89 research outputs found

    Gastric cancer surgery: Billroth I or Billroth II for distal gastrectomy?

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    <p>Abstract</p> <p>Background</p> <p>The selection of an anastomosis method after a distal gastrectomy is a highly debatable topic; however, the available documentation lacks the necessary research based on a comparison of early postoperative complications. This study was conducted to investigate the difference of early postoperative complications between Billroth I and Billroth II types of anastomosis for distal gastrectomies.</p> <p>Methods</p> <p>A total of 809 patients who underwent distal gastrectomies for gastric cancer during four years were included in the study. The only study endpoint was analysis of in-patients' postoperative complications. The risk adjusted complication rate was compared by POSSUM (Physiological and operative severity score for enumeration of morbidity and mortality) and the severity of complications was compared by Rui Jin Hospital classification of complication.</p> <p>Results</p> <p>Complication rate of Billroth II type of anastomosis was almost double of that in Billroth I (P = 0.000). Similarly, the risk adjusted complication rate was also higher in Billroth II group. More severe complications were observed and the postoperative duration was significantly longer in Billroth II type (P = 0.000). Overall expenditure was significantly higher in Billroth II type (P = 0.000).</p> <p>Conclusion</p> <p>Billroth II method of anastomosis was associated with higher rate of early postoperative complications. Therefore, we conclude that the Billroth I method should be the first choice after a distal gastrectomy as long as the anatomic and oncological environment of an individual patient allows us to perform it. However more prospective studies should be designed to compare the overall surgical outcomes of both anastomosis methods.</p

    Peptic ulcer haemorrhage in Estonia: epidemiology, prognostic factors, treatment and outcome

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    http://www.ester.ee/record=b1820885*es

    Poster Panel [HPB]

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    UWOMJ Volume 76, No. 1

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    Schulich School of Medicine & Dentistryhttps://ir.lib.uwo.ca/uwomj/1080/thumbnail.jp

