Prevalence of uncomplicated erosive and ulcerative lesions of the upper gastrointestinal tract in patients of a surgical hospital

Cover Page


Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription or Fee Access

Abstract

INTRODUCTION: In the last decade, patients with various surgical pathologies have been demonstrating an increase in uncomplicated erosive and ulcerative lesions (EULs) of the proximal part of the gastrointestinal tract (GIT). Knowledge of the current prevalence of this pathology has both scientific and practical significance.

AIM: Assessment of the prevalence of uncomplicated EULs in the upper GIT in a multidisciplinary surgical hospital and analysis of factors that determine the structure of the identified prevalence.

MATERIALS AND METHODS: Meta-analysis of 20 clinical studies from eLibrary, PubMed databases from 2010 to 2023 devoted to uncomplicated EULs of GIT, stomach and duodenum.

RESULTS: Based on the examination of 4,337 patients (data of domestic literature sources) and 13,024,812 (data of foreign sources), the prevalence of acute erosive and EULs of the upper GIT ranged from 7.4 to 100% and from 1.7 до 100% respectively. High heterogeneity of samples confirms a wide variation of the incidence of the analyzed kind of lesion both in our country and abroad determined by the influence of various factors, specific to both each patient and the profile of a surgical hospital.

CONCLUSION: The meta-analysis demonstrates a high range of incidence of uncomplicated acute EULs of the proximal GIT, which requires further clarification of the true prevalence of the pathology under study and of other causes that influence the development of destructive pathological alterations.

Full Text

INTRODUCTION

In recent decades, there has been a clear trend towards an increase in uncomplicated symptomatic erosive and ulcerative lesions (EULs) of the proximal gastrointestinal tract (GIT) [1–4]. One of the main features of this type of injury is the variety of etiological factors, in particular, extensive abdominal surgeries, severe wounds and injuries, intake of medical drugs, severe endocrine and somatic diseases [5–9]. In addition, this pathology is often masked by the symptoms of the underlying disease and remains unrecognized [6, 10, 11], leading to a complicated course in 20–60% of cases [9].

Currently, no systematic studies have been conducted to assess the global prevalence of uncomplicated ‘stress-related’ lesions of the proximal digestive organs in patients of multidisciplinary surgical hospitals. The available data are scattered and uninformative, since they reflect the characteristics of the pathology under study only in a separate group of subjects in a specific surgical hospital.

The aim of this study to assesses of the prevalence of uncomplicated EULs in the upper GIT in a multidisciplinary surgical hospital and analysis of factors that determine the structure of the identified prevalence.

MATERIALS AND METHODS

The work was carried out of the Second Military Clinical Hospital of the National Guard Troops of the Russian Federation (Pyatigorsk) and of the Department of Surgery of the Yaroslavl State Medical University (Yaroslavl). The literature sources were searched in the eLibrary.ru and PubMed databases. Twenty clinical studies were selected (14 domestic and 6 foreign; 4,337 and 13,024,812 participants respectively), conducted from 2010 to 2023.

Inclusion criteria: articles describing symptomatic (‘stress-related’) lesions of the mucous membrane of the gastrointestinal tract in the form of ulcers and erosions.

The following nosologies were taken into account: esophageal erosions (K22.1 according to the International Statistical Classification of Diseases and Related Health Problems, 10th revision), erosions and ulcers of the stomach (K25), erosions and ulcers of the duodenum (K26).

Exclusion criteria: works devoted to the description of only materials and methods of the study, not containing results in the form of quantitative data; systematic reviews (non-primary sources).

When searching, no restrictions were set regarding the type of participants (age and gender characteristics), study design, or study results.

It is accepted to divide symptomatic ulcers into groups by their type (drug-induced, hypoxic, endocrine, stress-related, etc.), however, we deliberately did not try to separately identify etiological factors, but tried to reflect modern trends in the prevalence of gastrointestinal erosions and ulcers in surgical hospitals of various profiles by combining the results of published studies.

The characteristics of the included studies are presented in Tables 1 and 2.

