SciELO - Scientific Electronic Library Online

 
vol.90 número2Resección radical selectiva para el cáncer de páncreas irresecableSensibilidad y especificidad del índice neutrófilo/linfocito en pacientes pediátricos con apendicitis aguda complicada índice de autoresíndice de materiabúsqueda de artículos
Home Pagelista alfabética de revistas  

Servicios Personalizados

Revista

Articulo

Indicadores

Links relacionados

  • No hay artículos similaresSimilares en SciELO

Compartir


Cirugía y cirujanos

versión On-line ISSN 2444-054Xversión impresa ISSN 0009-7411

Cir. cir. vol.90 no.2 Ciudad de México mar./abr. 2022  Epub 02-Mayo-2022

https://doi.org/10.24875/ciru.20001220 

Original articles

Predictors of anastomotic leak after total gastrectomy in patients with adenocarcinoma

Predictores de fuga anastomótica después de gastrectomía total en pacientes con adenocarcinoma

Jorge H. Rodríguez-Quintero1  * 

Jorge Aguilar-Frasco1 

Jesús Morales-Maza1 

Emilio Sánchez-García-Ramos1 

Heriberto Medina-Franco1 

Ruben Cortes-Gonzalez1 

1Department of Surgery, Instituto Nacional de Ciencias Médicas y Nutrición “Salvador Zubirán”, Mexico City, Mexico


Abstract

Background:

Esophagojejunal anastomotic leakage (EJAL) is among the most feared complications after gastric cancer surgery; they entail an uncertain prognosis and relate with increased morbidity and mortality. Factors associated with their development are not well determined, and their diagnosis and treatment vary between institutions.

Material and methods:

Retrospective case-control study of patients operated of total gastrectomy with Roux-en-Y esophagojejunostomy from January 2002 to December 2018. We divided our sample into two groups based on the presence of EJAL, and compared demographic, clinical, and histologic variables. We performed a logistic regression model to search risk factors associated with EJAL and described the management offered in our center.

Results:

We included 58 patients of which 8 (13.7%) presented clinically relevant EJAL. On the comparative analysis, albumin levels and diffuse histology presented a statistically significant difference between groups and presented association with EJAL in the logistic regression model. Regarding treatment of EJAL, ten patients (55.5%) required only conservative measures, whereas eight patients (44.4%) warranted an endoscopic or surgical intervention.

Conclusion:

Our retrospective analysis identified some factors that may be associated with the development of EJAL after gastric cancer surgery. High suspicion and prompt identification of this complication is essential to improve postoperative outcomes in this group.

Keywords Total gastrectomy; Gastric cancer; Gastric adenocarcinoma; Esophagojejunal anastomotic leak; Postoperative leak

Resumen

Introducción:

Las fugas de la anastomosis esófago-yeyunal se encuentran entre las más temidas complicaciones de la cirugía para cáncer gástrico. Estas conllevan un mal pronóstico con una alta mortalidad y morbilidad. Los factores asociados a su desarrollo no están bien determinados y su diagnóstico, y tratamiento varían ampliamente entre instituciones.

Material y métodos:

Estudio retrospectivo de casos y controles en pacientes operados de gastrectomía total con esófago-yeyuno anastomosis en Y de Roux en el periodo de enero 2002 a diciembre 2018. Nuestra muestra fue dividida en dos grupos con base al desarrollo de fuga de anastomosis en el postoperatorio. Se realizó un análisis comparativo de características demográficas, clínicas y histológicas. Se realizó además una regresión logística para identificar factores de riesgo asociados al desarrollo de fuga de anastomosis en nuestra serie.

Resultados:

Incluimos a 58 pacientes de los cuales 8 (13.7%) presentaron fuga de anastomosis clínicamente relevante. En el estudio comparativo: Niveles disminuidos de albúmina e histología difusa fueron significativamente mayores en el grupo de fuga y se asociaron en el modelo de regresión logística. En cuanto al tratamiento, diez pacientes (55%) requirieron únicamente tratamiento conservador, mientras que ocho pacientes (44.4%) fueron sometidos a maniobras endoscópicas o quirúrgicas.

