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Correspondence to: Kevin K Roggin, MD, FACS, Associate Professor, Department of Surgery, Pritzker School of Medicine, University of Chicago, 5841 South Maryland Ave, MC 5094 G-216, Chicago, IL 60637, United States. ude.ogacihcu.dsb.yregrus@niggork
Telephone: +1-773-7954595 Fax: +1-773-7026120
Gastrointestinal stromal tumors (GIST) are rare mesenchymal smooth muscle sarcomas that can arise anywhere within the gastrointestinal tract. Sporadic mutations within the tyrosine kinase receptors of the interstitial cells of Cajal have been identified as the key molecular step in GIST carcinogenesis. Although many patients are asymptomatic, the most common associated symptoms include: abdominal pain, dyspepsia, gastric outlet obstruction, and anorexia. Rarely, GIST can perforate causing life-threatening hemoperitoneum. Most are ultimately diagnosed on cross-sectional imaging studies (i.e., computed tomography and/or magnetic resonance imaging in combination with upper endoscopy. Endoscopic ultrasonographic localization of these tumors within the smooth muscle layer and acquisition of neoplastic spindle cells harboring mutations in the c-KIT gene is pathognomonic. Curative treatment requires a complete gross resection of the tumor. Both open and minimally invasive operations have been shown to reduce recurrence rates and improve long-term survival. While there is considerable debate over whether GIST can be benign neoplasms, we believe that all GIST have malignant potential, but vary in their propensity to recur after resection and metastasize to distant organ sites. Prognostic factors include location, size (i.e., > 5 cm), grade (> 5-10 mitoses per 50 high power fields and specific mutational events that are still being defined. Adjuvant therapy with tyrosine kinase inhibitors, such as imatinib mesylate, has been shown to reduce the risk of recurrence after one year of therapy. Treatment of locally-advanced or borderline resectable gastric GIST with neoadjuvant imatinib has been shown to induce regression in a minority of patients and stabilization in the majority of cases. This treatment strategy potentially reduces the need for more extensive surgical resections and increases the number of patients eligible for curative therapy. The modern surgical treatment of gastric GIST combines the novel use of targeted therapy and aggressive minimally invasive surgical procedures to provide effective treatment for this lethal, but rare gastrointestinal malignancy.
Gastrointestinal stromal tumors (GIST) are rare mesenchymal tumors that occur throughout the smooth muscle layer of the gastrointestinal (GI) tract. GIST represent less than 1% of all GI tract malignancies. The most common location of these tumors is the stomach (70%), small bowel (20%-30%), small intestine and colon/rectum (10%). Uncommonly, they can arise within the greater omentum, esophagus, appendix, and gallbladder. Most cases are sporadic, and affect men slightly more frequently than women (54% vs 46%). The annual incidence in the United States has remained stable at 3000 to 4000 cases per year. The world-wide age-adjusted annual incidence rates range from 6.8 to 14.5 cases per million and vary between countries of origin. The median age at diagnosis is 58 years of age, but GIST have been reported in newborns and adolescents. GIST can range in size from several millimeters to over 30 cm in diameter. Tumor diameter appears to significantly influence biologic behavior, as small GIST may remain indolent for many years and large, “massive” GIST have higher rates of recurrence and associated metastases.