 

Table 1. Characteristics of domestic works included in the study

Authors and year of publication, number of literature source

Sample size

Proportion (%)

95% CI

Weight (%)

fixed

random

Kutateladze R.G. et al. (2011) [12]

117

69.231

60.028–77.432

2.71

7.18

Zaporozhchenko B.S. et al. (2012) [13]

415

63.614

58.781–68.252

9.56

7.28

Belova S.V. et al. (2014) [14]

140

87.857

81.271–92.765

3.24

7.20

Batyrova A.N. et al. (2014) [15]

120

100.000

96.973–100.000

2.78

7.19

Minushkin O.N. et al. (2015) [16]

50

34.000

21.205–48.765

1.17

7.01

Pirov U.M. et al. (2017) [17]

150

33.333

25.856–41.484

3.47

7.21

Marchenko A.A. et al. (2017) [18]

110

68.182

58.619–76.738

2.55

7.17

Pshukova E.M. et al. (2021) [19]

452

50.442

45.733–55.146

10.41

7.28

Terekhov I.S. (2023) [20]

22

100.000

84.563–100.000

0.53

6.66

Duyko V.V. et al. (2010) [21]

277

14.079

10.207–18.741

6.39

7.26

Shabaev R.M. et al. (2015) [22]

528

21.970

18.509–25.748

12.16

7.29

Wagner D.O. et al. (2016) [23]

29

13.793

3.889–31.664

0.69

6.80

Polyantsev A.A. et al. (2022) [24]

94

7.447

3.046–14.743

2.18

7.15

Alekseev A.A. et al. (2020) [1]

1,833

14.621

13.034–16.322

42.15

7.31

Total (fixed effects)

4,337

31.742

30.360–33.149

100.00

100.00

Total (random effects)

4,337

50.184

32.978–67.368

100.00

100.00

Note: CI — confidence interval

 

Table 2. Characteristics of foreign works included in the study

Authors and year of publication, number of literature source

Sample size

Proportion (%)

95% CI

Weight (%)

fixed

random

Li Z. et al. (2010) [25]

3,153

17.190

15.888–18.553

0.024

16.74

Kawauchi H. et al. (2013) [26]

57

100.000

93.733–100.000

0.00045

16.57

Huang G. et al. (2015) [27]

69

20.290

11.560–31.693

0.00054

16.60

Sakaguchi M. et al. (2017) [28]

1,749

100.000

99.789–100.000

0.013

16.74

Sakata Y. et al. (2019) [29]

71

54.930

42.662–66.773

0.00055

16.60

Fujimoto S. et al. (2021) [30]

13,019,713

1.700

1.693–1.707

99.96

16.75

Total (fixed effects)

13,024,812

1.707

1.700–1.714

100.00

100.00

Total (random effects)

13,024,812

53.526

9.813–93.973

100.00

100.00

Note: CI — confidence interval

 

Data analysis was performed using MedCalc® Statistical Software, version 22.009 (MedCalc Software Ltd, Belgium). The proportion method was used. The weighted mean for continuous variables with 95% confidence interval (CI) was assessed. In accordance with the recommendations of the Cochrane Community, statistical heterogeneity was estimated based on I2 value (%). The lower the value, the more homogeneous the sample data were and, accordingly, the more accurate and reliable was assessment of the effect. Thus, with I2 value of 0%, the studies were considered homogeneous, with 25%, statistical heterogeneity was assessed as low, with 50%, the studies were statistically considered heterogeneous; heterogeneity of 75% and above was assessed as statistically high.

RESULTS

The total population in the analyzed domestic studies was 4,337 (effect size), 31.742% (95% CI: 30.360–33.149) of them were diagnosed with symptomatic EULs of proximal GIT mucosa. The authors note a specific prevalence of uncomplicated symptomatic erosive-ulcerative lesions of the proximal GIT among patients of a multidisciplinary surgical hospital at different time intervals.

