Review of Superior Vena Cava Resection in the Management of Benign Disease and Pulmonary or Mediastinal Malignancies

A Systematic Review of Surgical Strategies for Managing Major Thoracic Vessels in Thoracic Oncology

BACKGROUND

The management of locally advanced thoracic malignancies, particularly those involving critical vascular structures, presents substantial surgical challenges. Surgery remains a cornerstone of treatment for these conditions, yet the involvement of the superior vena cava (SVC), pulmonary artery (PA), aorta, and thoracic outlet vessels complicates the process.

METHODS

The literature search was performed from January 1990 to January 2025 in PubMed, Embase, and Cochrane according to PRISMA guidelines.

RESULTS

Through the process of evidence acquisition, 78 types of research were identified: 27 focusing on SVC, and 25 focusing on PA, 15 focusing on the aorta, and 11 focusing on thoracic outlet vessels. The findings indicated that surgical management of the SVC and PA, although feasible, carries significant risks. The perioperative mortality for SVC surgeries ranged from 0 to 17%, with morbidity varying between 0 and 50%. For PA surgeries, the perioperative mortality ranged from 0 to 17.2% and morbidity ranged from 0 to 62%. Extended resections, including partial and total aortic resections, offered long-term survival rates of 25% to 40% for carefully selected patients.

CONCLUSION

Vascular reconstructions, such as subclavian artery resection followed by bypass, demonstrated a 70% success rate with a 35% 5-year survival rate. Vascular reconstructive techniques significantly extend surgical resection options, offering lung-sparing procedures for patients with bulky mediastinal masses and avoiding pneumonectomy in functionally challenging cases. Although advancements such as aortic endografting and cardiopulmonary bypass have improved outcomes, challenges such as hemorrhage, vascular injury, and neurologic deficits persist.

Prosthesis selection for reconstruction of superior vena cava: comparison of midterm patency rates

OBJECTIVES

This study compared the mid-term patency of expanded polytetrafluoroethylene grafts without rings versus that of bovine pericardial conduits used for superior vena cava reconstruction for various thoracic diseases.

METHODS

Among 80 patients who underwent superior vena cava resection and reconstruction between 2009 and 2023 at our institution, 31 patients who received polytetrafluoroethylene grafts without rings (Polytetrafluoroethylene group) and 28 patients who received bovine pericardial conduits (Bovine group) were enrolled. Median follow-up durations were 19.5 and 64.6 months in the Polytetrafluoroethylene and Bovine groups, respectively. Primary outcome was midterm graft patency rate, and secondary outcomes were early and midterm clinical outcomes, including all-cause mortality and superior vena cava reintervention.

RESULTS

Operative mortality was 1.7%. Cumulative incidence of all-cause mortality was not significantly different between the groups. Graft occlusion was detected in 22 patients. Cumulative incidence of graft occlusion was 24.2%, 36.4%, 42.4%, 48.5% and 60.6% at 1 month, 3 months, 6 months, 1 year and 2 years, respectively, in the Bovine group, whereas no graft occlusion was observed in the Polytetrafluoroethylene group (P = 0.007). Although the incidence of graft occlusion was higher in the Bovine group, cumulative incidence of reintervention was not significantly different between the groups (0.0% vs 3.0% in Polytetrafluoroethylene vs Bovine groups at 1 year, P = 0.406). Multivariate analysis demonstrated that bovine pericardial conduit (polytetrafluoroethylene graft as reference) and left brachiocephalic vein reconstruction (right brachiocephalic vein reconstruction as reference) were significant risk factors for graft occlusion.

CONCLUSIONS

In superior vena cava reconstruction, polytetrafluoroethylene grafts without rings were superior to bovine pericardial conduits in terms of midterm graft patency.

Major vascular reconstructions in thoracic oncological surgery

The replacement of the superior vena cava and thoracic outlet vessels for thoracic malignancies often becomes necessary for radical oncological surgery. The pulmonary artery can be directly infiltrated by the tumor or affected by metastatic hilar lymph nodes. In some cases, it must be resected and reconstructed to achieve oncological radicality and/or avoid pneumonectomy. This study reflects a single-surgeon, retrospective experience spanning 6 years (2017-2023). We reviewed data from patients undergoing early anticoagulant therapy after superior vena cava or thoracic outlet vessels bypass and from patients undergoing early antiaggregation therapy following pulmonary artery reconstruction or resection. This series comprises 41 patients treated by a single surgeon. Fourteen patients underwent superior vena cava and thoracic outlet vessel procedures. Among these, eight patients received superior vena cava replacement (six for thymic malignancies and two for lung cancer), and six patients underwent jugular and subclavian artery/vein resection or replacement (all six had sarcomas). There was one death due to respiratory failure, not associated with bleeding or bypass closure. Additionally, there was one graft closure in a patient with severe coagulopathy and three instances of hemothorax (two patients had undiagnosed complex coagulopathies not evident in pre-operative routine blood tests). Following bleeding incidents, anticoagulation was initiated the next day in one case and based on hematological indications in the two coagulopathic patients. In the pulmonary artery series, 27 patients were involved: 20 underwent direct suture after tangential resection, and 7 received pericardial patch reconstruction. Only one case experienced bleeding necessitating redo-surgery. All these patients received early and chronic antiaggregation therapy after pulmonary artery reconstruction. We conclude that major thoracic oncological vascular surgery is safe and feasible with appropriate technical skills. However, achieving optimal results requires integration with correct early anticoagulant therapy or antiaggregation to maintain the patency of bypasses/grafts and prevent life-threatening risks associated with closure of the "new vessels."

