{"id":13397,"date":"2017-07-05T22:04:40","date_gmt":"2017-07-05T22:04:40","guid":{"rendered":"http:\/\/phosdev.com\/todaysveterinarypractice\/?p=13397"},"modified":"2022-02-21T20:18:15","modified_gmt":"2022-02-21T20:18:15","slug":"gastric-dilatation-volvulus-stabilization-surgery","status":"publish","type":"post","link":"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/gastroenterology\/gastric-dilatation-volvulus-stabilization-surgery\/","title":{"rendered":"Gastric Dilatation and Volvulus: Stabilization and Surgery"},"content":{"rendered":"<p>Gastric dilatation and volvulus (GDV) is an acute, life-threatening disorder in dogs, characterized by abnormal twisting of the stomach on its mesenteric axis, with subsequent gastric gas accumulation and distention. Sequelae of GDV can include decreased venous return to the heart, hypovolemia, gastric ischemia, systemic hypotension, myocardial injury, portal hypertension, shock, sepsis, and disseminated intravascular coagulation.<\/p>\n<h2>Signalment and Presentation<\/h2>\n<p>Large and deep-chested dog breeds are considered to be the most at risk for GDV, including the German shepherd, Great Dane, standard poodle, Saint Bernard, Doberman pinscher, Irish setter, and Weimaraner.<sup>1<\/sup> Even medium- and small-breed dogs with a deep chest conformation, including shar-peis, basset hounds, and cocker spaniels, can develop GDV. Most patients are middle-aged to older, and incidence of GDV increases with increasing age.<sup>2<\/sup> The most commonly reported potential risk factors for GDV are listed in <strong>Box 1<\/strong>.<sup>2\u20139<\/sup><\/p>\n<div class=\"orange-box\">\n<div class=\"su-box su-box-style-default .content-box-blue { background-color: #F0F8FF; border-left: 8px solid #CEE1EF; font-size: 18px; }\" id=\"\" style=\"border-color:#606060;border-radius:3px;\"><div class=\"su-box-title\" style=\"background-color:#939393;color:#ffffff;border-top-left-radius:1px;border-top-right-radius:1px\">BOX 1 Risk Factors Associated With Development of GDV<sup>2\u20139<\/sup><\/div><div class=\"su-box-content su-u-clearfix su-u-trim\" style=\"border-bottom-left-radius:1px;border-bottom-right-radius:1px\">\n<ul>\n<li>Large- or giant-breed dog<\/li>\n<li>Deep chest conformation (increased thoracic depth-to-width ratio)<\/li>\n<li>Increasing age<\/li>\n<li>Familial history, particularly having a first-degree relative with a history of GDV<\/li>\n<li>Previous episode of gastric dilatation<\/li>\n<li>Preexisting gastrointestinal disease or gastric foreign body<\/li>\n<li>History of previous splenectomy<\/li>\n<li>Large volume of food fed once daily<\/li>\n<li>Eating a meal quickly<\/li>\n<li>Dry dog food<\/li>\n<li>Eating from a raised food bowl<\/li>\n<li>Anxiety or stress<\/div><\/div><\/li>\n<\/ul>\n<\/div>\n<p>Clinical signs can include restlessness or pacing along with nonproductive vomiting or retching. Ptyalism, abdominal distention, weakness, or collapse may be observed. Dogs can present anywhere on a spectrum of clinical signs, from alert and wagging their tail, with normal pulse quality and only mild abdominal distention, to collapsed, in decompensated shock, or even dead.<sup>10<\/sup><\/p>\n<h2>Diagnostic Tests<\/h2>\n<p>Abdominal radiography, particularly the right lateral projection, is diagnostic for GDV. A healthy dog typically has no gas in the pylorus in right lateral recumbency. Conversely, in a dog with GDV, the stomach is dilated with gas, and radiography depicts the hallmark sign of compartmentalization (the \u201cdouble bubble\u201d) that signifies craniodorsal displacement of the pylorus, as shown in <strong>Figure 1<\/strong>. Ideally, an orthogonal projection (dorsoventral view) is also acquired, depending on patient stability. Presence of pneumoperitoneum suggests gastric rupture.<\/p>\n<div class=\"su-custom-gallery su-custom-gallery-align-left su-custom-gallery-title-hover su-lightbox-gallery\"><div class=\"su-custom-gallery-slide\" style=\"width:380px;height:380px\"><a href=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig01.jpg\" title=\"FIGURE 1. A 12-year-old male neutered German shorthaired pointer presented for abdominal distention and acute-onset retching. This right lateral abdominal radiograph shows compartmentalization and craniodorsal displacement of the pylorus, the hallmark sign of GDV.