    Gastric cancer : staging, treatment, and surgical quality assurance

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    Research described in this thesis focuses on several aspects of gastric cancer care: staging and prognostication, multimodality treatment, and surgical quality assurance. PART I - STAGING AND PROGNOSTICATION Cancer staging is one of the fundamental activities in oncology.6,7 For over 50 years, the TNM classification has been a standard in classifying the anatomic extent of disease.8 In order to maintain the staging system relevant, the International Union Against Cancer (UICC) and the American Joint Committee on Cancer (AJCC) have collaborated on periodic revisions of this staging system, leading to the 7th edition in 2010.65 In Chapter 2, differences between the 6th and 7th edition TNM classification for gastric cancer are described, and both staging systems are compared with regards to complexity and predictive accuracy. In the 7th edition TNM classification, nodal status cut-off values were changed, leading to a more even distribution for the redefined nodal classification groups. This increased the predictive accuracy of N-classification. Overall, the TNM staging system became more complex, with an increase in the number of TNM groupings from 56 to 80, which did not result in an increased predictive accuracy. Future refinements of the TNM-classification should consider whether increased complexity is balanced by improved prognostic accuracy. Another change that was incorporated in the 7th edition TNM classification was the addition of tumor grade as an independent determinant of stage grouping in early stage tumors. With the significantly lower prognosis of poorly differentiated early stage adenocarcinomas, these tumors might become candidate for neoadjuvant therapy, given an accurate identification of these tumors with preoperative staging. In Chapter 3, the accuracy of preoperative histopathologic grading in adenocarcinomas of the gastroesophageal junction (GEJ) was evaluated. The overall accuracy of tumor grade assessment was 73%. However, in early stage tumors the sensitivity to detect a poorly differentiated tumor was only 43%, and 21% of patients with an early stage GEJ tumor were assigned to an incorrect stage/prognostic group based on preoperative tumor grading. Caution should therefore be exhibited in staging patients with esophageal adenocarcinoma based on preoperative biopsy data. Although the TNM classification can be used to assess a patient__s prognosis, tools for individual patient prognostication have been developed that significantly outperform the TNM-classification in prognostic accuracy. For gastric cancer, a nomogram has been developed based on a single US-institution database,12,13 and has been validated in several international patient cohorts.14-16 Chapter 4 describes the development of a new gastric cancer nomogram that not only can predict survival for patients directly after an R0 gastrectomy, but also for patients alive at time points after surgery. This conditional probability of survival nomogram was highly discriminating (concordance index: 0.772), and surviving one, two, or three years from surgery showed a median improvement of 5-year disease-specific survival of 7.2%, 19.1%, and 31.6%, as compared to the baseline prediction directly after surgery. This nomogram was based on variables available directly after surgery, while variables available with follow-up (such as weight loss and performance status) did not further improve the predictive accuracy of this nomogram. In Chapter 5, the performance of the original gastric cancer nomogram, which was based on patients who underwent surgery without multimodality therapy, was assessed in a group of patients who received postoperative chemoradiotherapy after an R0 resection for gastric cancer. The nomogram significantly underpredicted 5-year survival for patients who received postoperative chemoradiotherapy, indicating a benefit in survival for patients who receive postoperative chemoradiation after an R0 resection for gastric cancer. Furthermore, this study stresses the need for updating nomograms that incorporate multimodality therapy use. PART II - MULTIMODALITY TREATMENT Over the past decade, many trials have been performed in which the effect of multimodality treatment on survival for resectable gastric cancer was evaluated. In Chapter 6, an overview of the literature on the treatment of gastric cancer is presented, and the available multimodality strategies are discussed. Currently accepted regimens include postoperative monochemotherapy with S-1 in Asia,66 and perioperative chemotherapy and postoperative chemoradiotherapy in the Western world.57,58 In Chapter 7, patterns of recurrence and survival of patients who received postoperative chemoradiotherapy were compared to recurrence and survival patterns of patients who only underwent surgery. The local recurrence rate was significantly lower in the chemoradiotherapy group (5% versus 17%, P = 0.0015). Subgroup analysis revealed that this difference was even stronger in patients who underwent a gastrectomy with a limited (D1) lymph node dissection (2% versus 18%, P = 0.001), while no difference was found for patients who underwent an extended (D2) lymph node dissection. Additional analysis with prolonged follow-up showed a higher 2-year overall survival for patients who received postoperative chemoradiotherapy after a D1 lymphadenectomy compared to surgery alone, and no difference in overall survival for patients who received a D2 dissection. Postoperative chemoradiotherapy was also significantly associated with higher two-year overall survival for patients who underwent a microscopically irradical (R1) resection (66% versus 29%, P = 0.02). Results from this study indicate that, especially after a gastrectomy with a limited lymph node dissection, postoperative chemoradiotherapy has a major impact on local recurrence and overall survival. Postoperative chemoradiotherapy should be offered to patients who undergo a microscopically irradical (R1) resection. In Chapter 8, the results of a study on lymph node yield after gastric cancer resections are described. While it is suggested that more than 15 lymph nodes (LNs) should be evaluated for accurate staging of gastric cancer, LN yield in Western countries is generally low. The effect of preoperative chemotherapy on LN yield in gastric cancer is unknown. In this study, LN yields of patients who received preoperative chemotherapy and patients who only underwent surgery were compared. Preoperative chemotherapy was not associated with a decrease in LN yield, indicating that evaluating more than 15 LNs after gastrectomy is feasible, also after administration of