Spelling suggestions: "subject:"metal anoxic."" "subject:"fetal anoxic.""
1 |
Morphologic, radiographic and microscopic studies of the effects of hypoxic stress upon the developing rat fetusMorawa, Arnold P. January 1966 (has links)
Thesis (M.S.)--University of Michigan, Ann Arbor, 1965. / Typescript (photocopy). Includes bibliographical references (leave 40). Also issued in print.
|
2 |
Morphologic, radiographic and microscopic studies of the effects of hypoxic stress upon the developing rat fetusMorawa, Arnold P. January 1966 (has links)
Thesis (M.S.)--University of Michigan, Ann Arbor, 1965. / Typescript (photocopy). eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leave 40).
|
3 |
The effect of hypoxia on the fetal rat adrenalHolland, Robert Campbell, January 1955 (has links)
Thesis (Ph. D.)--University of Wisconsin--Madison, 1955. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Bibliography: leaves 62-70.
|
4 |
Estudo da imunorreatividade da proteína S100<font face=\"symbol\">b no Hipocampo e Núcleo do Trato Solitário de ratos neonatos submetido à anóxia. / Study of S100<font face=\"Symbol\">b protein immunoreactivity in the Hypocampus and Nucleus of Solitary Tract of newborn rats submitted to anoxia.Allemandi, Wilma 09 February 2012 (has links)
Agressões nos períodos críticos do crescimento do sistema nervoso podem modificar os eventos de desenvolvimento. Entre os vários fatores nocivos está a anóxia. O organismo do neonato tem suprimento de energia anaeróbica relativamente rica, foi observado que a acidose ocorre com menor facilidade, propiciam sobrevivência. A proteína de astrócitos, S100<font face=\"Symbol\">b, exerce efeitos parácrinos e autócrinos em neurônios e glia. Sua estimulação promove sobrevivência e proteção neuronal, atuando como fator trófico e neurotrófico. Modelo animal de anóxia neonatal desenvolvido em nosso laboratório, nos revelou ativação neural pela expressão de Fos e alterações comportamentais, o que nos instigou a explorar os efeitos da anóxia nas células da glia no Hipocampo e Núcleo do Trato Solitário. Para sua exposição à anoxia, durante 25 minutos, foi utilizada câmara, saturada com nitrogênio gasoso 100%. Grupos P2 e P7 nas condições: Basal (B), sem estimulo; Sham (S) como controle experimental e Anóxia (A) com falta de oxigênio, foram analisados por S100<font face=\"Symbol\">b-IR com técnicas ABC/DAB e Western blot. Observamos significante diferença de S100<font face=\"Symbol\">b-IR no núcleo do trato solitário, somente no grupo P2 A 2 h em relação ao grupo P2 S 2 h. A reatividade glial de S100<font face=\"Symbol\">b na formação hipocampal (CA1, CA3+CA2 e DG), apresentou diferença significante no grupo anoxia de acordo com o estágio de maturação do animal. A técnica por Western blot em toda a formação hipocampal, apresentou aumento de S100<font face=\"Symbol\">b no grupo A em ambos P2 e P7, a avaliação de um todo foi diferente daquela de áreas especificas. / Attacks to the nervous system at critical growth periods can modify developmental events. Among the various harmful factors at is anoxia. The high anaerobic energy supply to the newborn and a less easily acidosis occurrence provides survival. The astrocyte S100<font face=\"Symbol\">b protein exerts paracrine and autocrine effects on neurons and glia. Its stimulation promotes neuronal survival and protection, as a trophic and neurotrophic factor. An animal model of neonatal anoxia improved in our lab revealed neural activation by Fos expression and behavioral changes, which prompted us to explore the anoxia effects on glial cells in the Hypocampus and Nucleus of Solitary Tract. For their exposure to anoxia, a chamber, saturated with 100% nitrogen gas, for 25 minutes were used. Groups with P2 and P7, conditions: Baseline, without stimulation; Sham as the experimental control, and Anoxia with lack of oxygen, were evaluated by S100<font face=\"Symbol\">b-IR by ABC/DAB and Western blot techniques. The nucleus of solitary tract, significant different S100<font face=\"Symbol\">b-IR observed, only in the P2 A 2 h compared to P2 S 2 h. The glial S100<font face=\"Symbol\">b-IR at the hippocampal formation (CA1, CA2 + CA3 and DG) presented significant difference in the anoxic group according to the maturational stage of the animal. Western blot technique of the entire hippocampal formation, showed increase of S100<font face=\"Symbol\">b at the group A at both P2 and P7, the whole evaluation was different from of that of specific areas.
|
5 |
The role of lactate measurement in the prediction of fetal hypoxic-ischaemic brain injury during labourPennell, Craig Edward January 2004 (has links)
[Truncated abstract] In this thesis the role of lactate measurement has been evaluated in intrapartum assessment of fetal wellbeing. Specifically, I have addressed the question of whether fetal lactate measurement is better than the assessment of fetal heart rate patterns or the measurement of pH at predicting fetal brain injury after intrapartum asphyxia. Using an ovine model of repeated umbilical cord occlusion designed to mimic events which may occur during human labour, I have shown that the measurement of fetal lactate levels after repeated cord occlusion is significantly associated with the severity of brain injury after the asphyxial insult. No significant associations were identified with fetal pH measurements or with the duration of decelerative or compound fetal heart rate patterns; however, this is the first study to describe an association between the duration of both increased fetal heart rate variability and fetal heart rate overshoot with the severity of subsequent brain injury. Although no significant association was identified between fetal arterial pressure measured between umbilical cord occlusions and the grade of brain injury, the studies performed in this thesis are the first to show a strong correlation between the duration of specific arterial pressure responses during cord occlusions and the grade of brain injury, accounting for approximately 90% of the variability seen in the severity of injury. The mechanism responsible for the improved ability of lactate measurement to predict fetal brain injury is unknown. It may be because fetal lactate levels are a more stable marker of anaerobic metabolism of glucose than fetal pH levels, which are influenced by both increasing levels of carbon dioxide and anaerobic metabolism of amino-acids and fatty acids. In addition fetal pH levels can be rapidly normalised through placental exchange of carbon dioxide whereas fetal lactate levels are slow to normalise across the placenta as they rely on facilitated diffusion.
