• The Journal of Internal Korean Medicine
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• v.10 no.1
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• pp.105-123
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• 1989

Yuk Gi (六氣) in oriental medicine have influence on the body and, the body which adapt itself to the change of Yuk Gi, can maintain the activity of life, so five vital organs of the body have relation to Yuk Gi. The relation between Lung and Jo (燥) is well described from Whang Jae Nai Kyung (黃帝內經), the oldest book in oriental medicine, to the old books of Chung (淸) dynasty and modern documents. By the way, when autumn has come and the environment become dry, clear and mild ability of lung is losed. It's because dryness evil (燥邪) occured the trouble of Lung. The following results were obtained according to these facts which is considreed peviodically and bibliographically. 1. According to flourishing the functional activities of dryness (燥氣), as reducing the functional activities of water (水氣) of upper portion of the body cavity (上焦), Kidny Water (腎水) is not nutrited and Fire-Heat (火熱) is activiting, which is evoking the disease of Lung. 2. In the disease of Lung, there are many diseases because of dryness evil (燥邪), thinking that, which methods of treatment are the principal one of 'Clear up the lung and moisten dryness (淸肺潤煥)'. I found that Lung and Jo (燥) have the relation of intimacy. 3. Creating the vital essence of the kidney (腎水) to the functional activities of the lung (肺氣) is in prosperous condition, the functional activities of fire (火氣) stabilize the function of Lung become normal condition which wear said in the literary.

• The Journal of Korean Medicine Ophthalmology and Otolaryngology and Dermatology
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• v.10 no.1
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• pp.139-158
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• 1997

A Literature study on the external treatment of nose diseases, the results are as follows; 1. Nose was called "Cheun-bin(天牝)", was outer orifice of the lung, was the gate of vital energe(氣), The main function of nose is divided three pacts. One is the respiration, another is the sense of smell, the other is the sounding consonance. 2. Nose is concerned with The Lung(肺), The Spleen(脾), The Heart(心), The Stomach(胃), The Large intestine(大腸), The Bladder(膀胱) in the organs, is concerned with Lung Meridean, Large intestine Meridean, Stomach Meridean, Heart Meridean, Spleen Meridean, Governor Vessel Meridean etc. 3. The method on the external treatment of nose diseases is classified with obstructive method, pouring method, blowing method, attaching method, plaster method, rubbing method, cleansing method, poulticing method. In frequency of practical use, Obstructive method is used 276 cases, Blowing method is used 123 cases, Attaching method is used 103 cases, Plaster method is used 76 cases. 4. In frequency of the medicinal works on the external treatment of nose diseases, Herba Asari(細辛) is used 134 cases, Pedicellus Melo(瓜 ) is used 85 cases, Radix Aconiti Praeparata(附子) is used 52 cases, Herba Agastachis(麝香) is used 51 cases, Semen Armeniacae Amarurn(杏仁) is used 44 cases etc. In frequency of a prescription on the external treatment of nose diseases, Tongcho-san(通草散) is used 9 cases, $Sesin-go{\cdot}Sinyi-go{\cdot}Changpo-san$ are used 8 cases, $Kwache-san{\cdot}Wungwhang-san$ are used 7 cases etc.

• Herbal Formula Science
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• v.32 no.3
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• pp.311-324
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• 2024

Objectives : Human body keeps balance through the interaction of various organs, especially the lungs and kidneys are closely connected in maintaining health and preventing disease. This study explores how the lungs and kidneys interact in terms of breathing and fluid balance and aims to find common ground between Eastern and Western medical practices. Methods : Similar explanations related to the interaction between the lungs and kidneys in the physiology and pathology of Traditional Korean Medicine(TKM) and biomedicine were compared. Results : In breathing, the lungs and kidneys work together by adjusting abdominal pressure with the diaphragm and maintaining acid-base balance, and hormones and enzymes secreted from the kidneys significantly affect lung function. This process corresponds to the concept of TKM that the kidneys control the reception of qi (腎主納氣). For fluid balance, the lungs help manage fluid levels through evaporation and sweating, interacting with the kidneys via the Renin-Angiotensin System (RAS), ACE, ACE2 enzymes, and antidiuretic hormone (ADH). This is similar to the theory in TKM that the lungs regulate human fluid (肺主通調水道). Conclusions : This research shows that by looking at the same physiological and pathological processes from different angles, we can reduce misunderstandings between Eastern and Western medicine. It helps improve the understanding of TKM's theories and supports building a unified framework for both medical traditions. Future work should focus on developing compatible theoretical systems across these fields.

