Pentobarbital Coma With Therapeutic Hypothermia versus normothermic hypothermia in patients with severe Traumatic Brain Injury: A prospective double blind controlled randomized clinical trial

Start Date02 Aug 2024

Sponsor / Collaborator

Tabriz University of Medical Sciences

NCT04350528

/ Unknown statusNot ApplicableIIT

Comparison of Sedation Using Pentobarbital or Chlorpromazine in Pediatric Non-invasive Imaging Procedure: A Before and After Study

Sedation is often required for pediatric medical imaging procedures to ensure compliance and quality images. Recommendations exist regarding pediatric sedation, but there are currently no guidelines regarding the choice of the sedative drug. We aim to compare the efficacy and adverse events of per os pentobarbital with intravenous chlorpromazine in children undergoing diagnostic imaging procedures.

Start Date30 Apr 2020

Sponsor / Collaborator

University Hospital of Brest

NCT02250820

/ CompletedPhase 1IIT

A Qualitative Comparison of Two Sedation Techniques in Children Undergoing Transthoracic Echocardiography

The study will examine the quality of two sedation techniques (dexmedetomidine and pentobarbital) used for children aged 3 to 24 months who are undergoing a transthoracic echocardiography (TTE).

Start Date01 Nov 2014

Sponsor / Collaborator

Children's Hospital & Medical Center

100 Clinical Results associated with Pentobarbital Sodium

100 Translational Medicine associated with Pentobarbital Sodium

100 Patents (Medical) associated with Pentobarbital Sodium

11,116

Literatures (Medical) associated with Pentobarbital Sodium

01 Jan 2025·JOURNAL OF ETHNOPHARMACOLOGY

Flavonoids from mulberry leaves exhibit sleep-improving effects via regulating GABA and 5-HT receptors

Article

Author: Hao, Limin ; Jing, Nannan ; Lua, Jike ; Wang, Ting ; Pan, Yongkang ; Lu, Jike ; Li, Rui ; Zhu, Jiaqing ; Shi, Yanling

ETHNOPHARMACOLOGICAL RELEVANCE:

Mulberry leaf (Folium Mori) is a dried leaf of the dicotyledonous mulberry tree and is a homologous food and medicine. Treating insomnia with it is a common practice in traditional Chinese medicine. But still, its potential sleep-improving mechanism remains to be elucidated.

AIM OF REVIEW:

Potential bioactive components and mechanisms of the sleep-improving effect of purified flavone from mulberry leaves (MLF) were explored through in vivo experiments, network pharmacology analysis, and molecular experimental validation.

MATERIALS AND METHODS:

The mice model was established by pentobarbital sodium induction to evaluate the sleep-improving effect of MLF. The MLF's chemical composition was identified through a liquid chromatograph quadrupole time-of-flight mass spectrometer (Q-TOF LC/MS) to elucidate its sleep-improving active ingredient. At last, the underlying mechanism of MLF's sleep-improving effect was elucidated through neurotransmitter detection (ELISA), network pharmacology analysis, and molecular experimental validation (quantitative real-time PCR and western blotting).

RESULTS:

MLF could dramatically reduce sleep latency by 35%, prolong sleep duration by 123%, and increase the sleep rate of mice through increasing γ-aminobutyric acid (GABA) and serotonin (5-HT) release in serum, hypothalamus, and hippocampus. Q-TOF LC/MS identified 17 flavonoid components in MLF. Network pharmacological analysis suggested that the key sleep-improving active ingredients in MLF might be quercetin, kaempferol, morin, and delphinidin. The key path for MLF to improve sleep might be the tryptophan metabolism and neuroactive ligand-receptor interaction, and the key targets might be gamma-aminobutyric acid type A receptor subunit alpha2 Gene (GABRA2) and serotonin 1A (5-HT1A) receptors.

CONCLUSIONS:

MLF has shown significant sleep-improving effects in mice and may take effect through regulating the GABA and 5-HT receptors.

01 Nov 2024·Brain Stimulation

Investigating the hypotensive effect of focused ultrasound neuromodulation and barbiturate-loaded nanodroplets in healthy and hypertensive rats

Article

Author: Chauhan, Neha ; Lea-Banks, Harriet ; Hynynen, Kullervo

BACKGROUND:

Current strategies for reducing blood pressure (BP) are ineffective and unsafe for many patient populations, including drug-resistant hypertension and during pregnancy. Stimulating the periaqueductal grey (PAG) region has shown promise in treating drug-resistant hypertension in patients using deep brain stimulation.

