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DEVELOPMENT OF BETA-ADRENERGIC SYSTEM IN THE MOUSE HEARTChen, Fon-Chiu Mia January 1979 (has links)
No description available.
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The inhibitive action of cobalt chloride on microorganismsJohnson, Bryon S. January 1952 (has links)
Call number: LD2668 .T4 1952 J61 / Master of Science
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Hepatocellular injury induced by endotoxin and galactosamineTeng, Shuzhi., 滕曙智. January 2000 (has links)
published_or_final_version / Pharmacology / Doctoral / Doctor of Philosophy
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Anticancer effects of hexamethylene bisacetamide on human colon carcinoma cells in vitro張子臣, Zhang, Zichen. January 1999 (has links)
published_or_final_version / Anatomy / Doctoral / Doctor of Philosophy
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A study of proteoglycan production during suppressed cell proliferation of a human colon carcinoma cell lineLiao, Ximan., 廖喜漫. January 1999 (has links)
published_or_final_version / Biochemistry / Doctoral / Doctor of Philosophy
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The effects of ganoderma extracts on immune cell subsetsChan, Sze-yin., 陳詩妍. January 2009 (has links)
published_or_final_version / Paediatrics and Adolescent Medicine / Master / Master of Medical Sciences
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MECHANISMS OF THE AGE-RELATED DIFFERENCES IN MORPHINE'S EFFECTS ON THERMOREGULATION, ANALGESIA, RESPIRATORY DEPRESSION AND THERMIC TOLERANCE IN RATS.MCDOUGAL, JAMES NELSON, III. January 1982 (has links)
Thermoregulatory, analgesic and respiratory depressive responses as well as tolerance to morphine were investigated in young (3 to 5 months), mature (10 to 12 month) and senescent (26 to 28 month) male Fischer 344 rats. The thermoregulatory system of senescent rats was not able to maintain body temperature in hot and cold environments as well as the thermoregulatory system of young rats. Additionally, senescent rats had basal rectal temperatures which were approximately one degree lower than basal temperatures in young rats. Subcutaneous morphine caused biphasic effects on body temperature ie. hyperthermia at low doses and hypothermia at high doses. Senescent rats were less responsive to the hypothermic effects of subcutaneous morphine than young rats, but this was not due to decreased subcutaneous blood flow or inability to lose heat. Morphine injections intracerebroventricularly showed no age-related differences. A two site model for the actions of morphine on thermoregulation was proposed and it was suggested that the age-related differences are due to changes in a non periventricular site. Previously reported increased lethality of intravenous morphine in aged rodents was shown to be due to decreased respiratory reserve rather than increased sensitivity to respiratory depression. Senescent rats were also found to acquire tolerance to the thermic effects of morphine less readily than young rats regardless of the route of administration. Normal aging has been characterized as a decrease in adaptability, and it was suggested that senescent rats were less able to compensate for the thermic effects of morphine as well as young rats. In order to determine the mechanisms of decreased adaptability, neurotransmitters proposed to be involved in thermoregulation were injected intracerebroventricularly in morphine tolerant rats. The results suggested a shift from catecholaminergic to cholinergic transmitters with aging.
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CHANGES IN VASCULAR ALPHA-ADRENERGIC RECEPTOR MECHANISMS DURING MATURATION.BANNER, WILLIAM, JR. January 1982 (has links)
The premature infant is subject to pathological alterations of the cardiovascular system leading to insufficient pulmonary blood flow and/or sudden surges of pressure to fragile cerebral blood vessels, conditions which are often associated with hypotension. Dobutamine appears to be a potentially useful agent to increase pulmonary blood flow and correct hypotension. In view of this potential, the alpha-adrenergic characteristics of dobutamine acts were studied in the isolated rabbit femoral and pulmonary arteries. Dobutamine on the post synaptic membrane of these tissues as a high affinity, low intrinsic activity alpha adrenergic agonist. No action of dobutamine to modulate stimulation evoked release of norepinephrine was found, although dobutamine did increase spontaneous release of norepinephrine. This effect was not blocked by antagonists of uptake 1 and uptake 2. To further evaluate dobutamine for use in the neonate, contractile responses of the femoral and pulmonary arteries and aorta to dobutamine and norepinephrine were studied in dogs of various ages from newborn to 6 weeks. Maximal contractile responses to norepinephrine in the pulmonary artery and aorta increased with age. Dobutamine produced small or no responses in all newborn tissues studied and also showed increasing responsiveness with age. To allow future study of the mechanism of these changes a method of radioligand binding was established for vascular smooth muscle using the ligands prazosin and rauwolscine in the dog and rabbit pulmonary artery and aorta. This binding was found to demonstrate the properties of saturability, sterospecificity and rank order of potency. Possible variables that could account for the observed changes in response during maturation were mathematically modeled to provide a theoretical basis for future studies combining measurement of contractile response and radioligand binding techniques.
