Zhou Y, Yin ZH, Sun MS, Wang YY, Yang C, Li SH, Liang FR, Liu F. Global research trends in postoperative ileus from 2011 to 2023: A scientometric study. World J Gastrointest Surg 2024; 16(9): 3020-3031 [PMID: 39351552 DOI: 10.4240/wjgs.v16.i9.3020]
Corresponding Author of This Article
Fang Liu, MD, Chief Doctor, Department of Integrated Chinese and Western Medicine, Sichuan Clinical Research Center for Cancer, Sichuan Cancer Hospital & Institute, Sichuan Cancer Center, Affiliated Cancer Hospital of University of Electronic Science and Technology of China, No. 55 Renmin South Road, Chengdu 610041, Sichuan Province, China. liufang@scszlyy.org.cn
Research Domain of This Article
Gastroenterology & Hepatology
Article-Type of This Article
Scientometrics
Open-Access Policy of This Article
This article is an open-access article which was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: http://creativecommons.org/licenses/by-nc/4.0/
Yan Zhou, Zi-Han Yin, Ming-Sheng Sun, Yang-Yang Wang, Chen Yang, Shu-Hao Li, Fan-Rong Liang, Acupuncture and Tuina School, Chengdu University of Traditional Chinese Medicine, Chengdu 610075, Sichuan Province, China
Fang Liu, Department of Integrated Chinese and Western Medicine, Sichuan Clinical Research Center for Cancer, Sichuan Cancer Hospital & Institute, Sichuan Cancer Center, Affiliated Cancer Hospital of University of Electronic Science and Technology of China, Chengdu 610041, Sichuan Province, China
Co-corresponding authors: Fan-Rong Liang and Fang Liu.
Author contributions: Liu F and Liang FR contributed equally to this study; Zhou Y, Liang FR, and Liu F designed the bibliometric analysis strategy; Wang YY, Yang C, and Li SH searched and screened the literature; Yin ZH and Sun MS analyzed the data; Zhou Y and Yin ZH wrote the manuscript; Liu F revised the main content of the manuscript. All authors have read and approved the final manuscript. Zhou Y and Yin ZH contributed equally to this work. Liu F is the person in charge of the key research and development project of Sichuan Science and Technology Department, and provided financial support for this study. Professor Liang FR and Dr. Liu F jointly designed this study, provided literature retrieval strategy and bibliometric analysis strategy for this study, and jointly revised the main content of this study. In addition, Professor Liang FR provided guidance and assistance in revising the manuscript and replying to the comments of reviewers in the major revision. All authors agreed that Dr. Liu F and Professor Liang FR made equal contributions to this study and agreed that they should be the co-corresponding authors of this study.
Supported bySichuan Province Key Research and Development Project, No. 2023YFS0328.
Conflict-of-interest statement: All authors have no conflicts of interest to report.
PRISMA 2009 Checklist statement: The authors have read the PRISMA 2009 Checklist, and the manuscript was prepared and revised according to the PRISMA 2009 Checklist.
Open-Access: This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution NonCommercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: https://creativecommons.org/Licenses/by-nc/4.0/
Corresponding author: Fang Liu, MD, Chief Doctor, Department of Integrated Chinese and Western Medicine, Sichuan Clinical Research Center for Cancer, Sichuan Cancer Hospital & Institute, Sichuan Cancer Center, Affiliated Cancer Hospital of University of Electronic Science and Technology of China, No. 55 Renmin South Road, Chengdu 610041, Sichuan Province, China. liufang@scszlyy.org.cn
Received: June 9, 2024 Revised: August 13, 2024 Accepted: August 22, 2024 Published online: September 27, 2024 Processing time: 101 Days and 9.3 Hours
Abstract
BACKGROUND
Postoperative ileus (POI) is a common complication after abdominal surgery with high morbidity, which hinders patient recovery, prolongs hospitalization, and increases healthcare costs. Therefore, POI has become a global public health challenge. POI triggering is multifactorial. Autonomic and hormonal mechanisms are generally involved in POI pathogenesis. Recent studies have shown that beta adrenergic signaling of enteric glia is a POI trigger. Currently, the status quo, trends, and frontiers of global research on POI remain unclear.
AIM
To explore the current status, trends, and frontiers of POI research from 2011 to the present based on bibliometric analysis.
METHODS
Publications published on POI research from 2011 to 2023 were retrieved on June 1, 2023, from the Web of Science Core Collection. CiteSpace 6.2.R2 and VOSviewer were used to conduct bibliometric visualization.