Conclusión:

Nuestro análisis retrospectivo identifico factores asociados al desarrollo de fuga de anastomosis posterior a cirugía de cáncer gástrico. Una alta sospecha diagnóstica es esencial para mejorar el pronóstico de estos pacientes.

Palabras clave Gastrectomia Total; Cancer Gástrico; Adenocarcinoma Gástrico; Fuga anastomótica; Fuga postoperatoria

Introduction

According to GLOBOCAN 2018, gastric cancer is considered the sixth most common cause of cancer worldwide1. It is, currently, the fifth cause of cancer death and is considered one of the main contributors to the disability-adjusted life year burden among all types of malignancy2. Its incidence is especially high in Asia, Latin America, and the center and east of Europe3.

Several different classifications have been utilized for this entity4,5. However, the most used divides it in two main types depending on its histologic characteristics, diffuse, and intestinal6.

Nowadays, surgical resection remains the only curative approach in the treatment of gastric cancer. The objective of such operation is the complete excision of the tumor aiming for a free 5 cm margin and proper lymph node dissection (D1 + D2 with a goal of examining at least 15 lymph nodes) with subsequent gastrointestinal reconstruction, which is usually achieved with a Roux en Y esophagojejunostomy (EJ). An R0 resection is accomplished in 45-60% of the cases subjected to surgical treatment. Most of those cases usually require a total gastrectomy (TG) due to the characteristics of the tumor and its relation with adjacent structures. Those cases with pre-operative evidence of invasion to distant or adjacent structures are not considered surgical candidates on an initial basis and benefit from neoadjuvant chemoradiotherapy and subsequent re-staging of the disease to assess for the most convenient approach7,8.

Esophagojejunal anastomotic leakage (EJAL) is among the most feared complications after gastric cancer surgery; both subclinical and symptomatic cases entail an uncertain prognosis and relate with increased morbidity and mortality. The reported incidence of this complication is quite variable worldwide9; this has a strict correlation with the heterogeneity of their operative definition, which has further complicated the development of generalized algorithms for their treatment and early recognition. Studies have demonstrated that the presence of EJAL is associated to prolonged hospitalization and a significant risk of death10. Furthermore, there is evidence suggesting that infectious complications after gastric cancer surgery are associated with increased rates of cancer recurrence11.

Factors associated with the development of EJAL after gastric cancer surgery are not well determined. A large retrospective study from Asia, suggest that older age (> 65 years), increased intraoperative blood loss and comorbidities may be related12. However, such findings have not been reproduced consistently by others13-15. EJAL can present in two different clinical scenarios. The first and most indolent, is in asymptomatic patients that undergo either routine imaging studies before starting oral feeding or an imaging study requested for another reason; and in symptomatic patients who frequently present with abdominal pain, fever, peritoneal irritation, and saliva or intestinal content in perianastomotic drains after the procedure or when the start of oral intake is attempted. The diagnostic approach and treatment varies depending on the particular case. However, there is marked diversity between institutions9,10.

The purpose of this study was to identify risk factors for the development of EJAL in patients subjected to TG in a third level university based oncologic center and describe the treatment algorithm utilized to manage this complication in our hospital.

Materials and methods

We performed a retrospective analysis of our hospital registry to identify the subjects of this study. All patients over 18 years old with the diagnosis of gastric cancer, who were subjected to TG with Roux en Y EJ at our third level academic center between January 2002 and December 2018, were included in the study. Patients with incomplete data were excluded from the analysis. This study received approval of the local Institutional review board. All patients were approached by laparotomy and operated by a board-certified surgical oncologist.

EJAL was defined as any clinical or imaging evidence of luminal spillage adjacent to the EJ; Including evidence of intestinal contents or saliva in perianastomotic drains, evidence of extraluminal contrast material in imaging studies (esophagogram and contrast-enhanced Computed tomography [CT] scan) or fluid collections adjacent to the EJ in CT scan or ultrasound. All post-operative imaging studies of analyzed patients were reviewed for the purpose of this study to decrease risk of bias, some of which were requested for an alternate diagnostic suspicion.