Historically, smooth muscle sarcomas were classified as leiomyosarcomas. The development of malignant GIST requires the transformation of the interstitial cells of Cajal, pacemakers of the GI tract, to a malignant phenotype through activating or gain of function mutations in the c-KIT proto-oncogene. GIST are spindle cell neoplasms that usually retain the ultrastructural characteristics of smooth muscle cells, but have immunohistochemical staining for c-KIT, CD-34, smooth muscle actin, desmin and S-100. Approximately 70% of GIST are spindle cell type neoplasms; the minority are epithelioid (20%) or mixed cell type (10%). Hirota et al first described the novel mutation in the KIT tyrosine kinase receptor gene in 1998. Since this landmark discovery, most “leiomyosarcomas” have been reclassified as GIST. KIT is located on chromosome 4q11-q12 and functions as a transmembrane receptor for its ligand, stem cell factor. In the non-cancerous state, this ligand binds to the extracellular portion of the receptor to induce homodimerization and downstream activation of its cell-signaling pathways. Wild-type c-KIT normally regulates cellular differentiation, growth, and survival. Approximately 80%-90% of GIST harbor mutations in the KIT genome. Mutations in the platelet-derived growth factor receptor (PDGFRα) occur in 5%-10% of c-KIT-wild type GIST. DOG1 mutations may help identify GIST with wild type c-KIT and PDGFR. Mutated KIT receptors induce ligand-independent, unregulated activation of the downstream cell signaling pathways which collectively results in a loss of normal cell adhesion, differentiation, and proliferation to promote tumorigenesis. Exon 11 mutations in the KIT gene cause constitutively activated receptors leading to unregulated autophosphorylation of the intracytoplasmic tyrosine kinases. KIT mutations in exons 9, 13, 17 are less common and have been associated with more aggressive tumor behavior.
Biologically, gastric GIST tumors grow locally within the stomach (intra- or extraluminal expansion) and eventually obtain the capability to metastasize via hematogenous routes to the solid viscera (liver, small bowel, lungs) and peritoneal cavity. Tumors can also spread along the smooth muscle planes within the stomach or can rupture into the peritoneal cavity causing sarcomatosis. Complete surgical resection is thought to be the only curative treatment for GIST. The recent use of cytostatic agents, such as imatinib mesylate, in patients with metastatic disease has been associated with durable recurrence-free survival. This important observation suggests that overall survival may not be the most important endpoint to consider when making treatment decisions. Radical gastrectomy is seldom required for extirpation of these tumors. In contradistinction to gastric adenocarcinoma, where it is essential to obtain at least five-centimeter proximal and distal margins, GIST tumors can be effectively treated by a complete gross resection of the tumor. Given the infrequency of lymphatic metastases, regional lymphadenectomy is not indicated. Minimally-invasive operations are now frequently used to treat gastric GIST. Retrospective series suggest that these techniques may reduce perioperative stress and are associated with lower rates of postoperative complications, shorter hospital stays and equivalent recurrence rates (Table (Table11)[12-16].
Miettinen et al published the largest retrospective series of gastric GIST that reviews 1869 cases seen at the Armed Forces Institute of Pathology from 1970-1996. The vast majority of cases occurred in patients over 40 years of age and the median tumor diameter was 6 cm (range: 0.5-4.4 cm). Most gastric GIST had spindle-cell or epithelioid differentiation.Over 90% of these neoplasms had mutations in the c-KIT gene; PDGFR mutations were more frequently identified in epitheliod tumors. The metastatic potential of these tumors strongly correlated with their size and rate of mitotic activity. Unfavorable prognostic factors included proximal tumors (gastric cardia and gastroesophageal junction), the presence of coagulative necrosis, ulceration, and invasion deep to the mucosal layer.
Most GIST are incidentally diagnosed during evaluations for nonspecific GI symptoms, such as pain, nausea and vomiting, and weight loss. Tumor hemorrhage commonly occurs when large tumors develop an ischemic, punctate ulcer (Figure (Figure1A).1A). Usually, the bleeding can be temporized using endoscopic sclerotherapy or electrosurgical coagulation techniques. Seldom is it necessary to take patients urgently for surgical resection with intractable hemorrhage (Figure (Figure1B1B and C). Often these patients can be stabilized with medical and endoscopic therapy and have elective operations to extirpate these tumors. Intraperitoneal tumor rupture with hemoperitoneum and tumor dissemination is a difficult clinical problem that is associated with a significant risk of intraperitoneal sarcomatosis.
