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Table of Contents   
SYSTEMATIC REVIEW/META ANALYSIS  
Year : 2016  |  Volume : 22  |  Issue : 6  |  Page : 399-406
Partial splenic embolization has beneficial effects for the management of gastroesophageal variceal hemorrhage


1 The Hepatosplenic Surgery Center, The First Affiliated Hospital of Harbin Medical University; Department of Interventional Radiology, The Third Affiliated Hospital of Harbin Medical University, Harbin, China
2 Department of Interventional Radiology, The Third Affiliated Hospital of Harbin Medical University, Harbin, China
3 Department of General Surgery, The Fifth Affiliated Hospital of Harbin Medical University, Daqing, China
4 The Hepatosplenic Surgery Center, The First Affiliated Hospital of Harbin Medical University, Harbin, China

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Date of Submission15-Mar-2016
Date of Acceptance22-Jun-2016
Date of Web Publication12-Dec-2016
 

   Abstract 

Background/Aims: Partial splenic embolization (PSE) is used in the management of gastroesophageal variceal hemorrhage (GEVH). However, it is uncertain whether it has beneficial effects for GEVH patients in preventing variceal recurrence and variceal hemorrhage, as well as promoting overall survival (OS), when it is combined with conventional therapies. Materials and Methods: The databases including PubMed, EMBASE, Web of Science, Google scholar, and Cochrane Central Register of Controlled Trials were searched up to 11th of November, 2015. Meta-analyses were performed by using Review Manager 5.3 software for analyzing the risk of bias, Newcastle-Ottawa Scale for assessing the bias of cohort studies, and GRADEprofiler software for assessing outcomes obtained from the meta-analyses. Results: A total of 1505 articles were reviewed, and 1 randomized controlled trial and 5 cohort studies with 244 participants were eligible for inclusion. The pooled hazard ratio (HR) of variceal recurrence is 0.50 (95% confidence interval (CI) 0.37, 0.68; P< 0.00001; I2 = 0%). The pooled HR of variceal hemorrhage is 0.24 (95% CI 0.15, 0.39; P< 0.00001; I2 = 0%). The pooled HR of OS is 0.50 (95% CI 0.33, 0.67; P< 0.00001; I2 = 0%). Meta-analyses demonstrated statistically significant superiority of combinational therapies over conventional therapies in preventing variceal recurrence and variceal hemorrhage and prolonging OS. The complications related to PSE were mild or moderate and nonfatal. Conclusions: The results indicate that PSE has beneficial effects for GEVH patients, however, future investigation with a larger number of subjects in clinical trials is warranted.

Keywords: Gastroesophageal variceal hemorrhage, hypersplenism, overall survival, partial splenic embolization, variceal recurrence

How to cite this article:
Wang P, Liu R, Tong L, Zhang Y, Yue T, Qiao H, Zhang F, Sun X. Partial splenic embolization has beneficial effects for the management of gastroesophageal variceal hemorrhage. Saudi J Gastroenterol 2016;22:399-406

How to cite this URL:
Wang P, Liu R, Tong L, Zhang Y, Yue T, Qiao H, Zhang F, Sun X. Partial splenic embolization has beneficial effects for the management of gastroesophageal variceal hemorrhage. Saudi J Gastroenterol [serial online] 2016 [cited 2019 Aug 23];22:399-406. Available from: http://www.saudijgastro.com/text.asp?2016/22/6/399/195553


Gastroesophageal varices are present in almost half of the patients with liver cirrhosis, and 25% to 35% of them suffer from gastroesophageal variceal hemorrhage (GEVH).[1] GEVH is a very serious medical emergency with high morbidity and mortality. In the past three decades, due to the development of new therapeutic technology, the mortality of GEVH at 6 weeks has significantly dropped from 60 to 20%.[2] However, variceal recurrence and re-bleeding are still big challenges after the initial treatment. In a recent consensus conference (the 6th Consensus Workshop, Baveno, Italy, April 2015), it was declared that the endpoint for GEVH patients with variceal hemorrhage and other complications is death, indicating the severity of GEVH.[3]