Internal jugular vein pressure monitoring guided venous reconstruction could improve perioperative safety after superior vena cava resection for mediastinal tumors: a cohort study

INTRODUCTION

After superior vena cava (SVC) resection, the decision on unilateral or bilateral reconstruction was mostly based on the expertise of surgeons without objective measurements. This study explored the use of internal jugular vein pressure (IJVP) monitoring to guide the SVC reconstruction strategy.

METHODS

In a retrospective cohort, perioperative outcomes of unilateral and bilateral reconstruction based on surgeons' experience were compared. Then, IJVP threshold was measured when temporarily clamping the left innominate vein in a testing cohort. Venous reconstruction according to IJVP monitoring was performed in a prospective validation cohort afterward. Perioperative outcomes were compared between the prospective and the retrospective cohorts. For some interested variables, intuitive explanations would be given using Bayesian methods. Potential risk factors for postoperative complications were investigated by multivariable analysis.

RESULTS

From March 2009 to September 2022, 57 patients underwent SVC reconstruction based on surgeons' experience. Bayesian analysis indicated a posterior probability of 80.49% that unilateral reconstruction had less blood loss than bilateral reconstruction (median 550 ml vs. 1200 ml). Cerebral edema occurred in two patients after unilateral reconstruction. In the testing cohort, median IJVP was 22.7 (18-27) cmH 2 O after temporary left innominate vein clamping in 10 patients. In the prospective cohort, unilateral reconstruction only was performed if the contralateral IJVP was <30 cmH 2 O in 16 patients. Bilateral reconstruction was performed if IJVP was ≥30 cmH 2 O after unilateral bypass in nine patients. No cerebral edema occurred in the prospective cohort. Less postoperative complications occurred in the prospective cohort than the retrospective cohort (12.0 vs. 38.6%, P =0.016). Upon multivariable analysis, IJVP-monitoring guided SVC reconstruction was associated with significantly less postoperative complications ( P =0.033).

CONCLUSIONS

Intraoperative IJVP-monitoring is a useful strategy for selection of unilateral or bilateral SVC reconstruction and improving perioperative safety in patients with mediastinal tumors.

A Multicenter Retrospective Cohort Study on Superior Vena Cava Resection in Non-Small-Cell Lung Cancer Surgery

BACKGROUND

Surgery for non-small-cell lung cancers (NSCLCs) invading the superior vena cava (SVC) is rarely performed due to surgical complexities and reported poor prognoses. Different methods have been described to reconstruct the SVC, such as direct suture, patch use or prosthesis, according to its circumferential involvement. The aim of our study was to analyze the short- and long-term results of different types of SVC resection and reconstruction for T4 NSCLCs.

METHODS

Between January 2000 and December 2019, 80 patients received an anatomical lung resection with SVC surgery in this multicenter retrospective study. The partial resection and direct suture or patch reconstruction group included 64 patients, while the complete resection and prosthesis reconstruction group included 16 patients. The primary endpoints were as follows: long-term survival and disease-free survival. The secondary endpoints were as follows: perioperative complications and 30- and 90-day mortality. Unpaired t-tests or Mann-Whitney U tests for non-parametric variables were applied to discrete or continuous data, and the chi-square test was applied to dichotomous or categorical data. Survival rates were calculated using the Kaplan-Meier method and compared using the log-rank test.

RESULTS

No differences were found between the two groups in terms of general characteristics and surgical, oncological and survival outcomes. In particular, there were no differences in terms of early (50.0% vs. 68.8%, p = 0.178) and late complication frequency (12.5% vs. 12.5%, p = 1.000), 30- and 90-day mortality, R status, recurrence, overall survival (33.89 ± 40.35 vs. 35.70 ± 51.43 months, p = 0.432) and disease-free survival (27.56 ± 40.36 vs. 31.28 ± 53.08 months, p = 0.668). The multivariate analysis demonstrated that age was the only independent predictive factor for overall survival.

CONCLUSIONS

According to our results, SVC resection has good oncological and survival outcomes, regardless of the proportion of circumferential involvement and the type of reconstruction.