The variables age, gender, comorbidities (Type 2 diabetes, high blood pressure, hypothyroidism, or dyslipidemia) perioperative chemotherapy, histologic type, and presence of signet ring cells were recorded. Relevant routine preoperatory laboratory values, obtained at admission 1 day previous to the operation, were also registered, including hemoglobin, total leukocytes, total neutrophils, total lymphocytes, neutrophil to lymphocyte ratio platelets, and albumin levels. Variables related to the surgical procedure such as surgical technique (hand sewn vs. stapled anastomosis), operative time and operative bleeding were included in the study.

Our sample was divided in two groups for statistical analysis, based on the presence of EJAL during their post operatory period. Variables were compared between these two groups.

All patients were assessed by a multidisciplinary team, and were operated by a certified surgical oncologist. The pre-operative assessment and post-operative routine were according current international practice guidelines. The standard protocol was early feeding as tolerated, total parenteral nutrition (when required and progression of analgesia to achieve early discharge.

Patients with identified EJAL were defined as asymptomatic when no clinical symptoms suggestive of secondary abdominal sepsis (such as pain, oral intolerance, or peritonitis) were present during serial examinations and were treated with supportive treatment including nothing by mouth, intravenous hydration, analgesia, and antibiotics and fluid collection drainage with interventional approaches when appropriate. Such patients were followed closely with clinical examinations and serial imaging. None of these patients required invasive interventions.

Symptomatic patients were assessed and treated according their particular presentation. Our general approach included nothing by mouth, early nutritional support, intravenous antibiotics, drainage of fluid collections, and depending on the nature of the case either endoscopic revision with fibrin glue, clip, or stent placement over defect or surgical management. All such procedures were considered emergency interventions.

We also included the variables hospital stay, perioperative mortality, and overall survival for descriptive purposes.

Statistical analysis

Categorical variables were presented as total frequencies (n), proportions and percentages (%). Continuous variables were analyzed for normal distribution. Variables with normal distribution were presented as means and standard deviations (± SD) and those with non-normal distribution were presented as medians and ranges. Categorical variables were compared within groups using Chi-square test or Fischer’s exact test, whereas continuous variables were compared using Student’s t-test or Mann–Whitney U test. All tests were two sided and utilized an alpha of 0.05.

Univariate logistic regression analysis was performed utilizing the included variables. Odds ratios and 95% confidence intervals were calculated. All values were two tailed in this analysis and p <0.05 was considered to be statistically significant. The analysis was performed employing SPSS Version 22.0 (IBM Corporation, Armonk, New York, NY).

Results

We included a total of 58 patients subjected to TG in our sample. No patients were excluded due to lack of available data after our review. All included patients were analyzed.

A total of 18 patients (31.03%) fulfilled our definition of EJAL during their post operatory period. All patients were diagnosed within 1 week of their operation and were still hospitalized when the EJAL was identified. Ten cases (55.5% of the anastomotic leaks) were classified as asymptomatic and were identified during the post-operative period through either routine imaging (contrast-enhanced esophagogram) requested before starting oral intake, or imaging studies pursuing alternate diagnostic suspicion.

The remaining eight patients with EJAL, were considered symptomatic and presented with fever (100%), diffuse abdominal pain (25%), peritonitis (25%), oral intolerance (75%), leukocytosis > 12.500 × 109/L, 75%), elevated acute phase reactants (CRP >1.5 mg/dl, 100%), or intestinal content on the perianastomotic drain (50%).

The mean age of our patients was 61.5 years with no statistically significant difference found between groups. In the initial comparative analysis, we found no significant difference in the clinical variables gender, comorbidities, perioperative chemotherapy, and presence of signet ring cells in histology. With the variable histologic type reaching p = 0.5 (Table 1).