preoperative chemotherapy. In Chapter 9, the final chapter of part II of this thesis, the study protocol of the currently accruing Dutch-Swedish-Danish CRITICS trial is described. This trial was initiated to determine which of the two currently used standard regimens for the multimodality treatment of gastric cancer in the Western world, postoperative chemoradiotherapy, or perioperative chemotherapy, should be preferred. In this trial, all patients receive three cycles of preoperative ECC (epirubicin, cisplatin, and capecitabine), followed by D1+ surgery (D2 dissection without splenectomy or pancreatectomy). Postoperative therapy consists of another three cycles of ECC, or chemoradiotherapy with capecitabine and cisplatin without epirubicine. Results of this study will play a key role in the future management of patients with resectable gastric cancer. PART III - SURGICAL QUALITY ASSURANCE As an introduction to part III of this thesis, in Chapter 10, the results of a systematic review of the literature on quality of care indicators for gastric cancer surgery are described. The availability of specific literature on quality of care indicators was limited, but several indicators could be identified in more general literature on gastric cancer surgery. High hospital volume was found to be strongly related to lower postoperative mortality and higher long-term survival. Several quality indicators regarding operative technique were identified, including the performance of an extended lymphadenectomy, avoiding a routine spleen and pancreatic tail resection, and the use of a pouch reconstruction. Free resection margins were also found to be strongly associated with improved long-term survival. In Chapter 11 and Chapter 12, incidence and survival patterns for tumors of the esophagus, GEJ, and stomach in the Netherlands over the past 20 years are described. While the incidence of esophageal adenocarcinoma has doubled, the incidence of both tumors of the GEJ and stomach has decreased. These findings most likely reflect true changes in disease burden, rather than being the result of changes in diagnosis or reclassification. The increasing incidence of esophageal adenocarcinoma can be attributed to the increasing incidence of obesity and gastroesophageal reflux disease.67,68 Over the study period, five-year survival for non-metastatic esophageal cancer strongly improved (12% to 25% for adenocarcinoma, 12% to 19% for squamous cell carcinoma), while five-year survival for non-metastatic GEJ cancer (20%) and stomach cancer (32%) remained stable. In Chapter 13, patterns of care for gastric cancer in the Netherlands over the past 20 years are described. Whereas resection rates for stage I-III gastric cancer have remained stable at about 85%, the use of preoperative and/or postoperative chemotherapy has strongly increased since 2005. In 2008, nearly 40% of the patients with stage I-III gastric cancer received preoperative or postoperative chemotherapy with curative intent, and it is likely that since then, this percentage has further increased. In Chapter 14, the results of a study on hospital volumes, mortality, and long-term survival for esophagogastric cancer surgery in the Netherlands between 1989 and 2009 are described. In the Netherlands, a minimum hospital volume standard of at least 10 esophagectomies per year was introduced in 2006, while during the study period, no such standard was present for gastrectomies. During the study period, esophagectomy was effectively centralized in the Netherlands, and in 2009, 64% of all esophagectomies were performed in annual volumes of __21/year. Gastrectomy has not been centralized, and in 2009 only 5% of all gastrectomies were performed in annual volumes of __21/year. Whereas short-term and long-term survival after esophagectomy and gastrectomy improved over the years, this improvement was significantly stronger for esophagectomy. High hospital volume was associated with lower 6-month mortality (HR 0.48, P < 0.001) and longer 3-year survival (HR 0.77, P < 0.001) after esophagectomy, but not after gastrectomy. However, for gastrectomy, the number of high volume resections in the current study was too low to detect a statistical significant difference in outcomes when compared with low volume resections. This study indicates an urgent need for improvement in the treatment of resectable gastric cancer in the Netherlands. Chapter 15 describes the results of a study on the effect of hospital type on outcomes after esophagectomy and gastrectomy in the Netherlands. Hospitals were categorized into university hospitals, teaching non-university hospitals, and non-teaching hospitals. Three-month mortality after esophagectomy in university hospitals was 2.5%, compared to above 4% in non-university hospitals (P = 0.006). After gastrectomy, three-month mortality was 4.9% in university hospitals, and 8.7% in non-university hospitals (P < 0.001). Both after esophagectomy and gastrectomy, three-year survival was higher in university hospitals compared to non-university hospitals. No differences in mortality or survival were found between teaching and non-teaching non-university hospitals. However, when analyzing differences between individual hospitals, there were non-university hospitals with excellent outcomes. Therefore, it can be concluded that centers of excellence can not be designated solely by hospital type, and that detailed information on case-mix and outcomes is needed to identify centers of excellence. In Chapter 16, the results of an international study on esophagogastric cancer surgery between 2004 and 2009 in several European countries are described. Differences in resection rates, postoperative mortality, survival and hospital volumes were compared between the Netherlands, Sweden, Denmark, and England. In the Netherlands, postoperative mortality was average after esophagectomy (4.6%), but significantly higher after gastrectomy (6.9%) when compared to the other countries. Although increasing hospital volume was associated with lower 30-day mortality both after esophagectomy and gastrectomy, differences in outcomes between countries could not just be explained by existing differences in hospital volumes. To further investigate the differences in outcomes, a European upper GI audit is currently initiated.KWF Kankerbestrijding, AngioDynamics, Bard Medical, ChipSoft, Covidien, Eli Lilly, Erbe, GlaxoSmithKline, Integraal Kankercentrum Zuid, J.E. Jurriaanse Stichting, Johnson & Johnson Medical, Jo Keur Fonds, Lustra Beurs, Maag Lever Darm Stichting, Michael van Vloten Fonds, Nutricia Advanced Medical Nutrition, Olympus, Pfizer, Roche, Sanofi, Stichting Extracurriculaire Activiteiten Haagse Chirurgen en Uitgeverij JaapUBL - phd migration 201

