Aravind Arepally1, Brad P Barnett, Elizabeth Montgomery, Tarak H Patel. 1. Russell H. Morgan Department of Radiology and Radiological Science, Johns Hopkins Medical Institutes, Johns Hopkins Hospital, Blalock 545, 600 N Wolfe St, Baltimore, MD 21287, USA. aarepal@jhmi.edu
Abstract
PURPOSE: To prospectively test, in a porcine model, the hypothesis that use of catheter-directed gastric artery chemical embolization (GACE) can result in substantial suppression of systemic ghrelin levels. MATERIALS AND METHODS: The institutional animal care and use committee approved this study. Adult healthy swine (40-45 kg, n=8) were tested. GACE was performed by infusing morrhuate sodium selectively into the left gastric artery. Six swine (animals A-F) underwent left GACE by using a dose-escalating regimen of morrhuate sodium, whereas two control swine underwent a sham procedure. Weight and fasting plasma ghrelin levels were compared in swine at baseline and at weeks 1-4. At week 4, stomachs were excised and analyzed. Analysis of the change in ghrelin values and weight was performed with both paired t test and unpaired Student t test. RESULTS: In control swine (n=2), there was no significant difference in ghrelin values before (844.8 pg/mL +/- 40 [standard deviation]) and after (997 pg/mL +/- 93) the procedure (P=.5). Swine that received a low dose of morrhuate sodium (animals A-D) showed a significant increase in serum ghrelin values from 683.7 pg/mL +/- 241 to 1555.9 pg/mL +/- 312 (P=.002). At a higher dose, the mean baseline ghrelin values decreased from 466 pg/mL to 187 pg/mL +/- 162. Weight changes of +1.4% and +8.6% were seen in swine that underwent GACE and control swine, respectively. Histochemical staining showed preservation of overall tissue architecture and parietal cells. CONCLUSION: Use of GACE can result in increased or suppressed ghrelin levels. (c) RSNA, 2007.
PURPOSE: To prospectively test, in a porcine model, the hypothesis that use of catheter-directed gastric artery chemical embolization (GACE) can result in substantial suppression of systemic ghrelin levels. MATERIALS AND METHODS: The institutional animal care and use committee approved this study. Adult healthy swine (40-45 kg, n=8) were tested. GACE was performed by infusing morrhuate sodium selectively into the left gastric artery. Six swine (animals A-F) underwent left GACE by using a dose-escalating regimen of morrhuate sodium, whereas two control swine underwent a sham procedure. Weight and fasting plasma ghrelin levels were compared in swine at baseline and at weeks 1-4. At week 4, stomachs were excised and analyzed. Analysis of the change in ghrelin values and weight was performed with both paired t test and unpaired Student t test. RESULTS: In control swine (n=2), there was no significant difference in ghrelin values before (844.8 pg/mL +/- 40 [standard deviation]) and after (997 pg/mL +/- 93) the procedure (P=.5). Swine that received a low dose of morrhuate sodium (animals A-D) showed a significant increase in serum ghrelin values from 683.7 pg/mL +/- 241 to 1555.9 pg/mL +/- 312 (P=.002). At a higher dose, the mean baseline ghrelin values decreased from 466 pg/mL to 187 pg/mL +/- 162. Weight changes of +1.4% and +8.6% were seen in swine that underwent GACE and control swine, respectively. Histochemical staining showed preservation of overall tissue architecture and parietal cells. CONCLUSION: Use of GACE can result in increased or suppressed ghrelin levels. (c) RSNA, 2007.
Authors: Clifford R Weiss; Godwin O Abiola; Aaron M Fischman; Lawrence J Cheskin; Jay Vairavamurthy; Brian P Holly; Olaguoke Akinwande; Franklin Nwoke; Kalyan Paudel; Stephen Belmustakov; Kelvin Hong; Rahul S Patel; Eun J Shin; Kimberley E Steele; Timothy H Moran; Richard E Thompson; Taylor Dunklin; Harvey Ziessman; Dara L Kraitchman; Aravind Arepally Journal: Radiology Date: 2019-04-02 Impact factor: 11.105
Authors: Clifford R Weiss; Olaguoke Akinwande; Kaylan Paudel; Lawrence J Cheskin; Brian Holly; Kelvin Hong; Aaron M Fischman; Rahul S Patel; Eun J Shin; Kimberley E Steele; Timothy H Moran; Kristen Kaiser; Amie Park; David M Shade; Dara L Kraitchman; Aravind Arepally Journal: Radiology Date: 2017-02-14 Impact factor: 11.105
Authors: Aravind Arepally; Brad P Barnett; Tarak H Patel; Tarek T Patel; Valerie Howland; Ray C Boston; Dara L Kraitchman; Ashkan A Malayeri Journal: Radiology Date: 2008-10 Impact factor: 11.105
Authors: David J Kim; Hari S Raman; Amber Salter; Raja Ramaswamy; Andrew J Gunn; Clifford R Weiss; Olaguoke Akinwande Journal: Diagn Interv Radiol Date: 2018 Mar-Apr Impact factor: 2.630
Authors: Ben E Paxton; Christopher L Alley; Jennifer H Crow; James Burchette; Clifford R Weiss; Dara L Kraitchman; Aravind Arepally; Charles Y Kim Journal: J Vasc Interv Radiol Date: 2014-01-21 Impact factor: 3.464
Authors: Jan Bures; Marcela Kopácová; Jaroslav Kvetina; Jan Osterreicher; Zuzana Sinkorová; Zbynek Svoboda; Ilja Tachecí; Stanislav Filip; Stanislav Spelda; Martin Kunes; Stanislav Rejchrt Journal: Surg Endosc Date: 2008-12-05 Impact factor: 4.584