RESULTS
In total, 778 POI records published from 2011 to 2023 were retrieved. Over the past few decades, the annual cumulative number of related articles has linearly increased, with China and the United States of America contributing prominently. All publications were from 59 countries and territories. China and the University of Bonn were the top contributing country and institution, respectively. Neurogastroenterology & Motility was the most prolific journal. The Journal of Gastrointestinal Surgery had the highest number of citations. Wehner Sven was the most productive author. Burst keywords (e.g., colon, prolonged ileus, acupuncture, paralytic ileus, pathophysiology, rectal cancer, gastrointestinal function, risk) and a series of reference citation bursts provided evidence for the research frontiers in recent years.
CONCLUSION
This study demonstrates trends in the published literature on POI and provides new insights for researchers. It emphasizes the importance of multidisciplinary cooperation in the development of this field.
Core Tip: This study provides a scientometric analysis of key publications related to postoperative ileus (POI) from 2011 to 2023, demonstrates the current status, trends, and cutting-edge areas of POI research, and provides guidance for future research.
Citation: Zhou Y, Yin ZH, Sun MS, Wang YY, Yang C, Li SH, Liang FR, Liu F. Global research trends in postoperative ileus from 2011 to 2023: A scientometric study. World J Gastrointest Surg 2024; 16(9): 3020-3031
Postoperative ileus (POI), also known as postoperative gastrointestinal dysfunction, frequently occurs after abdominal and other surgical procedures[1]. The incidence rate of POI after abdominal surgery is 10%-30%[2-5]. The clinical manifestations of POI include feeding intolerance, abdominal distention, abdominal pain, loss of bowel sounds, cessation of flatus and defecation, nausea, and vomiting, all of which impede recovery and impair patients’ quality of life. POI is not only a significant risk factor for complications, such as wound dehiscence, pulmonary embolism, and deep vein thrombosis[6], but also a significant predictor of prolonged hospitalization and increased costs[7-9]. It has been estimated that in the United States, the annual costs associated with POI are as high as US$1.47 billion, placing a significant financial burden on society[10]. Intestine manipulation, fluid overload, neurohormonal dysfunction, inflammation, opioid analgesic use, and somatic and visceral trauma are all predisposing factors of POI[1,11-14]. Animal experiments have confirmed that the pathogenesis of POI is through autonomic nervous and hormonal mechanisms[15]. POI development occurs in three stages. First, activation of the sympathetic nervous system mediated by corticotropin-releasing factor, leading to acute ileus[14]. Second, after intestinal manipulation mediated through inflammation, local inflammation results in broad inhibition of gastrointestinal motility through a “field effect”[16]. Leukocyte invasion into the muscularis externa (ME) underlies impaired intestinal motility after bowel manipulation[17]. Third, activation of the vagus nervous system mediated by nicotinic alpha 7 acetylcholine receptors (α7nAChR) and 5-hydroxytryptamine 4 receptors (5-HT4R)[15], resulting in the reduction of inflammatory responses[18]. ME enteric gliosis is an important step in POI development[19]. Recent studies have shown that β-adrenergic signaling is the initiating factor that triggers enteric gliosis during surgery, suggesting that β-adrenergic signaling of enteric gliosis is a promising target for avoiding POI[20]. At present, most studies on the mechanism of POI are based on animal models; thus, further clinical studies are needed to clarify the mechanism of POI in humans.
Scientometrics reveals the current status and trends of research in a particular field through quantitative analysis of the literature. This helps researchers identify research priorities and development frontiers, which is beneficial for future research[21,22].
CiteSpace has been used for bibliometric analyses in various research fields; however, bibliometric analyses of POI have not yet been published. In this study, we first used CiteSpace to analyze articles on POI published from 2011 to 2023 based on the Web of Science Core Collection (WoSCC) database to provide guidance for future scientific research on POI.
MATERIALS AND METHODS
Search strategies
We researched literature from the Science Citation Index-EXPANDED and Social Sciences Citation Index databases in the WoSCC via the Chengdu University of Traditional Chinese Medicine Library website. The search terms were “Postoperative ileus” OR “Postoperative intestinal obstruction” OR “Postoperative gastrointestinal dysfunction” OR “Postoperative intestinal paralysis” and the language was set to English. Because the study on POI began in 2011, we set the time span from January 1, 2011, to May 31, 2023, to obtain more adequate literature. We selected only original articles and reviews, and all data were downloaded on June 1, 2023. Consequently, 778 records were obtained. Supplementary Figure 1 shows the details of the search process.