Pharmacological, endoscopic and angiographic treatments, and surgery are four main therapeutic strategies for GEVH. These strategies are designed to achieve three different therapeutic goals, namely, primary prophylaxis, managing acute variceal bleeding, and second prophylaxis; each one has its own advantages and disadvantages.[4] In general, the patients with mild and moderate GEVH undergo endoscopic treatments, such as endoscopic variceal ligation (EVL), endoscopic injection sclerotherapy (EIS), and pharmacological therapies.[1] Transjugular intrahepatic portosystemic shunt (TIPS) and ballooned-transjugular retrograde obliteration (B-RTO) are used for patients with severe GEVH or those in whom endoscopic treatments have failed to control bleeding. Endoscopy is normally used to control most esophagus variceal bleeding, isolated gastric variceal bleeding, or gastroesophageal varices that extend beyond the cardia. On the other hand, TIPS, B-RTO, and percutaneous transhepatic variceal embolization (PTVE), and even surgery are used for the remaining cases of gastroesophageal varices.[3],[4] The common mechanism of the above mentioned treatments in controlling GEVH is to change the hemodynamics of gastric and esophagus varices.

Partial splenic embolization (PSE) was initially used in the management of hypersplenism.[5] However, PSE had not been widely accepted for treating GEVH due to its unacceptably high rate of complications, such as sepsis, pneumonia rupture, progressive liver failure, or even death,[5] until the introduction of new embolization techniques and embolic materials. PSE reduces portal pressure and the size of the spleen, thus attenuating hypersplenism induced by thrombocytopenia.[6] PSE can also improve liver function, ameliorate encephalopathy, and promote liver regeneration.[7]

Furthermore, as a nonsurgical procedure, PSE can be applied in patients with various conditions and has been used in combination with conventional therapies in the management of GEVH.[8],[9],[10],[11],[12],[13] However, the beneficial effects of PSE for GEVH have not been validated. Therefore, we designed this study to analyze whether combinational therapies are more effective than conventional therapies in reducing variceal recurrence, variceal hemorrhage, and occurrence of serious complications, as well as in promoting overall survival (OS) in GEVH patients using systematic review and meta-analyses.


   Materials and Methods Top


Data sources and searches

This systematic review and meta-analysis was designed according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement checklist.[14] Literature search was focused on identifying randomized controlled trials (RCTs) and cohort studies, in which GEVH patients were treated with combinational therapies versus conventional therapies. The primary outcome was variceal recurrence, and the secondary outcomes were variceal hemorrhage and OS. The studies comparing only hemodynamics indexes, such as hepatic venous pressure gradient or portal pressure, were excluded from this study. Considering 6-week mortality to be an important clinical index,[15] studies with less than 6-weeks of follow-up were also excluded.

A systematic review of English articles was performed by 3 investigators by searching PubMed, EMBASE, Web of Science, Google scholar, and Cochrane Central Register of Controlled Trials (CENTRAL) (up to Nov 11, 2015). Search terms included numerous descriptors for PSE and GEVH (e.g., varic*, embolization*). The detailed search strategy used for PubMed is summarized in [Table 1]. This search strategy was also modified to accommodate the controlled vocabulary for EMBASE and CENTRAL databases. Text words were used for Google scholar. In addition, we reviewed references of eligible studies and searched the cited articles on Web of Science. We contacted several content experts and inquired about the knowledge of any studies that were not on our list of eligible studies or of any unpublished data pertinent to our research question. Finally, we searched the following clinical trial registries: Clinicaltrials.gov, clinicaltrialregister.eu, and anzctr.org.au.
Table 1: Searching strategies for PubMed database

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Study selection

Two investigators working independently determined the eligibility of each of the abstracts that resulted from the search strategy. When an abstract met inclusion criteria, the full-text was reviewed. Full-text articles were obtained unless both reviewers determined that the abstract was ineligible for this study. When disagreement appeared between the 2 reviewers about advancing to the full-text review, a third investigator was asked to further assess the abstract. If 2 of the 3 reviewers recommended a full-text review, additional efforts were made to obtain the full-text article. Full-text review was also performed in duplicate, and disagreements on inclusion of full-text articles were harmonized by consensus. If consensus was not reached, arbitration by an additional content expert was arranged.