In nine of the presented studies (R.G. Kutateladze et al. (2011) [12], B.S. Zaporozhchenko et al. (2012) [13], S.V. Belova et al. (2014) [14], A.N. Batyrova et al. (2014) [15], O.N. Minushkin et al. (2015) [16], U.M. Pirov et al. (2017) [17], A.A. Marchenko et al. (2017) [18], E.M. Pshukova et al. (2021) [19], I.S. Terekhov et al. (2023) [20]), the incidence rate of acute EULs was higher than the average and amounted to 69.231 (95% CI: 60.028–77.432)%, 63.614 (95% CI: 58.781–68.252)%, 87.857 (95% CI: 81.271–92.765)%, 100.000 (95% CI: 96.973–100.000)%, 34.000 (95% CI: 21.205–48.765)%, 33.333 (95% CI: 25.856–41.484)%, 68.182 (95% CI: 58.619–76.738)%, 50.442 (95% CI: 45.733–55.146)% and 100 (95% CI: 84.563–100.000)% respectively. At the same time, in five other studies (V.V. Duiko et al. (2010) [21], R.M. Shabaev et al. (2015) [22], D.O. Wagner et al. (2016) [23], A.A. Alekseev et al. (2020) [1], A.A. Polyantsev et al. (2021) [24]), ‘stress-related’ erosive and ulcerative changes were found only in 14.078 (95% CI: 10.207–18.741) %, 21.970 (95% CI: 18.509–25.748)%, 13.793 (95% CI: 3.889–31.664)%, 14.621 (95% CI: 13.03–16.322)%, 7.447 (95% CI: 3.046–14.743)% respectively.

Statistical analysis of domestic studies showed high heterogeneity of samples: I2=99.13 (95% CI: 98.95–99.28)%, p <0.0001. The random effect of implementation was 50.184 (95% CI: 32.978–67.368)%. Kendall’s tau rank correlation coefficient for checking publication bias in clinical and epidemiological studies showed reliable values and was 0.07692, p=0.7016.

The combined population of foreign studies was 13,024,812 subjects (effect size), of which 1.707 (95% CI: 1.700–1.714)% of patients were diagnosed with symptomatic (‘stress-related’) erosive and ulcerative lesions of the mucous membrane of the proximal gastrointestinal tract.

In five studies: Z.Li et al. (2010) [25], H. Kawauchi et al. (2013) [26], G. Huang et al. (2015) [27], M. Sakaguchi et al. (2017) [28], Y. Sakata et al. (2019) [29], the incidence rate of acute EULs of the proximal gastrointestinal tract was higher than the average and was 17.190 (95% CI: 15.888–18.553)%, 100.000 (95% CI: 93.733–100.000)%, 20.290 (95% CI: 11.560–31.693)%, 100.000 (95% CI: 99.789–100.000)%, 54.930 (95% CI: 42.662–66.773)% respectively. And only in one study by S. Fujimoto et al. (2021) [30] this indicator was below average — 1.700 (95% CI: 1.693–1.707)% (see Table 2).

Assessment of the statistical significance of the studies conducted by foreign colleagues showed a similar high heterogeneity of the samples — I2=99.97 (95% CI: 99.97–99.97)% at p <0.0001, which confirms the statistical heterogeneity of the analyzed works. The random effect of implementation was 53.526 (95% CI: 9.813–93.973)%. The Kendall’s tau rank correlation coefficient for checking publication bias in clinical and epidemiological studies showed reliable values and was 0.06667 at p=0.8510.

The above quantitative results of the studies demonstrate true statistical indicators and not significant ones. A brief report of the conducted analytical research is clearly presented in the form of graphic portraits (forest graph and funnel scatter plot).

The studies by E.M. Pshukova et al. (2021) [19], A.A. Marchenko et al. (2017) [18] and U.M. Pirov et al. (2017) [17] demonstrated the true prevalence of uncomplicated EULs of proximal GIT within the mean values. The remaining 11 domestic studies have statistically significant values, however, they do not show normal distribution relative the overall mean of all studies at p <1.0 (Figure 1).

 

Fig. 1. Forest plot and funnel diagram of indicators of groups included in the studies of domestic authors.

 

The study by Y. Sakata et al. (2019) [29] demonstrate the true prevalence of uncomplicated EULs of the proximal GIT within the mean values. In the remaining 5 foreign studies, statistically significant values are recorded, however, they do not show normal distribution relative the overall mean of all studies at p <1.0 (Figure 2).