\"><img fetchpriority=\"high\" decoding=\"async\" src=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig01.jpg\" alt=\"FIGURE 1. A 12-year-old male neutered German shorthaired pointer presented for abdominal distention and acute-onset retching. This right lateral abdominal radiograph shows compartmentalization and craniodorsal displacement of the pylorus, the hallmark sign of GDV.\" width=\"380\" height=\"380\" \/><span class=\"su-custom-gallery-title\">FIGURE 1. A 12-year-old male neutered German shorthaired pointer presented for abdominal distention and acute-onset retching. This right lateral abdominal radiograph shows compartmentalization and craniodorsal displacement of the pylorus, the hallmark sign of GDV.<\/span><\/a><\/div><div class=\"su-clear\"><\/div><\/div>\n<p>Ideal blood analysis consists of complete blood count, serum chemistry, and a coagulation profile. Efficiently obtaining the results from these diagnostic tests is sometimes not possible; therefore, point-of-care assessment is often more practical: packed cell volume\/total solids; blood glucose; and venous blood gas, including electrolytes and lactate. Lactate, a marker of hypoperfusion and anaerobic metabolism, has been evaluated as a prognostic tool in patients with GDV. Study findings are summarized in <strong>Table 1<\/strong>.<sup>11\u201314<\/sup> Overall, higher lactate values are more suggestive of gastric necrosis and have a negative correlation with survival, particularly if hyperlactatemia does not substantially improve after fluid resuscitation. Regardless of the lactate value, surgical intervention is always recommended.<\/p>\n<p><strong>Table 1 Prognostic Variables Associated With Plasma Lactate<\/strong><\/p>\n<p>[ultimatetables 7 \/]<\/p>\n<p>Blood pressure and electrocardiography (ECG) are useful diagnostic tools to assess patient stability, monitor effectiveness of volume resuscitation, and evaluate for cardiac arrhythmias (see <strong>Preoperative Treatment and Stabilization<\/strong>).<\/p>\n<p>Thoracic radiographs can also be obtained in the preoperative period. Historically, this has been recommended in older patients to check for thoracic metastasis or other comorbidities, particularly if owners are having difficulty deciding whether to pursue surgery. One study found a negative association between survival and the presence of cardiomegaly, despite a low incidence of pulmonary nodules, demonstrating the prognostic utility of preoperative thoracic radiography.<sup>15<\/sup><\/p>\n<h2>Preoperative Treatment and Stabilization<\/h2>\n<p>For most patients, especially those that are severely affected, stabilization and treatment must be performed before or in conjunction with diagnostic testing. Immediate treatment goals are correction of hypovolemia and gastric decompression. <strong>Box 2<\/strong> summarizes therapeutic measures to consider during stabilization of a patient with GDV.<\/p>\n<div class=\"orange-box\">\n<div class=\"su-box su-box-style-default .content-box-blue { background-color: #F0F8FF; border-left: 8px solid #CEE1EF; font-size: 18px; }\" id=\"\" style=\"border-color:#606060;border-radius:3px;\"><div class=\"su-box-title\" style=\"background-color:#939393;color:#ffffff;border-top-left-radius:1px;border-top-right-radius:1px\">BOX 2 Therapeutic Measures for Stabilization of Dogs With GDV<\/div><div class=\"su-box-content su-u-clearfix su-u-trim\" style=\"border-bottom-left-radius:1px;border-bottom-right-radius:1px\">\n<ul>\n<li><strong>IV fluids:<\/strong> balanced isotonic crystalloids with or without colloids, hypertonic saline<\/li>\n<li><strong>Gastric decompression:<\/strong> orogastric intubation or percutaneous trocharization<\/li>\n<li><strong>Analgesia:<\/strong> pure mu agonist opioid<\/li>\n<li><strong>Antibiotics:<\/strong> broad-spectrum, particularly in patients with suspected gastric necrosis<\/li>\n<li><strong>Antiarrhythmics if needed, lidocaine:<\/strong> can also serve as a free radical scavenger<\/li>\n<li><strong>Consider