1.Oxygen metabolism and meridian qi.
Zhong LIANG ; Bo HUANG ; Jun CHEN
Chinese Acupuncture & Moxibustion 2012;32(2):183-186
The relationship between the state of oxygen metabolism in modern physiology and the concept of meridian qi in Chinese medicine was investigated with the theory of Chinese medicine, biomedicine and experimental medicine for exploring the essence of meridians and meridian qi. The hypothesis concerning the relationship between meridian qi in Chinese medicine and oxygen metabolism in modern medicine proposed by the author was expounded and proved by a series of experiment results and theoretical analysis. According to the knowledge of oxygen metabolism and the theory of meridians and meridian qi, it is held that both qi and oxygen have extreme high similarity in both physiological functions and pathological reactions since both of them have material, functional and informational features. And the experiment results indicated that meridian qi in Chinese medicine have very close relationship with oxygen metabolism in modern medicine. Therefore, conclusions were made on the base of the above mentioned results: (1) The essence of meridian qi in Chinese medicine is closely related to oxygen and the metabolism of oxygen; (2) The specific distribution of oxygen metabolism-related substance and its function may be one of the essence of the meridians and meridian qi; (3) Oxygen and vertebrate globin are probably the main contents of the "qi-blood" in Chinese medicine; (4) The mechanism of qi regulation with acupuncture-moxibustion may be fulfilled by the regulation of general and local state of oxygen metabolism.
Acupuncture Therapy
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Humans
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Meridians
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Oxygen
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metabolism
;
Qi
2.Regulation of Stem Cell Fate by ROS-mediated Alteration of Metabolism.
Jung Min RYU ; Hyun Jik LEE ; Young Hyun JUNG ; Ki Hoon LEE ; Dah Ihm KIM ; Jeong Yeon KIM ; So Hee KO ; Gee Euhn CHOI ; Ing Ing CHAI ; Eun Ju SONG ; Ji Young OH ; Sei Jung LEE ; Ho Jae HAN
International Journal of Stem Cells 2015;8(1):24-35
Stem cells have attracted much attention due to their distinct features that support infinite self-renewal and differentiation into the cellular derivatives of three lineages. Recent studies have suggested that many stem cells both embryonic and adult stem cells reside in a specialized niche defined by hypoxic condition. In this respect, distinguishing functional differences arising from the oxygen concentration is important in understanding the nature of stem cells and in controlling stem cell fate for therapeutic purposes. ROS act as cellular signaling molecules involved in the propagation of signaling and the translation of environmental cues into cellular responses to maintain cellular homeostasis, which is mediated by the coordination of various cellular processes, and to adapt cellular activity to available bioenergetic sources. Thus, in this review, we describe the physiological role of ROS in stem cell fate and its effect on the metabolic regulation of stem cells.
Adult Stem Cells
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Cues
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Energy Metabolism
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Glucose
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Homeostasis
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Metabolism*
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Oxygen
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Reactive Oxygen Species
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Stem Cells*
3.Study on oxygen consumption rate and suffocation point of Whitmania pigra.
Hong-zhuan SHI ; Fei LIU ; Qiao-sheng GUO
China Journal of Chinese Materia Medica 2005;30(23):1817-1820
OBJECTIVETo study the oxygen consumption rate and suffocation point of Whitmania pigra.
METHODUsing the method of respiratory chamber, the oxygen consumption rate, oxygen consumption volume and suffocation point were obtained.
RESULTThe oxygen consumption rate(OCR) ranged from 0.049 to 0.094 mg x g(-1) x h(-1), the oxygen consumption volume(OCV) from 0.44 to 0.67 mg x p(-1) x h(-1), and suffocation point(SP) from 0.9 to 1.51 mg x L(-1), when the average weight of W. pigra was 10 g and the water temperature varied from 15 to 35 degrees C. OCR ranged from 0.044 to 0.058 mg x g(-1) x h(-1), OCV from 0.19 to 0.77 mg x p(-1) x h(-1) and SP from 1.4 to 1.57 mg x l(-1) when water temperature was 20 degrees C.
CONCLUSIONOCR rose when the water temperature and weight increased, but SP was justly opposite. The weight was negatively correlated with OCR and positively with OCV. OCR had little difference from day to night.
Animals ; Leeches ; metabolism ; physiology ; Oxygen ; metabolism ; Oxygen Consumption ; physiology ; Temperature ; Water
4.Design and Verification of Human Metabolic Measurement System Based on STM32.
