasive and individualized shaping via the Nuss procedure for PE children is safe and convenient, with satisfied effect. It is worthy of popularization in the clinic.