procainamide or sotalol<\/strong> if lidocaine is ineffective<\/li>\n<li><strong>Oxygen supplementation:<\/strong> particularly in patients with poor perfusion measures<\/li>\n<li><strong>Fresh frozen plasma:<\/strong> for patients with prolonged coagulation times<\/li>\n<li><strong>Drugs that reduce reperfusion injury:<\/strong> unknown efficacy<\/div><\/div><\/li>\n<\/ul>\n<\/div>\n<p>Prompt <strong>vascular access<\/strong> is obtained with large-gauge, short IV catheters (16 or 18 gauge). Cephalic veins or jugular veins should be used because of the lack of blood flow from the caudal half of the body. Initial volume resuscitation with a balanced isotonic crystalloid solution is recommended. Initial fluid volumes should be administered in rapid boluses of one-third to one-quarter shock volumes. Monitoring perfusion parameters (<strong>Box 3<\/strong>) after fluid boluses is important in assessing response to therapy. Additional fluid boluses and addition of synthetic colloid boluses or hypertonic saline may be required, depending on individual patient needs.<\/p>\n<div class=\"orange-box\">\n<div class=\"su-box su-box-style-default .content-box-blue { background-color: #F0F8FF; border-left: 8px solid #CEE1EF; font-size: 18px; }\" id=\"\" style=\"border-color:#606060;border-radius:3px;\"><div class=\"su-box-title\" style=\"background-color:#939393;color:#ffffff;border-top-left-radius:1px;border-top-right-radius:1px\">BOX 3 Parameters to Monitor for Effectiveness of Fluid Resuscitation<\/div><div class=\"su-box-content su-u-clearfix su-u-trim\" style=\"border-bottom-left-radius:1px;border-bottom-right-radius:1px\">\n<ul>\n<li>Mentation<\/li>\n<li>Heart rate<\/li>\n<li>Peripheral pulse quality<\/li>\n<li>Mucous membrane color<\/li>\n<li>Capillary refill time<\/li>\n<li>Blood pressure<\/li>\n<li>Lactate<\/div><\/div><\/li>\n<\/ul>\n<\/div>\n<p><strong>Gastric decompression<\/strong> should be performed as soon as possible. This can be achieved by passing a smooth-surfaced orogastric tube or via percutaneous trocharization. When an orogastric tube is passed in an awake patient, sedation (with a pure mu agonist opioid) is typically required, as is holding the patient\u2019s mouth open with a roll of tape or gauze between the incisor teeth. Alternatively, the orogastric tube can be passed with the patient under general anesthesia; the presence of an endotracheal tube will help limit the risk for accidental aspiration of gastric contents.<\/p>\n<p>Before an attempt to pass a gastric tube, the tube should be lubricated and premeasured to the level of the last rib. Twisting the tube when slight resistance is felt can facilitate passage of the tube into the stomach; however, caution must be used to avoid perforating the esophagus. When passing the gastric tube is difficult, decompression via trocharization may facilitate passage. After successful passage of the tube, observation of hemorrhage or mucosal tissue in the gastric contents can provide an index of suspicion of gastric necrosis and mucosal sloughing.<\/p>\n<p><strong>Trocharization<\/strong> can be performed in an awake or anesthetized patient: To perform trocharization, an area of skin on either side of the cranial dorsolateral abdomen should be clipped and aseptically prepared before puncture of the skin, body wall, and stomach with a large-bore needle (ie, 14 gauge) or over-the-needle catheter. The site of greatest distention or greatest tympany can be used. Gas and liquid may escape; pressure can be applied to the body wall to facilitate decompression.<\/p>\n<p>A rationale exists for the use of <strong>antibiotics<\/strong> in patients with GDV: there is the presumed risk for bacterial translocation with gastric mucosal compromise and increased mucosal permeability, as well as venous stasis and poor hepatic perfusion, likely resulting in inhibition of reticuloendothelial function.<\/p>\n<p>Ventricular arrhythmias are reported in up to 40% of dogs with GDV; therefore, <strong>continuous ECG<\/strong> should be monitored.