• The Journal of Korean Medicine
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• v.18 no.1
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• pp.375-384
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• 1997

This study was undertaken to determine Juglandis Semen extraction (JS) has a protective effect against the cell injury caused by oxidants, t-butylhydroperoxide (t-BHP) and $H_{2}O_2$ in rabbit lung slices. Cell injury was estimated by measuring tissue water content and peroxidation of membrane lipids was assessed by measuring malondialdehyde (MDA), an end-product of lipid peroxidation. t-BHP significantly increased water content in lung tissues over concentrations of 2-10 mM, and such effects were prevented by 5% JS. JS exerted the beneficial effect in a dose-dependent manner. $H_{2}O_2$ (100 mM) also increased water content in tissues, which was almost completely prevented by 5% JS. t-BHP induced lipid peroxidation in a dose-dependent fashion in lung tissues over concentrations of 0.5-10 mM. JS significantly reduced t-BHP induced lipid peroxidation and oxidant-independent endogenous lipid peroxidation, and such effects were dose-dependent at concentration of 0.5-10%. JS prevented $H_{2}O_2$ (100 mM)-dependent lipid peroxidation. These results suggest that JS prevents ceil injury induced by oxidants in the lung, and such effects may be attributed to inhibition of lipid peroxidation. The precise mechanisms remains to be explored.

• The Korean Journal of Physiology
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• v.1 no.2
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• pp.185-191
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• 1967

In order to evaluate the elimination of CO through the lung comparing with the decrease of CO content in the blood, authors had induced acute CO poisoning on 9 dogs. Arterial CO-Hb saturation, CO concentration, %, in expired gas and eliminated CO amount through the lung were measured at 1,5,10,30,60, and 120 minutes after acute CO poisoning in 6 dogs breathing room air and 3 dogs breathing room air and oxygen alternately. Results obtained are summarized as follows. In room air breathing group, arterial CO-Hb saturation averaged 50.8% , and 53.67 ml of CO was blew off through the lung during 120 minutes and in alternately air and oBygen breathing group, the arterial CO-Hb saturation averaged 65.6% and 95.6 ml of CO was blew off through the lung. The amount of CO eliminated in expired gas for 120 minute was much less than the amount of decreased CO in arterial blood which was calculated with the decreased CO-Hb content in the estimated circulating blood volume. Such difference between the amount of eliminated CO in expired gas and the decreased CO in blood might be attributed to the oxidation of CO to $CO_2$ in the tissues. Concentration of CO in expired gas was markedly increased and the rate of decrease in arterial CO-Hb saturation is enhanced by oxygen breathing. In early period of recovery from acute CO poisoning, neither the CO concentration in expired gas, nor, the rate of CO elimination (unlit 2 minutes after CO poisoning) showed close correlation with the blood CO-Hb saturation level. The reason seemed to be due to irregularly depressed or unevenly stimulated respiration which were induced by acute CO poisoning.

• The Journal of Korean Medicine
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• v.16 no.1 s.29
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• pp.118-131
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• 1995

According to the oriental medicine study on G.B.S, we obtained the result as follows : 1. G.B.S was inclined in flacid paralysis and pain and numbness(痺) in oriental medicine. 2. Etiology factors of G.B.S was classified exogenous and endogenous pathogenic factors. The formers was warmth and heat(濕熱), summer heat and dampness(暑濕), dampness and heat(濕熱), and cool and dampness(寒濕), the latter was the deficiency in both the spleen and the stomach(脾胃虛弱), deficiency of Yin(vital essence) in both the liver and kidney(肝腎陰虛) the factor of dampness and heat(濕熱) was most numerous. 3. Pathological mechanism of G.B.S was close connected with the five viscera - the spleen(脾), the stomach(胃), the liver(肝), the kidney(腎), the lung(肺) 4. Differentiation of Symptom-Complexes(辨症) in the G.B.S was consumption type of nutrient fluid due to heat symptom in the lung(肺熱傷津), fullness type of dampness and heat(濕熱侵淫), defiency type in both the spleen and the kidney(脾腎不足), deficiency type in both the spleen and the stomach(脾胃虛弱), deficiency type in the liver and the kidney(肝腎兩虛) 5. Acupuncture treatment for G.B.S was mainly Yangmoung channels of both the hand and the foot.(手足陽明經)

• Journal of Chest Surgery
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• v.30 no.3
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• pp.253-253
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• 1997

