Cristiane de Oliveira1, Biswajit Khatua1, Arup Bag1, Bara El-Kurdi1, Krutika Patel1, Vivek Mishra2, Sarah Navina3, Vijay P Singh4. 1. Department of Medicine, Mayo Clinic, Scottsdale, Arizona. 2. Department of Medicine, University of Pittsburgh, Pittsburgh, Pennsylvania. 3. Department of Pathology, University of Pittsburgh, Pittsburgh, Pennsylvania. 4. Department of Medicine, Mayo Clinic, Scottsdale, Arizona. Electronic address: singh.vijay@mayo.edu.
Abstract
BACKGROUND & AIMS: Acute pancreatitis (AP) of different etiologies is associated with the activation of different signaling pathways in pancreatic cells, posing challenges to the development of targeted therapies. We investigated whether local pancreatic hypothermia, without systemic hypothermia, could lessen the severity of AP induced by different methods in rats. METHODS: A urethane balloon with 2 polyurethane tubes was placed inside the stomach of rats. AP was induced in Wistar rats by the administration of cerulein or glyceryl tri-linoleate (GTL). Then, cold water was infused into the balloon to cool the pancreas. Pancreatic temperatures were selected based on those found to decrease acinar cell injury. An un-perfused balloon was used as a control. Pancreatic and rectal temperatures were monitored, and an infrared lamp or heating pad was used to avoid generalized hypothermia. We collected blood, pancreas, kidney, and lung tissues and analyzed them by histology, immunofluorescence, immunoblot, cytokine and chemokine magnetic bead, and DNA damage assays. The effect of hypothermia on signaling pathways initiated by cerulein and GTL was studied in acinar cells. RESULTS: Rats with pancreatic cooling developed less severe GTL-induced AP compared with rats that received the control balloon. In acinar cells, cooling decreased the lipolysis induced by GTL, increased the micellar form of its fatty acid, lowered the increase in cytosolic calcium, prevented the loss of mitochondrial membrane potential (by 70%-80%), and resulted in a 40%-50% decrease in the uptake of a fatty acid tracer. In rats with AP, cooling decreased pancreatic necrosis by 48%, decreased serum levels of cytokines and markers of cell damage, and decreased markers of lung and renal damage. Pancreatic cooling increased the proportions of rats surviving 6 hours after induction of AP (to 90%, from <10% of rats that received the control balloon). In rats with cerulein-induced AP, pancreatic cooling decreased pancreatic markers of apoptosis and inflammation. CONCLUSIONS: In rats with AP, transgastric local pancreatic hypothermia decreases pancreatic necrosis, apoptosis, inflammation, and markers of pancreatitis severity and increases survival.
BACKGROUND & AIMS:Acute pancreatitis (AP) of different etiologies is associated with the activation of different signaling pathways in pancreatic cells, posing challenges to the development of targeted therapies. We investigated whether local pancreatic hypothermia, without systemic hypothermia, could lessen the severity of AP induced by different methods in rats. METHODS: A urethane balloon with 2 polyurethane tubes was placed inside the stomach of rats. AP was induced in Wistar rats by the administration of cerulein or glyceryl tri-linoleate (GTL). Then, cold water was infused into the balloon to cool the pancreas. Pancreatic temperatures were selected based on those found to decrease acinar cell injury. An un-perfused balloon was used as a control. Pancreatic and rectal temperatures were monitored, and an infrared lamp or heating pad was used to avoid generalized hypothermia. We collected blood, pancreas, kidney, and lung tissues and analyzed them by histology, immunofluorescence, immunoblot, cytokine and chemokine magnetic bead, and DNA damage assays. The effect of hypothermia on signaling pathways initiated by cerulein and GTL was studied in acinar cells. RESULTS:Rats with pancreatic cooling developed less severe GTL-induced AP compared with rats that received the control balloon. In acinar cells, cooling decreased the lipolysis induced by GTL, increased the micellar form of its fatty acid, lowered the increase in cytosolic calcium, prevented the loss of mitochondrial membrane potential (by 70%-80%), and resulted in a 40%-50% decrease in the uptake of a fatty acid tracer. In rats with AP, cooling decreased pancreatic necrosis by 48%, decreased serum levels of cytokines and markers of cell damage, and decreased markers of lung and renal damage. Pancreatic cooling increased the proportions of rats surviving 6 hours after induction of AP (to 90%, from <10% of rats that received the control balloon). In rats with cerulein-induced AP, pancreatic cooling decreased pancreatic markers of apoptosis and inflammation. CONCLUSIONS: In rats with AP, transgastric local pancreatic hypothermia decreases pancreatic necrosis, apoptosis, inflammation, and markers of pancreatitis severity and increases survival.
Authors: M Hirota; F Nozawa; A Okabe; M Shibata; T Beppu; S Shimada; H Egami; Y Yamaguchi; S Ikei; T Okajima; K Okamoto; M Ogawa Journal: Pancreas Date: 2000-08 Impact factor: 3.327
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Authors: Cristiane de Oliveira; Biswajit Khatua; Pawan Noel; Sergiy Kostenko; Arup Bag; Bijinu Balakrishnan; Krutika S Patel; Andre A Guerra; Melissa N Martinez; Shubham Trivedi; Ann McCullough; Dora M Lam-Himlin; Sarah Navina; Douglas O Faigel; Norio Fukami; Rahul Pannala; Anna Evans Phillips; Georgios I Papachristou; Erin E Kershaw; Mark E Lowe; Vijay P Singh Journal: J Clin Invest Date: 2020-04-01 Impact factor: 14.808
Authors: Cristiane de Oliveira; Biswajit Khatua; Bara El-Kurdi; Krutika Patel; Vivek Mishra; Sarah Navina; Bradley J Grim; Srishti Gupta; Marek Belohlavek; Brian Cherry; Jeffery Yarger; Matthew D Green; Vijay P Singh Journal: Sci Rep Date: 2020-05-21 Impact factor: 4.379
Authors: Biswajit Khatua; Bara El-Kurdi; Krutika Patel; Christopher Rood; Pawan Noel; Michael Crowell; Jordan R Yaron; Sergiy Kostenko; Andre Guerra; Douglas O Faigel; Mark Lowe; Vijay P Singh Journal: Sci Adv Date: 2021-01-29 Impact factor: 14.136
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