Rui JIN ; Hai-Hong HUANG ; Yuan WANG ; Yan-Yan CHEN ; Qing-Qing CAO ; Rui-de LIU ; Zi-Jun HE ; Yi-Ning SUN ; Zu-Zhang MA
Chinese Journal of Medical Instrumentation 2022;46(3):273-277
A high-precision human metabolic measurement system is designed. The system uses STM32F103 as the main control chip to acquire oxygen, carbon dioxide and flow signals to calculate four quantitative indicators: oxygen consumption(VO2), carbon dioxide production(VCO2), respiratory entropy(RQ) and resting energy metabolism(REE), and finally uses an upper computer to display the calculation results.In this paper, the signal acquisition circuit design was carried out for the oxygen sensor, carbon dioxide sensor and flow sensor, and the validity of the device was verified with the American machine MGCDiagnositcs using Bland-Altman analysis method, and the results showed that the four parameters of VO2,VCO2, RQ and REE of both devices fell in the agreement interval of more than 95%. The device thus provides accurate metabolic measurements and offers an effective tool for the field of general health and clinical nutrition support in China.
Calorimetry, Indirect
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Carbon Dioxide/metabolism*
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Energy Metabolism
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Humans
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Oxygen
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Oxygen Consumption
5.The excessive response: a preparation for harder conditions.
Protein & Cell 2017;8(10):707-710
6.Evaluation of the balance between energy supplement and consumption in patients with serious burn: a problem worth further investigation.
Chinese Journal of Burns 2013;29(4):331-334
The energy expenditure of burn patients can be determined accurately by indirect calorimetry measurement, or estimated approximately with energy expenditure equations. However, the energy requirement is not entirely equal to energy expenditure in the whole process of burn injury. The energy consumption induced by hyper catabolism is increased significantly, and on the other hand, the ability of nutrient absorption and anabolism decreased remarkably in the early phase of burn injury, thus leading to imbalance between energy consumption and demand. However, energy supplement as calculated according to energy consumption may induce overfeeding in the early phase of burn injury. Excessive nutrients intake can not be fully utilized to decrease hypermetabolic reaction, but it might exacerbate metabolic disorder. Therefore, the energy supplement should be lower than energy consumption during the early stage of burns. With the advance of disease course, the internal environment becomes stable gradually, ending in a balance between anabolism and catabolism. Energy supplement should be increased gradually according to energy consumption. During the convalescent period, anabolic metabolism exceeds catabolic metabolism, therefore the quantity of energy supplement should be moderately higher than that of energy consumption. Thus, the energy consumption and energy supplement may reach a balance during the whole course of treatment. The purpose of the article is to analyze and discuss how to estimate energy expenditure precisely and evaluate energy requirement correctly, in order to reach a balance between energy consumption and supplement during a long course of treatment for severe burn patients.
Burns
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metabolism
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therapy
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Energy Metabolism
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Humans
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Nutritional Support
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Oxygen Consumption
7.Progress in biotechnological production of pyruvic acid.
Li-Ming LIU ; Yin LI ; Guo-Cheng DU ; Jian CHEN
Chinese Journal of Biotechnology 2002;18(6):651-655
Pyruvate, an important organic acid, is widely used in the industries of pharmaceuticals, chemicals, agrochemicals, food additives and so on. Compared with the chemical method, biotechnological production of pyruvic acid is an alternative approach because of the low cost and high product quality. In this article, biosynthesis of pyruvate, including direct fermentative production and resting cell method as well as enzymatic method, was discussed. Furthermore, a comparison of these different methods was proposed. Since, a multi-vitamin auxotrophic strain of Torulopsis glabrata is the most competitive strain for industrial production of pyruvate, emphasis was therefore placed on the development of strains screening and fermentation optimization. Finally, some suggestions were put forward to improve the research in this field in the near future.
Biotechnology
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Candida glabrata
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metabolism
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Fermentation
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Oxygen
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pharmacology
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Pyruvic Acid
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metabolism
8.Oxygen evolution characteristics of Spirulina platensis under various light conditions.