Analysis tool
In this study, Microsoft Excel 2021, VOSviewer, and CiteSpace 6.2.R2 were selected for the bibliometric analysis, and data related to countries, institutions, journals, and authors could be generated using the above software. In this study, article count, citation frequency, impact factor (IF), citation/article ratio, centrality, and other parameters were selected. We used article counting to measure productivity and identify productive countries, institutions, journals, and authors. IF was obtained from the Journal Citation Reports for 2022; it was used to assess journal quality. We used VOSviewer to build a visual map of the network and examine partnerships between countries and institutions. “Countries” and “organizations” were selected as units of analysis. The counting method was set to full count. We selected CiteSpace 6.2.R2 to map the keyword co-occurrence view, keyword clustering, and reference citation clustering. The parameters were set as follows: For articles published from 2011 to 2023, the time slice was set to 1 year. The node selection type was set to 1 at a time, with a g-index k value of 5. Different parameters were set according to different node types to draw visualized maps.
RESULTS
Output trends of publications
From 2011 to 2023, 778 POI-related records met the search criteria, including 646 articles and 132 reviews. Figure 1A depicts the annual global distribution and cumulative number of publications on POI from 2011 to 2023. Between 2011 and 2023, the cumulative annual publication trend was linear. Figure 1B illustrates the annual publication trends for the top 10 academic output countries. Over the past decade, the number of publications on POI in China and the United States has significantly increased.
Figure 1 Publication growth trends and analysis of countries in the postoperative ileus field.
A: The number of global annual publications and the cumulative number of annual publications; B: Annual publication growth in the top 10 countries.
Contribution by country and institution
The 778 articles were from 1097 institutions in 59 countries. Table 1 presents detailed information on the top 10 countries. China had the most articles (201), followed by the United States (177) and Japan (78). However, the top three countries in terms of total citations were the United States, China, and the Netherlands. Among the top 10 countries, Belgium showed high academic quality with a significantly higher citation/article ratio (40.55) than other countries.
Table 1 The top 10 countries that published articles on postoperative ileus research.
Rank
Country
Number of articles
Number of citations
Citations per article
1
China
201
1486
7.39
2
United States
177
3360
18.98
3
Japan
78
887
11.37
4
Germany
65
1236
19.02
5
South Korea
44
545
12.39
6
England
42
990
23.57
7
Netherlands
41
1356
33.07
8
Belgium
31
1257
40.55
9
Australia
26
377
14.5
10
Italy
23
427
18.57
We used VOSviewer to construct network visualization graphs for POI-related articles to assess international cooperation. Collaboration between countries and institutions is shown in Supplementary Figure 2. Nodes with a higher degree of co-occurrence were classified as having the same color. Nodes with similar colors formed clusters, indicating closer cooperation. The width of the lines indicated the strength of the cooperation. The United States had the highest total link strength, indicating that it cooperates the most with the rest of the world. The country with which the United States cooperated the most was the Netherlands, followed by Germany and Belgium, and the top 10 most productive institutions are listed in Table 2. The University of Bonn (23 articles) ranked first, followed by the Nanjing University (18 articles) and the University of Tokyo (16 articles). However, the University of Amsterdam had the highest citation/article ratio (55), followed by the University of Auckland (38.14) and Katholieke Universiteit Leuven (29.45). The light blue cluster was led by the Royal Adelaide Hospital, which had the most collaborations with the University of Adelaide. These findings provide useful information regarding outstanding research teams in the field and establishment of collaborations.
Table 2 The top 10 institutions that published articles on postoperative ileus.
Rank
Institutions
Documents
Citations
Country
Citations per article
1
University of Bonn
23
556
Germany
24.17
2
Nanjing University
18
156
China
8.67
3
University of Tokyo
16
267
Japan
16.69
4
University of Amsterdam
15
825
Netherlands
55
5
Royal Adelaide Hospital
14
59
Australia
4.21
6
University of Auckland
14
534
New Zealand
38.14
7
University of Adelaide
13
56
Australia
4.31
8
Yonsei University
13
130
South Korea
10
9
Katholieke University Leuven
11
324
Belgium
29.45
10
Beijing University of Chinese Medicine
11
108
China
9.82
Analysis of journals and cited journals
POI research papers were published by 4539 authors in 304 journals, with 15,389 publications in 3384 journals. The top 10 journals accounted for 22.6% of the total number of articles (778) (Supplementary Table 1). Among these journals, Neurogastroenterology & Motility published the highest number of articles on POI research (31 articles, IF 2022 = 3.96), followed by the International Journal of Colorectal Disease (24 articles, IF 2022 = 2.796). The British Journal of Surgery had the highest IF (11.122), and Journal of Gastrointestinal Surgery had a citation/article ratio (29.52) that far exceeded that of the other listed journals. Supplementary Table 2 Lists the top 10 journals cited in POI research. Annals of Surgery was the most cited journal (1356 citations) in the field, followed by Diseases of the Colon and Rectum (798 citations) and British Journal of Surgery and Gastroenterology (773 citations). Additionally, Figure 2 shows a dual-map overlay of journals reflecting the subject distribution of academic journals. Most clusters of cited journals were related to medicine, medical, clinical, molecular, biology, genetics, health, and nursing fields.