Thymomas With Intravascular and Intracardiac Growth

Thymomas are derived from the epithelial component of the thymus and constitute the most common tumor of the anterior mediastinum. These neoplasms are considered malignant for their potential for invasion and metastases. Several histopathologic subclassification schemes have been proposed over the years, however, correlation of histotypes with prognosis remains controversial. In contrast, studies invariably have shown that staging and resection status correlate with oncologic behavior and disease outcomes. In this regard, several staging systems have been presented, though transcapsular invasion and degree of involvement of adjacent anatomic structures are common denominators of all schemes. Involvement of the great vessels and heart most commonly results from direct invasion, which may lead to unusual clinical presentations such as superior vena cava syndrome. Moreover, intravascular and intracardiac growth with or without direct mural invasion rarely occurs. We provide an overview of thymomas with intravascular and intracardiac involvement.

Superior vena cava prosthetic replacement for non-small cell lung cancer: is it worthwhile?

OBJECTIVES

Direct involvement of the superior vena cava (SVC) by non-small cell lung cancer (NSCLC) requires en-bloc tumour resection with complete vascular clamping and prosthetic replacement. We report the outcomes of this highly demanding procedure in the largest patient cohort to date.

METHODS

We searched our institution's database for patients who underwent complete en-bloc resection of NSCLC invading the SVC followed by prosthetic SVC replacement, between 1980 and 2018. Patients with cN2, cN3 or distant metastases were not eligible.

RESULTS

We identified 48 patients (38 males, 10 females; mean age of 57 years; tumour size, 1.9-17 cm). Neoadjuvant therapy was administered to 17 and adjuvant therapy to 31 patients. R0 resection was achieved in 41 (85%) patients; lymph node involvement was pN0 in 8, pN1 in 23, pN2 in 14 and pN3 in 3 patients. Five patients died within 30 days of surgery. Right pneumonectomy was significantly associated with postoperative death (P = 0.02). Postoperative complications developed in 13 other patients. No neurologic events related to SVC clamping occurred. Graft thrombosis developed in 2 patients. Median survival was 24 months; 3-, 5- and 10-year survival rates were 45%, 40% and 35%, respectively; and corresponding disease-free survival rates were 37%, 37% and 30%, respectively. By univariable analysis, only margin-free (R0) resection was associated with better survival (P = 0.02).

CONCLUSIONS

In highly selected patients with NSCLC involving the SVC, mortality is acceptable after complete en-bloc resection and prosthetic replacement done in an expert centre. SVC involvement should not preclude consideration of curative resection in selected patients.

Superior Vena Cava Reconstruction in Masaoka Stage III and IVa Thymic Epithelial Tumors

BACKGROUND

We present here a case series of patients who underwent resection for Masaoka Stage III and IVa Thymic Epithelial Tumors (TETs) with invasion into the superior vena cava.

METHODS

29 patients with Stage III and IVa TETs were treated surgically in three institutions. Operative resections involved replacing the superior vena cava from one of the innominate veins (n=18) or via reconstruction by truncal replacement (n=2) or patchplasty (n=9).

RESULTS

Fifteen patients underwent neoadjuvant treatment. Thirty and 90-day mortality rate were 3.4% and 10.3%, respectively. For Stage III patients, the median overall survival and DFS were 39 and 30 months, respectively. The median overall survival and DFS in patients with Masaoka Stage IVa disease were 67 and 21 months, respectively. Undergoing only preoperative chemotherapy (p=0.007) or receiving no chemotherapy (p=0.009) had a disease-free survival that was significantly higher than receiving both pre- and postoperative chemotherapy.

CONCLUSIONS

SVC resection and reconstruction in Masoaka Stage III and IVa TETs can be performed with acceptable morbidity and mortality. Stage IVa patients with SVC involvement can be treated with similar results as Stage III patients with multimodality treatment.

Programmed death-1 mediates venous neointimal hyperplasia in humans and rats

Venous neointimal hyperplasia can be a problem after vein interventions. We hypothesized that inhibiting programmed death-1 (PD-1) can decrease venous neointimal hyperplasia in a rat inferior vena cava (IVC) patch venoplasty model. The rats were divided into four groups: the control group was only decellularized without other special treatment; the PD-1 group was injected with a single dose of humanized PD-1 antibody (4 mg/kg); the PD-1 antibody coated patches group; the BMS-1 (a PD-1 small molecular inhibitor) coated patches group (PD-1 inhibitor-1). Patches were implanted to the rat IVC and harvested on day 14 and analyzed. Immunohistochemical analysis showed PD-1-positive cells in the neointima in the human samples. There was high protein expression of PD-1 in the neointima in the rat IVC venoplasty model. PD-1 antibody injection can significantly decrease neointimal thickness (p < 0.0001). PD-1 antibody or BMS-1 was successfully conjugated to the decellularized rat thoracic artery patch by hyaluronic acid with altered morphology and reduced the water contact angle (WCA). Patches coated with humanized PD-1 antibody or BMS-1 both can also decrease neointimal hyperplasia and inflammatory cells infiltration. PD-1-positive cells are present in venous neointima in both human and rat samples. Inhibition of the PD-1 pathway may be a promising therapeutic strategy to inhibit venous neointimal hyperplasia.