Computed tomography (CT) scanning is the most widely used and effective staging modality. Multiple-row detector can localize the tumor within the stomach and remains a very sensitive technique to detect distant metastasis (at least ≥ 1 mm in diameter) within the liver or lungs; small volume intraperitoneal disease is often only detected on diagnostic laparoscopy and is responsible for the reported 10%-15% of false negative rate with dynamic CT. Magnetic resonance imaging (MRI) is an acceptable alternative to CT for patients with renal dysfunction or in whom the risk of cumulative ionizing radiation may be prohibitive. Positron emission tomography (PET) remains an experimental test that may be useful in confirming distant metastatic disease and determining the response to neoadjuvant targeted therapy. PET scans usually indicate tumor responsiveness to imatinib mesylate within days to weeks of induction therapy.
Upper endoscopy (EGD) with ultrasonography (EUS) is an essential diagnostic modality to acquire tissue for diagnosis, usually by fine needle aspiration (FNA) or core-needle biopsy (Figure (Figure2).2). In addition, EUS is accurate in determining the depth of penetration and origin of these neoplasms and also allows one to potentially consider a hybrid endoscopy/laparoscopic resection. The published National Comprehensive Cancer Network (NCCN) guidelines outline the recommended principles of tissue sampling for GIST (http://www.nccn.org). Since most GIST are soft, fragile, well-encapsulated tumors, indiscriminate biopsies increase the risk of tumoral hemorrhage and rupture. This is associated with higher rates of tumor recurrence and/or intraperitoneal dissemination. The decision to perform a preoperative or pretreatment biopsy should be individualized and only performed when the results of the sampling would definitively influence the choice of treatment. Biopsy is mandatory for all locally-advanced gastric GIST that will be treated with pre-resection neoadjuvant targeted therapy. Careful review of the acquired tissue by experienced GI histopathologists and use of comprehensive immunohistochemical staining for c-KIT and other markers is essential to confirm the diagnosis. Given the accuracy and real time localization of these tumors, EUS-guided biopsy is generally preferable to CT- or ultrasound-guided FNA biopsy techniques[2,19].
EGD/EUS can identify the key anatomic relationships of the tumor to the gastric wall layers. GIST at the gastroesophageal junction (Figure (Figure3),3), pylorus and along the posterior wall of the stomach represent unique surgical challenges and influence the required operation. EGD can also effectively be used to treat tumor hemorrhage and avoid the need for urgent gastric operations. EUS can determine the depth of penetration through the layers of the gastric wall and potentially identify tumors that can be extirpated using endoscopic resection techniques. Only intragastric GIST that arise from the superficial circular muscular layer or muscularis mucosa can be removed with endoscopic enucleation. These procedures are technically demanding and require considerable experience and skill. Some of these cases take place in the endoscopy suites, but are often coordinated with surgical specialists to assist with the management of hemorrhage or gastric perforation. Often these resections are best performed in surgical operating rooms using laparoscopic-assisted techniques with an experienced surgeon present for the operation.
Surgical treatment of gastric GIST is the only known curative therapy. It is essential to completely remove the entire tumor without violating the capsule of the mass. Tumor spillage or hemorrhage is associated with high locoregional recurrence rates and/or development of peritoneal sarcomatosis. Given the rarity of lymphatic dissemination, regional lymphadenectomy is not routinely performed. Since these tumors originate from the muscular layer of the gastric wall, enucleation is an option, but may be associated with higher recurrence rates unless the intramuscular pedicle can be clearly identified. Standard operations include both “open” and minimally invasive operations. Wedge or a “full-thickness” partial gastrectomy is an effective strategy for tumors that are located along the lesser or greater curvature of the stomach. Posteriorly-based gastric GIST often require transgastric resections through an anterior longitudinal gastrotomy; the tumor is everted and its pedicle divided with a linear stapling device. Anatomic gastrectomy (i.e., subtotal or total gastrectomy) is reserved for large tumors that involve a significant portion of the stomach. Endoscopic-assisted, laparoscopic gastric resections are cutting-edge operations that combine precise intraoperative localization of these tumors with gastric-volume preservation techniques.