Figure 2 The dual-map overlay of journals in postoperative ileus research.
The labels on the left side of the map represent the disciplines covered by citing journals, and the labels on the right side of the map represent the disciplines covered by cited journals. Colored paths illustrate citation relationships, and thick lines represent major paths.
Contribution by authors
A total of 4539 authors made contributions to the total number of publications. The most productive authors are listed in Supplementary Table 3. Wehner Sven published 22 articles and ranked first in terms of the number of publications, followed by Kalff Joerg (20). Matteoli Gianluca had the highest citation/article ratio (66.78), followed by De Jonge Wouter (32.78) and Wehner Sven (22.27).
Analysis of keywords
High-frequency and high-centrality keywords reflect the current research hotspots in a particular field[23]. We used CiteSpace to create a co-occurrence graph for the 110 keywords (Figure 3A). Table 3 lists the top 10 keywords according to their frequency and centrality. The five most frequent keywords were “postoperative ileus,” “colorectal surgery,” “surgery,” “risk factors,” and “management.” The top 5 keywords with the most centrality were “section,” “enhanced recovery,” “alvimopan,” “double blind,” and “management.” Four of the top 10 most frequent keywords were related to surgery, and two were related to recovery. All keywords were divided into nine clusters based on a co-occurrence map (Figure 3B). The top five clusters were “inflammation,” “surgery,” “risk factors,” “intestinal obstruction,” and “small bowel obstruction,” showing the structural system of the field of POI research.
Figure 3 The keywords analysis on postoperative ileus research.
A: Co-occurrence map of keywords for postoperative ileus; B: Clusters of keywords in postoperative ileus research; C: Top 30 keywords with the strongest citation bursts on postoperative ileus research.
Table 3 Top 10 Keywords with the highest frequency and centrality values for postoperative ileus.
Ranking
Frequency
Keyword
Centrality
Keyword
1
341
Postoperative ileus
0.73
Resection
2
120
Colorectal surgery
0.65
Enhanced recovery
3
116
Surgery
0.62
Alvimopan
4
110
Risk factors
0.46
Double blind
5
101
Management
0.37
Management
6
80
Recovery
0.35
Postoperative ileus
7
77
Enhanced recovery
0.35
Abdominal surgery
8
66
Resection
0.32
Intestinal obstruction
9
61
Abdominal surgery
0.3
Mechanisms
10
58
Metaanalysis
0.3
Inflammatory response
Burst keywords appear as high-frequency words within a certain time period, showing research hotspots and trends and possibly predicting an emerging focus in dynamic research fields[24]. Figure 3C shows the top 30 keywords with the strongest citation bursts from 2011 to 2023. Of these, “alvimopan” had the highest burst strength (7.43) since 2011, followed by “chewing gum” (6.39). “Small bowel obstruction” had the longest burst period (2015-2020). The latest burst keywords were “colon” (2019-2023), “prolonged ileus” (2019-2023), “acupuncture” (2020-2023), “paralytic ileus” (2020-2023), “pathophysiology” (2021-2023), “rectal cancer” (2021-2023), “gastrointestinal function” (2021–2023), and “risk” (2021-2023), indicating that they have been the focus of attention so far.
Analysis of references
Co-cited references highlight key articles that contribute to research in the field. Supplementary Table 4 lists the top 10 highly cited references over the past 12 years. The milestone literature and rapid evolution of the field can be elucidated by citation analysis of relevant documents[25]. Productions with the strongest citation bursts are considered the knowledge bases of the research frontiers. We utilized CiteSpace to generate a timeline visualization of the cited references (Figure 4A), clearly showing the development trends in POI research. The largest cluster was “coffee,” indicating a significant research focus and interest over the past several years. This was followed by “prolonged postoperative ileus,” “chewing gum,” “mast cells,” “postoperative care,” and “gut microbiota.” Clusters 2 “chewing gum,” 3 “mast cells,” 4 “postoperative care,” 10 “alvimopan,” and 11 “ghrelin” received more attention in the early years, and clusters 0, 1, 5, 9, and 12 continue to evolve, foreshadowing future research trends.
Figure 4 The references analysis on postoperative ileus research.