Hypothermia during lung preservation decreases metabolic processes. After the rabbit lung was flushed with modified Euro-Collins solution, heart-lung block was harvested and the left lung was assessed after ligation of the right pulmonary artery and right main-stem bronchus. Heart-lung block was immersed in the same solution for 6 hours. The modified Euro-Collins solution and storage temperature of group 1(10 cases) was 4t, roup 2(10 cases) was l0℃. On completion of the storage period, the left lung was ventilated and reperfused with blood u:high used a cross-circulating paracorporeal rabbit as a "biologic deoxygenator" for 60 minutes. Pulmonary artery pressure, airway pressure, difference in oxygen tension between mow and outflow perfusate and degree of pulmonary edema were assessed at 10-minute intervals while the left lung was ventilated at 0.8 of the inspired oxygen fraction. The mean pulmonary venous oxygen tensions at 10 and 60 minutes after reperfusion were 209.52±42.46 and 103.48± 15.96 mmHg in group I versus 247.78±36.19 and 147.91 ± 11.07 mmHg in group II(p=0.049, (0.0001). The mean alveolar-arterial oxygen differences at 20 and 60 minutes after reperfusion were 357. 95± 12.84 and 437.31 14.26 mmHg in group I versus 310.88±3).47 and )90.93± 15.86 mmHg in group II (p=0.0092, (0.0001). The mean pulmonary arterial pressures at 10 and 60 minutes after reperfusion were 40.56± 18.66 and 87. 2± 17.22 mmHg in group I versus 31.22±6.84 and 65.78± 11.02 mmHg in group rl (p : 0.048, 0.0062). The mean pulmonary vascular resistances at 10 and 60 minutes after reperfusion were 2.69±0.85 and 4.36±0.86 mmHg/ml/min in group I versus 1.99±0.39 and 3.29±0.55 mmHg/ml/min in group II(p : 0.0323, 0.0062). There were no difference between groups in peak airway pressure, lung compliance and degree of pulmonary edema. In conclusion that preservation of lung at l0℃ was superior to preservation at 4℃.

• Journal of Korean Medical classics
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• v.22 no.1
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• pp.27-34
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• 2009

In "Maekyojeongmiron(脈要精微論)", Jangbu(臟腑) is assigned to Chon.Gwan.Cheok(寸關尺) in according to the position. Kidney[腎] is assigned to the backward area of Cheok. Abdominal cavity[腹中] is assigned to the middle area of Cheok. Hypochondrium[季脇] is assigned to the forward area of Cheok. Liver[肝] is assigned to the backward area of left Gwan. Diaphragm[鬲] is assigned to the forward area of left Gwan. Stomach[胃] is assigned to the backward area of right Gwan. Spleen[脾] is assigned to the forward area of right Gwan. Heart[心] is assigned to the backward area of left Chon. Central part of the chest[膻中] is assigned to the forward area of left Chon. Lung[肺] is assigned to the backward area of right Chon. Thoracic cavity[胸中] is assigned to the forward area of right Chon. This method of assignment is simple and useful in clinic.

• Journal of Oriental Neuropsychiatry
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• v.12 no.2
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• pp.69-84
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• 2001

Objectives : We suggest the method of oriental neuropsychiatry treatment about amnesia through herb therapy. Methods : We investigate cause of disease, component of herbs about amnesia with classic current oriental medicine books. Results : Amnesia is due to simsinbulgyo(心腎不交), biwieyangher(脾胃陽虛), dammisimgyoo(痰迷心竅), emotional damage(七情所傷), extravasated blood(瘀血), deficiency of kidney (腎虛). There is 138 kind of herbs are used in our study that we find out that most frequently used herb is ginseng(人蔘). Heart meridian is the highest use in the all meridians. Sungon(性溫) is the highest use in the all kimi(氣味) Conclusions : We could confirm that herbs of amnesia treatment was related to the three vital organs(臟) named of spleen(脾), lung(肺), kidney(腎).

• Korean Journal of Veterinary Research
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• v.22 no.2
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• pp.211-219
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• 1982

Chickens from 10 to 32 weeks of age were inoculated with P. multocida via seven routs(intravenous, intramuscular, intraperitoneal, subcutaneous, into ear, intranasal, per oral). The development or distribution of disseminated intravascular coagulation (DIC) in multiple organs and the role of P. multocida endotoxins in disease process of fowl cholera were studied. The histological diagnosis of DIC was made by demonstration of fibrinous in arterioles, capillaries, venules and medium-sized blood vessels. The presence of fibrinous thrombi in blood vessels of multiple organs was observed in chickens which died within approximately 3 days post inoculation. Fibrinous thrombi were observed most frequently in the lung(90% of all cases with DIC) followed by liver (70%), kidney (60%), heart(20%), spleen, brain, pancreas, thymus and thyroid gland. The density of fibrinous thrombi (i.e. the number of thrombi per section) was greatest in the lung, followed by spleen, kidney, liver and heart. It is thought that the widespread hemorrhage of acute fowl cholera is also caused by P. multocida endotoxin which initiates DIC in variety of organs. The cause of death for the chickens after infection with acute fowl cholera is probably due to an endotoxin (septic) shock accompanied with DIC in multiple organs.