Data extraction and quality assessment

Data were extracted by 2 investigators using a standardized form including the number of participants enrolled in each study arm, the study setting, the type of varices, the trial location, the methods of intervention, the infarction volume of the spleen, the mean times of PSE, the funding, and the follow-up period. The data of hazard ratio (HR) on variceal recurrence, variceal hemorrhage, and OS were obtained from this standardized form. No matter how many episodes of variceal hemorrhage occurred in one patient during a fixed period, we defined these episodes as once. If detailed data mentioned above could not be found in the text section, the method introduced by Tierney [16] was used to calculate the HR, the logrank Observed minus Expected events (O-E), variance, and 95% confidence interval (CI). Engauge Digitizer 5.2 was used to obtain time to event data from the cumulative frequency polygon in the article. If there was no cumulative frequency polygon or the data were missing in the paper, we advised the authors. Data extraction was performed in duplicate by 2 independent investigators, and disagreements were resolved by consensus. We assessed the following study characteristics to judge methodological quality of the RCT studies; how the randomization sequence was generated, how allocation was concealed, whether there were important imbalances in prognostic factors at baseline, which groups were blinded, and how missing outcome data were reported and analyzed. The risk of bias was assessed by using the Cochrane Collaboration risk of bias tool [17] for RCTs by 2 independent investigators. The Newcastle–Ottawa Scale (NOS)[18] was used to assess the bias in cohort studies. Disagreements on risk of bias assessments were harmonized by consensus.

Data synthesis and analysis

A fixed-effects model was used to calculate the pooled HR for attributing data including the ratio of variceal recurrence, variceal hemorrhage, and mortality. The inconsistency was measured by using the I2 test, in which a higher I2 score suggests a greater inconsistency. GRADEprofiler 3.6 software (The GRADE working group)[19] was applied to assess the outcomes obtained from meta-analyses.


   Results Top


Selected studies

Our initial search strategy identified 1451 articles. By using the additional strategy of reviewing bibliographies, lists of works cited, clinical trial registries, and contacting experts, we identified an additional 121 citations. After the duplicates were deducted, a total of 1505 citations were identified, 44 of which met the criteria for full-text review. Of the 44 full-text citations considered, 6 met the criteria for inclusion.[8],[9],[10],[11],[12],[13] The PRISMA template [14] for study selection is shown in [Figure 1]. The most common reasons for excluding the studies were that they were either not RCT or cohort studies or they only investigated hemodynamics indexes. Among the 6 studies, 1 was RCT [11] and the other 5 were cohort studies.[7],[8],[9],[10] Their characteristics are shown in [Table 2]. The conventional therapies used in these studies included EVL, B-RTO, TRO, and PTVE.
Figure 1: PRISMA flow diagram describing the steps of study selection. PRISMA, the Preferred Reporting Items for Systematic Reviews and Meta-Analyses

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Table 2: Characteristics of six included studies

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Quality assessment

The RCT study [11] was shown to have either a low or unclear risk of bias, as assessed by the Cochrane Risk of Bias tool [17] [Figure 2]. The 5 cohort studies were shown to have no significant high risk bias, as assessed by an NOS analysis [18] [Table 3].
Figure 2: Forest plot of comparisons by risk of bias analyses. The analyses were performed by using Review Manager 5.3 on variceal recurrence (a) variceal hemorrhage, (b) overall survival, (c) and risk of bias. Types of risk of bias: (A) random sequence generation (selection bias), (B) allocation concealment (selection bias), (C) blinding of participants and personnel (performance bias), (D) blinding of outcome assessment (detection bias), (E) incomplete outcome data (attrition bias), (F) selective reporting (reporting bias), and (G) other bias