A: Timeline view of the cited references in postoperative ileus research; B: Top 25 references with the strongest citation bursts on postoperative ileus research.
Figure 4B shows the top 25 references with the strongest citation bursts. Citation bursts until 2023 were led by Chapman (2018), who had the strongest burst (11.32), followed by Gustafsson (2019), Hedrick (2018), Mao (2019), and Scarborough (2017). References on the definition, pathophysiologic mechanisms, prevention, and financial impact of POI demonstrated active citation bursts[15,26-28].
DISCUSSION
In this study, we performed a bibliometric analysis of documents related to POI from 2011 to 2023 by searching the WoSCC. The aim was to summarize the current state of research, hotspots, and trends in this field from a global perspective.
In total, 778 documents on POI were retrieved, including 646 articles and 132 reviews. From 2011 to 2023, the number of annual articles in this field was generally on the rise, indicating that research on POI is increasing annually. China was the most productive country, especially between 2019 and 2021, with rapid growth in the number of publications. Nevertheless, although China had the highest number of articles, its citation/article ratio ranked last among the top 10 countries. Therefore, the overall quality of the articles requires further improvement. Therefore, China must focus on in-depth research to further strengthen its cooperation with other countries. In contrast, although Belgium had published only a few articles, these articles had high academic quality.
Of the top 10 institutions, 9 were universities, indicating that universities are the main research community in this field. Two of the top 10 institutions were from China (Nanjing University and Beijing University of Chinese Medicine), and two were from Australia (University of Adelaide and Royal Adelaide Hospital), suggesting that these two countries have a multitude of excellent research groups in this field. IF scores of the retrieved articles of the top 10 most productive journals were generally low. Therefore, high-quality research in this field is required.
Furthermore, the double map overlay of the journals shows that this study concentrated on clinical medicine and basic research; consequently, multidisciplinary cross-collaboration is required in the future to promote in-depth development of the POI domain.
This study has identified several excellent research outputs that have contributed significantly to the advancement of POI research. For example, the study by Vather et al[29] was most widely cited. It proposed clinically quantifiable definitions of POI and standardized clinical parameters that can help objectively compare different intervention modalities and were valuable for the improvement of external validity of future clinical trials. Chapuis et al[4] identified independent preoperative and intraoperative risk factors for prolonged ileus, which will not only help healthcare professionals identify suspected patients and provide targeted treatment but will also help researchers more effectively select subjects of clinical trials for the prevention or treatment of prolonged ileus. Ng et al[30] conducted a randomized controlled trials (RCTs) on electroacupuncture for POI and confirmed that electroacupuncture reduced the duration of ileus, time to first out-of-bed activity, and need for postoperative analgesia after laparoscopic surgery for colorectal cancer. This study provides high-quality evidence for the efficacy of acupuncture in the treatment of POI.
Analysis of keyword bursts can assist in predicting research hotspots and frontiers in POI areas. The keywords “colon,” “prolonged ileus,” “acupuncture,” “paralytic ileus,” “pathophysiology,” “rectal cancer,” and “gastrointestinal function” are anticipated to appear frequently over the next few years, indicating emerging research trends. The top three POI frontiers are as follows: (1) Prolonged ileus: prolonged ileus is usually called paralytic ileus, which is defined as the absence of bowel function recovery within 7 days after surgery[5]. Prolonged ileus is a common complication of colon surgery, with an incidence rate of up to 12.7%, and is significantly associated with higher mortality, longer postoperative hospital stay, and higher risks of unplanned reoperation and readmission[5]. The independent risk factors for prolonged ileus are male sex, respiratory diseases, peripheral vascular disease, resection in an urgent operation, transfusion in the perioperative period, construction of stoma, and operation duration ≥ 3 hours[4]. Such patients are more prone to postoperative complications, such as intra-abdominal infection and anastomotic leakage[2,5]. Prolonged ileus treatment is estimated to cost 750 million dollars per year in the United States[31]. A systematic review suggested the selective use of nasogastric tubes to manage prolonged ileus[32]; however, new strategies for the treatment of prolonged ileus require further research, as reliable evidence is still lacking[1]; (2) Acupuncture: A previous study reported the increasing popularity of acupuncture in the field of POI[33]. Animal studies[34,35] have confirmed that electroacupuncture at ST-36 can accelerate colonic motility and promote colonic contraction through the parasympathetic nervous system and cholinergic pathway. Several clinical studies[30,36,37] have found that electroacupuncture reduces the duration of POI after laparoscopic colorectal cancer surgery, time to get out of bed, and need for postoperative analgesics and reduces the incidence of prolonged ileus. The somatic autonomous reflex allows electroacupuncture to regulate physiological