<sup>1<\/sup> Ventricular arrhythmias that could decrease cardiac output or develop into ventricular fibrillation (specifically, ventricular tachycardia, R-on-T phenomenon, or multiform ventricular premature contractions) should be treated with IV lidocaine boluses initially, followed by a constant rate infusion if the bolus is successful in converting the rhythm to a sinus rhythm. If lidocaine is not successful in converting the rhythm, procainamide or sotalol can be administered (Box 2).<\/p>\n<p>Other therapeutic modalities to consider include oxygen supplementation, especially in patients with signs of poor perfusion; fresh frozen plasma transfusion if indicated based on prolonged coagulation times or evidence of disseminated intravascular coagulation; or dextrose supplementation if a patient is hypoglycemic from septic shock. There may be a role for pharmacologic methods to reduce reperfusion injury, but consistent data on their efficacy are lacking.<sup>16<\/sup><\/p>\n<p>When possible, complete fluid resuscitation (characterized by normalization of perfusion measures listed in <strong>Box 3<\/strong>) should be attempted before surgery because increased time from presentation to surgery has been associated with a lower mortality rate.<sup>17<\/sup> Survival is positively affected by the time spent adequately stabilizing the patient; however, surgery should always be performed in a timely manner to limit the duration of splenic and gastric ischemia.<\/p>\n<p>General anesthetic protocols vary depending on patient status; anesthetic agents that are arrhythmic or cardiac depressants should be avoided. Typical premedications consist of a pure mu agonist opioid and a benzodiazepine, induction agents (such as etomidate or propofol), and an inhalant to maintain anesthesia. Monitoring of response to treatment and adjusting fluid therapy accordingly are still crucial during the intraoperative period.<\/p>\n<p>Survival is positively affected by the time spent adequately stabilizing the patient; however, surgery should always be performed in a timely manner to limit the duration of splenic and gastric ischemia.<\/p>\n<div class=\"orange-box\">\n<div class=\"su-spacer\" style=\"height:20px\"><\/div>\n<\/div>\n<h2>Surgery<\/h2>\n<p>Surgery has 3 goals:<\/p>\n<ol>\n<li>Reposition the abnormally positioned stomach. Typically, a clockwise volvulus has occurred; therefore, the fundus can be pushed dorsally while pulling the pylorus ventrally and toward the right.<\/li>\n<li>Critically evaluate the abdominal viscera. Allow time for organs to reperfuse, and confirm correct gastric positioning. If necessary, perform partial gastric resection or splenectomy to remove necrotic tissue.<\/li>\n<li>Perform a right-sided gastropexy to create a permanent adhesion between the pyloric antrum and the adjacent right body wall.<\/li>\n<\/ol>\n<h3>Gastric Repositioning<\/h3>\n<p>A ventral midline celiotomy is performed. Adequate exposure is essential and the incision should extend from xiphoid to pubis. When the surgeon first enters the abdomen, the greater omentum is usually covering the stomach and should be gently retracted. Derotation of the stomach is facilitated by decompressing the gas distention, either by the anesthetist passing an orogastric tube or by the surgeon evacuating the air with a large-gauge needle. The typical direction of volvulus is clockwise, with rotation of 180\u00b0 to 270\u00b0 being most common. In most cases, the stomach can be repositioned with the surgeon standing on the dog\u2019s right side to push the fundus dorsally and to the dog\u2019s left while simultaneously gently pulling the pylorus (located on the left initially) ventrally and toward the surgeon on the right.<\/p>\n<p>After repositioning, confirmation of normal gastric position is crucial. Although rare, a counterclockwise volvulus or a rotation through a rent in the splenic mesentery is possible, so the surgeon should always verify correct stomach positioning via careful observation and palpation of the gastroesophageal junction.<\/p>\n<h3>Evaluation of Abdominal Viscera<\/h3>\n<p>There is often free peritoneal blood due to avulsion of the short gastric arteries and veins when the stomach distends and rotates. Bleeding has typically ceased by the time of surgery, but if hemorrhage is ongoing, these vessels should be ligated.