NCCN guidelines suggest that small (< 1 cm) gastric GIST without high-risk endoscopic ultrasonographic features (i.e., irregular borders, cystic spaces, ulceration, echogenic foci and heterogeneity) may be followed with close endoscopic surveillance at 6-12 mo intervals (http://www.nccn.org). In the absence of biopsy-proven metastatic disease, patients with an acceptable performance status and GIST confined to the stomach should undergo complete surgical resection. In patients with marginally resectable tumors or in cases that GIST are potentially resectable, but the need for concomitant en bloc organ resection or total gastrectomy is likely, consideration should be given to neoadjuvant treatment with imatinib mesylate to cytoreduce or “downstage” tumors so that a less morbid or less extensive operation can be considered in the future (Figure (Figure44)[23-25].
Multiple single institutions highlight the increased use of laparoscopic or minimally-invasive operations for gastric GIST[12-16]. Resection techniques include: (1) laparoscopic transgastric resections; (2) laparoscopic full-thickness or “wedge” resections; (3) laparoscopic extramucosal enucleation; and (4) combined laparoscopic, endoscopic resections. The five largest published reports of laparoscopy resections for gastric GIST are summarized in Table Table11[12-16]. Most of these retrospective series include non-GIST, benign submucosal tumors (leiomyomas). Although a formal meta-analysis was not performed given the small number of patients, general trends are evident. It appears that minimally-invasive operations for gastric GIST have been successfully used to treat patients with large tumors in difficult locations (i.e., proximal stomach and gastroesophageal junction). The data also suggest reasonable operative times, acceptable complication rates, and few conversions to open operations. Since none of the series had strict criteria for postoperative discharge to home, the reported postoperative length of stay is difficult to interpret, but was shorter than historic controls for open operations. Importantly, despite nearly one-third of the patients having intermediate to high-risk lesions, nearly 100% were completely removed and did not recur after 1-4 years of follow-up[12-16]. We urge caution in broadly extrapolating these results to all patients with gastric GIST; most series had relatively short follow-up, involved a considerable selection bias, and most operations were performed by surgeons with considerable experience with these techniques. Our institutional experience with laparoscopic resection of GIST suggest that these techniques are both feasible and effective treatment for tumors less than eight centimeters in diameter. We advocate using a multidisciplinary approach with combined surgical oncology and minimally-invasive specialists to estimate the biologic behavior and determine the optimal method of resection. Cutting-edge modifications include the use of robot-assisted laparoscopic resections, natural orifice surgery, gasless laparoscopic resections, single-port techniques[31,32], and novel methods of removing posteriorly based tumors. One report described an experimental transgastric technique that utilized the retractable, metal-rimmed EndoCatch bags to elevate posterior wall GIST to facilitate laparoscopic stapled transection of the tumor pedicle.
Since GISTs are rare neoplasms that demonstrate a spectrum of biologic behavior, outcomes following surgical resection are difficult to ascertain. Recurrence free survival appears dependent on tumor size, location, and mitotic rate[6,34]. Prior to the use of imatinib mesylate as an adjuvant treatment following complete resection of gastric GIST, several large, retrospective reports suggest local recurrence rates as high as 40% and five-year survival rates as ranging between 40%-90%[1,35-38]. Dematteo et al published a series of 200 patients with GIST in 2000; more than half of these patients had gastric GIST. In the 93 patients with primary GIST, 80 (86%) had a complete resection with a median disease-specific survival of 54%. Fujimoto et al reported a series of 140 patients that had curative operations for gastric GIST. The five- and ten-year overall survival rates for the 129 patients with “curative” operations were 93% and 88%, respectively. Independent predictors of poor prognosis included male patients [hazard ratio (HR) = 0.469, P = 0.013], tumor size greater than or equal to 10 cm (HR = 20.98, P = 0.001), a mitotic index of 10+ (HR = 45.95, P < 0001), and epithelioid cell histologic component (HR = 5.32, P = 0.014). Models to estimate the risk of recurrence have been created from large, retrospective data set of patients with verified GIST[6,34]. Size (> 10 cm) and mitotic rates greater than five per 50 high-powered fields are the most significant variables that predict malignant behavior.