Shengzhang XUE ; Qinghua ZHANG ; Xia WU ; Wei CONG
Chinese Journal of Biotechnology 2011;27(4):606-613
The knowledge of oxygen evolution characteristics, which is a symbol of photosynthetic activity, under various light conditions is important for photobioreactor design and operation. In this study, we constructed a device to investigate oxygen evolution characteristics of Spirulina platensis under two different light regimes: 1) continuous illumination of various light intensities (14-6 500 micromol/(m2 x s)); 2) medium frequency L/D cycles of four different light intensities (69, 505, 1 330, 4 265 micromol/(m2s)). Light limited region, intermediate region, light saturated region and light inhibited region of light intensity were recognized according to their relationship with oxygen evolution rate (OER) under continuous illumination. Investigation of S. platensis under L/D cycles showed whether photosynthetic efficiency could be increased with increasing L/D frequency largely depended on the light intensity applied. The higher the light intensity, the larger the photosynthetic enhancement could be expected with the increase of L/D frequency. The largest light integration effect was found under L/D cycles of high light intensity (4 265 micromol/(m2 x s)) and medium light fraction (k = 0.6), while light integration effect was totally absent under low light fractions (k < 0.2). We also discussed their implications to the practical aspects of microalgae cultivation.
Light
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Oxygen
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metabolism
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Photobioreactors
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Photosynthesis
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physiology
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Spirulina
;
metabolism
9.The Effect of Anoxia on the Amino Acid and Carbohydrate Metabolism of the Isolated Dog Brain.
Kon HUH ; David D GILBOE ; David H MINSKER
Yonsei Medical Journal 1967;8(1):13-17
The isolated dog brain was perfused for a period of 4 minutes with blood normal in all constituents, but pathologically low in oxygen in order to follow the metabolic response of the brain to anoxia. During anoxic perfusion, the brain appears to subsist on the free amino acids in the brain and on glucose taken up from the perfusion blood. Oxygen uptake is relatively constant increasing temporarily immediately after anoxia. The lactic acid formed within the brain during anoxia is not released in any quantity; instead it appears to be metabolized in the brain following the period of anoxia causing a lower than norma1 uptake of glucose. Brain ATP and GrP levels decrease significantly, but not markedly indicating that the brain's energy requirements are being partially met during anoxic perfusion.
Amino Acids/*metabolism
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Animals
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Anoxia/*metabolism
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Brain/*metabolism
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Dogs
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Electroencephalography
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Glucose/*metabolism
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Lactates/*metabolism
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Oxygen Consumption
10.Research progress on the role of chondrocyte mitochondrial homeostasis imbalance in the pathogenesis of osteoarthritis.
Quan CHEN ; Limin WU ; Cili DAWA ; Bin SHEN
Chinese Journal of Reparative and Reconstructive Surgery 2023;37(6):748-757
OBJECTIVE:
To summarize the role of chondrocyte mitochondrial homeostasis imbalance in the pathogenesis of osteoarthritis (OA) and analyze its application prospects.
METHODS:
The recent literature at home and abroad was reviewed to summarize the mechanism of mitochondrial homeostasis imbalance, the relationship between mitochondrial homeostasis imbalance and the pathogenesis of OA, and the application prospect in the treatment of OA.
RESULTS:
Recent studies have shown that mitochondrial homeostasis imbalance, which is caused by abnormal mitochondrial biogenesis, the imbalance of mitochondrial redox, the imbalance of mitochondrial dynamics, and damaged mitochondrial autophagy of chondrocytes, plays an important role in the pathogenesis of OA. Abnormal mitochondrial biogenesis can accelerate the catabolic reaction of OA chondrocytes and aggravate cartilage damage. The imbalance of mitochondrial redox can lead to the accumulation of reactive oxygen species (ROS), inhibit the synthesis of extracellular matrix, induce ferroptosis and eventually leads to cartilage degradation. The imbalance of mitochondrial dynamics can lead to mitochondrial DNA mutation, decreased adenosine triphosphate production, ROS accumulation, and accelerated apoptosis of chondrocytes. When mitochondrial autophagy is damaged, dysfunctional mitochondria cannot be cleared in time, leading to ROS accumulation, which leads to chondrocyte apoptosis. It has been found that substances such as puerarin, safflower yellow, and astaxanthin can inhibit the development of OA by regulating mitochondrial homeostasis, which proves the potential to be used in the treatment of OA.
CONCLUSION
The mitochondrial homeostasis imbalance in chondrocytes is one of the most important pathogeneses of OA, and further exploration of the mechanisms of mitochondrial homeostasis imbalance is of great significance for the prevention and treatment of OA.
Humans
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Reactive Oxygen Species/metabolism*
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Chondrocytes/metabolism*
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Osteoarthritis/metabolism*
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Homeostasis
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Mitochondria/metabolism*
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Cartilage, Articular/metabolism*