functions at specific acupoints[38]. Evidence suggests that electroacupuncture regulates gastrointestinal function by stimulating the vagus nervous system and may produce anti-inflammatory effects[39,40]. An experimental study revealed that electroacupuncture activated the vagus nerve, which in turn activated the α7nAChR-mediated JAK2/STAT3 signaling pathway in macrophages, thereby inhibiting intestinal operation–induced inflammation[41]. However, some researchers have found that the regulatory effect of electroacupuncture on POI is mainly achieved by stimulating nucleus tractus solitarii neurons to promote gastrointestinal motility but not by activating the cholinergic anti-inflammatory pathway[42]. Therefore, the exact mechanism of action of acupuncture for the treatment of POI requires further investigation; and (3) Pathophysiology: POI is caused via autonomic and hormonal mechanisms[15]. POI triggers are multifactorial because bowel manipulation, fluid overload, neurohormonal dysfunction, inflammation, opioid analgesia use, and somatic and visceral trauma are all associated with it[1,11-14]. POI consists of three stages of development. The first stage involves the sympathetic nervous system and is mediated by a corticotropin-releasing factor, leading to acute intestinal paralysis[14]. The second stage begins 3-4 hours after intestinal manipulation and is mediated by inflammation. The release of local inflammatory cytokines and chemokines upregulates the expression of adhesion molecules in endothelial cells[7]. Consequently, leukocytes, mainly monocytes and neutrophils, invade the ME of the small intestine[17]. Invading mononuclear cells and activated macrophages release nitric oxide and prostaglandins, which inhibit smooth muscle contraction[43]. Local inflammation leads to widespread suppression of gastrointestinal motodynamics through a “field effect”[16], whose mechanisms include complex neuronal and immune responses, including white blood cell production of nitric oxide[43], whole-intestinal dissemination of T helper cell-mediated inflammation[43], and activation of inhibitory neural pathways affecting the entire intestine[44]. The invasion of leukocytes into the ME underlies the impairment of intestinal motility after intestinal manipulation[17]. However, the triggers of the inflammatory cascade are unknown and may involve dendritic cells, mast cells, and/or macrophages[6]. The third stage involves the activation of the vagus nerve. It is mediated by α7nAChR and 5-HT4R[15]. Activation of 5-HT4R leads to an increase in acetylcholine released by myenteric cholinergic neurons, thereby activating α7nAChR on monocytes and macrophages and reducing the inflammatory response[18]. POI development includes enteric gliosis of the ME[19]. The latest cutting-edge research[20] indicated that beta adrenergic signaling is a priming factor in triggering enteric glial responsiveness and the onset of acute enteric gliosis during surgical procedures, implying that beta adrenergic signaling of enteric glia is a promising target for averting the emergence of POI. Most aforementioned studies on POI pathophysiological mechanisms have involved mouse models. However, data obtained from mouse models may not be applicable to humans. For example, the expression profiles of mediators and receptors differ between humans and rodents[45]. It is difficult to generate animal models of complications such as diabetes and hypertension[6]. Therefore, further clinical studies are required to elucidate the mechanisms underlying POI in humans.
Articles with the highest burst of citations are potentially valuable for exploring research frontiers[21]. In this study, “coffee” was the largest cluster, and “spinal surgery” was active until the most recent publication year. There is no consensus on whether coffee can promote the recovery of POI. RCTs and meta-analyses showed that coffee was effective in shortening postoperative defecation time and hospital stay, which can be used to prevent POI[46-48]. However, an RCT[49] suggested that coffee could not accelerate the recovery of intestinal function after minimally invasive surgery. Therefore, the study of coffee in the treatment of POI may be a research hotspot in the future. POI is a common complication of spinal surgery, with an incidence rate of 5%-12%[50]. It is expected that there will be a large number of future studies on POI after spinal surgery. The top three publications with the strongest citation bursts were as follows: (1) Chapman et al[26] systematically reviewed the pathophysiological mechanisms of POI. Current pathophysiological knowledge acknowledges neurogenic, inflammatory, and pharmacological mechanisms. However, most evidence comes from animal studies, and the exact physiological mechanism of POI in humans requires further study. Furthermore, they found that the methodological preconditions for POI research are lacking. This study provides a reference for future POI research; (2) Gustafsson et al[51] coauthored guidelines that provide consensus on optimal perioperative care for colorectal surgery and provide evidence-based grading recommendations for each Enhanced Recovery After Surgery (ERAS) program in the ERAS protocol. These guidelines strongly recommend multimodal prevention of POI; and (3) Hedrick et al[28] published a joint consensus statement for the second Perioperative Quality Initiative, which reached a consensus on the definition of POI and established a framework for future clinical and scientific work. To provide consensus recommendations on current prevention strategies in view of the extensive postoperative impairment of gastrointestinal function, reasonable countermeasures were formulated.