Conventional chemo- and radiation therapy are historically ineffective adjuvant treatments for GIST and do not significantly improve survival in patients with recurrent, metastatic or unresectable primary tumors. The evolution of targeted therapy has dramatically altered outcomes for patients with advanced GIST. Imatinib mesylate is an orally bioavailable, selective molecular inhibitor of cellular tyrosine kinases. First used to treat Philadelphia chromosome-positive chronic myelogenous leukemia, imatinib inhibits tyrosine receptor kinases such as PDGFR and KIT. The Federal Drug Administration (FDA) approved imatinib mesylate for use in patients with metastatic GIST in 2002. The American College of Surgeons Oncology Group (ACOSOG) phase II non-randomized Z9000 trial examined the use of adjuvant imatinib for one-year following complete resection of high-risk GIST (> 10 cm tumors or ruptured GIST). Imatinib-use was associated with decreased recurrence rates (vs historic controls). The ACOSOG Z9001 was a randomized, double-blind, placebo-controlled, multicenter trial that conclusively showed a statistically significant reduction in the risk of recurrence with one-year of adjuvant imatinib mesylate therapy (400 mg daily dose; HR = 0.35, range: 0.22-0.53, P < 0.0001). Seven hundred and thirteen patients with completely resected c-KIT positive GIST (greater than 3 cm) were randomized in an intention to treat analysis. At a median follow-up of 19.7 mo, the study was halted when it became evident that only 30 (8%) of patients in the imatinib group and 70 (20%) in the placebo arm had recurrent disease identified. Further maturation of this data is necessary to determine whether the adjuvant treatment improves overall survival in treated patients.
The FDA approved imatinib mesylate in 2008 as adjuvant therapy following complete resection of GIST for all patients without restrictions on time (to initiate therapy) or histopathologic criteria. The European Medicines Agency approved adjuvant imatinib in 2009 for adult patients with resected c-KIT-positive GIST at significant risk of relapse of disease. At least one year of postoperative imatinib mesylate therapy (400 mg daily) is now considered the standard of care for tumors greater than 3 cm with high-risk features (> 5-10 mitoses/50 high power field) per the results of ACOSOG Z9001. Several postoperative models of risk assessment have been used to estimate the likelihood of recurrence for patients who do not meet the aforementioned criteria[6,34]. The optimal duration of imatinib and long-term survival benefit remains the subject of several ongoing randomized, controlled international cooperative group trials and industry-sponsored studies. Current protocols include the recently completed EORTC 62024 trial that randomized 900 patients with completed resected intermediate- and high-risk GIST to receive either two years of adjuvant imatinib mesylate vs observation. The primary endpoint of the EORTC trial was overall survival, so the final results will require approximately ten years for complete analysis. The Scandinavian Sarcoma Group phase II trial, (SSGXVII; one vs three years of adjuvant imatinib mesylate) and the non-randomized Novartis Pharmaceutical Trial (NCT00867113; five years of adjuvant imatinib) were both designed to test extended use of adjuvant imatinib mesylate following complete resection. Patients at a higher risk of recurrence may justify indefinite use of adjuvant therapy. Three recent cooperative group trials using imatinib in patients with locally-advanced, unresectable or metastatic GIST have suggested that the KIT mutation genotype may have prognostic value to estimate the duration of response and optimal dose of imatinib mesylate[10,42,43]. Patients in these trials with exon 11-mutations had better treatment outcomes (improved tumor response, progression-free survival, and overall survival) when compared to patients with KIT exon 9-mutants and wild-type patients. At the American Society of Clinical Oncology annual meeting in 2010, it was reported that only deletions (all types) in the KIT exon 11 gene was associated with an increased risk of recurrence. Heinrich et al also reported that GIST with KIT exon 9-mutations had higher tumor response rates to neoadjuvant imatinib mesylate with daily doses of 800 mg (vs 400 mg).