Table 1 Clinical and histologic variables 

All Patients (n = 58) EJAL (n = 18) No EJAL (n = 40) p < 0.05
Age (years) 61.5 63.8 60.5 0.21
Gender
Male 22 (37.9%) 12 (66.6%) 20 (50%) 0.268
Female 26. (44.8%) 6 (33.3%) 20 (50%)
Comorbidities
With 33 (56.89%) 10 (55.5%) 23 (57.5%) 1.0
Type 2 diabetes 17 (29.3%) 8 (44%) 9 (22.5%)
Dyslipidemia 7 (12%) 3 (16.6%) 4 (10%)
High blood pressure 19 (32.7%) 6 (33.3%) 13 (32.5%)
Hypothyroidism 2 (0.1%) 2 (11.1%) 0 (0%)
Others 10 (17.4%) 4 (22.2%) 6 (15%)
Without 25 (43.10%) 8 (44.4%) 17 (42.5%)
Perioperative Chemotherapy
No 19 (32.7%) 6 (33.3%) 13 (32.5%) 0.17
Neoadjuvant 11 (18.9%) 6 (33.3%) 5 (12.5%)
Adjuvant 10 (17.24%) 1 (5.55%) 9 (22.5%)
Perioperative 18 (31.03%) 5 (27.77%) 13 (32.5%)
Histologic Type
Intestinal 19 (32.7%) 4 (22.2%) 15 (37.5%) 0.05
Diffuse 29 (50%) 9 (50%) 20 (50%)
Mixed 10 (12%) 5 (27.7%) 5 (12.5%)
Presence of Signet ring cells
With 35 (60.3%) 9 (50%) 26 (65%) 0.385
Without 23 (39.6%) 9 (50%) 14 (35%)

Variables related to the surgical procedure and laboratory values were similar between groups with exception of serum albumin levels, which were significantly lower in the EJAL group (mean 3.9 mg/dl vs. 3.5 mg/dl p = 0.02) (Table 2).

Table 2 Laboratory and procedure related variables 

EJAL (n = 18) No EJAL (n = 40) p < 0.05
Hemoglobin (g/dl) 12.4 (10.03-14.81) 12 (9.38-14.64) 0.56
Total Leukocyte count (cells/microL)~ 7.5 (3.6-8.5) 6.7 (6.0-13.7) 0.14
Total Neutrophil count (cells/microL)~ 4.9 (2.05-6.35) 4.0 (3.5-11.8) 0.31
T. Lymphocyte count (cells/microL)~ 1.9 (0.78-2.7) 1.6 (0.18-8.54) 0.19
Total Neutrophil/Lymphocyte ratio~ 2.3 (0.91-21.5) 2.3 (0.83-14.8) 0.65
Platelets (× 109/L) 260.2 (126.9-393.4) 275.3 (211.2-339.2) 0.77
Serum albumin (mg/dl) 3.5 (2.66-4.34) 3.9 (3.38-4.44) 0.02
Operative time (min) 268.3 (223-313.6) 275.3 (211.2-339.2) 0.64
Operative Blood loss (Ml) 498.9 (258.5-739.2) 530.5 (257.1-803.3) 0.66
Type of Anastomosis
Mechanic (Stapled) 16 (88.8%) 29 (72.5%) 0.30
Manual (Hand Sewn) 2 (11.1%) 11 (27.5%)

Variables with normal distribution were expressed as means±STD. Non-normal variables (~) were expressed as median±ranges.

On univariate analysis (Table 3), patients were more likely to develop EJAL if they presented diffuse gastric adenocarcinoma, according to the post-operative pathology report. The rest of the variables included in the analysis did not presented a significant association with the development of EJAL in our sample.

Table 3 Univariate logistic regression analysis of factors associated with EJAL 

Risk Factor for EJAL Unadjusted OR (95% CI) p < 0.05
Gender 0.50 (0.15-1.59) 0.241
Comorbidities 0.92 (0.30-2.83) 0.89
(+) Signet ring cells 0.53 (0.17-1.66) 0.28
Manual anastomosis vs. Mechanic 3.03 (0.59-15.41) 0.18
Chemotherapy 0.28 (0.02-2.90) 0.29
Histologic type
Diffuse/Intestinal 9.32 (1.29-67.64) 0.02
Mixed/Intestinal 5.55 (0.90-34.24) 0.06
Hemoglobin (g/dl) 0.93 (1.29-67.64) 0.56
Leukocyte count (cells/microL) 1.13 (0.94-1.37) 0.17
Total Neutrophil count (cells/microL) 1.18 (0.9-1.37) 0.23
T. Lymphocyte count (cells/microL) 1.15 (0.91-1.46) 0.21
Total Neutrophil/Lymphocyte ratio 1.05 (0.89-1.23) 0.55
Platelets (× 109/L) 0.99 (0.99-1.004) 0.76
Serum albumin (mg/dl) 0.82 (0.72-1.37) 0.07
Operative time (min) 0.99 (0.98-1.008) 0.67
Operative Blood loss (Ml) 1 (0.99-1.002) 0.66