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Table 3: Evaluation of the cohort studies by Newcastle–Ottawa Scale

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Overall analyses of outcomes

The pooled HR of variceal recurrence is 0.50 (95% CI 0.37, 0.68; P < 0.00001; I2 = 0% [Figure 2]a. Among the 5 studies included in this analysis, 3 studies [8],[9],[11] investigated esophagus varices, whereas the other 2 studies [12],[13] investigated gastric varices. The 2 studies of gastric varices did not differ from the 3 studies of esophagus varices with regard to the precision and size of samples. In the 3 studies,[8],[10],[11] the pooled HR of variceal hemorrhage is 0.24 (95% CI 0.15, 0.39; P < 0.00001; I2 = 0%) [Figure 2]b, and the pooled HR of OS is 0.50 (95% CI 0.33, 0.67; P < 0.00001; I2 = 0%) [Figure 2]c. All the outcomes of comparisons were significantly different in terms of overall effects, and 2 arms of each had a low level of heterogeneity. The studies are distributed closely within the 95% CI axis by Reviewer Manager 5.3 on recurrence of varices, variceal hemorrhage, and OS. The representative funnel plot on variceal recurrence is shown in [Figure 3].
Figure 3: Funnel plot for comparisons on variceal recurrence. The analyses were performed by using Reviewer Manager 5.3 on variceal recurrence in the 5 cohort studies

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The two studies by Ohmoto et al.[8],[11] are from the same institution, and hence their patient populations may have been overlapping, or a subpopulation of the former study [8] may be included in the latter study.[11] Therefore, we performed another analysis by excluding the former study.[8] As shown in [Figure 4], the results from the new analysis on the pooled HR of variceal recurrence, variceal hemorrhage, and OS are similar to those from the analysis mentioned above. The pooled HR of variceal recurrence is 0.49 (95% CI 0.35, 0.70; P < 0.00001; I2 = 0% [Figure 4]a, the pooled HR of variceal hemorrhage is 0.24 (95% CI 0.14, 0.41; P < 0.00001; I2 = 0%) [Figure 4]b, and the pooled HR of OS is 0.51 (95% CI 0.30, 0.85; P < 0.00001; I2 = 0%) [Figure 4]c.
Figure 4: Forest plot of comparisons by risk of bias analyses (The study (Ohmoto K, et al. Hepatogastroenterology, 2003; 50: 1766-1769) is excluded). The analyses were the same as in Figure 2

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The data of complications in the 6 studies are summarized in [Table 4]. The definition of serious complications varied significantly among different studies; therefore, we were unable to perform meta-analyses for this issue. However, most of the complications were usually mild or moderate and nonfatal.
Table 4: Incidence of complications after treatments in the six studies

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Grade assessment

The GRADEprofiler 3.6 software was used to assess the outcome acquired from meta-analyses [Table 5]. All the outcomes were given moderate quality.
Table 5: Grade assessment on variceal recurrence, variceal hemorrhage, and survival between combinational therapy vs. conventional therapy

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   Discussion Top


Splenic embolization was first introduced by Maddison in 1973,[20] when autologous blood clot was used as an embolus to produce splenic artery embolization for hypersplenism. Transcatheter PSE was developed by Spigos in the late 1970s.[21],[22] With the development of interventional radiology, particularly the invention of new embolic materials, the application of PSE has been extended from hypersplenism to various diseases such as hereditary spherocytosis, thalassemia, autoimmune hemolytic anemia, and splenic trauma.[23] The first systemic review on PSE in the management of portal hypertension was published in 2007, and the most contemporary study noted in this review was reported in 2005.[24] This article thoroughly summarized the English-language literature and the benefits of PSE.[24] Later, Smith and Ray [25] published a review of PSE in portal hypertension in 2012, and Hadduck and McWilliams [26] published a review on PSE in cirrhosis in 2014. These reviews focus on the application of PSE in cirrhosis and/or portal hypertension.