<\/p>\n<p>It is important to allow time for organs to reperfuse after gastric repositioning and before performing splenectomy or partial gastrectomy. The stomach should be palpated for any evidence of foreign material,<sup>4<\/sup> and the entire stomach, especially the greater curvature and dorsal aspect, should be carefully evaluated for necrosis. Gastric necrosis is reported in 13% to 20.5% of patients.<sup>1,17\u201319<\/sup> Necrotic areas can be identified by their black, grey\/white, or green serosal color; thin texture on palpation; or lack of serosal capillary perfusion. If gastric necrosis is present, placement of stay sutures in visibly normal tissue helps to manipulate the stomach, plan gastric resection, and limit potential spillage of gastric contents into the abdomen.<\/p>\n<p>Partial gastrectomy can be performed via resection and hand-sewn 2-layer closure or by using surgical stapling equipment. All nonviable tissue should be resected; normal tissue will have bleeding from the cut surface, particularly the muscularis layer. The appearance of the mucosal tissue should not be used to guide resection. The limiting factor for the surgeon\u2019s ability to perform resection is the anatomic location of necrosis and concern for esophageal lumen diameter, specifically when necrotic areas involve the cardia and esophagus.<\/p>\n<p>The need for splenectomy because of irreversible vascular devitalization or thrombosis is reported in approximately 16% to 22% of patients.<sup>17\u201319<\/sup> A nonviable spleen has a spongy texture, lack of pulse in the splenic artery, and a black or grey color that does not improve after gastric repositioning. Splenectomy may be performed using ligation, stapling equipment, or vessel sealant devices.<\/p>\n<h3>Right-Sided Gastropexy<\/h3>\n<p>A gastropexy is the creation of a permanent adhesion between the stomach at the level of the pyloric antrum and the adjacent right body wall. Numerous techniques for performing right-sided gastropexy for GDV are described, including incisional, belt-loop, circumcostal, ventral incision\/incorporating, stapled, tube, and laparoscopic assisted. For successful adhesion formation, the muscular layers of the body wall and the stomach should be joined. Achieving an anatomically correct gastropexy is important to prevent potential complications, such as gastric outflow obstruction.<sup>20<\/sup> No study has compared all the different techniques simultaneously; however, these techniques reportedly have similar rates of morbidity, adhesion formation, strength, and recurrence.<sup>21\u201323<\/sup><\/p>\n<p><em>Technique for Right Incisional Gastropexy<\/em><\/p>\n<p>Right incisional gastropexy is the most commonly performed technique because of its technical ease, low risk of morbidity, no need for additional instrumentation, and effective production of a permanent adhesion.<sup>24<\/sup> The site of gastropexy is first planned by manually apposing the stomach to the body wall to ensure an anatomically appropriate site. To aid in visualization, the Balfour retractor can be removed, and assistants standing on the right side of the dog can retract the abdominal wall with towel clamps or Army-Navy retractors. The surgeon can change position at the table and stand on the dog\u2019s left side for improved access for suturing.<\/p>\n<p>An incision is made along the right body wall, completely through the transversus abdominis muscle. The incision can be oriented vertically or horizontally, as demonstrated in <strong>Figure 2<\/strong>. It is important for the incision to be located caudal to the last rib to prevent penetration of the diaphragm and subsequent pneumothorax. The incision should be located dorsal enough to be in an anatomic position, as well as to avoid interference with abdominal closure or decrease risk for inadvertent damage to the stomach if future laparotomy is performed.