aminooxyacetic acid and Cardiovascular Stroke studies

aminooxyacetic acid and Cardiovascular Stroke

Aminooxyacetic Acid: A compound that inhibits aminobutyrate aminotransferase activity in vivo, thereby raising the level of gamma-aminobutyric acid in tissues.
(aminooxy)acetic acid : A member of the class of hydroxylamines that is acetic acid substituted at postion 2 by an aminooxy group. It is a compound which inhibits aminobutyrate aminotransferase activity in vivo, resulting in increased levels of gamma-aminobutyric acid in tissues.

Research Excerpts

Excerpt	Relevance	Reference
"Aminooxyacetic acid (AOAA) is an inhibitor of aspartate aminotransferase in the aspartate-arginosuccinate shunt."	1.56	Aminooxyacetic acid attenuates post-infarct cardiac dysfunction by balancing macrophage polarization through modulating macrophage metabolism in mice. ( Chen, W; Hui, J; Li, J; Pan, L; Shen, Z; Zhang, Y; Zhao, P; Zhao, Y; Zhou, W, 2020)

Research

Studies (5)

Timeframe	Studies, this research(%)	All Research%
pre-1990	0 (0.00)	18.7374
1990's	0 (0.00)	18.2507
2000's	1 (20.00)	29.6817
2010's	3 (60.00)	24.3611
2020's	1 (20.00)	2.80

Timeframe

Studies, this research(%)

All Research%

pre-1990

0 (0.00)

18.7374

1990's

0 (0.00)

18.2507

2000's

1 (20.00)

29.6817

2010's

3 (60.00)

24.3611

2020's

1 (20.00)

2.80

Authors

Authors	Studies
Zhao, P	1
Zhou, W	1
Zhang, Y	1
Li, J	1
Zhao, Y	1
Pan, L	1
Shen, Z	1
Chen, W	1
Hui, J	1
Jespersen, NR	1
Yokota, T	1
Støttrup, NB	3
Bergdahl, A	1
Paelestik, KB	1
Povlsen, JA	1
Dela, F	1
Bøtker, HE	3
Løfgren, B	2
Birkler, RD	1
Nielsen, JM	1
Wang, L	1
Caldarone, CA	1
Kristiansen, SB	2
Contractor, H	1
Johannsen, M	1
Nielsen, TT	2
González-Loyola, A	1
Barba, I	1
Kimose, HH	1
Nielsen-Kudsk, JE	1

Studies

Zhao, P

Zhou, W

Zhang, Y

Li, J

Zhao, Y

Pan, L

Shen, Z

Chen, W

Hui, J

Jespersen, NR

Yokota, T

Støttrup, NB

Bergdahl, A

Paelestik, KB

Povlsen, JA

Dela, F

Bøtker, HE

Løfgren, B

Birkler, RD

Nielsen, JM

Wang, L

Caldarone, CA

Kristiansen, SB

Contractor, H

Johannsen, M

Nielsen, TT

González-Loyola, A

Barba, I

Kimose, HH

Nielsen-Kudsk, JE

Clinical Trials (2)

Trial Overview

Trial	Enrollment	Study Type	Start Date	Status
Cardiac Mitochondrial Function After Heart Transplantation[NCT04105803]	64 participants (Anticipated)	Observational	2019-04-25	Enrolling by invitation
Cardiac Mitochondrial Function in Explanted Human Hearts[NCT04500938]	24 participants (Anticipated)	Observational	2020-08-30	Not yet recruiting
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Trial

Phase

Enrollment

Study Type

Start Date

Status

Cardiac Mitochondrial Function After Heart Transplantation[NCT04105803]

64 participants (Anticipated)

Observational

2019-04-25

Enrolling by invitation

Cardiac Mitochondrial Function in Explanted Human Hearts[NCT04500938]

24 participants (Anticipated)

Observational

2020-08-30

Not yet recruiting

[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Other Studies

5 other studies available for aminooxyacetic acid and Cardiovascular Stroke

Article	Year
Aminooxyacetic acid attenuates post-infarct cardiac dysfunction by balancing macrophage polarization through modulating macrophage metabolism in mice. Journal of cellular and molecular medicine, 2020, Volume: 24, Issue:4 Topics: Aminooxyacetic Acid; Animals; Anti-Inflammatory Agents; Caspase 1; Heart; Heart Diseases; Interleuki	2020
Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion. The Journal of physiology, 2017, 06-15, Volume: 595, Issue:12 Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Citric Acid Cycle	2017
Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion. The Journal of physiology, 2017, 06-15, Volume: 595, Issue:12 Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Citric Acid Cycle	2017
Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion. The Journal of physiology, 2017, 06-15, Volume: 595, Issue:12 Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Citric Acid Cycle	2017
Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion. The Journal of physiology, 2017, 06-15, Volume: 595, Issue:12 Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Citric Acid Cycle	2017
Inhibition of the malate-aspartate shuttle by pre-ischaemic aminooxyacetate loading of the heart induces cardioprotection. Cardiovascular research, 2010, Nov-01, Volume: 88, Issue:2 Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Energy Metabolism	2010
Mitochondrial metabolism revisited: a route to cardioprotection. Cardiovascular research, 2010, Nov-01, Volume: 88, Issue:2 Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Energy Metabolism	2010
Cardioprotection by L-glutamate during postischaemic reperfusion: reduced infarct size and enhanced glycogen resynthesis in a rat insulin-free heart model. Clinical and experimental pharmacology & physiology, 2008, Volume: 35, Issue:8 Topics: Aminooxyacetic Acid; Animals; Enzyme Inhibitors; Glutamic Acid; Glyburide; Glycogen; Hypoglycemic Ag	2008

Article

Year

Aminooxyacetic acid attenuates post-infarct cardiac dysfunction by balancing macrophage polarization through modulating macrophage metabolism in mice.

Journal of cellular and molecular medicine, 2020, Volume: 24, Issue:4

Topics: Aminooxyacetic Acid; Animals; Anti-Inflammatory Agents; Caspase 1; Heart; Heart Diseases; Interleuki

2020

Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion.

The Journal of physiology, 2017, 06-15, Volume: 595, Issue:12

Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Citric Acid Cycle

2017

Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion.

The Journal of physiology, 2017, 06-15, Volume: 595, Issue:12

Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Citric Acid Cycle

2017

Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion.

The Journal of physiology, 2017, 06-15, Volume: 595, Issue:12

Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Citric Acid Cycle

2017

Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion.

The Journal of physiology, 2017, 06-15, Volume: 595, Issue:12

Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Citric Acid Cycle

2017

Inhibition of the malate-aspartate shuttle by pre-ischaemic aminooxyacetate loading of the heart induces cardioprotection.

Cardiovascular research, 2010, Nov-01, Volume: 88, Issue:2

Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Energy Metabolism

2010

Mitochondrial metabolism revisited: a route to cardioprotection.

Cardiovascular research, 2010, Nov-01, Volume: 88, Issue:2

Topics: Aminooxyacetic Acid; Animals; Aspartic Acid; Cardiotonic Agents; Cell Respiration; Energy Metabolism

2010

Cardioprotection by L-glutamate during postischaemic reperfusion: reduced infarct size and enhanced glycogen resynthesis in a rat insulin-free heart model.

Clinical and experimental pharmacology & physiology, 2008, Volume: 35, Issue:8

Topics: Aminooxyacetic Acid; Animals; Enzyme Inhibitors; Glutamic Acid; Glyburide; Glycogen; Hypoglycemic Ag

2008