 

Fig. 2. Forest plot and funnel diagram of the indicators of groups included in the studies of foreign authors.

 

DISCUSSION

The obtained results reflect a high heterogeneity of samples, which shows not only peculiarities of prevalence of EULs of the proximal GIT in each category of patients of a surgical hospital, but also a baseline health condition, existence of concomitant diseases, and also the severity of organ functional and metabolic disorders with the underlying surgical endotoxicosis and surgical trauma.

An analysis of the incidence of EULs of the gastrointestinal tract taking into account the age, gender and a surgical hospital profile showed predominance of male patients (71.4%) with the mean age 49 to 55 years in trauma hospitals, including those of neurosurgical profile, abdominal, purulent surgery, oncology hospitals, and also among patients in critical conditions in the intensive care unit.

The data obtained are not random and indicate the existence of certain causal factors influencing the prevalence of symptomatic acute EULs. We present the main causal factors underlying the occurrence of EUs of the upper GIT, from the clinical studies by E.M. Pshukova et al. (2021) [19], A.A. Marchenko et al. (2017) [18], U.M. Pirov (2017) et al. [17] and Y. Sakata et al. (2019) [29] with true statistical indicators.

A.A. Marchenko et al. (2017), based on a retrospective study of medical records of 110 patients of the purulent surgery department, identified the following causes of the EULs of the upper GIT: recurrent peptic ulcer in history, age over 61, mechanical lung ventilation for more than 48 hours and the amount of the performed surgical intervention.

U.M. Pirov et al. (2017) in their study on an example of 150 patients with severe brain injury demonstrated a direct relationship between the identified destructive changes in the gastrointestinal tract and the severity of this injury (33.3%) [17].

The study by E.M. Pshukova et al. (2021), based on 452 morphological studies of gastrobiopsies of patients with EULs of the proximal GIT, showed the presence of microcirculation disorders, H. pylori (Hp), chronic inflammation in such patients, which allowed the authors to make a conclusion about the existence of chronic Hp-associated gastritis in this category of patients [19].

Y. Sakata et al. (2019) in the period from 2009 to 2016, based on the results of endoscopy, proved the role of age, male gender, medication use, concomitant diseases, need for emergency endoscopy, presence of duodenal lesions, arterial hypertension and impaired renal function in the occurrence of destructive changes in the mucous membrane of the gastrointestinal tract [29].

S. Fujimoto et al. (2021), based on the latest trends in destructive lesions of the gastrointestinal tract presented in a large-scale study in Japan, noted the importance of therapeutic preventive strategies [30].

Summarizing the said above, causes of symptomatic (‘stress-related’) lesions of the proximal part of the GIT include age, gender, the amount of surgical intervention, severity of injury, mechanical lung ventilation for more than 48 hours, repeated reconstructive surgeries, burdened gastroenterological history (peptic ulcer), Hp infection, evident microcirculation disorders and chronic inflammation of the proximal GIT, medication use, coexisting severe somatic pathology directly or indirectly associated with disorders in the hemostasis system. A fundamental role belongs to the absence of preventive measures, in particular, timely diagnosis, eradication therapy for positive Hp status and the prescription of proton pump inhibitors for negative Hp status.

CONCLUSION

Despite the enormous advances in gastroenterology and modern endoscopy, the prevalence of uncomplicated acute erosive and ulcerative lesions of the proximal gastrointestinal tract varies widely depending on the type of surgical hospital: from 7.4 to 100% according to domestic authors and from 1.7 to 100% according to foreign authors.

A multiplicity of etiological factors requires the attending physician to conduct preventive personalized therapeutic strategies for the pathology under study. Further study of the comprehensive potential impact of other risk factors on the condition of the upper digestive organs is necessary to prevent the development of such lesions and select the optimal treatment option.

ADDITIONAL INFORMATION

Author contributions. L.A. Ushaeva — collection and processing of data, writing the text; D.V. Zavyalov — concept and design of the study, editing; L.B. Shubin — concept and design of the study, statistical analysis of materials, editing; I.N. Staroverov, Yu.V. Chervyakov, S.N. Pamputis — editing. All authors approved the manuscript (the publication version), agreed to be responsible for all aspects of the work, ensuring proper consideration and resolution of issues related to the accuracy and integrity of any part of it.