GEVH is a catastrophic episode for patients with cirrhosis accompanied with portal hypertension, and PSE has been used in the management of GEVH alone or in combination with conventional therapies. However, we have not spotted a systemic review on this topic after searching the available databases. A few clinical trials have been conducted on the use of PSE in the management of GEVH, and the results have been promising.[8],[9],[10],[11],[12],[13] However, it has not been systematically analyzed whether PSE do have beneficial effects of management of GEVH without severe complications when it is combined with conventional therapies. The present study, to our knowledge, is the first one to address this issue by using meta-analyses to compare the outcomes of combinational therapies versus conventional therapies in the management of GEVH. The results of our meta-analyses have demonstrated that PSE is efficacious in preventing variceal recurrence, variceal bleeding, and prolonging OS. Most complications were mild or moderate and nonfatal. The results indicate that PSE appears to be an effective and safe procedure in the management of GEVH when it is combined with conventional therapies.

The three studies on esophagus varices [8],[9],[11] were highly homogeneous, so were the two studies of gastric varices.[12],[13] However, when the two groups were compared, HR was significantly lower in the group of gastric varices studies than those of esophagus varices. This heterogeneity could be explained by two reasons. First, esophagus and gastric varices are formed through different mechanisms; second, EVL was mainly used for patients with esophagus varices, whereas B-RTO was the main conventional therapy for gastric varices.

Serious complications used to be the main factor restricting the wide application of PSE. We have carefully extracted and analyzed the data from all the 6 studies. Although we were unable to use meta-analyses because of different definitions of serious complications among the studies, most complications after PSE were usually mild or moderate. In general, the incidence rate of serious complications in patients treated with combinational therapies was less than those treated with conventional therapies. Specifically, the study by Duan [10] showed that patients treated with PTVE plus PSE had either less incidence rates of ascites and portal hypertensive gastropathy or no significantly different incidence rates of hepatic encephalopathy and portal vein thrombosis compared with PTVE alone. By searching published literature, we found that the serious complications reported previously [5] were rare in the past decades. Multiple applications of PSE to induce a minimum of 50% infarction volume of the spleen, the development of interventional radiology, and the use of new embolic materials may have led to this dramatic reduction in the onset of serious complications.[25],[26]

The relatively small size of samples may be the biggest limitation of the present study. Although the results of this meta-analysis indicate the beneficial effects of PSE in patients with GEVH, an international and multicentered study with a large number of subjects is needed. If the results presented here could be verified by future studies, the application of PSE, particularly when it is combined with conventional therapies, may be included in the clinical guidelines of GEVH treatment.

Financial support and sponsorship

This work was supported by grants from the National Natural Scientific Foundation of China (81272467 and 81472321) and Heilongjiang Natural Scientific Foundation in China (C201310).

Conflicts of interest

There are no conflicts of interest.

 
   References Top

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Amitrano L, Guardascione MA, Manguso F, Bennato R, Bove A, DeNucci C, et al. The effectiveness of current acute variceal bleed treatments in unselected cirrhotic patients: Refining short-term prognosis and risk factors. Am J Gastroenterol 2012;107:1872-8.  Back to cited text no. 2
    
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Ohira M, Umeyama K, Taniura M, Yamashita T, Morisawa S. An experimental study of a splenic inhibitory factor influencing hepatic regeneration. Surg Gynecol Obstet 1987;164:438-44.  Back to cited text no. 7
    
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Ohmoto K, Yoshioka N, Tomiyama Y, Shibata N, Takesue M, Yoshida K, et al. Improved prognosis of cirrhosis patients with esophageal varices and thrombocytopenia treated by endoscopic variceal ligation plus partial splenic embolization. Dig Dis Sci 2006;51:352-8.  Back to cited text no. 8
    
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Taniai N, Onda M, Tajiri T, Toba M, Yoshida H. Endoscopic variceal ligation (EVL) combined with partial splenic embolization (PSE). Hepatogastroenterology 1998;46:2849-53.  Back to cited text no. 9
    
