Endoscopic Management of Mallory-Weiss Tearing

Article information

Clin Endosc. 2015;48(2):102-105
Publication date (electronic) : 2015 March 27
doi : https://doi.org/10.5946/ce.2015.48.2.102
Department of Internal Medicine, Chonnam National University Medical School, Gwangju, Korea.
Correspondence: Hyun-Soo Kim. Department of Internal Medicine, Chonnam National University Medical School, 42 Jebong-ro, Dong-gu, Gwangju 501-757, Korea. Tel: +82-62-220-6215, Fax: +82-62-228-1330, dshskim@jnu.ac.kr
Received 2015 February 17; Accepted 2015 February 25.

Abstract

Mallory-Weiss tearing (MWT) is a common cause of non-variceal upper gastrointestinal bleeding. Although the majority of patients with bleeding MWT require no intervention other than hemodynamic supports, spectrum of MWT is wide, and the condition sometimes results in a fatal outcome. Endoscopic management to stop the bleeding may be required during the index endoscopy, especially in those with active bleeding or stigmata of recurrent bleeding. Most commonly used endoscopic treatment for actively bleeding MWT is injection therapy, argon plasma coagulation, hemoclip placement, and band ligation. Selection of the optimal endoscopic hemostasis depends on the physician's ability and patient's clinical status.

INTRODUCTION

Mallory-Weiss tearing (MWT) is characterized by linear, non-perforating mucosal laceration at the lower part of the esophagus and/or upper part of the stomach. Mallory and Weiss first described MWT in 15 alcoholic patients with retching and vomiting in 1929.1 MWT rarely occurs after retching during endoscopic examination. It is a common cause of non-variceal upper gastrointestinal (UGI) bleeding, with an incidence of 5% to 15%.2 Although most patients with bleeding MWT require no intervention other than hemodynamic support, the spectrum of MWT is wide, and the condition sometimes results in a fatal outcome. Endoscopic management to stop the bleeding may be required during the index endoscopy, especially in those with active bleeding or stigmata of recurrent bleeding.

ENDOSCOPIC MANAGEMENT

Indication

MWT is a common cause of non-variceal UGI bleeding. Although most bleeding stops spontaneously andmost patients can be managed with observation or conservative medical treatment, some patients require endoscopic or surgical treatment. The need for intensive care, including endoscopic hemostasis, has been proposed for patients with risk factors such as portal hypertension or coagulopathy. Endoscopic examination for diagnosis and treatment is required in patients with active bleeding MWT (e.g., arterial spurting and diffuse oozing). Stigmata (e.g., non-bleeding visible vessel and adherent clots) on index endoscopy do not necessarily require endoscopic treatment unless a rebleeding episode has occurred or they are associated with coagulopathy. Endoscopic hemostasis is the treatment of choice in such cases. The most commonly used endoscopic treatments for actively bleeding MWT are injection therapy, contact thermal treatment, argon plasma coagulation (APC), hemoclip placement, and band ligation (Fig. 1).

Fig. 1

Endoscopic treatment of Mallory-Weiss tearing. (A) Injection therapy. (B) Band ligation. (C) Hemoclipping.

Endoscopic injection therapy

Various agents are used in endoscopic injection therapy but epinephrine is used most frequently. Injection therapy is a simple, easily applicable and relatively inexpensive first-line therapy. Epinephrine injection therapy improves outcomes in terms of rate of recurrent bleeding, hospital stay, and transfusion requirement compared with supportive measures alone.3 However, use of epinephrine for injection therapy can result in ventricular tachycardia because it is absorbed into the systemic circulation. Injection therapy should be avoided in patients with a history of coronary artery disease. Furthermore, controversy still exists regarding the volume of epinephrine needed for hemostasis. The hemostatic mechanisms of locally injected epinephrine are vascular contraction, mechanical compression against vessels, and platelet aggregation. Among these, mechanical compression is the most essential factor in the treatment of bleeding. Therefore, large-volume injection of epinephrine may be superior for preventing recurrent bleeding because of prolongation of mechanical vascular compression and vasoconstriction. However, it should be carefully administered because of the risk of systemic toxicity. A prospective, randomized study showed no observed rebleeding with large-volume epinephrine injection therapy.4

The hemostatic effect of epinephrine injection therapy alone in bleeding MWT is controversial. In one study, primary hemostasis of injection therapy was 100%, but the rebleeding rate was 5.8% to 44%.5 Several studies have reported that epinephrine injection therapy alone in actively bleeding MWT could lead to an increase in recurrent bleeding compared with mechanical hemostasis or combination therapy. Epinephrine injection therapy in MWT may be insufficient for patients with a large and/or long plexus of vessels.6 For these reasons, epinephrine injection should be performed as combined therapy in MWT.