Surgical feasibility and long-term outcome of superior vena cava replacement for advanced thymoma in patients undergoing preoperative chemotherapy or chemoradiotherapy

Background

The aim of this study was to investigate the long‐term outcome of superior vena cava (SVC) replacement after chemotherapy or chemoradiotherapy for advanced thymoma.

Methods

The medical information of patients with advanced thymoma who underwent thymoma resection and SVC replacement in Beijing Tongren Hospital from 2002 to 2017 were reviewed. We compared surgical outcomes, postoperative complications and long‐term prognosis in the chemoradiotherapy + surgery group (CRT + surgery group, 19 cases) and the surgery group (26 cases).

Results

The operation time (486.05 ± 148.01 vs. 370.77 ± 124.32 min; p = 0.007) and intraoperative blood loss (1400 ml [IQR 1125–2105 ml] vs. 855 ml [IQR 555–1682.5 ml], p = 0.036), poor wound healing (three cases [15.79%] vs. zero cases [0.0%], p = 0.036) in the CRT + surgery group were significantly higher than those of the surgery group. There was no significant difference between the CRT + surgery group and the surgery group in postoperative chest tube drainage time, hospitalization time, postoperative arrhythmia and incidence of pneumonia. Kaplan Meier analysis showed that the recurrence‐free survival (RFS) curves of the CRT + surgery group patients were better than those of the surgery group (p = 0.031). However, overall survival (OS) between the two groups was not significantly different (p = 0.069).

Conclusions

Thymoma resection and SVC replacement is feasible for patients undergoing preoperative induction chemotherapy or chemoradiotherapy for advanced thymoma. Although patients in the CRT + surgery group had a longer operation time and increased intraoperative bleeding, the RFS rate seemed to be better than that in the surgery group.

Outcomes and Safety Analysis in Superior Vena Cava Resection for Extended Thymic Epithelial Tumors

BACKGROUND

In stage III to IVa thymic epithelial tumors (TETs), infiltration of the superior vena cava (SVC) is not rare. The extent of SVC resection depends on the width of the area of neoplastic invasion. Our article aims to evaluate the safety and long-term outcomes of extended thymectomy for TETs with SVC resection compared with advanced-stage TETs patients without SVC resection.

METHODS

Retrospective review of the experience on patients who underwent extended thymectomy for TETs in the last 20 years, according to STROBE (Strengthening the Reporting of Observational Studies in Epidemiology) methodology. Progression-free survival (PFS) and overall survival (OS) were calculated using the Kaplan-Meier method. A backward stepwise Cox regression multivariate analysis was performed to determine factors associated with long-term outcomes.

RESULTS

A total of 78 patients underwent surgery for advanced-stage TETs (Masaoka-Koga stages III-IVa) from January 1998 to April 2019. Fourteen (17.9%) underwent thymectomy with resection of SVC. Presence of a thymic carcinoma (hazard ratio , 2.26; 95% confidence interval, 1.82-6.18; P = .038) and the SVC resection (hazard ratio, 1.89; 95% confidence interval, 1.11-3.96; P = .041) were adverse prognostic factors at multivariate analysis. The median OS and the PFS of all SVC resected patients were 50 (range, 5-207) months and 31 (range, 5-151) months, respectively. There was no significant difference in OS (P = .28) and PFS (P = .32) between SVC-resected and non-SVC-resected patients.

CONCLUSIONS

SVC resection is a safe and effective procedure to restore the venous system continuity and does not seem to affect survival and disease recurrence. This surgical approach allows radical resection of locally advanced TETs, even after neoadjuvant chemotherapy.

Prosthetic Reconstruction of Superior Vena Cava System for Thymic Tumor: A Retrospective Analysis of 22 Cases

OBJECTIVE

This study aimed to report our experience in superior vena cava (SVC) resection and reconstruction for 22 thymic tumor patients and to make comparisons with previous related reports.

METHODS

A retrospective study on 22 patients (15 thymomas, 7 thymic cancers) who underwent tumor resection with concomitant SVC reconstruction. All the patients underwent vascular conduit reconstruction by the cross-clamping technique. The corresponding data were reviewed, including clinical presentation, operation management (surgery procedure, selection of suitable graft, strategies against SVC syndrome, etc.), postoperative cares (antithrombotic agent application, treatments on brain edema, etc.), and follow-up information.

RESULT

Two patients were myasthenic, well controlled by oral pyridostigmine. All resections were radical (R0). Ten patients received induction treatment. All the 15 thymoma patients were Masaoka stage III (type B1-B3). As for thymic cancer, six patients were Masaoka stage III and one was stage IVa. Wedge pulmonary resection was performed in three patients (two right upper lobe, one both upper lobe). Procedures included were single graft replacement in 12 patients, bilateral grafts in 9, and Y-shaped graft in 1 patient. Anticoagulation and dehydration agents were routinely applied after operation. No perioperative mortalities were observed. Major complication rate was 9.1%. The median survival time was 44.2 months (range, 4-92 months). Three- and 5-year overall survival rates were 80.8 and 44.0%, respectively. As for conduit patency, two grafts (9.1%) demonstrated evidence of occlusion during long-term follow-up, but no additional interventions were required due to no complications related.