NCCN guidelines suggest that following complete resection of gastric GIST; patients should be followed with comprehensive history and physical examinations every 3-6 mo for 5 years, then annually (http://www.nccn.org). Abdominal/pelvic contrast enhanced CT scans were recommended every 3-6 mo for at least three to five years postoperatively. Given the risk of renal insufficiency with iodinated contrast and the cumulative ionizing radiation exposure with frequent CT scans, we believe that less intensive surveillance programs should be advocated. MRI remains an acceptable alternative for suitable patients and avoids the deleterious radiation exposure that is associated with serial CT scans. It is reasonable to consider an EGD at one-year after resection to rule out a local or anastomotic recurrence. Less frequent surveillance programs have been suggested for small (< 2 cm), low-risk tumors. Patients on investigational adjuvant protocols routinely are scanned more frequently to determine the efficacy of treatment.
Locally-advanced “unresectable” or borderline-resectable gastric GIST are often treated with neoadjuvant imatinib mesylate therapy prior to surgical resection (Figure (Figure55). Theoretically, the use of preoperative imatinib may “downstage” or substantially cytoreduce GIST preoperatively and diminish the need for concomitant, en bloc organ resections. Over the past five years, there have been several small, single-institution; retrospective reports documenting outcomes following neoadjuvant treatment of borderline or locally-advanced GIST (Table (Table22)[25,44,46-51]. Approximately 75% of these highly selected patients with “unresectable” GIST were subsequently treated with R0/R1 resections. The duration of neoadjuvant therapy and best method of detecting maximal treatment effect have been the subject of two recent phase II trials[52,53]. The RTOG 0132/ACRIN 6665 cooperative group trial prospectively administered “neoadjuvant” imatinib mesylate (600 mg/d) for eight weeks to patients with both potentially resectable (n = 30) and recurrent/metastatic GIST (n = 22). The majority of patients had disease stabilization; only 12% had a partial tumor response to therapy. Patients were resected with minimal morbidity and given an additional two years of adjuvant therapy. The patients without metastatic disease had estimated two-year progression-free and overall-survival rates of 83% and 93%, respectively. McAuliffe et al randomized 19 patients with locally-advanced GIST to receive “nanoneoadjuvant” imatinib therapy; subjects were given 600 mg/d for 3 d, 5 d or 7 d prior to surgical resection. Seventeen of 19 patients had a subsequent resection without significant morbidity and were given two years of adjuvant therapy. Approximately 30% of these patients had an objective radiologic response to imatinib (CT/PET) and 12% of the resected tumors had an increase in apoptosis by terminal deoxynucleotidyl transferase- mediated dUTP-biotin nick end labeling assay. These studies provide the proof of principle that neoadjuvant imatinib mesylate may be a safe and effective method of treating patients with locally-advanced GIST.
Gastric GIST are rare neoplasms that have traditionally required complete surgical resection to achieve cure. Both traditional and minimally invasive gastric resections can be used to remove these tumors with minimal morbidity and excellent perioperative outcomes. The revolutionary use of specific, molecularly-targeted therapies, such as imatinib mesylate, reduces the frequency of disease recurrence when used as an adjuvant following complete resection. Neoadjuvant treatment with these agents appears to stabilize disease in the majority of patients and may reduce the extent of surgical resection required for subsequent complete tumor removal. Importantly, tyrosine kinase inhibitors likely extend the progression-free survival of most patients with GIST. The optimal sequencing of therapies and incorporation of predictive genomic data highlight future challenges in this disease.
The authors would like to thank Roberta Carden for proofreading and editing this manuscript.
Peer reviewer: Yasuhiro Kodera, Professor, Department of Surgery II, Nagoya University Graduate School of Medicine, 65 Tsurumai-cho, Showa-ku, Nagoya 4668550, Japan
S- Editor Gou SX L- Editor A E- Editor Xiong L