Ethics approval. Not applicable.

Funding sources. No funding.

Disclosure of interests. The authors have no relationships, activities or interests for the last three years related with for-profit or not-for-profit third parties whose interests may be affected by the content of the article.

Statement of originality. The authors did not use previously published information (text, illustrations, data) when creating this work.

Data availability statement. The editorial policy regarding data sharing does not applicable to this work, and no new data were collected or created.

Generative AI. Generative AI technologies were not used for this article creation.

Provenance and peer-review. This work was submitted to the journal on its own initiative and reviewed according to the usual procedure. Two external reviewers, a member of the editorial board and the scientific editor of the publication participated in the review.

×

About the authors

Lyudmila A. Ushaeva

Second Military Clinical Hospital of the National Guard Troops of the Russian Federation; Yaroslavl State Medical University

Author for correspondence.
Email: analitika2301@mail.ru
ORCID iD: 0009-0007-6037-8960
SPIN-code: 7169-8706

MD, Cand. Sci. (Medicine)

Russian Federation, Pyatigorsk; Yaroslavl

Dmitry V. Zavyalov

Yaroslavl State Medical University

Email: zavialoff@mail.ru
ORCID iD: 0000-0002-9173-6878
SPIN-code: 8048-7985

MD, Dr. Sci. (Medicine), Associate Professor

Russian Federation, Yaroslavl

Leonid B. Shubin

Yaroslavl State Medical University

Email: LBSH@yandex.ru
ORCID iD: 0000-0003-4562-7731
SPIN-code: 8021-7289

MD, Cand. Sci. (Medicine), Associate Professor

Russian Federation, Yaroslavl

Ilya N. Staroverov

Yaroslavl State Medical University

Email: istaroverov@mail.ru
ORCID iD: 0000-0001-9855-9467
SPIN-code: 8011-7176

MD, Dr. Sci. (Medicine), Professor

Russian Federation, Yaroslavl

Yuri V. Chervyakov

Yaroslavl State Medical University

Email: cheryurval@yandex.ru
ORCID iD: 0000-0001-5270-9968
SPIN-code: 9857-8974

MD, Dr. Sci. (Medicine), Professor

Russian Federation, Yaroslavl

Sergey N. Pamputis

Yaroslavl State Medical University

Email: pamputis@yandex.ru
ORCID iD: 0000-0002-7880-1081
SPIN-code: 1844-2128

MD, Dr. Sci. (Medicine), Professor

Russian Federation, Yaroslavl

References

  1. Alekseev AA, Bobrovnikov AE. Erosive and ulcerative lesions of gastrointestinal tract in patients with burns. Pirogov Russian Journal of Surgery. 2020;(12):38–45. doi: 10.17116/hirurgia202012138 EDN: GDQUJH
  2. Ivashkin VT, Sheptulin AA, Mayev IV, et al. Russian gastroenterological association clinical guidelines on diagnostics and treatment of NSAIDs-associated erosive and ulcerative lesions of the stomach and duodenum. Russian Journal of Gastroenterology, Hepatology, Coloproctology. 2014; 24(6):89–94. EDN: TEYXBD
  3. Kutukov VV, Duyko VV, Sloovko LV. The prophylaxis of acute erosive-ulcer damages of alimentary tract in surgical intervention on the large intestine and retroperitoneal organs. Ural Medical Journal. 2010;(04):8–12. EDN: MVLNGV
  4. Kurygin AA, Skryabin ON. Ostryye posleoperatsionnyye gastroduo-denal'nyye yazvy. Saint Petersburg: Sfinks; 1996. (In Russ.) EDN: DVSQNB
  5. Fennerty MB. Pathophysiology of the upper gastrointestinal tract in the critically ill patient: rationale for the therapeutic benefits of acid suppression. Crit Care Med. 2002;30(6 Suppl):S351–S355. doi: 10.1097/00003246-200206001-00002