Limitations
This is the first scientometric analysis of articles on POI conducted over the past decade. However, this study has certain limitations. First, we only included articles from the WoSCC database, whereas other databases may contain more available articles, which may have resulted in a reduction in the number of articles included in the analysis. Second, we included only the English literature, which may have led to a language bias. Moreover, articles in the WoSCC database are constantly updated over time, and varying bibliometric data may yield different conclusions. Therefore, it is necessary to track the latest relevant research and non-English-language documents in real time. Finally, we selectively analyzed the data using quantitative methods and paid less attention to the qualitative aspects of this study. Consequently, some key nodes and details may be missing.
CONCLUSION
This study presents the global trends, keywords, highly cited articles, and research frontiers in the POI field from 2011 to 2023. According to the obtained data, POI research is in the rising stage of development and has great growth potential. China leads the way in the number of publications. Research hotspots in the field of POI have mainly focused on prolonged ileus, acupuncture, and its pathophysiology. In the future, it will be necessary to further strengthen the cooperation between countries and institutions, especially to pay attention to the importance of multidisciplinary cooperation in the development of this field.
ACKNOWLEDGEMENTS
We would like to thank Dai Wei and Pan Tao for their technical guidance on this study.
Footnotes
Provenance and peer review: Unsolicited article; Externally peer reviewed.
Peer-review model: Single blind
Specialty type: Gastroenterology and hepatology
Country of origin: China
Peer-review report’s classification
Scientific Quality: Grade B, Grade C
Novelty: Grade B, Grade C
Creativity or Innovation: Grade B, Grade C
Scientific Significance: Grade B, Grade B
P-Reviewer: Zhao Y S-Editor: Qu ZL L-Editor: A P-Editor: Xu ZH
Tsuchida Y, Hatao F, Fujisawa M, Murata T, Kaminishi M, Seto Y, Hori M, Ozaki H. Neuronal stimulation with 5-hydroxytryptamine 4 receptor induces anti-inflammatory actions via α7nACh receptors on muscularis macrophages associated with postoperative ileus.Gut. 2011;60:638-647.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 92][Cited by in F6Publishing: 105][Article Influence: 8.1][Reference Citation Analysis (0)]
Schneider R, Leven P, Glowka T, Kuzmanov I, Lysson M, Schneiker B, Miesen A, Baqi Y, Spanier C, Grants I, Mazzotta E, Villalobos-Hernandez E, Kalff JC, Müller CE, Christofi FL, Wehner S. A novel P2X2-dependent purinergic mechanism of enteric gliosis in intestinal inflammation.EMBO Mol Med. 2021;13:e12724.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 35][Cited by in F6Publishing: 45][Article Influence: 15.0][Reference Citation Analysis (0)]
Mao H, Milne TGE, O'Grady G, Vather R, Edlin R, Bissett I. Prolonged Postoperative Ileus Significantly Increases the Cost of Inpatient Stay for Patients Undergoing Elective Colorectal Surgery: Results of a Multivariate Analysis of Prospective Data at a Single Institution.Dis Colon Rectum. 2019;62:631-637.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 37][Cited by in F6Publishing: 60][Article Influence: 12.0][Reference Citation Analysis (0)]
Hedrick TL, McEvoy MD, Mythen MMG, Bergamaschi R, Gupta R, Holubar SD, Senagore AJ, Gan TJ, Shaw AD, Thacker JKM, Miller TE, Wischmeyer PE, Carli F, Evans DC, Guilbert S, Kozar R, Pryor A, Thiele RH, Everett S, Grocott M, Abola RE, Bennett-Guerrero E, Kent ML, Feldman LS, Fiore JF Jr; Perioperative Quality Initiative (POQI) 2 Workgroup. American Society for Enhanced Recovery and Perioperative Quality Initiative Joint Consensus Statement on Postoperative Gastrointestinal Dysfunction Within an Enhanced Recovery Pathway for Elective Colorectal Surgery.Anesth Analg. 2018;126:1896-1907.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 50][Cited by in F6Publishing: 54][Article Influence: 9.0][Reference Citation Analysis (0)]
Zhang J, Liu L, Zhu M, Zheng X, Liang Y, Zhong Y, Xu J, Yang J. Research Status and Prospects of Acupuncture in Perioperative Medicine Over the Past Decade: A Bibliometric Analysis.J Pain Res. 2023;16:2189-2204.
