Alpinia officinarum Hance of the Chinese traditional herb for the treatment of emesis,abdominal pain and diarrhea has been used to counteract gastric disease induced by indomethacin in rats without obvious side effects.However,the role of herb-drug interaction between indomethacin and A.officinarum based on pharmacokinetic,tissue distribution and excretion still remains unknown.In this study,an ultra-fast liquid-tandem mass spectrometry(UFLC-MS/MS)method was developed for simultaneous determina-tion of indomethacin and its three metabolites,O-desmethylindomethacin(ODI),deschlor-obenzoylindomethacin(NDI)and indomethacin acyl-β-D-glucuronide(IDAβG)by oral administration of indomethacin solution with and without the ethanolic extract of A.officinarum and applied to comparative pharmacokinetic,tissue distribution and excretion studies.Our results clarified that oral administration of A.officinarum produced significant alterations in the pharmacokinetic parameters of indomethacin.And the pharmacokinetic interaction between indomethacin and A.officinarum reduced the systemic exposure of indomethacin and increased its elimination.Tissue distribution results demonstrated that co-administration of A.Officinarum could not reduce the accumulation of indo-methacin in the target tissue of the stomach,but could accelerate the excretions of indomethacin and its three metabolites including ODI,NDI and IDAβG in the bile and feces of rats in the excretion study.Therefore,A.Officinarum might have a gastrointestinal protective effect through the interaction role with indomethacin based on the pharmacokinetics and excretion in rats.

BACKGROUND:Currently,exercise therapy is an effective non-pharmacological treatment for low back pain,and exercise therapy can maintain lumbar spine stabilization through mechanical-chemical coupling between bones and muscles,but there is no clear description of the research progress and optimal treatment protocols for exercise therapy to relieve chronic non-specific lower back pain through mechanical-chemical coupling. OBJECTIVE:To review the research progress related to the influence of paravertebral muscles on lumbar spine stabilization during exercise therapy through mechanical-chemical coupling,which in turn relieves chronic non-specific lower back pain,as well as the current optimal treatment protocols of exercise therapy for chronic non-specific lower back pain. METHODS:Literature searches were performed in WanFang database,CNKI,VIP,Web of Science,and PubMed database,with search terms of"chronic non-specific low back pain,lumbar spine stabilization,paravertebral muscles,exercise therapy"in Chinese and English.Relevant literature published from database inception to January 2024 was searched and 93 articles were included for final summarization. RESULTS AND CONCLUSION:Exercise therapy can act on the paravertebral muscles and bones through appropriate mechanical stimulation and produce corresponding changes.Exercise therapy is an important intervention for chronic non-specific lower back pain as it improves the quality of the paravertebral muscles,primarily through mechanical-chemical coupling,and thus maintains lumbar spine stabilization for better relief of chronic non-specific lower back pain.However,there are no clear reports on the exact effective protocols for exercise therapy to treat chronic non-specific lower back pain through lumbar spine stabilization.The development of an individualized exercise program is particularly important for the treatment and prognosis of chronic non-specific low back pain.Muscle mass and bone mass of the same individual are closely related,and imaging assessment of paravertebral muscle mass and quantity is important for disease detection and intervention.