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1.
Chinese Journal of Dermatology ; (12): 123-126, 2024.
Artículo en Chino | WPRIM | ID: wpr-1028909

RESUMEN

Rosacea is a psychosomatic disorder characterized by a distinct neurobiological etiology. It is prone to be comorbid with many neuropsychiatric conditions, and imposes a significant psychosocial burden. This article discusses the psychosomatic attributes of rosacea from neurological, psychiatric, social, and psychological perspectives, aiming to enhance dermatologists′ understanding of its psychosomatic nature.

2.
Zhongguo Zhong Yao Za Zhi ; (24): 853-860, 2023.
Artículo en Chino | WPRIM | ID: wpr-970557

RESUMEN

The degeneration of monoaminergic system and the reduction of monoamine neurotransmitters(MNTs) are associated with the occurrence of a variety of neuropsychiatric diseases, becoming the key indicators for clinical diagnosis and treatment. Recent studies suggested gut microbiota could influence the occurrence, development, and treatment of neuropsychiatric diseases by directly or indirectly regulating the synthesis and metabolism of MNTs. Rich clinical experience has been accumulated in the amelioration and treatment of neuropsychiatric diseases by traditional Chinese medicines. The traditional oral administration method demonstrates obvious advantages in regulating gut microbiota. It provides a new idea for explaining the pharmacodynamic material basis and mechanism of traditional Chinese medicines in ameliorating neuropsychiatric disease by improving the levels of MNTs via gut microbiota regulation. Focusing on three common neuropsychiatric diseases including Alzheimer's disease, Parkinson's disease, and major depression, we summarized the pathways of gut microbiota in regulating the levels of MNTs and the paradigms of traditional Chinese medicines in ameliorating neuropsychiatric diseases via the "bacteria-gut-brain axis", aiming to provide ideas for the development of drugs and treatment schemes.


Asunto(s)
Humanos , Administración Oral , Enfermedad de Alzheimer , Eje Cerebro-Intestino , Microbioma Gastrointestinal , Neurotransmisores
3.
Artículo en Chino | WPRIM | ID: wpr-992076

RESUMEN

Restricted and repetitive behaviors is the characteristic clinical manifestation of many neuropsychiatric diseases, which seriously affects the work, study and daily communication of patients, and brings huge mental and economic burden to the family and society.Its causes are complex and its manifestations are diverse.Current studies have shown that microglia is closely related to the occurrence of restricted and repetitive behaviors, and the in-depth study of microglia has become a research hotspot to explore the mechanism of restricted and repetitive behaviors.In recent years, studies have found that restricted and repetitive behaviors of various neuropsychiatric diseases (such as frontotemporal dementia, obsessive-compulsive disorder, autism spectrum disorder) are related to microglia.However, reliable evidence for the exact mechanism of microglia involved in restricted and repetitive behaviors remains lacking.This article reviews the recent research progress of microglia involved in restricted and repetitive behaviors.It is expected to provide a new theoretical basis and therapeutic targeting cell for the development and treatment of neuropsychiatric diseases related to restricted and repetitive behaviors in the future.

4.
Chinese Journal of Dermatology ; (12): 693-697, 2023.
Artículo en Chino | WPRIM | ID: wpr-994515

RESUMEN

Rosacea is a chronic recurrent inflammatory skin disease that mainly occurs on the face. A large number of studies have confirmed that rosacea is related to a variety of systemic diseases, including neuropsychiatric diseases such as anxiety, depression, migraine, Alzheimer′s disease and Parkinson′s disease. This review summarizes research progress in the correlation between rosacea and neuropsychiatric diseases, as well as the underlying mechanisms.

5.
Chinese Pharmaceutical Journal ; (24): 789-793, 2020.
Artículo en Chino | WPRIM | ID: wpr-857699

RESUMEN

Cytochrome P450 enzymes participate in the biotransformation of various organic compounds in living organisms. Cytochrome P450 enzymes are present and active in various brain regions, which mediate the synthesis and metabolism of various endogenous substances in the brain, so the enzymes play an important role in maintaining homeostasis of the central nervous system. And cytochrome P450 enzymes in brain are widely involved in metabolism of central drugs such as tramadol, so the changes of their activities or expressions may affect the drug's efficacy in brain. In addition, in view of the important roles of cytochrome P450 enzymes in the biotransformation of endogenous and exogenous substances in brain, the importance of their genetic polymorphism or activity changes in neuropsychiatric diseases is being gradually described. Therefore, in order to provide theoretical basis for the development of related targeted therapeutic drugs and explore whether cytochrome P450 enzymes in the brain can be used as therapeutic targets for central diseases, the development in the function of cytochrome P450 enzymes in brain and their recent advances in neuropsychiatric diseases by reviewing the relevant research in recent years are summarized.

6.
Artículo en Chino | WPRIM | ID: wpr-509470

RESUMEN

Optogenetics is a technology invented by Boyden in 2005 that allows targeted, fast control of precisely defined events in neural system. It was widely used in Parkinson disease and emotional neural circuit studies. Optogenetics was selected by Nature Methods for method of the year 2010. This paper reviews on the research advances and applications of optogenetics.