OBJECTIVE:

To develop a minimally invasive neuromodulation technique for the sustained treatment of hypertension.

METHODS:

We have investigated BP reduction using focused ultrasound (FUS) (540 kHz) and anesthetic-loaded ultrasound-responsive nanodroplets to deliver pentobarbital to the PAG in normotensive (N = 27) and hypertensive (N = 20) male and female rats. BP, heart rate and plasma hormone content were collected before and after FUS exposure, and neuronal activity was mapped in the PAG using C-Fos and neuron subtype staining. Cavitation activity was monitored by detecting acoustic emissions from vaporizing nanodroplets, and neuromodulation was verified with immunohistochemistry.

RESULTS:

Systolic and diastolic BP were reduced for 6 h following a single sonication of the PAG (-37/-28 mmHg systolic/diastolic), and the offline effect was extended to 4 days with consecutive sonications combined with systemically injected pentobarbital-loaded nanodroplets. In contrast, FUS applied to the frontal cortex had no effect on BP. Immunohistochemistry revealed stimulation of inhibitory neurons in the PAG region, indicating that the hypotensive effect was associated with a GABAergic pathway. The acoustic emissions from vaporizing droplets were found to correlate with neuron activity and change in BP, offering the potential for real-time treatment monitoring using ultrasound.

CONCLUSIONS:

This work has implications for developing a new treatment for hypertension that has greater safety and broader applicability for vulnerable patient populations.

01 Nov 2024·Veterinary Medicine and Science

Stability of Sodium Pentobarbital 5w/v% Aqueous Solution During Short‐Term Chilled and Ambient‐Temperature Storage

Article

Author: Ueda, Kayoko ; Sakamoto, Yuji ; Yamagiwa, Yoshinori ; Dohi, Masakazu ; Yamashita, Atsuko

ABSTRACT:

The COVID‐19 pandemic made it difficult to obtain pharmaceutical‐grade injectable anaesthetics used in animal experiments in Japan. To address this problem, it is worth the effort to evaluate whether the use of non‐pharmaceutical‐grade sodium pentobarbital (PBNa) water solution can be an alternative one from the perspective of stability, physicochemical properties, bioavailability and so on. In this article, as a first step, we examined the stability of PBNa 5w/v% aqueous solution (PBNa 5% AS). PBNa 5% AS sample was prepared simply by dissolving non‐pharmaceutical‐grade PBNa into water and was stored at 25°C and 5°C for 15 days. Visual appearance, pH, osmolality and assay (contents of PBNa and related substances) were tested. The stability test results indicated that there was no profound change in these test items of the PBNa 5% AS under either storage condition, suggesting that the formulation was sufficiently stable in such a short term. The only observable change was an increase of an impurity under 25°C storage; however, it was at a negligible level. Moreover, as the pH of the formulation remained <10.0 throughout the storage period in both conditions, the irritant level of the pH is considered to be acceptable. Therefore, from the viewpoint of the stability and physicochemical properties, PBNa 5% AS can be an alternative injectable anaesthetic when access to pharmaceutical‐grade anaesthetics is limited, as long as used in short‐term from its preparation.