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Duan X, Zhang K, Han X, Ren J, Xu M, Huang G, et al. Comparison of percutaneous transhepatic variceal embolization (PTVE) followed by partial splenic embolization versus PTVE alone for the treatment of acute esophagogastric variceal massive hemorrhage. J Vasc Interv Radiol 2014;25:1858-65.  Back to cited text no. 10
    
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Ohmoto K, Yamamoto S. Prevention of variceal recurrence, bleeding, and death in cirrhosis patients with hypersplenism, especially those with severe thrombocytopenia. Hepatogastroenterology 2003;50:1766-69.  Back to cited text no. 11
    
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Chikamori F, Kuniyoshi N, Kawashima T, Takase Y. Gastric varices with gastrorenal shunt: Combined therapy using transjugular retrograde obliteration and partial splenic embolization. AJR Am J Roentgenol 2008;191:555-9.  Back to cited text no. 12
    
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Waguri N, Hayashi M, Yokoo T, Sato R, Arao Y, Setsu T, et al. Simultaneous combined balloon-occluded retrograde transvenous obliteration and partial splenic embolization for portosystemic shunts. J Vasc Interv Radiol 2012;23:650-7.  Back to cited text no. 13
    
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Moher D, Liberati A, Tetzlaff J, Altman DG; PRISMA Group. Preferred reporting items for systematic reviews and meta-analyses: The PRISMA statement. Ann Intern Med 2009;151:264-9.  Back to cited text no. 14
    
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Tierney JF, Stewart LA, Ghersi D, Burdett S, Sydes MR. Practical methods for incorporating summary time-to-event data into meta-analysis. Trials 2007;8:16.  Back to cited text no. 16
    
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Higgins JP, Green S. Cochrane handbook for systematic reviews of interventions. Vol. 5. Wiley Online Library; 2008.  Back to cited text no. 17
    
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Wells GA, Shea B, O'connell D, Peterson JE, Welch V, Losos M, et al. The Newcastle-Ottawa Scale (NOS) for assessing the quality of nonrandomised studies in meta-analyses, 2000.  Back to cited text no. 18
    
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Atkins D, Best D, Briss PA, Eccles M, Falck-Ytter Y, Flottorp S, et al. Grading quality of evidence and strength of recommendations. BMJ 2004;328:1490.  Back to cited text no. 19
    
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Maddison FE. Embolic Therapy of Hypersplenism. Invest Radiol 1973;8:280-1.  Back to cited text no. 20
    
21.
Gerlock AJ Jr, MacDonell RC Jr, Parris WC, Richie RE, Tallent MB, Johnson HK, et al. Partial splenic embolization: An alternative to splenectomy in the treatment of hypersplenism. J Tenn Med Assoc 1981;74:126-8.  Back to cited text no. 21
    
22.
Spigos DG, Jonasson O, Mozes M, Capek V. Partial splenic embolization in the treatment of hypersplenism. AJR Am J Roentgenol 1979;132:777-82.  Back to cited text no. 22
    
23.
Guan YS, Hu Y. Clinical application of partial splenic embolization. Scientific World J 2014;2014:961345.  Back to cited text no. 23
    
24.
Koconis KG, Singh H, Soares G. Partial splenic embolization in the treatment of patients with portal hypertension: A review of the english language literature. J Vasc Interv Radiol 2007;18:463-81.  Back to cited text no. 24
    
25.
Smith M, Ray CE. Splenic artery embolization as an adjunctive procedure for portal hypertension. Semin Intervent Radiol 2012;29:135-9.  Back to cited text no. 25
    
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Hadduck TA, McWilliams JP. Partial splenic artery embolization in cirrhotic patients. World J Radiol 2014;6:160-8.  Back to cited text no. 26
    

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Correspondence Address:
Xueying Sun
The Hepatosplenic Surgery Center, The First Affiliated Hospital of Harbin Medical University, Harbin - 150001
China
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/1319-3767.195553

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