  6. Vlasova TV, Shkarin VV, Solovieva EV, et al. Cardiovascular and gastrointestinal communication: predictive value for comorbid patient. Medical Council. 2017;(7):98–101. doi: 10.21518/2079-701X-2017-7-98-101 EDN: ZDNNZF
  7. Sheptulin AA. Symptomatic gastroduodenal ulcers. Medical Council. 2015; (4):72–75. doi: 10.21518/2079-701X-2015-4-72-75 EDN: TPPUAZ
  8. Kostyukevich OI, Karnuta GG. Symptomatic (secondary) gastroduodenal ulcers in clinical practice. RMJ. 2016;(17):1153–1157. EDN: XAKXPN
  9. Kasyanenko VI. Symptomatic erosive and ulcerative lesions of stomach and duodenum: drug therapy. Medical Council. 2013;(3-1):42–46. doi: 10.21518/2079-701X-2013-3-42-46 EDN: RVEQAB
  10. Gjerdevik M, Heuch I. Improving the error rates of the Begg and Mazumdar test for publication bias in fixed effects meta-analysis. BMC Med Res Methodol. 2014;14:109. doi: 10.1186/1471-2288-14-109 EDN: DQZLVW
  11. Swingler GH, Volmink J, Ioannidis JPA. Number of published systematic reviews and global burden of disease: database analysis. BMJ. 2003;327(7423):1083–1084. doi: 10.1136/bmj.327.7423.1083
  12. Kutateladze RG, Zobnin YuV, Fedorets SS, et al. Opyt primeneniya protivoyazvennoy terapii s tsel'yu profilaktiki i lecheniya erozivno-yazvennykh izmeneniy slizistoy verkhnego otdela zheludochno-kishechnogo trakta u patsiyentov s travmami oporno-dvigatel'nogo apparata na baze travmatologicheskogo otdeleniya RSAHI «Medsanchast' IAPO». In: Vestnik Obshchestvennoy organizatsii «Assotsiatsiya khirurgov Irkutskoy oblastI»: materialy XXIII s"yezda Assotsiatsii khirurgov Irkutskoy oblasti i nauchno-prakticheskoy konferentsii, Irkutsk, 29 April 2016. Irkutsk; 2016;(16):74–75. (In Russ.)
  13. Zaporozhchenko BS, Gorbunov AA, Muravyov PT. Modern approaches to the management of early postoperative period in patients in aspect of prevention of stress-induced erosive-ulcerative lesion of gastrointestinal tract. Emergency Medicine. 2012;(4):66–68. EDN: RBQZHD
  14. Belova SV. Eremina OV, Midlenko VI, et al. Local treatment of ulcerous diseases of stomach and duodenum patients with pathology of hepatobiliary zone. Journal of New Medical Technologies. 2009;XVI(2):193–195. EDN: LAMXPN
  15. Batyrova AN. Role of stress and adaption in the development of erosive-ulcerous lesions of gastrointestinal tract (review article). Vestnik KRSU. 2014;14(1):183–185. (In Russ.) EDN: RXODGL
  16. Minushkin ON, Maslovskiy LV, Shuleshova AG, Nazarov NS. Pathogenesis, diagnosis and treatment of reflux esophagitis in patients after gastric surgery. Medical Council. 2015;(13):14–19. doi: 10.21518/2079-701X-2015-13-14-19 EDN: UNSZDZ
  17. Pirov UM, Kurbonov KM, Nazirboev KR. Prevention and treatment of acute gastric damage syndrome in patients with severe cerebral injury. Healthcare of Tajikistan. 2017;(3):61–65. EDN: ZIOSNL
  18. Marchenko AA, Sonis AG, Yurchenko IN. Prevention of syndrome of acute lesion of the stomach in patients of purulent surgical department. Aspirantskiy Vestnik Povolzhiya. 2015;15(5-6):137–139. doi: 10.17816/2072-2354.2015.0.5-6.137-139 EDN: WXOGPT
  19. Pshukova EM, Kamaeva FB, Musukaeva AB. Morphological changes in the mucous membrane of the stomach and duodenum in acute erosive — ulcerative lesions of various etiological origin. National Association of Scientists. 2021;(73-3):9–11. doi: 10.31618/nas.2413-5291.2021.3.73.503 EDN: JCLAHK
