Assessing the Incidence of Postoperative Diabetes in Gastric Cancer Patients: A Comparative Study of Roux-en-Y Gastrectomy and Other Surgical Reconstruction Techniques

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Abstract

Study objective

Sleeve gastrectomy is effective in morbid obesity, and it improves glucose homeostasis. In gastric cancer patients with type 2 diabetes mellitus, gastrectomy, including total gastrectomy (TG), is beneficial for glycaemic control. However, the effects of gastrectomy and different reconstructive techniques on the incidence of postoperative diabetes in gastric cancer patients are unclear. This study investigated the development of new-onset diabetes in these patients, focusing on different reconstruction methods.

Design

A comparative study

Setting

Electrical medical records

Patients

This study included 715 patients without diabetes who underwent TG at Tokyo Metropolitan Bokutoh Hospital between August 2005 and March 2019.

Interventions

Patients underwent reconstruction by Roux-en-Y (RY) or other surgical techniques (OT), with diabetes onset determined by HbA1c levels or medical records.

Measurements

Analyses included two-sample t-tests, chi-squared tests, and the Kaplan-Meier method with log-rank tests to compare the onset curves between the two groups.

Main Results

Stratified data analysis compared the RY and OT reconstruction methods. Log-rank test results (P=0.0217) indicated a statistically significant difference in the incidence of new-onset diabetes between RY and OT groups in gastric cancer patients.

Conclusion

This first-of-its-kind study provides insight into how different methods of gastric reconstruction affect postoperative diabetes. The results suggest significant differences in new-onset diabetes mellitus after surgery based on the reconstruction method. This research highlights the need for careful surgical planning to consider potential postoperative diabetes, particularly in patients with a family history of diabetes mellitus. Future studies should investigate the role of gut microbiota and other reconstructive techniques, such as laparoscopic jejunal interposition, in developing postoperative diabetes.

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  1. This Zenodo record is a permanently preserved version of a PREreview. You can view the complete PREreview at https://prereview.org/reviews/11109303.

    This review is the result of a virtual, collaborative live review discussion organized and hosted by PREreview and JMIR Publications. The discussion was joined by 18 people: 2 facilitators, 4 members of the JMIR Publication team, and 12 live review participants. Konstantinos Georgiou, Maria Florencia Grande Ratti, and Naser Kamyari wished to be recognized for their participation in the live review discussion, even though they have not contributed to authoring the review below. We thank all participants who contributed to the discussion and made it possible for us to provide feedback on this preprint.

    Summary:

    The study compares the results of Roux-en-Y (RY) reconstruction with other surgical procedures (OT) to determine the incidence of postoperative diabetes in patients with gastric cancer having total gastrectomy. The Tokyo Metropolitan Bokutoh Hospital cohort of 715 patients from 2005 to 2019 was examined. The study finds a statistically significant difference in the incidence of postoperative diabetes between the RY and OT groups, with RY associated with a greater incidence, through careful data preprocessing and statistical analysis. The study does admit many limitations, though, such as the absence of a control group that did not undergo a gastric bypass and the lack of assessment of the role that lifestyle factors and genetic predisposition play in the development of diabetes. The study also suggests more investigation into the possible effects of laparoscopic jejunal interposition reconstruction (LJIP) on gut flora and postoperative outcomes.

    This retrospective single-center study analysed electronic medical records, which used HbA1c levels as a surrogate for the determination of diabetes status in patients. The study aimed to examine the incidence of new-onset diabetes in patients with gastric cancer who had undergone gastrectomy. Interestingly, the author presents the data via Kaplan-Meier curves which describe a statistically significant difference, revealing that patients who had a Roux-en-Y reconstruction were more likely to develop new-onset diabetes than patients where surgical reconstruction was achieved via other techniques.

    While the findings are interesting, it is essential to enhance the clarity of the study by providing additional information on the sampling methods,  determination of sample size, and a breakdown of the number of events in each group to enable an accurate understanding of study procedures and outcomes. Moreover, an analysis of patients at risk of diabetes before surgery would reduce potential confounding factors. This could be achieved by including a Cox proportional hazard regression to potentially provide more information on the impact of reconstruction methods for the risk of developing diabetes, while also accounting for other covariates. An explanation and breakdown of other reconstructive techniques (in the OT group) would improve the utility and external validity of this study. Additionally, the participants could have had other co-morbidities that could affect the outcome. Therefore, a note on the inclusion criteria and exclusion criteria is necessary.

    Below we list major and minor concerns that were discussed by participants of the Live Review and, where possible, we provide suggestions on how to address those issues.

    List of major concerns and feedback:

    • There was no rationale provided for the choice between RY and OT. Were any guidelines followed, or was this at the discretion of the attending physician?