|
6 |
Estudo da imunorreatividade da proteína S100<font face=\"symbol\">b no Hipocampo e Núcleo do Trato Solitário de ratos neonatos submetido à anóxia. / Study of S100<font face=\"Symbol\">b protein immunoreactivity in the Hypocampus and Nucleus of Solitary Tract of newborn rats submitted to anoxia.Wilma Allemandi 09 February 2012 (has links)
Agressões nos períodos críticos do crescimento do sistema nervoso podem modificar os eventos de desenvolvimento. Entre os vários fatores nocivos está a anóxia. O organismo do neonato tem suprimento de energia anaeróbica relativamente rica, foi observado que a acidose ocorre com menor facilidade, propiciam sobrevivência. A proteína de astrócitos, S100<font face=\"Symbol\">b, exerce efeitos parácrinos e autócrinos em neurônios e glia. Sua estimulação promove sobrevivência e proteção neuronal, atuando como fator trófico e neurotrófico. Modelo animal de anóxia neonatal desenvolvido em nosso laboratório, nos revelou ativação neural pela expressão de Fos e alterações comportamentais, o que nos instigou a explorar os efeitos da anóxia nas células da glia no Hipocampo e Núcleo do Trato Solitário. Para sua exposição à anoxia, durante 25 minutos, foi utilizada câmara, saturada com nitrogênio gasoso 100%. Grupos P2 e P7 nas condições: Basal (B), sem estimulo; Sham (S) como controle experimental e Anóxia (A) com falta de oxigênio, foram analisados por S100<font face=\"Symbol\">b-IR com técnicas ABC/DAB e Western blot. Observamos significante diferença de S100<font face=\"Symbol\">b-IR no núcleo do trato solitário, somente no grupo P2 A 2 h em relação ao grupo P2 S 2 h. A reatividade glial de S100<font face=\"Symbol\">b na formação hipocampal (CA1, CA3+CA2 e DG), apresentou diferença significante no grupo anoxia de acordo com o estágio de maturação do animal. A técnica por Western blot em toda a formação hipocampal, apresentou aumento de S100<font face=\"Symbol\">b no grupo A em ambos P2 e P7, a avaliação de um todo foi diferente daquela de áreas especificas. / Attacks to the nervous system at critical growth periods can modify developmental events. Among the various harmful factors at is anoxia. The high anaerobic energy supply to the newborn and a less easily acidosis occurrence provides survival. The astrocyte S100<font face=\"Symbol\">b protein exerts paracrine and autocrine effects on neurons and glia. Its stimulation promotes neuronal survival and protection, as a trophic and neurotrophic factor. An animal model of neonatal anoxia improved in our lab revealed neural activation by Fos expression and behavioral changes, which prompted us to explore the anoxia effects on glial cells in the Hypocampus and Nucleus of Solitary Tract. For their exposure to anoxia, a chamber, saturated with 100% nitrogen gas, for 25 minutes were used. Groups with P2 and P7, conditions: Baseline, without stimulation; Sham as the experimental control, and Anoxia with lack of oxygen, were evaluated by S100<font face=\"Symbol\">b-IR by ABC/DAB and Western blot techniques. The nucleus of solitary tract, significant different S100<font face=\"Symbol\">b-IR observed, only in the P2 A 2 h compared to P2 S 2 h. The glial S100<font face=\"Symbol\">b-IR at the hippocampal formation (CA1, CA2 + CA3 and DG) presented significant difference in the anoxic group according to the maturational stage of the animal. Western blot technique of the entire hippocampal formation, showed increase of S100<font face=\"Symbol\">b at the group A at both P2 and P7, the whole evaluation was different from of that of specific areas.
|
7 |
Cardiovascular Fetal Programming in Quail (Colinus virginianus), An Avian Comparative ModelFlores Santin, Josele R. 12 1900 (has links)
The consequences of early embryonic insults and how they affect subsequent life reflects the emerging concept of "fetal programming". The aim of this project is to study the effects of embryonic insults as they subsequently manifest themselves in adults, with emphasis on the heart and vasculature. My experiments establish that fetal programming operates on the bobwhite quail inducing similar changes as those observed in mammalians and other birds. The quail's fast development provides reliable data in a short period of time than other avian models (e.g. domestic chicken). Data on quail showed a correlation between egg mass and hatchling mass; where small eggs produce small hatchlings but a high mortality made it impractical as a stressor for this study. Hypoxia was used as a stressor during embryonic incubation, where it induced a low hatching weight in quail that was not observable in adult birds. Morphological measurements demonstrated an increased ventricular collagen content and reduced ventricular lumen in birds in adults incubated in hypoxia consistent with hypertension. The hematological analyzes showed few differences indicating organ remodeling instead of hematopoietic compensation. The assessment of vascular reactivity pointed out an impaired endothelium dependent relaxation commonly associated to hypertension in birds and mammals. Fetal programming could be a widespread response to an adverse prenatal environment in endotherms and the resulting data from this work contributes to our understanding of fetal programming in vertebrates and its long term consequences.
|
Page generated in 0.0386 seconds