CONCLUSION

Our study, confirming data from existing literature, showed that the prosthetic reconstruction of the SVC system is a feasible additional procedure during resection of thymic tumor infiltrating the venous mediastinal axis, minimally increasing postoperative complications in experienced hands.

Homologous and heterologous assessment of a novel biomaterial for venous patch

OBJECTIVE

This study evaluated swine and bovine pulmonary visceral pleura (PVP) as a vascular patch. Venous patches are frequently used in surgery for repair or reconstruction of veins. Autologous patches are often limited by the number and dimension of donor tissue and can result in donor complications. Bovine pericardium is the most common heterologous patch used by vascular surgeons. Researchers, however, are continually seeking to improve heterologous and synthetic patches for improved outcome.

METHODS

The PVP was peeled from swine and bovine lungs and cross-linked with glutaraldehyde. After sterilization and rinsing, the PVP patches were implanted in the jugular vein (10 × 35 mm) of pigs and dogs. Patency was evaluated by ultrasound, and animals were euthanized at 2 and 4 months. Neoendothelium and neomedia were evaluated by histologic analysis.

RESULTS

The jugular vein patched by PVP in pigs and dogs remained patent at 2 and 4 months with no adhesions, inflammation, or aneurysm in the patches. The biomarkers of endothelial cells-factor VIII, platelet/endothelial cell adhesion molecule 1, and endothelial nitric oxide synthase-were detected in the neoendothelial cells. The expression of vascular smooth muscle cell (VSMC) α-actin was robust in the neomedia at 2 and 4 months. Neomedia composed of VSMCs developed to nearly double the thickness of adjacent jugular vein. The circumferential orientation of VSMCs in neomedia further increased in the 4-month group.

CONCLUSIONS

The cross-linked swine and bovine PVP patch has a nonthrombogenic surface that maintains patency. The PVP patch may overcome the pitfall of compliance mismatch of synthetic patches. The proliferation of vascular cells assembled in the neoendothelium and neomedia in the patches may support long-term patency.

Thoracoscopic thymectomy with partial superior vena cava resection for locally advanced thymomas

Background

Video-assisted thoracoscopic surgery (VATS) is now increasingly used for the treatment of early stage thymic malignancies. However, VATS has not been advocated for patients with locally advanced diseases. We reviewed our initial experience in VATS thymectomy with partial superior vena cava (SVC) resection for IASLC/ITMIG stage III thymic tumors.

Methods

From August 2017 to October 2018, patients who underwent VATS thymectomy with partial SVC resection were retrospectively reviewed, and peri-operative outcomes and short-term follow-up results were analyzing.

Results

Four patients with partial SVC resection via VATS were identified. All of them had pathologically confirmed IASLC/ITMIG stage III thymic tumors invading the SVC. The average of operative time was 228 minutes and mean blood loss was 88 mL. The mean duration of chest tube drainage and post-operative hospital stay were 4.5 and 7.3 days respectively. No major complication was encountered after surgery. No mortality was observed. And no recurrence was detected with the longest follow-up time of 14 months.

Conclusions

With careful patient selection and plenty surgical expertise, VATS thymectomy for locally invasive thymic tumors with limited the SVC invasion is challenging yet technically feasible.

Is postoperative anticoagulation necessary after left innominate vein division in general thoracic surgery?

OBJECTIVES

We encounter patients with mediastinal tumors invading the left innominate vein (LIV), and there is no evidence confirming whether the LIV should simply be ligated or reconstructed. The need for postoperative anticoagulant therapy after ligation of LIV is also controversial.

METHODS

3209 patients with thoracic malignant tumors underwent surgical resection between 1994 and 2014 in our institute. Nineteen (0.6%) patients had mediastinal malignant tumors invading the LIV and underwent LIV resection. Of these patients, only 3 underwent reconstruction of LIV. We did not start anticoagulant therapy routinely after resection of LIV. The patients were divided into 2 groups: group A showed at least 50% patency of LIV by preoperative contrast-enhanced computed tomography (CECT) and group B showed less than 50%. We investigated the safety of resecting LIV and the need for postoperative anticoagulant therapy.

RESULTS

The 30-day and 90-day mortalities were zero in both groups. Thrombosis of the LIV stump and increased edema in the left neck and upper limb were observed in 2 (10.5%) patients only in group A. After initiating the anticoagulant therapy, the embolisms disappeared and weaning the patients off warfarin could be done in less than 1 year.

CONCLUSIONS

In this study, there was no case of mortality or severe morbidity among the patients with LIV resection. Moreover, there was no need to initiate routine anticoagulant therapy after the LIV division as the frequency of embolism in the LIV stump was low and was expected to disappear prior to starting anticoagulant therapy.

Initial extended resection or neoadjuvant therapy for T4 non-small cell lung cancer-What is the evidence?