    • Due to the complex nature of postoperative diabetes development, it is crucial to take any confounding variables into consideration and provide a full description of any adjustments made.

    • The author should consider including appropriate covariates in the study to assess if they have a confounding effect on the study's result. For instance, is the author able to stratify patients in terms of their risk of developing diabetes or include relevant information such as family history or concurrent metabolic syndrome?

    • The author should explicitly state the study's inclusion and exclusion criteria. Please consider giving more details on the comorbidities of the included participants. This could be summarized or tools such as the Charlson Comorbidity Index could be used.

    • Sufficient details are not provided to allow the reproduction of the study; thus, we suggest you follow the STROBE guidelines for reporting. For example,  there is content in the "Methods" section that should go in "Results", such as the number of subjects included and their baseline characteristics in Table 1. In the same way, information is missing in the "Methods" section, such as clear definitions of outcomes, statistical analysis, or sample size calculation.

    • As the cumulative risk of bias for this type of study design is moderate-high, please identify all the variables used in the model. Clearly define all outcomes, exposures, predictors, potential confounders, and effect modifiers. Clarify inclusion and exclusion criteria, together with follow-up timeframes and intervals. As the patients underwent surgery between 2005 and 2019, may we assume that the shortest follow-up after surgery was 3 or 4 years?

    • Also, describe any efforts to address potential sources of bias and explain how the study size was arrived at. Namely, the distribution of the age and sex of the participants is not clear, as there appears to be a bias towards male participants. Refer to SAGER guidelines for details on conducting a sex-based analysis and disaggregating data according to sex.

    • Please report the regression model used to assess the associations between the explanatory variables and survival or time-to-event. How did the author handle learning effects, and the changing and evolving surgical/clinical protocols over the long timeframe of this retrospective analysis? Discuss the generalisability of this modeling approach, as well as the direction and magnitude of any potential bias.

    • Please include explicit information regarding the competing outcome (i.e. mortality events), and justify why no other clinical factors other than HbA1c levels were considered.

    • How did the authors confirm if the patients were free of diabetes at the time of surgery and before? It would be appropriate if the authors provided the baseline (at the time of surgery or before) HbA1c values of the study participants in Table 1.

    • The discussion focused on a procedure that was not mentioned elsewhere or used in this study. Please clarify if this procedure is part of your recommendation for the clinical management of these patients in the future. Additionally, mention if future planned studies will address any stratification of patients for risk of new-onset DM prior to the surgery, or any analysis pre- and post-surgery of gut microbiota.

    List of minor concerns and feedback:

    • Were any validation techniques used to verify the accuracy of the applied algorithms and analysis, such as code review, unit testing, or cross-validation?

    • It would be helpful to include a figure explaining the methodology, more information about the proportion of different reconstructive techniques, and discuss results from other studies to attempt some comparisons for identifying what could have caused similarities or differences in this analysis. For instance, we do not know if the analysis of the groups was blinded.

    • The method section lacks proper referencing of previous studies to justify the choice of reconstruction methods (RY vs. OT) and the criteria used for defining the onset of diabetes. Referencing previous studies that have investigated similar surgical techniques or criteria for diabetes onset would provide the necessary context and justification for the methods employed in the study. Additionally, citing relevant literature would enhance the credibility of the study by demonstrating that the research methodology is grounded in established practices and informed by prior research findings.

    • Clear visualization of censored data points on a Kaplan-Meier survival curve is essential for accurately interpreting the survival probabilities and understanding the impact of censoring on the analysis. Optionally, you can include confidence intervals for the stratified number of subjects. 

    • Due to the long timeframe of the retrospective analysis and the possibilities of changes in protocol, the author should consider describing how learning effects were handled in the study. 

    • There should have been more information about the ASA score; this is a subjective score so even if lifted from the electronic record there ought to be a note pertaining to how many operators assigned the score and the degree of agreement between them.

    • It is unclear how the missing values were handled. Were they imputed based on a model? What was the definition of an outlier here: greater than 2.5 standard deviations? What data types are being referred to here? And what inconsistencies needed to be corrected?

    • What happened to the study participants after 2008 in the OT group (Fig 1)? Why is there a straight line?

    • Please provide more detailed information on what the code does in this study and how it could be used elsewhere.

    • In the Abstract, the study setting has been indicated as 'Electrical medical records'. It should be 'Electronic medical records'.

    Concluding remarks

    We thank the authors of the preprint for posting their work openly for feedback. We also thank all participants of the Live Review call for their time and for engaging in the lively discussion that generated this review.

    Conflict of Interest

    No conflicts of interest were disclosed.

    Competing interests

    The authors declare that they have no competing interests.