Gastric Dilatation-Volvulus Syndrome: Outcome and Factors Associated with Perioperative Mortality

Abstract: Gastric dilatation-volvulus (GDV) or gastric dilatation (GD), were diagnosed in 173 dogs during the period from 1997 to 2001. Risk factors possibly associated with higher mortality in cases of GDV were evaluated. Variables suitable for quantitative evaluation were examined by the Student's t-test with regard to the risk of death. We characterised groups of dogs with potential risk factors (age, body weight, time lapsed from the last feeding until presentation, time lapsed from the onset of clinical signs until… Show more

“…It might also decrease the mortality rate, as there was a trend for decreased mortality in the study group. The average mortality rate in the present control group is similar to an average mortality rate of 20% (SD 6%) recorded in 6 previous studies of GDV in dogs, published over the last 5 y, 2,3,[26][27][28][29] which is compared to the study group (10.8%). Nevertheless, because the present mortality rate differences between groups did not reach statistical significance (P = 0.056), this conclusion should be made with caution, and further larger, prospective studies of lidocaine therapy in GDV are warranted to examine this effect of lidocaine.…”

“…This potentially results from one or several factors, including sustained poor perfusion, exposure to endotoxin, thromboembolism, and IRI . The overall occurrence of AKI was significantly less common in the study group, potentially due to beneficial and preventive effects of lidocaine through its vasodilatory and vascular protective properties . It has been shown in microvascular surgery in rabbits, both in vivo and in vitro, that lidocaine acts as a spasmolytic agent and its topical application has led to improved carotid artery blood flow .…”

“…4,11,14 The overall occurrence of AKI was significantly less common in the study group, potentially due to beneficial and preventive effects of lidocaine through its vasodilatory and vascular protective properties. [16][17][18][19]26 It has been shown in microvascular surgery in rabbits, both in vivo and in vitro, that lidocaine acts as a spasmolytic agent and its topical application has led to improved carotid artery blood flow. 26 In a similar manner, lidocaine can potentially improve blood flow to preischemic tissues, including the kidneys, which are highly susceptible to ischemic injury.…”

“…[16][17][18][19]26 It has been shown in microvascular surgery in rabbits, both in vivo and in vitro, that lidocaine acts as a spasmolytic agent and its topical application has led to improved carotid artery blood flow. 26 In a similar manner, lidocaine can potentially improve blood flow to preischemic tissues, including the kidneys, which are highly susceptible to ischemic injury. 10,11,18 Unfortunately, information regarding hypotensive events during anesthesia, which might have predisposed decreased perfusion and AKI, were not available in the control group, thus their proportion could not be compared between groups to further support the above explanation.…”

Evaluation of lidocaine treatment on frequency of cardiac arrhythmias, acute kidney injury, and hospitalization time in dogs with gastric dilatation volvulus

“…It might also decrease the mortality rate, as there was a trend for decreased mortality in the study group. The average mortality rate in the present control group is similar to an average mortality rate of 20% (SD 6%) recorded in 6 previous studies of GDV in dogs, published over the last 5 y, 2,3,[26][27][28][29] which is compared to the study group (10.8%). Nevertheless, because the present mortality rate differences between groups did not reach statistical significance (P = 0.056), this conclusion should be made with caution, and further larger, prospective studies of lidocaine therapy in GDV are warranted to examine this effect of lidocaine.…”

“…This potentially results from one or several factors, including sustained poor perfusion, exposure to endotoxin, thromboembolism, and IRI . The overall occurrence of AKI was significantly less common in the study group, potentially due to beneficial and preventive effects of lidocaine through its vasodilatory and vascular protective properties . It has been shown in microvascular surgery in rabbits, both in vivo and in vitro, that lidocaine acts as a spasmolytic agent and its topical application has led to improved carotid artery blood flow .…”

“…4,11,14 The overall occurrence of AKI was significantly less common in the study group, potentially due to beneficial and preventive effects of lidocaine through its vasodilatory and vascular protective properties. [16][17][18][19]26 It has been shown in microvascular surgery in rabbits, both in vivo and in vitro, that lidocaine acts as a spasmolytic agent and its topical application has led to improved carotid artery blood flow. 26 In a similar manner, lidocaine can potentially improve blood flow to preischemic tissues, including the kidneys, which are highly susceptible to ischemic injury.…”

“…[16][17][18][19]26 It has been shown in microvascular surgery in rabbits, both in vivo and in vitro, that lidocaine acts as a spasmolytic agent and its topical application has led to improved carotid artery blood flow. 26 In a similar manner, lidocaine can potentially improve blood flow to preischemic tissues, including the kidneys, which are highly susceptible to ischemic injury. 10,11,18 Unfortunately, information regarding hypotensive events during anesthesia, which might have predisposed decreased perfusion and AKI, were not available in the control group, thus their proportion could not be compared between groups to further support the above explanation.…”

Evaluation of lidocaine treatment on frequency of cardiac arrhythmias, acute kidney injury, and hospitalization time in dogs with gastric dilatation volvulus

“…[1][2][3][4][5][6] Epidemiologic studies have implicated certain risk factors that may predispose dogs to GDV (ie, breed, increased thoracic depth-to-width ratio, diet, climatic conditions, evidence of inflammatory bowel disease, previous splenic torsion, or splenectomy) and several factors that significantly increase mortality (peritonitis, gastric necrosis, partial gastrectomy and splenectomy, disseminated intravascular coagulation, systemic inflammatory response syndrome, sepsis, reperfusion injury, microinfarction, autonomic dysbalance, acid-base and electrolyte disturbances, increased myocardial depressant factor, tachycardia, and hypotension). [2][3][4][7][8][9][10][11][12][13][14][15][16][17][18][19][20] GDV is characterized by gastric malposition, rapid accumulation of air and gas in the stomach, increased intragastric pressure, secondary portal hypertension, gastrointestinal ischemia, reduced venous return, decreased cardiac output, decreased coronary blood flow, myocardial ischemia, subendothelial myocardial necrosis, arrhythmias, hypotension, and cardiogenic, and hypovolemic shock. 2,3,5,13,[21][22][23] Clinical assessment of the severity of myocardial damage can be determined in some cases using physical examination, heart rate, ECG, radiographs, and echocardiography.…”

Myoglobin as a prognostic indicator for outcome in dogs with gastric dilatation‐volvulus

Retrospective analysis of 736 cases of canine gastric dilatation volvulus