Mean hospital stay was 29.5 days in the EJAL group and 12 days in the control. The mean overall survival in our entire sample was 26.97 months with no difference between groups.

Regarding treatment of the symptomatic EJAL, six patients required percutaneous drainage of fluid collections (10.3%). Four patients with symptomatic EJAL (6.8%) required an endoscopic intervention, involving application of fibrin glue in three patients and endoscopic clip in one patient. Two patients (3.4%) were treated with a primary operative intervention due to sepsis. Both were approached through laparotomy and were subjected to remodeling of the EJ and closed drain placement. One of such patients died in the post operatory period secondary to severe sepsis and multiorgan failure. The rest of the EJAL identified were treated conservatively.

Discussion

This study aimed to identify the incidence of EJAL after gastric cancer surgery, as well as risk factors that were associated with their development in western population.

We realized that there is a very limited amount of research papers studying this complication in the context of gastric cancer, and that most of the studies are based on retrospective data, and focused mainly on Asian population11-14. This is concerning because of the well-known differences in the perioperative approach paradigms and patient characteristics between western and eastern institutions15. The prevalence of EJAL following open gastrectomy for gastric cancer has been reported to range from 2.1 to 14.6%16,17, with mortality associated with EJAL ranging from 0 to 50%17,18. The differences in the literature may be explained by variations in study design, study cohort size, country, and study periods19. The EJAL incidence and mortality tend to be lower in Asian countries (including Japan) than in Western countries. The incidence of EJAL following open TG was 4.4% in a prospective cohort study from a Japanese nationwide registry20, whereas the incidence ranged from 4 to 26% in phase III studies conducted in Western countries21,22. This difference may be attributed to the higher incidence of cardiopulmonary comorbities and intra-abdominal complications in patients with gastric cancer from Western countries as well as the higher incidence of gastric cancer in Asian patients23,24.

Identification of the risk factors of EJAL helps to decrease its incidence. The reported risk factors include patient and tumor characteristics and intraoperative factors. The impact of a challenging anastomosis on the occurrence of EJAL indicates that prevention is crucial to reduce this complication. Migita et al.25 found that blood loss was significantly greater in gastrectomy with a complicated anastomosis (783 vs. 423 g, p < 0.05). Furthermore, gastrectomy with anastomotic complications tended to have a longer median duration of operation in comparison to that without it (351 vs. 290 min, p = 0.0682). These results indicate that more complicated gastrectomy is associated with higher incidence of the anastomotic complications. In our study, variables related to the surgical procedure were similar between groups.

On the other hand, anemia and malnutrition may result in insufficient blood and energy supplies to the anastomosis, which might affect the healing of the anastomosis and reduce the levels of inflammatory cells, inflammatory factors, and administered antibiotics, thereby increasing the risks of infection and of anastomotic leakage26-28. In our series, we demonstrated significantly lower albumin levels in patients who present EJAL, which is widely known as a predictor of EJAL, but has merely been described in this specific context29,30. Furthermore, to the best of our knowledge, no previous study had determined diffuse histologic type to be related to EJAL; this could relate to a more increased local inflammatory reaction elicited by this aggressive type of neoplasm but again, more studies are needed to better understand this concept on a molecular basis.

Furthermore, we are aware that our series demonstrate a higher incidence of EJAL than other contemporary literature. However, we believe that this is due to the marked heterogeneity in the diagnostic approach and definition of EJAL. Most studies include only clinically significant EJAL and exclude perianastomotic fluid collections from their operative definition and thus describe higher rates of invasive interventions.