<\/p>\n<div class=\"su-custom-gallery su-custom-gallery-align-left su-custom-gallery-title-hover su-lightbox-gallery\"><div class=\"su-custom-gallery-slide\" style=\"width:380px;height:380px\"><a href=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig02.jpg\" title=\"FIGURE 2. These images depict the initial step in right incisional gastropexy in 2 separate patients. The cranial aspect of each dog is oriented to the right of the photograph. An incision is made through the transversus abdominus muscle on the right body wall, caudal to the last rib to avoid incising the diaphragm and dorsal enough to maintain an anatomic position. The incision can be oriented vertically (A) or horizontally (B).\"><img decoding=\"async\" src=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig02.jpg\" alt=\"FIGURE 2. These images depict the initial step in right incisional gastropexy in 2 separate patients. The cranial aspect of each dog is oriented to the right of the photograph. An incision is made through the transversus abdominus muscle on the right body wall, caudal to the last rib to avoid incising the diaphragm and dorsal enough to maintain an anatomic position. The incision can be oriented vertically (A) or horizontally (B).\" width=\"380\" height=\"380\" \/><span class=\"su-custom-gallery-title\">FIGURE 2. These images depict the initial step in right incisional gastropexy in 2 separate patients. The cranial aspect of each dog is oriented to the right of the photograph. An incision is made through the transversus abdominus muscle on the right body wall, caudal to the last rib to avoid incising the diaphragm and dorsal enough to maintain an anatomic position. The incision can be oriented vertically (A) or horizontally (B).<\/span><\/a><\/div><div class=\"su-clear\"><\/div><\/div>\n<p>Next, an incision of similar length is made in the seromuscular layer of the stomach at the level of the pyloric antrum. A location on the stomach without visible vasculature is chosen. <strong>Figure 3<\/strong> demonstrates the completed incision and the ability to appreciate the difference between the seromuscular layer and the underlying mucosa\/submucosal layer.<\/p>\n<div class=\"su-custom-gallery su-custom-gallery-align-left su-custom-gallery-title-hover su-lightbox-gallery\"><div class=\"su-custom-gallery-slide\" style=\"width:380px;height:380px\"><a href=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig03.jpg\" title=\"FIGURE 3. The second step during right incisional gastropexy is an incision through the seromuscular layer of the stomach, at the level of the pyloric antrum. The incision can be made longitudinally (depicted) or transversely, taking care to avoid the prominent vasculature along the omental attachment to the stomach. In this image, the cranial aspect of the dog is oriented to the right and the underlying mucosal\/submucosal layer of the stomach is differentiated with a forceps.\"><img decoding=\"async\" src=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig03.jpg\" alt=\"FIGURE 3. The second step during right incisional gastropexy is an incision through the seromuscular layer of the stomach, at the level of the pyloric antrum. The incision can be made longitudinally (depicted) or transversely, taking care to avoid the prominent vasculature along the omental attachment to the stomach. In this image, the cranial aspect of the dog is oriented to the right and the underlying mucosal\/submucosal layer of the stomach is differentiated with a forceps.\" width=\"380\" height=\"380\" \/><span class=\"su-custom-gallery-title\">FIGURE 3. The second step during right incisional gastropexy is an incision through the seromuscular layer of the stomach, at the level of the pyloric antrum. The incision can be made longitudinally (depicted) or transversely, taking care to avoid the prominent vasculature along the omental attachment to the stomach. In this image, the cranial aspect of the dog is oriented to the right and the underlying mucosal\/submucosal layer of the stomach is differentiated with a forceps.