Exposure to environmental complexity promotes recovery of cognitive function after traumatic brain injury

被引：118

作者：

Hamm, RJ ^{[1
]}

Temple, MD ^{[1
]}

ODell, DM ^{[1
]}

Pike, BR ^{[1
]}

Lyeth, BG ^{[1
]}

机构：

[1] VIRGINIA COMMONWEALTH UNIV,MED COLL VIRGINIA,DEPT NEUROSURG,RICHMOND,VA 23284

来源：

JOURNAL OF NEUROTRAUMA | 1996年 / 13卷 / 01期

关键词：

environments; memory; Morris water maze; recovery; traumatic brain injury;

D O I：

10.1089/neu.1996.13.41

中图分类号：

R4 [临床医学];

学科分类号：

1002 ; 100602 ;

摘要：

This study was designed to determine whether exposure to a complex environment after traumatic brain injury (TBI) would promote the recovery of cognitive function. Rats were injured at a moderate level of fluid percussion injury (2.1 atm) or were prepared for injury but were not injured (sham injury), Immediately after the injury or sham injury, the injured/complex (n = 8) and the sham/complex (n = 7) groups were placed into a complex environment. The complex environment was a 89 x 89-cm enclosure with different types of bedding and objects that provided motor, ol-factory, tactile, and visual stimulation. The injured/standard (n = 8) and the sham/standard (n = 8) groups were returned to the animal vivarium where they were housed individually in standard wire mesh cages (24 x 20 x 18 cm). On days 11-15 (postinjury), performance in the Morris water maze was assessed. Analysis of the latency to reach the goal platform indicated that injured animals recuperating in the complex environment performed significantly better than injured animals recovering in the standard environment (p < 0.01). In fact, injured animals in the complex environment performed as well as both sham-injured groups. The improved performance of injured rats recovering in the enriched environment occurred in the absence of environmentally induced alterations in brain weight. These results indicate that exposure to environmental complexity enhances recovery of cognitive function after TBI.

引用

页码：41 / 47

页数：7

共 53 条

[1] INTRAVENTRICULAR NOREPINEPHRINE FACILITATES MOTOR RECOVERY FOLLOWING SENSORIMOTOR CORTEX INJURY [J].

BOYESON, MG ;

FEENEY, DM .

PHARMACOLOGY BIOCHEMISTRY AND BEHAVIOR, 1990, 35 (03) :497-501

[2] IMPAIRED GROWTH OF THE CEREBRAL-CORTEX OF RATS TREATED NEONATALLY WITH 6-HYDROXYDOPAMINE UNDER DIFFERENT ENVIRONMENTAL-CONDITIONS [J].

BRENNER, E ;

MIRMIRAN, M ;

UYLINGS, HBM ;

VANDERGUGTEN, J .

NEUROSCIENCE LETTERS, 1983, 42 (01) :13-17

[3] TRAUMATIC BRAIN INJURY CAUSES A DECREASE IN M2 MUSCARINIC CHOLINERGIC RECEPTOR-BINDING IN THE RAT-BRAIN [J].

DEANGELIS, MM ;

HAYES, RL ;

LYETH, BG .

BRAIN RESEARCH, 1994, 653 (1-2) :39-44

[4]

DELAHUNTY TM, 1995, NEUROCHEM RES, V20, P335

[5]

DEWITT DS, 1988, ANESTHESIOLOGY REV, V15, P31

[6] WIDESPREAD METABOLIC DEPRESSION AND REDUCED SOMATOSENSORY CIRCUIT ACTIVATION FOLLOWING TRAUMATIC BRAIN INJURY IN RATS [J].

DIETRICH, WD ;

ALONSO, O ;

BUSTO, R ;

GINSBERG, MD .

JOURNAL OF NEUROTRAUMA, 1994, 11 (06) :629-640

[7] A FLUID PERCUSSION MODEL OF EXPERIMENTAL BRAIN INJURY IN THE RAT [J].

DIXON, CE ;

LYETH, BG ;

POVLISHOCK, JT ;

FINDLING, RL ;

HAMM, RJ ;

MARMAROU, A ;

YOUNG, HF ;

HAYES, RL .

JOURNAL OF NEUROSURGERY, 1987, 67 (01) :110-119

[8] PRESURGICAL REARING ENVIRONMENT ALTERS EXPLORATION, FLUID CONSUMPTION, AND LEARNING OF SEPTAL LESIONED AND CONTROL RATS [J].

DONOVICK, PJ ;

BURRIGHT, RG ;

SWIDLER, MA .

PHYSIOLOGY & BEHAVIOR, 1973, 11 (04) :543-553

[9] EFFECTS OF POSTOPERATIVE ENVIRONMENT ON RECOVERY FROM DORSAL HIPPOCAMPAL-LESIONS IN YOUNG-RATS - TESTS OF SPATIAL MEMORY AND MOTOR TRANSFER [J].

EINON, DF ;

MORGAN, MJ ;

WILL, BE .

QUARTERLY JOURNAL OF EXPERIMENTAL PSYCHOLOGY, 1980, 32 (FEB) :137-+

[10] THE ROLE OF EXCITATORY AMINO-ACIDS AND NMDA RECEPTORS IN TRAUMATIC BRAIN INJURY [J].

FADEN, AI ;

DEMEDIUK, P ;

PANTER, SS ;

VINK, R .

SCIENCE, 1989, 244 (4906) :798-800

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