In comparison most of our EJAL were subclinical. The percentage of patients which required an intervention (either endoscopic or surgical) was 13.7%, which is similar to that reported in other series31,32. We still decided to include all the patients with any evidence of contrast extravasation either clinical or subclinical for the comparison as even asymptomatic leaks resulted in a deviation from the conventional post operatory management in our institution either because of increased hospital stay, medication regime and serial follow-up studies and allocation of resources.

Concerning the diagnostic approach of EJAL, some authors have proposed the performance of contrast-enhanced esophagogram previous to start oral feedings in their patients33,34 (Fig. 1).

Figure 1 Contrast-enhanced esophagogram performed 4 days after total gastrectomy showing evidence of EJAL (yellow circle). 

However, further evidence has demonstrated that this practice has a low diagnostic yield and should not be done on a regular basis35. On a study performed in our center, routine contrast enhanced esophagogram revealed to have a sensitivity of 86%, specificity 100%, positive predictive value 100%, and negative predictive value of 86% for detection of EJAL36.

In our institution, perioperative practices have evolved through the years, showing a tendency to perform more imaging studies to our patients, attempting to identify complications earlier and improve prognosis.

As described earlier, all our patients received multidisciplinary expert care but still, the criteria to subject the patients to post operatory imaging for different reasons, varied depending on the physician in charge; this variable criteria for the performance of imaging studies it is the main limitation of this retrospective review, in conjunction with its limited power.

Regarding the treatment of patients with EJAL, we usually perform a step up approach depending on the clinical presentation; our approach starts with nothing per mouth, naso-jejunal tube placement, intravenous hydration, early nutritional support, analgesia and antibiotics, followed by multidisciplinary consensus for the most appropriate invasive intervention which usually includes percutaneous treatment, endoscopic placement of sealants, clips or stents and surgical remodeling of the EJ, which is usually reserved for patients with large dehiscence of the anastomosis. This approach is similar to other current practices described in the literature.

Conclusions

EJAL is among the most feared complications after gastric cancer surgery; they entail an uncertain prognosis and relate with increased morbidity and mortality. Our retrospective analysis identified some factors that may be associated with the development of EJAL after gastric cancer surgery. High suspicion and prompt identification of this complication are essential to improve postoperative outcomes in this group.

References

1. Bray F, Ferlay J, Soerjomataram I, Siegel RL, Torre LA, Jemal A. Global cancer statistics 2018:GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries. CA Cancer J Clin. 2018;68:394-424. [ Links ]

2. Soerjomataram I, Lortet-Tieulent J, Parkin DM, Ferlay J, Mathers C, Forman D, et al. Global burden of cancer in 2008:a systematic analysis of disability-adjusted life-years in 12 world regions. Lancet. 2012;380:1840-50. [ Links ]

3. Ferro A, Peleteiro B, Malvezzi M, Bosetti C, Bertuccio P, Levi F, et al. Worldwide trends in gastric cancer mortality (1980-2011), with predictions to 2015, and incidence by subtype. Eur J Cancer. 2014;50:1330-44. [ Links ]

4. Dicken BJ, Bigam DL, Cass C, Mackey JR, Joy AA, Hamilton SM. Gastric adenocarcinoma:review and considerations for future directions. Ann Surg. 2005;241:27-39. [ Links ]

5. Nagtegaal ID, Odze RD, Klimstra D, Paradis V, Rugge M, Schirmacher P, et al. The 2019 WHO classification of tumours of the digestive system. Histopathology. 2020;76:182-8. [ Links ]

6. Lauren P. The two histological main types of gastric carcinoma:diffuse and so-called intestinal-type carcinoma. An attempt at a histo-clinical classification. Acta Pathol Microbiol Scand. 1965;64:31-49. [ Links ]

7. Msika S, Tazi MA, Benhamiche AM, Couillault C, Harb M, Faivre J. Population-based study of diagnosis, treatment and prognosis of gastric cancer. Br J Surg. 1997;84:1474-8. [ Links ]

