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Diving and hyperbaric medicine
Dec 24, 2018;48 (4): 235-240.

Preventive effects of ketone ester BD-AcAc on central nervous system oxygen toxicity and concomitant acute lung injury.

Hongjie Yi, Shichong Yu, Yanan Zhang, Runping Li, Dazhi Zhang, Dazhi Zhang, Weigang Xu
Author Information
  1. Hongjie Yi: Department of Diving and Hyperbaric Medicine, Naval Medical University, Shanghai, P R China.
  2. Shichong Yu: Department of Organic Chemistry, Naval Medical University, Shanghai.
  3. Yanan Zhang: Department of Diving and Hyperbaric Medicine, Naval Medical University, Shanghai, P R China.
  4. Runping Li: Department of Diving and Hyperbaric Medicine, Naval Medical University, Shanghai, P R China.
  5. Dazhi Zhang: Department of Organic Chemistry, Naval Medical University, Shanghai.
  6. Dazhi Zhang: Department of Diving and Hyperbaric Medicine, Naval Medical University, Shanghai, P R China.
  7. Weigang Xu: Department of Diving and Hyperbaric Medicine, Naval Medical University, Shanghai, P R China.
PMID: 30517956 DOI: 10.28920/dhm48.4.235-240

Abstract

BACKGROUND: Recent studies indicated that ketone ester R,S-1,3-butanediol acetoacetate diester (BD-AcAc) may be effective in preventing central nervous system oxygen toxicity (CNS-OT) and concomitant acute lung injury, a serious medical problem to be faced when breathing hyperbaric oxygen (HBO). This study aimed to further investigate the protective effects of BD-AcAc against CNS-OT and concomitant acute lung injury (ALI) in Mice.
METHODS: Mice were treated with BD-AcAc in peanut oil vehicle (2.5, 5.0 or 10.0 g·kg⁻² body weight) by gavage 20 minutes before 600 kPa HBO exposure. Control Mice received the vehicle only. seizure latency was recorded. Malondialdehyde content in brain and lung tissues, total protein level in bronchoalveolar lavage fluid (BLF) and lung water content were measured 60 minutes after the hyperbaric exposure. Histopathology of lung tissue was undertaken.
RESULTS: Compared with the vehicle alone, BD-AcAc prolonged seizure latency in a dose-dependent manner (P < 0.01). The HBO-induced increase in brain Malondialdehyde, BLF protein and lung water were significantly reduced by BD-AcAc (P < 0.01).
CONCLUSION: Oral administration of the ketone ester BD-AcAc significantly protected against CNS-OT and concomitant ALI. Alleviation of oxidative stress may be one underlying mechanism providing this effect.

Keywords

Animal model Hyperbaric oxygen Hyperoxia Injuries Pharmacology Respiratory

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MeSH Term

Acetoacetates
Acute Lung Injury
Animals
Brain
Butylene Glycols
Hyperbaric Oxygenation
Mice
Oxygen
Rats, Sprague-Dawley
Seizures

Chemicals

1,3-butanediol diacetoacetate
Acetoacetates
Butylene Glycols
Oxygen
Journal Article
Article has an altmetric score of 1

Word Cloud

Created with Highcharts 10.0.0BD-AcAclungoxygenconcomitant0ketoneesterCNS-OTacuteinjuryvehiclemaycentralnervoussystemtoxicityhyperbaricHBOeffectsALImice5minutesexposurelatencycontentbrainproteinBLFwaterP<01significantlyBACKGROUND:RecentstudiesindicatedRS-13-butanediolacetoacetatediestereffectivepreventingseriousmedicalproblemfacedbreathingstudyaimedinvestigateprotectiveMETHODS:Micetreatedpeanutoil210g·kg⁻²bodyweightgavage20600kPaControlreceivedSeizurerecordedMalondialdehydetissuestotallevelbronchoalveolarlavagefluidmeasured60HistopathologytissueundertakenRESULTS:Comparedaloneprolongedseizuredose-dependentmannerHBO-inducedincreasemalondialdehydereducedCONCLUSION:OraladministrationprotectedAlleviationoxidativestressoneunderlyingmechanismprovidingeffectPreventiveAnimalmodelHyperbaricHyperoxiaInjuriesPharmacologyRespiratory

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