Central fatigue refers to the central nervous system disease caused by excessive mental pressure or excessive physical activity, which shows a series of fatigue symptoms. The pathological mechanism of central fatigue remains unclear, and the mitochondrial quality control pathway represented by mitophagy is closely related to the occurrence and development of central fatigue. Traditional Chinese medicine considers liver stagnation and spleen deficiency as the key pathogenesis of central fatigue. This paper suggests that oxidative stress may be an important basis for the occurrence of central fatigue, energy metabolism disorders are specific manifestations of liver′s failure of conveyance and dispersion and spleen′s failure of healthy transportation, and the abnormal accumulation of reactive oxygen can be regarded as pathological products of central fatigue. Therefore, based on oxidative stress and energy metabolism, the pathologic mechanism of liver′s failure of conveyance and dispersion and spleen′s failure of healthy transportation in central fatigue from the perspective of mitophagy has a rich theoretical connotation, and provides a theoretical reference for the clinical treatment of central fatigue.

ObjectiveThe research focuses on developing modeling and evaluation methodologies for an animal model exhibiting spleen deficiency and dampness excess syndrome， with the aim of standardizing such animal models for future reference. MethodsBy conducting a literature search on animal models of spleen deficiency and dampness excess syndrome， relevant publications meeting inclusion and exclusion criteria will be identified based on publication date， data source， types of diseases involved， animal characteristics， modeling methods， modeling duration， macroscopic syndrome assessment indicators， macroscopic quantification indicators， laboratory testing parameters， intervention approaches， positive controls and application context. A database will be established to facilitate the extraction of this information for quantitative analysis， statistical evaluation， and visual representation. ResultsA total of 137 literature articles meeting the standards have been included in the research. The primary animal species used in animal models of spleen deficiency and dampness excess are SD rats. Modeling methods include single-factor， dual-factor composite， and triple-factor composite methods， with various models widely applied in validation of pharmacological effects and mechanistic explorations. Evaluation indices of animal models for spleen deficiency and dampness excess primarily consist of macroscopic syndrome evaluation indicators and macroscopic quantitative indicators. Laboratory testing indicators are mostly related to research areas such as fluid metabolism and gastrointestinal function. The most commonly studied herbal formulas currently include Shenling Baizhu San and Pingwei San， with natural recovery and the use of the western medicine metronidazole as the most frequently used positive controls. ConclusionThe application of animal models for spleen deficiency and dampness excess is gradually increasing， with various modeling methods already simulating the typical characteristics of this syndrome pattern. However， there are still many areas that are worth contemplating and improving. This study aims to provide reference and ideas for the standardization of symptom names in animal models of spleen deficiency and dampness excess， as well as for the improvement of model construction and evaluation systems.