7.
Artículo en Chino | WPRIM | ID: wpr-705228

RESUMEN

Cell transdifferentiation is the direct conversion of one type of cell into another without becoming a pluripotent stem cell. Rapid progress in this field has brought new perspectives on understanding and treating disorders associated with the nervous system,such as neurodegeneration, traumatic injuries,and neuropsychiatric diseases.Being able to obtain functional neurons through trans-differentiation from abundant somatic cells also provides a new strategy for regenerative medicine. In this review we highlight the recent progress in cell transdifferentiation for neurological disorders and dis-cuss potential challenges facing its clinical applications.

8.
China Pharmacist ; (12): 1781-1787, 2017.
Artículo en Chino | WPRIM | ID: wpr-658130

RESUMEN

Shengmai powder, as the most famous decoration of invigorating qi and Yin in Chinese Medicine, has the function of cardiac effects and restoring pulse. It is mainly used to prevent and treat cardiovascular disease in the clinic, and has obvious curative effect. Shengmai powder, could applied in diseases of the neuropsychiatric system as the same, according to the TCM basic theory which is"heart has the function of controlling spirit, consciousness and thinking", while few researches can be found sporadically. The related literature during late 20 years were collected, selected, combed and commented from two aspects of clinical application and ex-perimental pharmacology in order to offer a reference for expanding application of Shengmai powder in neuropsychiatric disease as while. The clinical reports indicated that Shengmai powder, its modified formulas or combination with western-medicine may have effects on many neuropsychic diseases, such as major depressive disorder( MDD) , cerebral apoplexy, Alzheimer disease( AD) , hyperkinetic syndrome of childhood , sudden deafness( SD) , peripheral nerve disease( PN) , neurological dysfunction and so on. It may also reduce toxic and side effects of antipsychotics. Pharmacology experiments results showed that Shengmai powder has lots of functions, for in-stance, Anti-psychology stress, lipid-decreasing, and improving blood rheology and cerebral functions. It provides pharmacological ref-erence on the prevention and treatment in neuropsychic disease applied by Shengmai powder.

9.
China Pharmacist ; (12): 1781-1787, 2017.
Artículo en Chino | WPRIM | ID: wpr-660896

RESUMEN

Shengmai powder, as the most famous decoration of invigorating qi and Yin in Chinese Medicine, has the function of cardiac effects and restoring pulse. It is mainly used to prevent and treat cardiovascular disease in the clinic, and has obvious curative effect. Shengmai powder, could applied in diseases of the neuropsychiatric system as the same, according to the TCM basic theory which is"heart has the function of controlling spirit, consciousness and thinking", while few researches can be found sporadically. The related literature during late 20 years were collected, selected, combed and commented from two aspects of clinical application and ex-perimental pharmacology in order to offer a reference for expanding application of Shengmai powder in neuropsychiatric disease as while. The clinical reports indicated that Shengmai powder, its modified formulas or combination with western-medicine may have effects on many neuropsychic diseases, such as major depressive disorder( MDD) , cerebral apoplexy, Alzheimer disease( AD) , hyperkinetic syndrome of childhood , sudden deafness( SD) , peripheral nerve disease( PN) , neurological dysfunction and so on. It may also reduce toxic and side effects of antipsychotics. Pharmacology experiments results showed that Shengmai powder has lots of functions, for in-stance, Anti-psychology stress, lipid-decreasing, and improving blood rheology and cerebral functions. It provides pharmacological ref-erence on the prevention and treatment in neuropsychic disease applied by Shengmai powder.

10.
Salud ment ; Salud ment;34(2): 167-173, mar.-abr. 2011. ilus
Artículo en Español | LILACS-Express | LILACS | ID: lil-632792