Locally advanced non-small cell lung cancer (NSCLC) tumors that invade surrounding structures within the chest (T4) are a heterogeneous group, and, as such, there are no straightforward guidelines for their management. Advances in imaging, invasive mediastinal staging, and neoadjuvant therapies have expanded the role of surgery with curative intent for this patient group and have also diminished the rate of explorative thoracotomies. Unlike for T4 superior sulcus tumors, the use of neoadjuvant therapy for central T4 tumors is not clearly defined. The most important determinants of a successful outcome after surgery are achieving an R0 resection and avoiding incidental pathologic N2 disease. Use of neoadjuvant therapy in this setting may yield better outcomes after surgery, as both of these variables can be altered if the tumor responds to neoadjuvant therapy. Moreover, response to induction therapy has been shown to have prognostic value.

Is Surgery after Chemoradiotherapy Feasible in Lung Cancer Patients with Superior Vena Cava Invasion?

PURPOSE

The purpose of this study is to explore the possibility of surgery after chemoradiotherapy (CRT) for locally advanced-non-small-cell lung cancer (LA-NSCLC) with superior vena cava (SVC) resection in terms of prognosis and early and late postoperative course.

METHODS

The medical records of NSCLC patients who underwent surgery after CRT at our institution between January 2001 and March 2016 were reviewed. We evaluated the feasibility of surgery with SVC resection after CRT.

RESULTS

A total of 8 LA-NSCLC patients were enrolled in this study. The SVC management included a graft replacement in two patients, pericardial patch repair in two, and direct suture closure in four. A complete resection was achieved in seven of the eight patients (87.5%). Postoperative early and late complication rate (Clavien-Dindo classification ≥ grade III) was 25%. All the complications were manageable, and no treatment-related deaths occurred in this series. Although seven out of eight patients showed good patency of reconstructed SVC, one patient exhibited the SVC occlusion during long-term follow-up period. Regarding the prognosis, the 5-year overall survival (OS) rate was 60.0%, and the 2-year recurrence-free survival (RFS) rate was 75.0%.

CONCLUSION

Our results suggest that surgery with SVC resection after CRT is a feasible procedure in terms of clinical outcomes and postoperative course.

Superior vena cava resection and reconstruction in mediastinal tumors and benign diseases

BACKGROUND

This study aims to evaluate our results of resection and reconstruction of the superior vena cava invaded by mediastinal tumors and benign diseases.

METHODS

Seventeen patients (8 males, 9 females; mean age 46±17 years; range 9 to 74 years) undergoing superior vena cava resection and reconstruction due to mediastinal pathologies between September 2006 and September 2016 were retrospectively reviewed. Patients who had angioplasty with primary suturing or partial resection with stapler were excluded. Mortality and morbidity rates were analyzed based on the demographic, and intra- and postoperative measures.

RESULTS

Majority of patients (94%) had mediastinal tumors. Twelve patients (71%) had thymic epithelial tumors. Tubular graft interposition was performed using ringed polytetrafluoroethylene prosthesis in nine patients (53%), while patch plasty using autologous pericardium, polytetrafluoroethylene or Dacron grafts was performed in eight patients (47%). Eleven patients (65%) necessitated concomitant resections of neighboring structures. Mean length of hospital stay was 11±6 days. There was no intraoperative death. Mortality occurred in three patients (18%). Five patients (29%) developed complications. Mortality occurred commonly in elderly patients (p<0.0001). Postoperative complications were more common in patients with concomitant resections (p=0.05). Neither acute nor chronic thrombosis developed in any patients. Median survival in patients with malignant diseases was 57 months, with a oneyear and three-year probability of survival of 83% and 74%, respectively.

CONCLUSION

Replacement of superior vena cava should be included in the therapeutic algorithm of selected patients with mediastinal tumors and benign diseases. Mortality rates may be higher in older patients, while the need for concomitant resections may increase morbidity rates.

Surgery for malignant lesions of the chest which extensively involved the mediastinum, lung, and heart

OBJECTIVE

Radical resection for thoracic malignancies that invade the great vessels or heart structure is an uncommon, high-risk operation. To help surgeons determine therapeutic strategy, we reviewed the patient characteristics and outcomes of combined thoracic and cardiovascular surgery for thoracic malignancies.

METHODS

Surgical resections of lung cancer, mediastinal tumor and pulmonary artery sarcoma invading great vessels or heart structures were reviewed from the literature.

RESULTS

Pneumonectomy was often performed for lung cancer invading the aorta, superior vena cava, and left atrium. Complete resection (R0), no mediastinal lymph node metastasis and without using cardiopulmonary bypass led to a good prognosis. Induction therapy was often performed for complete resection. Regarding mediastinal tumors, thymic epithelial tumors or germ cell tumors occasionally invaded the great vessels or heart structures. For these malignancies, multimodality therapy was often performed, and complete resection could be one of the prognostic factors. The resection of primary pulmonary artery sarcoma (PPAS) is also a combined thoracic and cardiovascular surgery. The primary treatment for PPAS is surgical resection; specifically, pulmonary endarterectomy and pneumonectomy, because PPAS has substantial resistance to chemotherapy or radiotherapy. The prognosis of PPAS is poor, but surgical resection has potential for long-term survival.