8. Holzheimer RG, Mannick JA, editors. Surgical Treatment:Evidence-Based and Problem-Oriented. Munich:Zuckschwerdt;2001. [ Links ]

9. Carboni F, Valle M, Federici O, Sandri GB, Camperchioli I, Lapenta R, et al. Esophagojejunal anastomosis leakage after total gastrectomy for esophagogastric junction adenocarcinoma:options of treatment. J Gastrointest Oncol. 2016;7:515-22. [ Links ]

10. Bonenkamp HJ. Postoperative complications after surgery for gastric cancer:anastomotic leakage. In:Pawlik TM, Maithel SK, Merchant NB, editors. Gastrointestinal Surgery:Management of Complex Perioperative Complications. New York:Springer;2015. 159-65. [ Links ]

11. Tokunaga M, Tanizawa Y, Bando E, Kawamura T, Terashima M. Poor survival rate in patients with postoperative intra-abdominal infectious complications following curative gastrectomy for gastric cancer. Ann Surg Oncol. 2013;20:1575-83. [ Links ]

12. Tsou CC, Lo SS, Fang WL, Wu CW, Chen JH, Hsieh MC, et al. Risk factors and management of anastomotic leakage after radical gastrectomy for gastric cancer. Hepatogastroenterology. 2011;58:218-23. [ Links ]

13. Hamakawa T, Kurokawa Y, Mikami J, Miyazaki Y, Takahashi T, Yamasaki M, et al. Risk factors for postoperative complications after gastrectomy in gastric cancer patients with comorbidities. Surg Today. 2016;46:224-8. [ Links ]

14. Yoo HM, Lee HH, Shim JH, Jeon HM, Park CH, Song KY. Negative impact of leakage on survival of patients undergoing curative resection for advanced gastric cancer. J Surg Oncol. 2011;104:734-40. [ Links ]

15. Russo AE, Strong VE. Gastric cancer etiology and management in Asia and the West. Annu Rev Med. 2019;70:353-67. [ Links ]

16. Isozaki H, Okajima K, Ichinona T, Hara H, Fujii K, Nomura E. Risk factors of esophagojejunal anastomotic leakage after total gastrectomy for gastric cancer. Hepatogastroenterology. 1997;44:1509-12. [ Links ]

17. Sierzega M, Kolodziejczyk P, Kulig J, Polish Gastric Cancer Study Group. Impact of anastomotic leakage on long-term survival after total gastrectomy for carcinoma of the stomach. Br J Surg. 2010;97:1035-42. [ Links ]

18. Kanaji S, Ohyama M, Yasuda T, Sendo H, Suzuki S, Kawasaki K, et al. Can the intraoperative leak test prevent postoperative leakage of esophagojejunal anastomosis after total gastrectomy?Surg Today. 2016;46:815-20. [ Links ]

19. Makuuchi R, Irino T, Tanizawa Y, Bando E, Kawamura T, Terashima M. Esophagojejunal anastomotic leakage following gastrectomy for gastric cancer. Surg Today. 2019;49:187-96. [ Links ]

20. Watanabe M, Miyata H, Gotoh M, Baba H, Kimura W, Tomita N, et al. Total gastrectomy risk model:data from 20,011 Japanese patients in a nationwide internet-based database. Ann Surg. 2014;260:1034-9. [ Links ]

21. Bonenkamp JJ, Songun I, Hermans J, Sasako M, Welvaart K, Plukker JT, et al. Randomised comparison of morbidity after D1 and D2 dissection for gastric cancer in 996 Dutch patients. Lancet. 1995;345:745-8. [ Links ]

22. Cuschieri A, Fayers P, Fielding J, Craven J, Bancewicz J, Joypaul V, et al. Postoperative morbidity and mortality after D1 and D2 resections for gastric cancer:preliminary results of the MRC randomised controlled surgical trial. Surgical Cooperative Group. Lancet. 1996;347:995-9. [ Links ]

23. Torre LA, Bray F, Siegel RL, Ferlay J, Lortet-tieulent J, Jemal A. Global cancer statistics, 2012. CA Cancer J Clin. 2015;65:87-108. [ Links ]