Endoscopic electrocoagulation

Simultaneous heat and pressure application to the bleeding lesion is possible by electrocoagulation. The effectiveness of coagulation in a wet field, such as a bleeding site, is decreased because the liquid dissipates the heat quickly. Proper positioning of the device has been quite demanding for lesions located on the lesser curvature of the cardia. Multipolar electrocoagulation has improved hemostasis significantly, reduced surgery in patients with actively bleeding MWT, and caused few complications.7 However, repetitive coagulation bears the risk of transmural injury and perforation because of the relatively thin esophageal wall and lack of serosa at the tear site.

APC is also used to treat bleeding MWT. The probe is placed at some distance from the site, and high-frequency electrical current results in coagulation of the bleeding lesion. The lack of contact between the catheter and the tissue results in a superficial burn, reducing unwanted tissue damage and perforation.

Endoscopic hemoclip placement

Endoscopic hemoclip placement is an easy-to-use procedure for treating bleeding lesions in nonfibrotic tissue such as MWT or Dieulafoy ulcer. However, because of the MWT bleeding location at the gastroesophageal (GE) junction, hemoclip placement is challenging and is probably more technically difficult. A recently developed rotational mechanism on the delivery catheter allows controlled orientation of the hemoclip and easy access to the GE junction. However, hemoclip detachment in the GE junction is frequently seen because of high amplitude contractions at this anatomic site. In the case of a deeper tear extension such as with Boerhaave syndrome, endoclip placement can fix both tearing edgesto close the perforated lesion. Application of clips and endoloops in large-diameter and long esophageal tears to bring together the edges of the tears has also been reported.8

In a Japanese study of endoscopic hemostasis with metallic hemoclips for iatrogenic and other causes of MWT, initial hemostasis was 100% in both groups; rebleeding was 0% in the former group and 5% in the latter group.9 Another study, comparing the efficacy of band ligation and hemoclip placement in patients with bleeding MWT, found that the two procedures were equivalent for primary hemostasis (100%) and rebleeding rate (6% vs. 10%, respectively).10 Thus, hemoclip placement and band ligation seem to provide safe and effective management of bleeding MWT. However, in combined therapy with epinephrine injection and hemoclipping, prior injection of epinephrine could lead to tissue edema at the bleeding site, which can interrupt clip placement or promote clip detachment.11

Endoscopic band ligation

The main advantage of endoscopic band ligation (EBL) is its technical ease compared with other hemostatic procedures. In EBL, the lesion is well viewed tangentially under direct pressure from a transparent ligation cap. EBL is highly useful for bleeding lesions in nonfibrotic tissue, and esophageal perforation nearly occurs. The transparent cap facilitates the performance of EBL by immobilizing the bleeding site and eliminating movement from peristalsis and belching. The visible vessel is ligated in its deeper aspect, providing definitive hemostasis and firm placement of the ligated band. Moreover, large MWT can be treated with one single band ligation.

In a French study, EBL was safe and efficient for primary hemostasis of bleeding MWT. Furthermore, significantly less recurrent bleeding occurred in patients treated with EBL compared with hemoclips combined with epinephrine.11

OUTCOMES

Initial hemostatic ratios for MWT are given as 94% to 100% for endoscopic hemoclipping, 100% for EBL, 93% to 100% for endoscopic injection therapy, and 77% for endoscopic electrocoagulation. Several complications have been reported in endoscopic treatment of MWT, such as ventricular tachycardia after epinephrine injection12 and esophageal perforation after injection or coagulation therapy.13 A study of predictive factors for recurrent bleeding in MWT was performed in Korea.14 Recurrent bleeding was seen in 17 (10.7%) of 159 patients with MWT and was associated with shock at initial manifestation and evidence of active bleeding on endoscopic examination. Other known risk factors of rebleeding of MWT are coagulopathy and low hemoglobin levels.15

CONCLUSIONS

MWT is an important common cause of UGI bleeding, and most MWT bleeding stops spontaneously. For actively bleeding MWT, the most frequently used endoscopic treatments are injection therapy, APC, hemoclip placement, and band ligation. Selection of the optimal approach to endoscopic hemostasis depends on the physician's ability and the patient's clinical status.

Notes

Conflicts of Interest: The author has no financial conflicts of interest.

References

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Fig. 1

Endoscopic treatment of Mallory-Weiss tearing. (A) Injection therapy. (B) Band ligation. (C) Hemoclipping.