CONCLUSION

Although these surgeries are uncommon and invasive for the patients, selecting appropriate patients, aggressive multimodality therapy, and performing combined thoracic and cardiovascular surgery can contribute to a good outcome.

Surgery for lung cancer invading the mediastinum

Lung cancer infiltrating the mediastinum is a subset of locally advanced lung tumors for which surgery is not routinely offered. Radical operations that involve removal of adjacent mediastinal structures to obtain free margins may provide a realistic cure. Such extended resections are typically reserved to highly motivated patients seeking more aggressive management, and are only offered following complete evaluation on a case-by-case basis. Positive prognosis depends on complete R0 resection and lack of mediastinal nodal metastases. Careful and exhaustive preoperative planning as well as surgical expertise cannot be overemphasized for successful surgical outcomes. Here we provide a brief summary of the literature as well as our own experience managing these rare and sometimes challenging surgeries.

Superior vena cava repair with left brachiocephalic vein flap

Interposition with a vascular prosthesis or patch closure using autologous pericardium has been applied for superior vena cava (SVC) reconstruction during surgery for thoracic malignancies such as thymic epithelial tumors or lymphadenopathy that invade the SVC. We herein report a novel and simple method for repair of the SVC using a left brachiocephalic vein flap. This procedure is useful to repair the anterior wall of the distal portion of the SVC, which is a common site of invasion of thoracic malignancies.

Prosthetic graft interposition of the brachiocephalic veins or superior vena cava combined with resection of malignant tumours: graft patency and risk factors for graft occlusion

BACKGROUND

We aimed to assess graft patency in patients undergoing prosthetic graft interposition of the brachiocephalic veins (BCVs) or the superior vena cava (SVC) combined with resection of malignant tumours.

METHODS

A retrospective analysis was conducted on 16 patients who underwent prosthetic graft interposition of the BCVs or the SVC between 1998 and 2012.

RESULTS

Among a total of 20 grafts in 16 patients (unilateral graft interposition in 12, bilateral graft interposition in 4), 8 grafts were occluded in 8 patients. Overall graft patency rate was 64.6%, 42.4% at the 2- and 5-year follow-up. Graft patency rate of the left BCV was significantly lower than that of the right BCV or the SVC (2-year patency, 38.1% vs. 81.8%, P=0.024). In univariate analysis, the superior anastomosis site [left BCV vs. right BCV; hazard ratio (HR) =2.312; 95% confidence interval (CI), 1.015-5.265; P=0.046], the inferior anastomosis site (right atrial appendage vs. SVC; HR =2.409; 95% CI, 1.124-5.161; P=0.024), and interruption of warfarin (HR =5.015; 95% CI, 1.106-22.734; P=0.037) were significant risk factors for graft occlusion. Graft occlusive symptoms were identified in 4 patients who underwent unilateral graft interposition.

CONCLUSIONS

Prosthetic graft interposition between the left BCV and the right atrial appendage resulted in a significant rate of graft occlusion. Prosthetic graft interposition of the bilateral BCVs and long-term warfarin therapy may be necessary to prevent graft occlusive symptoms.

Superior vena caval resection in lung cancer

Lung cancer with involvement of the SVC is uncommon but presents a unique management challenge. Discovery of N2 disease should be given its due diligence and these patients should undergo induction therapy. Patients can attain favorable long-term outcomes with surgery, but they need to be carefully selected at specialized centers.

Reconstruction of the superior vena cava by biologic conduit: assessment of long-term patency by magnetic resonance imaging

BACKGROUND

To assess the long-term patency of the biologic prosthetic conduit used for reconstruction of the superior vena cava (SVC) by magnetic resonance imaging (MRI).

METHODS

Patients undergoing oncologic resection and reconstruction of the SVC by a bovine pericardial prosthesis (January 2003 to April 2010) have been studied after 1 year (if surviving) by MRI for the assessment of the conduit long-term patency. Results were compared with those of a control group of patients with normal SVC. Blood flow and area of lumen section at 3 different levels (proximal, middle, distal) were analyzed.

RESULTS

Sixteen consecutive patients surviving after 1 year from surgery out of 17 (9 lung cancer, 8 mediastinal malignancy) undergoing SVC reconstruction were included. One patient died postoperatively and was not included. Sixteen patients with similar demographic characteristics were studied in the control group. Mean blood flow was 18.4±3.5 mL/sec (range 14.3 to 25.7) in patients with reconstructed SVC and 20.8±4.1 mL/sec (range 15.3 to 27.7) in the control group. Mean area of the conduit lumen section was 2.2±0.6 cm2 (range 1.6 to 3.6) at proximal level, 2.9±1.3 cm2 at middle level (range 1.3 to 5.7), and 2.1±0.9 cm2 (range 0.5 to 4) at distal level in the reconstructed group, and 2.6±0.7 cm2 (range 1.8 to 4.2), 2.7±0.7 cm2 (range 1.9 to 4.3), and 2.4±0.3 cm2 (range 1.8 to 3.1), respectively, at proximal, middle, and distal levels in the control group. Differences between the 2 groups were not significant (p>0.05).