<\/span><\/a><\/div><div class=\"su-clear\"><\/div><\/div>\n<p>Two rows of sutures are placed, typically in simple continuous fashion, beginning at the craniodorsal aspect of the respective incisions, as demonstrated in <strong>Figure 4<\/strong>. The deep edge of the transversus abdominis incision is sutured to the deep edge of the gastric seromuscular incision, with care taken to make wide bites (at least 3 mm) on each side. Typical suture choice is a 2-0 monofilament long-lasting absorbable suture material. After completion of the first suture line, a second suture line is performed in identical fashion to oppose the superficial or ventral aspect of the respective incisions. The completed gastropexy is shown in <strong>Figure 5<\/strong>.<\/p>\n<div class=\"su-custom-gallery su-custom-gallery-align-left su-custom-gallery-title-hover su-lightbox-gallery\"><div class=\"su-custom-gallery-slide\" style=\"width:350px;height:350px\"><a href=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig04.jpg\" title=\"FIGURE 4. In these images, the cranial aspect of the dog is oriented to the right, and the surgeon is standing on the left side of the dog to improve visualization and ease of suturing. In A, the suturing is started with the dorsal (deep) side of the respective incisions; suturing in a cranial-to-caudal direction is most efficient for a right-handed surgeon. In B, the dorsal (deep) side of the gastric seromuscular incision is sutured to the dorsal side of the transversus abdominus incision. Assistants standing on the dog\u2019s right side can help improve visualization by retracting the abdominal wall with towel clamps and pushing in to provide tension on the body wall.\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig04.jpg\" alt=\"FIGURE 4. In these images, the cranial aspect of the dog is oriented to the right, and the surgeon is standing on the left side of the dog to improve visualization and ease of suturing. In A, the suturing is started with the dorsal (deep) side of the respective incisions; suturing in a cranial-to-caudal direction is most efficient for a right-handed surgeon. In B, the dorsal (deep) side of the gastric seromuscular incision is sutured to the dorsal side of the transversus abdominus incision. Assistants standing on the dog\u2019s right side can help improve visualization by retracting the abdominal wall with towel clamps and pushing in to provide tension on the body wall.\" width=\"350\" height=\"350\" \/><span class=\"su-custom-gallery-title\">FIGURE 4. In these images, the cranial aspect of the dog is oriented to the right, and the surgeon is standing on the left side of the dog to improve visualization and ease of suturing. In A, the suturing is started with the dorsal (deep) side of the respective incisions; suturing in a cranial-to-caudal direction is most efficient for a right-handed surgeon. In B, the dorsal (deep) side of the gastric seromuscular incision is sutured to the dorsal side of the transversus abdominus incision. Assistants standing on the dog\u2019s right side can help improve visualization by retracting the abdominal wall with towel clamps and pushing in to provide tension on the body wall.<\/span><\/a><\/div><div class=\"su-custom-gallery-slide\" style=\"width:350px;height:350px\"><a href=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig05.jpg\" title=\"FIGURE 5. Completed right incisional gastropexy. In A, the cranial aspect of the incision is oriented to the right. B is a laparoscopic image after completion of a laparoscopic-assisted right incisional gastropexy.\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/navc.sitepreview.app\/todaysveterinarypractice.com\/wp-content\/uploads\/sites\/4\/2017\/07\/T1707F02Fig05.jpg\" alt=\"FIGURE 5. Completed right incisional gastropexy. In A, the cranial aspect of the incision is oriented to the right. B is a laparoscopic image after completion of a laparoscopic-assisted right incisional gastropexy.\" width=\"350\" height=\"350\" \/><span class=\"su-custom-gallery-title\">FIGURE 5. Completed right incisional gastropexy. In A, the cranial aspect of the incision is oriented to the right. B is a laparoscopic image after completion of a laparoscopic-assisted right incisional gastropexy.<\/span><\/a><\/div><div class=\"su-clear\"><\/div><\/div>\n<h2>Recurrence<\/h2>\n<p>Without gastropexy, the rate of recurrence of GDV is 55% to 75%, and median survival times are significantly shorter than for patients treated surgically.