    Aspects of chemotherapy and photon and proton radiotherapy in patients with gastric cancer

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    Gastric cancer remains a major health problem worldwide. The addition of chemotherapy alone or in combination with radiotherapy to surgery in local gastric cancer improves outcome. In more advanced stages, the optimal palliative chemotherapy remains unknown, as well as the effect of different regimens on the patients’ quality of life. The aim of this thesis was to explore a new concept in chemotherapy, i.e. the sequential approach, and a new modality in radiotherapy, i.e. proton therapy, in the treatment of patients with gastric cancer. Quality of life (QoL) in patients treated with chemotherapy, and target delineation in radiotherapy of gastric cancer, were also studied. In Paper I, we evaluated the efficacy of sequential chemotherapy in patients with locally advanced and/or metastatic gastric cancer, with alternating irinotecan and docetaxel in combination with infusion 5-Fu. Eighty-one patients were randomized. No differences favoring either arm were found with respect to response rate, overall survival (OS), or toxicity. The median OS of 11 months indicated that the sequential approach was effective and similar to triple combinations, with potentially less toxicity. In Paper II, we evaluated the effect of sequential chemotherapy on the QoL in the same cohort. It was measured before, during, and after treatment. There were no statistically significant differences in QoL scores between the two treatment arms and no changes in mean scores during treatment. During the last 8 weeks of treatment, a significantly larger portion of patients with radiological response reported sustained or better QoL scores than those with no radiological response. In Paper III, we investigated the effect of inter physician variation on the delineation of target volumes in gastric cancer patients treated with perioperative chemoradiotherapy (CRT). Despite the use of a delineation atlas, we found a large variation in CTV and PTV volumes. There was only a small variation in target coverage and doses to organs at risk (OARs) in the corresponding plans. In Paper IV, we compared proton therapy to modern photon radiotherapy with respect to doses to OARs in gastric cancer patients treated with perioperative CRT. Protons offered significantly lower doses to the left kidney, liver, and spinal cord, and statistically lower risks for all types and malignant secondary neoplasms compared to photons. In Paper V, we evaluated the importance of daily anatomical variations, i.e. intestinal gas filling, on the dose distribution of proton beam therapy. The effect of intestinal gas variations on the PTV/CTV coverage was large. The sparing effect of protons was, however, sustained or the dose to the OARs did not significantly exceed the dose delivered with photons. In conclusion, sequential chemotherapy and proton radiotherapy are attractive alternatives in the treatment of gastric cancer. Standardization of target definitions in CRT, e.g. by reducing the inter physician variation, is important and should also be further investigated

    Quality assurance in surgical oncology

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    Quality of surgical procedures in the treatment of cancer patients is of utmost importance. This thesis focuses on two large prospective randomised trials on gastric and rectal cancer. Important feature in both trials was the standardisation and quality control of surgery, enabling the reliable assessment of the rol of adjunctive therapies. The trial on gastric cancer showed no benefitit of extensive lymph node dissection in gastric cancer. However, if postoperative morbidity is reduced, extended surgery may be of benefit. Various ways of reducing the likelihood of postoperative complications are considered. The trial on rectal cancer patients showed that short term preoperative radiotherapy is capable of reducing the risk of local recurrence, which however does not lead to improvement of survival. Moreover, there are important side effects of radiotherapy, the most important one being the increased incidence of fecal incontinence in irradiated patients.LEI Universiteit LeidenTyco Health Care Smiths Medical Pfizer BV Amgen BV Johnson en Johnson BV Jansen-Cilag BVChirurgische oncologi
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