News (Medical) associated with Pentobarbital Sodium

07 Mar 2023

·www.sciencedaily.com

Drunk mice sober up after a hormone shot

A hormone called fibroblast growth factor 21 (FGF21) protects mice against ethanol-induced loss of balance and righting reflex, according to a new study. A hormone called fibroblast growth factor 21 (FGF21) protects mice against ethanol-induced loss of balance and righting reflex, according to a study publishing on March 7 in the journal Cell Metabolism. "We've discovered that the liver is not only involved in metabolizing alcohol but that it also sends a hormonal signal to the brain to protect against the harmful effects of intoxication, including both loss of consciousness and coordination," says co-senior study author Steven Kliewer of the University of Texas Southwestern Medical Center. "We've further shown that by increasing FGF21 concentrations even higher by injection, we can dramatically accelerate recovery from intoxication. FGF21 does this by activating a very specific part of the brain that controls alertness," says Kliewer. The consumption of ethanol produced by the natural fermentation of simple sugars in ripening fruits and nectars can cause intoxication, impairing mobility and judgement. Animals that consume fructose and other simple sugars have evolved liver enzymes to break down ethanol. FGF21 is a hormone that is induced in the liver by a variety of metabolic stresses, including starvation, protein deficiency, simple sugars, and ethanol. In humans, ethanol is by far the most potent inducer of FGF21 described to date. Previous studies showed that FGF21 suppresses ethanol preference, induces water drinking to prevent dehydration, and protects against alcohol-induced liver injury. In the new study, Kliewer and co-senior study author David Mangelsdorf of the University of Texas Southwestern Medical Center show that FGF21 plays a broader role in defending against the harmful consequences of ethanol exposure than previously thought. In mice, FGF21 stimulated arousal from intoxication without changing the breakdown of ethanol. Mice lacking FGF21 took longer than their littermates to recover their righting reflex and balance following ethanol exposure. Conversely, pharmacologic FGF21 administration reduced the time needed for mice to recover from ethanol-induced unconsciousness and lack of muscle coordination. Surprisingly, FGF21 did not counteract sedation caused by ketamine, diazepam, or pentobarbital, indicating specificity for ethanol. FGF21 mediated its anti-intoxicant effects by directly activating noradrenergic neurons in the locus coeruleus region in the brain, which regulates arousal and alertness. Taken together, the results suggest that the FGF21 liver-brain pathway evolved to protect against ethanol-induced intoxication. According to the authors, this pathway may modulate a variety of cognitive and emotional functions to enhance survival under stressful conditions. Yet it remains to be determined whether activation of the noradrenergic system contributes to FGF21's other effects, including those on metabolism and ethanol and sweet preference. Although both FGF21 and noradrenergic nervous system activity are induced by ethanol in humans, additional studies will also be required to determine whether FGF21's anti-intoxicant activity translates to humans. "Our studies reveal that the brain is the major site of action for FGF21's effects," Mangelsdorf says. "We are now exploring in greater depth the neuronal pathways by which FGF21 exerts its sobering effect."

100 Deals associated with Pentobarbital Sodium

External Link

KEGG	Wiki	ATC	Drug Bank
D00500	Pentobarbital Sodium	N05CA01	DB00312

R&D Status

10 top approved records.

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Indication	Country/Location	Organization	Date
Anesthesia	CN	Shanghai New Asiatic Pharmaceuticals Co., Ltd.	01 Jan 1995
Sedation	-	-	01 Jan 1930
Sleep Initiation and Maintenance Disorders	-	-	01 Jan 1930

Clinical Result

Indication

Phase

Evaluation

View All Results

Study	Phase	Population	Analyzed Enrollment	Group	Results	Evaluation	Publication Date


SFN2008	Not Applicable	-	-	Pentobarbital	sfvgslnpii(ykbwjweebd) = wotjrrvatz zcglzpocvj (crtrzzildx ) View more	-	18 Nov 2008
SFN2007	Not Applicable	-	-	sodium pentobarbital (Nembutal anesthesia)	lwxisjigms(lgoxfhvzos) = lokyoeppnm ajnzhbzart (bklkucfalp, 1)	-	06 Nov 2007
NCT00622570 (Pubmed)	Phase 3	Intracranial Hypertension	20	Pentobarbital	ukispcrlqp(mzeckjqnja) = vstohveoxl vcomakvzfy (jpzvjyvics ) View more	-	01 Feb 2005
SFN2003	Not Applicable	-	-	GABA	vngliciipb(qwiikoqcfy) = tzxwtbqcaa frekpfyhmz (iytyjyhnyr ) View more	-	11 Nov 2003
SFN2003	Not Applicable	-	-	Saline	mhhsydjyjt(qlibhqvuoc) = mkuzraxnpp svmjozqdnj (pdjuxrxlfh )	-	10 Nov 2003
SFN2003	Not Applicable	-	-	OX-SAP	mhhsydjyjt(qlibhqvuoc) = aojgcuyijd svmjozqdnj (pdjuxrxlfh )	-	10 Nov 2003
SFN2001	Not Applicable	-	-	Pentobarbital	itkfwtopve(eynkulvdzl) = mwmlkpzvvx zwtaitrnjl (oyanyrjyan )	-	13 Nov 2001
SFN2001	Not Applicable	-	-	GABA	itkfwtopve(eynkulvdzl) = utzytbysow zwtaitrnjl (oyanyrjyan )	-	13 Nov 2001
ASTRO2001	Not Applicable	Sedation	-	Pentobarbital sodium	ndrbdeoohb(wbscbbsdhp) = wpqewuszwj cispthyhxw (vwbddtwczs, 24) View more	-	01 Nov 2001

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