<sup>10,21,25<\/sup> Therefore, surgery should always be recommended. In two studies,<sup>26,27<\/sup> the rate of recurrence of GDV after gastropexy was 0%, but recurrence has been documented rarely.<sup>10,28<\/sup> Occurrence of gastric dilatation after gastropexy is reported as 5% to 11%.<sup>21,25\u201327<\/sup><\/p>\n<h2>Postoperative Treatment<\/h2>\n<p>Postoperative treatment is typically a continuum of care from pre- and intraoperative therapy. Continued volume resuscitation may include IV isotonic crystalloids (90\u2013120 mL\/kg\/day); colloids, such as hydroxyethyl starch (10\u201330 mL\/kg\/day); and fresh frozen plasma or other blood products, depending on individual patient needs. For analgesia, injectable opioids are recommended. Nonsteroidal anti-inflammatory drugs are avoided because of the decreased gastric perfusion associated with GDV and the high possibility of gastric ulcers. Gastroprotectants, such as sucralfate, histamine-2 receptor antagonists, or proton-pump inhibitors, can be administered. Antibiotic administration for 2 to 3 days after surgery is often indicated based on the presumed risk for bacterial translocation.<\/p>\n<p>Postoperative monitoring includes blood pressure, urine output, and emesis watch. Gastric atony and delayed gastric emptying can occur after gastric dilatation, so antiemetics or prokinetics can be administered if vomiting or regurgitation is observed postoperatively. Continuous ECG should be closely monitored because more than half to three-quarters of patients experience postoperative arrhythmias within the first 12 to 24 hours after surgery,<sup>17,19<\/sup> although not all patients require antiarrhythmic therapy. Repeated blood analysis and electrolyte measurement help to guide fluid therapy. Rechecking coagulation profiles may be warranted in patients at risk for disseminated intravascular coagulation.<\/p>\n<p>Food and water may be offered several hours after surgery to an awake, alert patient.<\/p>\n<h2>Prognosis<\/h2>\n<p>Animals treated surgically for GDV have an overall 10% to 28% mortality rate.<sup>1,10,16\u201319<\/sup> Poor prognostic indicators include the following:<\/p>\n<ul>\n<li>Lactate level not responding to fluid resuscitation<sup>12,13<\/sup><\/li>\n<li>Need for splenectomy<sup>17\u201319<\/sup><\/li>\n<li>Gastric necrosis and need for partial gastrectomy<sup>1,10,16\u201318<\/sup><\/li>\n<li>Preoperative arrhythmias<sup>17,18<\/sup><\/li>\n<li>Increased time between clinical signs and admission<sup>16,19<\/sup><\/li>\n<li>Severity of physical condition at the time of presentation<sup>10<\/sup><\/li>\n<li>Hypotension at any time during hospitalization<sup>19<\/sup><\/li>\n<li>Peritonitis or sepsis<sup>19<\/sup><\/li>\n<li>Disseminated intravascular coagulation<sup>19<\/sup><\/li>\n<\/ul>\n<h2>Summary<\/h2>\n<p>The immediate goals of stabilization of a patient with GDV are fluid resuscitation to correct hypovolemia and gastric decompression to make the patient as stable as possible for anesthesia. Surgical goals are prompt gastric repositioning, critical evaluation of the abdominal viscera, and right-sided gastropexy. With timely surgery, the prognosis for most patients is fair. Negative prognostic indicators include gastric perforation, the need for splenectomy and partial gastrectomy, lactate levels that do not respond to fluid resuscitation, and preoperative arrhythmias.<\/p>\n","protected":false},"excerpt":{"rendered":"<p>With timely surgery, the prognosis for most dogs with this acute, life-threatening disorder is fair.<\/p>\n","protected":false},"author":16,"featured_media":13404,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"iawp_total_views":16572,"footnotes":""},"categories":[351],"tags":[13],"class_list":["post-13397","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-july-august-2017","tag-peer-reviewed","column-features","clinical_topics-gastroenterology","clinical_topics-soft-tissue-surgery"],"acf":{"hide_sidebar":false,"hide_sidebar_ad":false,"hide_all_ads":false},"yoast_head":"<!-- This site is optimized with the Yoast SEO 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