Microdialysis ; Pharmaceutical Preparations ; metabolism ; Pharmacokinetics

Humans ; Inactivation, Metabolic ; Pharmaceutical Preparations ; metabolism

Lysozyme (LYSO), as an alkalescent protein micromolecule in living organisms, exhibits important pharmacological actions such as antibiosis, anti-inflammatory, antivirus and enhancing immunity. LYSO can combine with many exogenous and endogenous substances and carry many drugs. This essay summarizes interaction between different kinds of active components of natural medicines and lysozymes, which is significant to comprehensively understand pharmacological mechanism of natural drugs and their transfer and metabolic process in organisms, optimize molecule structures of drugs and increase bioavailability and biological effects of natural drugs.
Humans ; Muramidase ; chemistry ; metabolism ; Pharmaceutical Preparations ; chemistry ; metabolism ; Protein Binding

The special environmental features of high altitude, such as hypobaric hypoxia, low temperature, arid, high solar radiation, variable climate and geochemical anomaly, cause great effects on human physiology and health. It will provide valuable references and new ideas to study drug's metabolism in special environment of high altitude hypoxia, and give the guidance to clinical reasonable medication, avoiding adverse reactions and personalized medicine in plateau areas. This article reviewed the effect of high altitude hypoxia on drug metabolism, elaborated metabolic characteristics of some drugs and the activity and expression of drug metabolism enzymes under hypoxia environment at high altitude, and discussed related mechanism.
Altitude ; Climate ; Cold Temperature ; Humans ; Hypoxia ; Pharmaceutical Preparations ; metabolism

Drugs sharing similar therapeutic function may not bind to the same group of targets. However, their targets may be involved in similar pathway profiles which are associated with certain pathological process. In this study, pathway fingerprint was introduced to indicate the profile of significant pathways being influenced by the targets of drugs. Then drug-drug network was further constructed based on significant similarity of pathway fingerprints. In this way, the functions of a drug may be hinted by the enriched therapeutic functions of its neighboring drugs. In the test of 911 FDA approved drugs with more than one known target, 471 drugs could be connected into networks. 760 significant associations of drug-therapeutic function were generated, among which around 60% of them were supported by scientific literatures or ATC codes of drug functional classification. Therefore, pathway fingerprints may be useful to further study on the potential function of known drugs, or the unknown function of new drugs.
Drug Interactions ; Metabolic Networks and Pathways ; Pharmaceutical Preparations ; metabolism

The reasonable prediction of metabolic clearance rate from the humanized in vitro system is valuable in drug discovery, which is commonly used in the identification and optimization of compounds that mostly like to process appropriate pharmacokinetic characteristics in humans. A detailed development of the general theory and, models underlying the prediction of in vivo hepatic drug metabolism from in vitro data were presented. Furthermore, the accuracy when extrapolating from in vitro data considering the in vitro-in vivo correlation, method-logical issues and potential solutions were discussed as well. This review can give us a better insight into exploring methods whereby human clearance can be accurately predicted from in vitro data in the process of new drug development.
Animals ; Humans ; Metabolic Clearance Rate ; Microsomes, Liver ; metabolism ; Models, Biological ; Pharmaceutical Preparations ; metabolism ; Pharmacokinetics

Useful pharmacodynamic changes occur when some Chinese medicine are used together with some Western medicine, namely enhanced curative effect, lowered adverse reactions, reduced dosages, shortened treatment courses, enlarged indications scope, improved compliance of treatment and rational medication, which could be explored to provide scientific bases for further improving diagnosis and treatment levels and rational use of drugs.
Drugs, Chinese Herbal ; metabolism ; Humans ; Medicine, East Asian Traditional ; Pharmaceutical Preparations ; metabolism ; Pharmacokinetics ; Phytotherapy

