Experimental Models of Cerebral Palsy in Infant Rats.
10.5625/lar.2010.26.4.345
- Author:
Dongsun PARK
1
;
Tae Kyun KIM
;
Young Jin CHOI
;
Sun Hee LEE
;
Hyomin KANG
;
Yun Hui YANG
;
Dae Kwon BAE
;
Goeun YANG
;
Yun Bae KIM
Author Information
1. College of Veterinary Medicine, Chungbuk National University, Cheongju, Korea. solar93@cbu.ac.kr
- Publication Type:Original Article
- Keywords:
Cerebral palsy;
hypoxia-ischemia (HI);
demyelination;
behavioral disorders;
learning and memory
- MeSH:
Achievement;
Animals;
Anoxia;
Brain;
Brain Injuries;
Carotid Arteries;
Carotid Artery, Common;
Cerebral Palsy;
Demyelinating Diseases;
Female;
Humans;
Hypoxia, Brain;
Infant;
Ischemia;
Learning;
Ligation;
Male;
Mass Screening;
Memory Disorders;
Models, Theoretical;
Motor Activity;
Myelin Basic Protein;
Rats;
Reflex, Righting;
Survival Rate
- From:Laboratory Animal Research
2010;26(4):345-351
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Brain damage resulting from perinatal cerebral hypoxia and ischemia is a major cause of acute mortality and neurological disabilities, including cerebral palsy (CP) and cognitive dysfunction. In order to establish an experimental hypoxia-ischemia (HI) model of CP for the screening of therapeutics, we operated bilateral common carotid artery ligation (BCAO) and monolateral carotid artery occlusion (MCAO), followed by 15 min of hypoxia (8% oxygen) in 4-day-old rats, and evaluated neurobehavioral disorders. After surgery, the survival rates of male and female BCAO rats were 33.3 and 7.1%, respectively, whereas 100% and 82.4% MCAO rats survived. In neurobehavioral performances, both male and female BCAO rats showed delayed achievement of righting reflex, in contrast to a negligible effect in MACO animals. However, both BCAO and MCAO rats exhibited impairment of cliff avoidance performances, although the physical dysfunction was more severe in BCAO than in MCAO. In global locomotor activity, MCAO rats also displayed decreased fast-moving time comparable BCAO animals, and increased resting and slow-moving times. In addition, MCAO rats showed marked learning and memory deficit in passive avoidance performances, similar to BCAO animals. From immunostaining analyses, severe degradation and loss of myelin basic proteins were observed in the brain of BCAO rats, in contrast to a mild aggregation in MCAO animals. Therefore, it is suggested that MCAO should be a more suitable CP model than BCAO, based on the high survival rate, relatively-mild brain injury, and enough neurobehavioral disorders for the research on preventive and therapeutic compounds.