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Monocrotaline toxicity and pulmonary arteries.Shubat, Pamela Jane. January 1988 (has links)
Monocrotaline is a pyrrolizidine alkaloid found in plants implicated in livestock and human poisoning. Laboratory rats given monocrotaline develop pulmonary hypertension and right heart hypertrophy in the weeks following administration of the chemical. Lung weight increases and right heart hypertrophy correlate with increased pulmonary artery pressure. Rats which consumed monocrotaline drinking water (20 mg/l) for only 4 days developed significant increases in lung and heart weights 14 days after exposure began. This exposure was equivalent to a dose of 15 mg/kg. Other treatment combinations of time (0-10 days exposure) and monocrotaline concentration (5-60 mg/l in drinking water) were tested. The accumulative dose calculated for each of the treatment combinations which produced toxicity was in the range of 15 to 20 mg/kg. Monocrotaline injury appears to be cumulative, but organ weight increases reverse once exposure is stopped. As pulmonary hypertension develops and pulmonary arteries hypertrophy, the force with which isolated pulmonary artery segments contract decreases. This is a loss of efficacy rather than potency to the contracting agents KCl, norepinephrine, and 5-hydroxytryptamine. Relaxation of arteries under conditions of potassium-return (a measure of Na⁺/K⁺ ATPase activity) was also altered by monocrotaline treatment. In vivo monocrotaline treatment had little effect on the force of K⁺-return relaxation. However, the rate at which arteries relaxed was significantly decreased following 4 days ingestion of monocrotaline drinking water (20 mg/l). In vitro ouabain treatment and endothelial injury also decreased the rate of K⁺-return relaxation. Another Na⁺/K⁺ ATPase activity, ⁸⁶Rb⁺ uptake, was decreased following monocrotaline treatment only when 5-hydroxytryptamine was present and only uptake associated with the endothelium was affected. These studies utilized a very low exposure to monocrotaline (4 days ingestion of 20 mg/l monocrotaline drinking water or 15 mg/kg) to produce toxicity in rats. Monocrotaline-induced toxicity measured 20 days after treatment included right heart and lung hypertrophy and decreased contractions of isolated pulmonary arteries. Monocrotaline treatment decreased the rate of Na⁺/K⁺ ATPase-dependent relaxation of isolated pulmonary arteries 4 days after treatment began.
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SINGLE CHANNEL ANALYSIS OF THE EFFECTS OF HALOTHANE ON THE NICOTINIC ACETYLCHOLINE RECEPTOR CHANNEL (CHOLESTEROL, CELL CULTURE, PATCH CLAMP, GENERAL ANESTHETIC).LECHLEITER, JAMES DONALD. January 1984 (has links)
Anesthesia, a state of being absent of sensation and consciousness, has been recognized since antiquity. Even today anesthesia is still best characterized by the lack of consciousness and sensations. Since anesthetic potency is correlated with lipid solubility, the site of action of general anesthetics has been thought to be hydrophobic in nature and to involve excitable membranes critical for interneuronal communications. Thus, general anesthetics may interact directly with functionally-relevant membrane proteins (via hydrophobic pockets) or indirectly, with the lipids surrounding these proteins. To better understand the details of general anesthetic action, I examined how halothane interacts with a functional synaptic protein, the acetylcholine receptor channel embedded in the membranes of cultured Xenopus myocytes. Next, I examined how changing the lipid composition, of these membranes, affected this interaction. Using the extracellular patch-clamp technique, I found that halothane, at clinically-relevant concentrations, shortened the burst duration of single receptor channels without affecting their conductance. Moreover, the halothane-induced reduction of burst durations was significantly attenuated after pretreatment with cholesterol-rich lipsomes which increased significantly the cholesterol content of these cells. These findings provide the first direct support for the role of membrane lipids in the mechanism of GA action. In particular, I demonstrated that increases in membrane cholesterol antagonize the anesthetic action of halothane. Although direct action of cholesterol on synaptic proteins cannot be ruled out, my data strongly suggest that membrane lipids are involved at a critical, but as yet undefined, site with which GAs interact. The exact manner by which increases in membrane cholesterol antagonize GA action remains to be eludicated.
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