OBJECTIVE: To study the effects of the neuro-microenvironment on the mass of mitochondria in hematopoietic stem and progenitor cells (HSPC), and to understand the potential mechanisms how nerve regulates HSPC. METHODS: 6-hydroxydopamine (6-OHDA) and capsaicin were used to interfere with the function of sympathetic nerve and nociceptive nerve in mitochondria-GFP reporter mice, respectively. The fluorescence intensity of GFP in bone marrow and spleen was measured by flow cytometry. The GFP median fluorescence intensity (MFI) of HSPC in normal bone marrow and spleen was analyzed and compared. The changes of the mitochondrial mass in HSPCs in each group after denervation were compared. RESULTS: Hematopoietic stem cells (HSC) had the highest mito-GFP MFI in steady-state (49 793±1 877), and the mito-GFP MFI gradually decreased during the differentiation of HSCs. Compared with control group, pharmaceutical nociceptive denervation significantly increased the mito-GFP MFI of bone marrow multipotent progenitor-1 (MPP1, 50 751±420 vs 44 020±510) and LKS^- cells (15 673±65 vs 13 979±103); pharmaceutical sympathetic denervation significantly reduced the mito-GFP MFI of bone marrow LKS⁺ cells (21 667±351 vs 29 249±973). CONCLUSION Sympathetic and nociceptive nerves can regulate the mass of mitochondria in HSPC and affect the function of HSPCs.
Animals ; Mice ; Hematopoietic Stem Cells ; Bone Marrow/metabolism* ; Cell Differentiation ; Mitochondria ; Pharmaceutical Preparations/metabolism*

The pharmacological or toxicological efficacy of drugs can be influenced significantly when their metabolic pathway is induced or inhibited by co-administrated drugs.Metabolism-based drug-drug interactions (DDIs) have a high incidence and are important in clinical therapeutics. Studies on metabolism-based DDIs are now moved to the early stages of drug development, so that adequate assessment of its safety and effectiveness can be facilitated. These studies comprise in vitro and in vivo investigations and an appropriate design of studies is important. In many cases, negative findings from early in vitro and early clinical studies can eliminate the need for later clinical investigations. This article summarizes the background and mechanism of metabolism-based DDIs and focuses on the strategies of these studies.
Drug Interactions ; Drug-Related Side Effects and Adverse Reactions ; Humans ; Inactivation, Metabolic ; Pharmaceutical Preparations ; metabolism

In the 21st century, the public are more informed, mainly via the Internet, about health and medical products and have become more knowledgeable about matters relating to their health conditions and well-being in curing and preventing illnesses. They often self-medicate themselves with various health products and over-the-counter (OTC) medicines apart from prescribed pharmaceutical drugs (PD). Some of those non-prescribed products may have doubtful quality control and contain harmful additives or unchecked ingredients; thus their usefulness is in doubt. The increasing popularity world-wide of using Chinese medicines (CM) and related OTC functional products has raised concerns over their concomitant use with PD and the consequential adverse effects. In most cases the alleged causes of adverse effects are linked with herbal sources, although the authorised information on the interactions between CM-PD is not plentiful in the literature. There is an urgent need for such a data base. The future professionals in health and medical care should be knowledgeable or aware of what their patients have been taking or given. In actual practice the patients may receive both treatments intentionally or unintentionally, with or without the awareness of the practitioner. In these situations a reliable database for interactions between CM-PD will be extremely useful for consultation when treatment problems appear or during emergency situations. Their combining of medications may be involved with possible outcomes of adverse reactions or beneficial effects. Such a database will be welcomed by both practitioners of herbal medicines and orthodox medicine practitioners in the emerging trend of integrative medicine. The author has been involved in various research projects of basic and clinical aspects in mainly CM among other herbal and PD. Examples will be given largely on those related to these disciplines as illustrations in this overview.
Delivery of Health Care ; Drug Interactions ; Drugs, Chinese Herbal ; pharmacology ; Humans ; Integrative Medicine ; Pharmaceutical Preparations ; metabolism