Impact of Temperature and Humidity of Carbon Dioxide Pneumoperitoneum on Body Temperature and Peritoneal Morphology

2002 ◽  
Vol 12 (5) ◽  
pp. 355-364 ◽  
Author(s):  
Eric J. Hazebroek ◽  
Michiel A. Schreve ◽  
Pim Visser ◽  
Ron W. F. de Bruin ◽  
Richard L. Marquet ◽  
...  
Keyword(s):  
Carbon Dioxide ◽  
Body Temperature ◽  
Carbon Dioxide Pneumoperitoneum ◽  
Temperature And Humidity ◽  
Peritoneal Morphology

964: Direct Visualization of Renal Hemodyanamics Affected by Carbon Dioxide Pneumoperitoneum

2007 ◽  
Vol 177 (4S) ◽  
pp. 319-319
Author(s):  
Naoto Sassa ◽  
Ryohei Hattori ◽  
Yoshinari Ono ◽  
Tokunori Yamamoto ◽  
Momokazu Gotoh
Keyword(s):  
Carbon Dioxide ◽  
Direct Visualization ◽  
Carbon Dioxide Pneumoperitoneum

Carbon dioxide pneumoperitoneum reduces levels of TNF-a mRNA in the brain, liver, and peritoneum in mice

2001 ◽  
Vol 15 (6) ◽  
pp. 609-613 ◽  
Author(s):  
H. Kamei ◽  
S. Yoshida ◽  
K. Yamasaki ◽  
T. Tajiri ◽  
K. Shirouzu
Keyword(s):  
Carbon Dioxide ◽  
Carbon Dioxide Pneumoperitoneum ◽  
The Brain

Hypercarbia during carbon dioxide pneumoperitoneum

1992 ◽  
Vol 163 (1) ◽  
pp. 186-190 ◽  
Author(s):  
Stephen D. Fitzgerald ◽  
Charles H. Andrus ◽  
Lawrence J. Baudendistel ◽  
Thomas E. Dahms ◽  
Donald L. Kaminski
Keyword(s):  
Carbon Dioxide ◽  
Carbon Dioxide Pneumoperitoneum

Studies on Temperature Regulation

1946 ◽  
Vol 22 (3-4) ◽  
pp. 213-220
Author(s):  
R. L. KIRK ◽  
LANCELOT HOGBEN
Keyword(s):  
Body Temperature ◽  
Rana Temporaria ◽  
Large Body ◽  
Bufo Bufo ◽  
Thermal Capacity ◽  
The Body ◽  
External Temperature ◽  
Terrestrial Vertebrates ◽  
Temperature And Humidity ◽  
Frog Rana Temporaria

1. The upper thermal death-point of the slow worm (Anguis fragilis) is significantly above that of either the toad (Bufo bufo) or the frog (Rana temporaria). That of the toad differs only slightly from that of the frog. 2. In response to external variation with respect to temperature and humidity, the body temperature of the toad behaves in a manner similar to that of the frog, being considerably below that of the air at low humidities, though appreciably above that of the wet-bulb thermometer. It is concluded that the toad loses water as freely as the frog. 3. The body temperature of the slow worm and that of the alligator (A. mississippiensis) differs only slightly from that of the air under all conditions of sustained air temperature and humidity. 4. The body temperature reaction of the alligator is more sluggish than that of the slow worm, presumably owing to the higher thermal capacity of the animal. 5. The significance of these results in relation to the evolution of the terrestrial vertebrates is discussed. It is suggested that homoeothermic stocks could arise only from reptiles of relatively small size, and that large body size would militate against survival during periods of low mean external temperature.

The mechanisms which affect the periodic cycle of Pacific Wuchereria bancrofti microfilariae

1981 ◽  
Vol 55 (2) ◽  
pp. 95-100 ◽  
Author(s):  
F. Hawking ◽  
Tinousi Jennings ◽  
F. J. Louis ◽  
E. Tuira
Keyword(s):  
Carbon Dioxide ◽  
Circadian Rhythm ◽  
Body Temperature ◽  
Sodium Bicarbonate ◽  
Human Body ◽  
Venous Blood ◽  
Wuchereria Bancrofti ◽  
Early Morning ◽  
The Body ◽  
Small Rise

ABSTRACT1. Investigations were made of the effect of various procedures in raising or lowering the microfilaria count of Pacific type Wuchereria bancrofti in the peripheral blood.2. Raising the body temperature in the early morning was followed by a moderate fall in the counts. Breathing increased oxygen, or reduced oxygen (hypoxia) or increased carbon dioxide, or the ingestion of sodium bicarbonate produced no consistent and significant changes in the count. Ingestion of glucose (in one volunteer) was followed by a small rise in the count. Muscular exercise was followed by a fall in the count, which is interpreted as probably being a response to a lower concentration of oxygen in the venous blood returning to the lung.3. It has not been possible to identify the physiological components of the circadian rhythm of the human body which entrain the cycle of these microfilariae. Attempts to obtain evidence incriminating the stimuli described above have been unsuccessful.

Effect of hypothermia on ventilatory response to carbon dioxide inhalation and carbon dioxide infusion in dogs

1960 ◽  
Vol 15 (3) ◽  
pp. 397-401 ◽  
Author(s):  
John Salzano ◽  
F. G. Hall
Keyword(s):  
Carbon Dioxide ◽  
Body Temperature ◽  
Lower Order ◽  
Ventilatory Response ◽  
Water Immersion ◽  
Carbon Dioxide Tension ◽  
Order Of Magnitude ◽  
Gaseous Carbon Dioxide ◽  
Ice Water ◽  
Immersion Hypothermia

Some respiratory and circulatory responses to carbon dioxide stress during ice-water immersion hypothermia were studied in 13 dogs. Stresses were imposed by increasing the carbon dioxide tension of the inspired gas in eight animals and by intravenous infusion of gaseous carbon dioxide in five other animals. It was found that when compensation is made for the depressed ventilation exhibited at low body temperature, animals responded to the carbon dioxide stresses in essentially the same manner in the hypothermic as in the normothermia state. However, the responses are of a lower order of magnitude. Submitted on November 19, 1959

Electron-Microscopic Alterations of the Peritoneum after Both Cold and Heated Carbon Dioxide Pneumoperitoneum

2005 ◽  
Vol 125 (1) ◽  
pp. 73-77 ◽  
Author(s):  
Mehmet Erikoglu ◽  
Serdar Yol ◽  
Mustafa Cihat Avunduk ◽  
Esra Erdemli ◽  
Alp Can
Keyword(s):  
Carbon Dioxide ◽  
Electron Microscopic ◽  
Carbon Dioxide Pneumoperitoneum

scholarly journals Correction to: Effects of different sufentanil target concentrations on the MACBAR of sevoflurane in patients with carbon dioxide pneumoperitoneum stimulus

2020 ◽  
Vol 20 (1) ◽  
Author(s):  
Yanxia Guo ◽  
Dan Wang ◽  
Xiaolin Yang ◽  
Pingping Jiang ◽  
Juan Xu ◽  
...  
Keyword(s):  
Carbon Dioxide ◽  
Carbon Dioxide Pneumoperitoneum

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