[PubMed] [DOI][Cited in This Article: ][Reference Citation Analysis (0)]
Yang JW, Shao JK, Wang Y, Liu Q, Liang JW, Yan SY, Zhou SC, Yang NN, Wang LQ, Shi GX, Pei W, Liu CZ. Effect of acupuncture on postoperative ileus after laparoscopic elective colorectal surgery: A prospective, randomised, controlled trial.EClinicalMedicine. 2022;49:101472.
[PubMed] [DOI][Cited in This Article: ][Cited by in F6Publishing: 14][Reference Citation Analysis (0)]
Wang Y, Yang JW, Yan SY, Lu Y, Han JG, Pei W, Zhao JJ, Li ZK, Zhou H, Yang NN, Wang LQ, Yang YC, Liu CZ. Electroacupuncture vs Sham Electroacupuncture in the Treatment of Postoperative Ileus After Laparoscopic Surgery for Colorectal Cancer: A Multicenter, Randomized Clinical Trial.JAMA Surg. 2023;158:20-27.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 20][Cited by in F6Publishing: 35][Article Influence: 35.0][Reference Citation Analysis (0)]
Yang NN, Yang JW, Ye Y, Huang J, Wang L, Wang Y, Su XT, Lin Y, Yu FT, Ma SM, Qi LY, Lin LL, Wang LQ, Shi GX, Li HP, Liu CZ. Electroacupuncture ameliorates intestinal inflammation by activating α7nAChR-mediated JAK2/STAT3 signaling pathway in postoperative ileus.Theranostics. 2021;11:4078-4089.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 23][Cited by in F6Publishing: 89][Article Influence: 29.7][Reference Citation Analysis (0)]
Engel DR, Koscielny A, Wehner S, Maurer J, Schiwon M, Franken L, Schumak B, Limmer A, Sparwasser T, Hirner A, Knolle PA, Kalff JC, Kurts C. T helper type 1 memory cells disseminate postoperative ileus over the entire intestinal tract.Nat Med. 2010;16:1407-1413.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 74][Cited by in F6Publishing: 79][Article Influence: 5.6][Reference Citation Analysis (0)]
de Jonge WJ, van den Wijngaard RM, The FO, ter Beek ML, Bennink RJ, Tytgat GN, Buijs RM, Reitsma PH, van Deventer SJ, Boeckxstaens GE. Postoperative ileus is maintained by intestinal immune infiltrates that activate inhibitory neural pathways in mice.Gastroenterology. 2003;125:1137-1147.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 142][Cited by in F6Publishing: 157][Article Influence: 7.5][Reference Citation Analysis (0)]
Parnasa SY, Marom G, Bdolah-Abram T, Gefen R, Luques L, Michael S, Mizrahi I, Abu-Gazala M, Rivkind AI, Mintz Y, Pikarsky AJ, Shussman N. Does caffeine enhance bowel recovery after elective colorectal resection? A prospective double-blinded randomized clinical trial.Tech Coloproctol. 2021;25:831-839.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 6][Cited by in F6Publishing: 5][Article Influence: 1.7][Reference Citation Analysis (0)]
Sinz S, Warschkow R, Tarantino I, Steffen T. Gum Chewing and Coffee Consumption but not Caffeine Intake Improve Bowel Function after Gastrointestinal Surgery: a Systematic Review and Network Meta-analysis.J Gastrointest Surg. 2023;27:1730-1745.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 1][Reference Citation Analysis (0)]
Nasseri Y, Kasheri E, Oka K, Zhu R, Smiley A, Cohen J, Ellenhorn J, Barnajian M. Does coffee affect bowel recovery following minimally invasive colorectal operations? A three-armed randomized controlled trial.Int J Colorectal Dis. 2023;38:199.
[PubMed] [DOI][Cited in This Article: ][Reference Citation Analysis (0)]
Gustafsson UO, Scott MJ, Hubner M, Nygren J, Demartines N, Francis N, Rockall TA, Young-Fadok TM, Hill AG, Soop M, de Boer HD, Urman RD, Chang GJ, Fichera A, Kessler H, Grass F, Whang EE, Fawcett WJ, Carli F, Lobo DN, Rollins KE, Balfour A, Baldini G, Riedel B, Ljungqvist O. Guidelines for Perioperative Care in Elective Colorectal Surgery: Enhanced Recovery After Surgery (ERAS(®)) Society Recommendations: 2018.World J Surg. 2019;43:659-695.
[PubMed] [DOI][Cited in This Article: ][Cited by in Crossref: 1071][Cited by in F6Publishing: 1095][Article Influence: 219.0][Reference Citation Analysis (0)]