Restricted accessLetterFirst published online 2018-03
Re: “Feasibility of a Miniature Esophageal Heat Exchange Device for Rapid Therapeutic Cooling in Newborns: Preliminary Investigations in a Piglet Model” by Dingley et al . (Ther Hypothermia Temp Manag 2018;8:36–44)
CullinanP, BrownR, FieldA, HourihaneJ, JonesM, KekwickR, RycroftR, StenzR, WilliamsS, WoodhouseC. Latex allergy. A position paper of the British Society of Allergy and Clinical Immunology. Clin Exp Allergy, 2003; 33:1484–1499.
2.
DingleyJ, OkanoS, PlanasS, ChakkarapaniE. Feasibility of a miniature esophageal heat exchange device for rapid therapeutic cooling in newborns: preliminary investigations in a piglet model. Ther Hypothermia Temp Manag, 2018; 8:36–44.
3.
GouryA, PoirsonF, ChaputU, VoicuS, GarconP, BeekenT, MalissinI, KerdjanaL, ChellyJ, VodovarD, HaikelO, EkherianJM, MarteauP, VicautE, MegarbaneB, DeyeN. Targeted temperature management using the “Esophageal Cooling Device” after cardiac arrest (the COOL study): a feasibility and safety study. Resuscitation, 2017; 121:54–61.
4.
HegazyAF, LapierreDM, ButlerR, MartinJ, AlthenayanE. The esophageal cooling device: a new temperature control tool in the intensivist's arsenal. Heart Lung, 2017; 46:143–148.
5.
KhanI, HaymoreJ, BarnabaB, ArmahizerM, MelinoskyC, BautistaMA, BlaberB, ChangW-T, ParikhG, MottaM, BadjatiaN. Esophageal cooling device versus other temperature modulation devices for therapeutic normothermia in subarachnoid and intracranial hemorrhage. Ther Hypothermia Temp Manag, 2018; 8:53–58.
6.
KulstadE, MetzgerAK, CourtneyDM, ReesJ, ShanleyP, MatsuuraT, McKniteS, LurieK. Induction, maintenance, and reversal of therapeutic hypothermia with an esophageal heat transfer device. Resuscitation, 2013; 84:1619–1624.
7.
KulstadEB, NaimanM, ShanleyP, GarrettF, HaryuT, WallerD, AzarafroozF, and CourtneyDM. Temperature modulation with an esophageal heat transfer device—a pediatric swine model study. BMC Anesthesiol, 2015; 15:16.
8.
MarkotaA, KoširAS, BalažičP, ŽivkoI, SinkovičA. A novel esophageal heat transfer device for temperature management in an adult patient with severe meningitis. J Emerg Med, 2017; 52:e27–e28.
9.
NaimanM, MarkotaA, HaymoreJ, BadjatiaN, HegazyA, KulstadE. An evaluation of esophageal temperature management in cases longer than 72 hours. Resuscitation, 2017; 118:e82.
10.
SchroederDC, GuschlbauerM, MaulAC, CremerDA, BeckerI, de la Puente BethencourtD, PaalP, PadoschSA, WetschWA, AnneckeT, BöttigerBW, Sterner-KockA, HerffH. Oesophageal heat exchangers with a diameter of 11 mm or 14.7 mm are equally effective and safe for targeted temperature management. PLoS One, 2017; 12:e0173229.
11.
van HarenFM, RamS, HillJ. Endoscopic findings during placement of postpyloric feeding tubes in intensive care patients: a retrospective observational study. Crit Care Resusc, 2012; 14:101–104.
12.
XuRJ. Development of the newborn GI tract and its relation to colostrum/milk intake: a review. Reprod Fertil Dev, 1996; 8:35–48.