  20. Terehov IS, Klicenko OA, Bautin AE, et al. Assessment of Risks for Gastrointestinal Bleeding in Patients with Brain Injury. General Reanimatology. 2023;19(4):12–19. doi: 10.15360/1813-9779-2023-4-2302 EDN: DIZPDM
  21. Kutukov VV, Oganesyan YuV, Duyko VV, Sluvko LV. The prophylaxis of acute erosive-ulcerous damages of upper parts of the digestive tract in operations in connection with colorectal cancer. Kuban Scientific Medical Bulletin. 2010;(2):51–53. EDN: MBCUTZ
  22. Shabaev RM, Smolkina AV, Zaytsev AV, et al. Syndrome of acuta lesion of the stomach of patients with critical ischemia of the lower extremities. Modern Problems of Science and Education. 2015;(2, Pt 1):22. Available from: https://science-education.ru/ru/article/view?id = 17356. Accessed: 20.01.2024. EDN: UHWWZD
  23. Vagner DO, Shlyk IV, Yurina VN. Risk factors of erosive ulcer lesion of stomach and duodenum in those suffering from severe thermal injury. Messenger of Anesthesiology and Resuscitation. 2016;13(2):13–20. doi: 10.21292/2078-5658-2016-13-2-13-20 EDN: VTNNFX
  24. Poliantsev AA, Frolov DV, Linchenko AM, et al. Prevention of gastrointestinal bleeding in patients operated on the arteries of the lower extremities for critical ischemia. Experimental and Clinical Gastroenterology. 2022;207(11):160–170. doi: 10.31146/1682-8658-ecg-207-11-160-170 EDN: MMKLNH
  25. Li Z, Zou D, Ma X, et al. Epidemiology of peptic ulcer disease: endoscopic results of the systematic investigation of gastrointestinal disease in China. Am J Gastroenterol. 2010;105(12):2570–2577. doi: 10.1038/ajg.2010.324
  26. Kawauchi H, Ohta T, Matsubara Y, et al. [Clinicopathological study of acute esophageal mucosal lesion]. Nihon Shokakibyo Gakkai Zasshi. 2013;110(7):1249–1257. (In Japan.)
  27. Huang G, Liang B, Liu G, et al. Low dose of glucocorticoid decreases the incidence of complications in severely burned patients by attenuating systemic inflammation. J Crit Care. 2015;30(2):436.e7-11. doi: 10.1016/j.jcrc.2014.09.016
  28. Sakaguchi M, Manabe N, Ueki N, et al. Factors associated with complicated erosive esophagitis: A Japanese multicenter, prospective, cross-sectional study. World J Gastroenterol. 2017;23(2):318–327. doi: 10.3748/wjg.v23.i2.318
  29. Sakata Y, Tsuruoka N, Shimoda R, et al. Comparison of Clinical Characteristics of Patients with Acute Esophageal Mucosal Lesion and those with Severe Reflux Esophagitis. Digestion. 2019;99(4):275–282. doi: 10.1159/000492492
  30. Fujimoto S, Tsuruoka N, Esaki M, et al. Decline incidence in upper gastrointestinal bleeding in several recent years: data of the Japan claims database of 13 million accumulated patients. J Clin Biochem Nutr. 2021;68(1):95–100. doi: 10.3164/jcbn.20-153 EDN: KBSTEC

Supplementary files

Supplementary Files
Action
1. JATS XML
Download
2. Fig. 1. Forest plot and funnel diagram of indicators of groups included in the studies of domestic authors.

Download (132KB)
Indexing metadata
3. Fig. 2. Forest plot and funnel diagram of the indicators of groups included in the studies of foreign authors.

Download (95KB)
Indexing metadata

Copyright (c) 2025 Eco-Vector

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Media Registry Entry of the Federal Service for Supervision of Communications, Information Technology and Mass Communications (Roskomnadzor) PI No. FS77-76803 dated September 24, 2019.