RESUMEN

Circadian rhythms are oscillations of physiological functions. The period of their oscillation is about 24 h, and can be synchronized by environmental periodic signals as night-day cycle. The endogenous periodical changes depend on various structural elements of the circadian system which consists of the effectors, the secondary oscillators, the synchronizers and the circadian pacemaker. In mammalian species, the physiological function better understood respect their oscillation pattern are the synthesis and release of several hormones (i.e. cortisol and melatonin), the body temperature, the sleep-awake cycle, the locomotive activity, cell proliferation, neuronal activity among other rhythms. The Suprachiasmatic nucleus is the main circadian pacemarker in mammals; its oscillation keeps the circadian system synchronized particularly with respect to the environment photo period. When light reaches the pigment melanopsin in ganglionar neurons in the retina, the photoperiod signal is sent to Suprachiasmatic nucleus, and its postsinaptic neurons distributes the temporal signal to pheripheral oscillators by nervous or humoral pathways. Among the oscillators, the pineal gland is a peripheral one modulated by Suprachiasmatic nucleus. At night, the indolamine melatonin is synthesized and released from pinealocytes, and reaches other peripheral oscillators. Melatonin interacts with membrane receptors on Suprachiasmatic nucleus pacemarker neurons, reinforcing the signal of the photoperiod. In mammals, exogenous melatonin synchronizes several circadian rhythms including locomotive activity and melatonin release. When this indolamine is applied directly into the Suprachiasmatic nucleus, it produces a phase advance of the endogenous melatonin peak and increases the amplitude of the oscillation. In humans, melatonin effect on the circadian system is evident because it changes the circadian rhythms phase in subjects with advanced sleep-phase syndrome, night workers or blind people. Also it reduces jet lag symptoms enhancing sleep quality and reseting the circadian system to local time. Melatonin effects on circadian rhythms indicate their role as a chronobiotic, since decreased daily melatonin levels that occur with age and in neuropsychiatric disorders are associated with disturbances in the sleep-awake cycle. In particular, it has been described that Alzheimer's disease patients have disturbed sleep-awake cycle and have decreased serum melatonin levels. Sleep disorders in Alzheimer's disease patients decrease when they are treated with melatonin. Moreover, sleep disturbances have been observed in bipolar disorder patients and often precede relapses of insomnia-associated mania and hypersomnia-associated depression. These disturbances are linked to delayed- and advanced- phases of circadian rhythms or arrhythmia; therefore, it has been suggested that bipolar disorder patients could be treated with light and dark therapy. In depressed patients, the levels of melatonin are low throughout the 24 hour period and have a delayed onset of the indolamine concentration and showed an advance of its peak. Schizophrenic patients have decreased levels in the plasmatic melatonin in both phases of the light-dark cycle. Melatonin administration to these patients increases their sleep efficiency. In addition, melatonin acts as a neuroprotector because of its potent antioxidant action and through its cytoskeletal modulation properties. In neurodegenerative animal models, its protector effect has been observed using okadaic acid. This neurotoxin is employed for reproducing cytoskeletal damage in neurons and increased oxidative stress levels, which are molecular events similar to those that occur in Alzheimer's disease. In N1E-115 cell cultures incubated with okadaic acid, the administration of melatonin diminishes hyperphosphorylated tau and oxidative stress levels, and prevents the neurocytoskeletal damage caused by the neurotoxin. Although it is known that melatonin plays a key role in the circadian rhythms entrainment, little is known about its synchronizing effects at molecular and structural level. In algae, it has been observed a link between morphological changes and the light-dark cycle and it is known that shape is determinated by the cytoskeletal structure. In particular, the alga Euglena gracilis changes its shape two times per day under the effect of a daily light-dark cycle. This alga has a long shape when there is a higher photosynthetic capacity at the half period of the day; on the contrary, it showed a rounded shape at the end of 24 h cycle. Also, the influence of the cell shape changes on the photosynthetic reactions was investigated by altering them with drugs that disrupt the cytoskeletal structure as cytochalasin B and colchicine. Both inhibitors blocked the rhythmic shape changes and the photo-synthetic rhythm. Moreover, there are some reports about cytoskeletal changes in plants targeted by circadian rhythms. Guarda cells of Vicia faba L. showed a diurnal cycle on the alpha and beta tubulin levels. In addition, it has been proposed that melatonin synchronizes different body rhythms through cytoskeletal rearrangements. In culture cells, nanomolar melatonin concentrations cause an increase in both the polimerization rate and microtubule formation through calmodulin antagonism. A cyclic pattern produced by melatonin in the actin microfilament organization has been demonstrated in canine kidney cells. Cyclic incubation of MDCK cells with nanomolar concentrations of melatonin, resembling the cyclic pattern of secretion and release to plasma produces a microfilament reorganization and the formation of domes. Studies in animals are controvertial regarding if the amount of microtubules in different tissues varies cyclically. In rats and baboons, melatonin administration or exposure of rats to darkness induced an increased number of microtubules in the pineal gland. However, in the hypothalamus, the exposure of rats to light resulted in an increase in the microtubular protein content. Similarly, (X-tubulin mRNA was augmented during the light phase in the hypothalamus, hippocampus and cortex. By contrast, in rats maintained in constant darkness, a decreased level in the tubulin content was observed in the visual cortex. Additional information on cycle variations observed in cytoskeletal molecules indicated that beta actin mRNA levels are lower during the day in the hippocampus and cortex. But no change was observed in actin protein levels in the cerebral cortex. However, increased levels of actin and its mRNA were observed in the hypothalamus. Exogenous melatonin administration at onset of night decreased the amount of actin in the hypothalamus, while the actin mRNA levels decreased when the administration was realized in the morning. In this review we will describe the synchronizer role of melatonin in the sleep-awake cycle and in the organization of cytoskeletal proteins and their mRNAs. Also, we will describe alterations in the melatonin secretion rhythm associated with a neuronal cytoskeleton disorganization in the neuropsychiatric diseases such as Alzheimer, depression, bipolar disorder and schizophrenia.


Los ritmos circadianos son patrones de oscilación con un periodo cercano a 24h que se observan en los procesos fisiológicos. En los mamíferos se han descrito funciones biológicas con regulación circádica tal como el ciclo sueño-vigilia. La administración de la melatonina, una indolamina secretada por la glándula pineal, sincroniza los ritmos circadianos. En los humanos, este efecto se ha estudiado en sujetos con síndrome de <

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