CONCLUSIONS

The MRI assessment in terms of blood flow and area of lumen section at 3 different levels confirms that bovine pericardial conduit used for SVC replacement shows an optimal patency over the long term.

Superior vena cava syndrome in lung cancer

Summary Superior vena cava syndrome (SVCS) consists of various symptoms and signs due to intrinsic obstruction or extrinsic compression of the superior vena cava. The most common etiology is thoracic malignancy, with lung cancer being the leading cause (80%). It usually presents with edema of the head, neck and arms, often associated with cyanosis, plethora and distended subcutaneous vessels. The diagnosis is commonly made from physical examination and confirmed by imaging, such as CT scan. SVCS is usually not a medical emergency, but can, in rare cases, cause cardiac or airway compromise, or cerebral edema, which may require urgent interventions such as thrombectomy or endovascular stenting. In lung cancer-related SVCS, radiation and/or chemotherapy are the main treatment options, and tissue diagnosis should be obtained before the initiation of definitive treatment if SVCS is the initial presentation. Randomized controlled trials are still lacking for optimal management of SVCS.

Long-term patency of the stapled bovine pericardial conduit for replacement of the superior vena cava

OBJECTIVE

Artificial prosthesis of the superior vena cava (SVC) may occlude with time. For this reason, we proposed in 2003 the use of a biological material (bovine pericardium) and devised an original technique to construct the prosthetic conduit. We hereby report the long-term results in 15 patients.

METHODS

The SVC prosthetic conduit is realized by wrapping a bovine pericardial leaflet around a 5 or 10 cm(3) syringe and stapling it on the side by a 60-80 linear stapler. This procedure is carried out intra-operatively after the size of the patient's SVC has been ascertained; the conduit is then cut to the appropriate length. We have employed this technique in 15 patients with lung (eight) or mediastinal (seven) tumors; after a minimum follow-up of 1 year, all patients underwent computed tomographic-volume rendering (CT-VR) studies of the SVC.

RESULTS

Technically, the stapled pericardial conduit has several advantages: (1) it is simple and expeditious; (2) it allows an even and regular suture line, which cannot be achieved by hand suturing; (3)'one size fits all': with one single pericardial leaflet, conduits of all sizes can be realized; this is important for an operation which is performed only few times per year; (4) patency is granted by the intrinsic rigidity of the pericardium and staple line, without the need for any reinforcement; (5) different calibers at the two extremities can be obtained by simply placing the stapler obliquely; and (6) the staple line is excellent for the orientation of the conduit while suturing. In our patients, SVC clamping time ranged between 18 and 50 min (mean 29 min); one patient needed cardiopulmonary bypass. Intra-operative anticoagulation (1.500-2.500 units of heparin) was continued postoperatively subcutaneously for 7 days and then shifted to oral anticoagulation for 6 months. One patient died postoperatively of heart failure (mortality 6%). One to 5 years after surgery, CT-VR showed full patency of the pericardial conduit, no clots or thrombus formation, and absence of collateral venous circulation in all 14 patients. One- and 5-year survival was 93% and 73%, respectively (Kaplan-Meier).

CONCLUSIONS

The stapled bovine pericardial conduit is a simple, expeditious, and economic solution to SVC replacement, and offers reliable long-term patency without permanent anticoagulation.

Azygos flap as a novel method for superior vena cava reconstruction

In the surgical treatment of lung cancers invading the superior vena cava (SVC), primary closure is preferred for reconstruction when the resected area is small, but the repaired vessel can become constricted. A novel method for SVC repair with azygos flap, which is a longitudinally opened azygos arch, is a facile and effective treatment, and may prevent a reduction in the lumen if the area of tumor invasion is small and close to the azygos arch. When the azygos arch is not invaded by the tumor, this procedure should therefore be considered as one alternative method for SVC reconstruction.

Superior vena cava (SVC) reconstruction using autologous tissue in two cases of differentiated thyroid carcinoma presenting with SVC syndrome

Herein, we report two extremely rare cases of differentiated thyroid carcinoma (DTC) with extended tumor thrombus or mediastinum lymph node metastasis (LNM) involving the superior vena cava (SVC), causing SVC syndrome. Both of these patients were successfully treated with radical resection and reconstruction of the SVC using autologous tissue instead of an expanded polytetrafluoroethylene (ePTFE) graft. The left brachiocephalic vein was used to reconstruct the SVC in a papillary thyroid carcinoma patient with mediastinum LNM and a pericardial patch was used in a follicular thyroid carcinoma patient with tumor thrombus. Our search of the English-language literature found sporadic reports of SVC resection with reconstruction by vascular graft (ePTFE), interposed between the brachiocephalic vein and the right atrium. However, SVC reconstruction using autologous tissue in thyroid carcinoma has not been reported to date. To our knowledge, this is the first report describing such an unusual technique in DTC patients.