24. Deguchi Y, Fukagawa T, Morita S, Ohashi M, Saka M, Katai H. Identification of risk factors for esophagojejunal anastomotic leakage after gastric surgery. World J Surg. 2012;36:1617-22. [ Links ]

25. Migita K, Takayama T, Matsumoto S, Wakatsuki K, Enomoto K, Tanaka T, et al. Risk factors for esophagojejunal anastomotic leakage after elective gastrectomy for gastric cancer. J Gastrointest Surg. 2012;16:1659-65. [ Links ]

26. Esrig BC, Frazee L, Stephenson SF, Polk HC Jr., Fulton RL, Jones CE. The predisposition to infection following hemorrhagic shock. Surg Gynecol Obstet. 1977;144:915-917. [ Links ]

27. Hunt TK, Zederfeldt BH, Goldstick TK, Conolly WB. Tissue oxygen tensions during controlled hemorrhage. Surg Forum. 1967;18:3-4. [ Links ]

28. Hartmann M, Jönsson K, Zederfeldt B. Effect of tissue perfusion and oxygenation on accumulation of collagen in healing wounds. Randomized study in patients after major abdominal operations. Eur J Surg. 1992;158:521-6. [ Links ]

29. Kim SH, Son SY, Park YS, Ahn SH, Park DJ, Kim HH. Risk factors for anastomotic leakage:a retrospective cohort study in a single gastric surgical unit. J Gastric Cancer. 2015;15:167-75. [ Links ]

30. Turkyilmaz A, Eroglu A, Aydin Y, Tekinbas C, Muharrem Erol M, Karaoglanoglu N. The management of esophagogastric anastomotic leak after esophagectomy for esophageal carcinoma. Dis Esophagus. 2009;22:119-26. [ Links ]

31. Bruce J, Krukowski ZH, Al-Khairy G, Russell EM, Park KG. Systematic review of the definition and measurement of anastomotic leak after gastrointestinal surgery. Br J Surg. 2001;88:1157-68. [ Links ]

32. Zilling T, Olséen P, Walther BS. Prediction of hospital stay after total gastrectomy. Anticancer Res. 1997;17:1355-9. [ Links ]

33. Lamb PJ, Griffin SM, Chandrashekar MV, Richardson DL, Karat D, Hayes N. Prospective study of routine contrast radiology after total gastrectomy. Br J Surg 2004;91:1015-9. [ Links ]

34. Boone J, Rinkes IB, van Leeuwen M, van Hillegersberg R. Diagnostic value of routine aqueous contrast swallow examination after oesophagectomy for detecting leakage of the cervical oesophagogastric anastomosis. ANZ J Surg. 2008;78:784-90. [ Links ]

35. Aday U, GündeşE, Çiyiltepe H, Çetin DA, Gülmez S, Senger AS, et al. Examination of anastomotic leak with aqueous contrast swallow after total gastrectomy:should it be carried out routinely?Contemp Oncol (Pozn). 2017;21:224-7. [ Links ]

36. Clemente-Gutiérrez U, Rodríguez-Chong JG, Morales-Maza J, Rodríguez-Quintero JH, Sánchez-Morales G, Álvarez-Bautista FE, et al. Contrast-enhanced swallow study sensitivity for detecting esophagojejunostomy leakage. Rev Gastroenterol Mex (Engl Ed). 2020;85:118-22. [ Links ]

Ethical disclosures

Protection of human and animal subjects. The authors declare that no experiments were performed on humans or animals for this study.

Confidentiality of data. The authors declare that they have followed the protocols of their work center on the publication of patient data.

Right to privacy and informed consent. The authors declare that no patient data appear in this article.

Received: November 04, 2020; Accepted: February 25, 2021

* Correspondence: Jorge H. Rodríguez-Quintero Bainbridge Avenue 3400 Bronx, C.P. 10467, New York, Nueva York, United States E-mail: huroqu90@gmail.com

Conflicts of interest

The authors have no conflicts of interest to disclose.

Creative Commons License Instituto Nacional de Cardiología Ignacio Chávez. Published by Permanyer. This is an open access article under the CC BY-NC-ND license