Circadian rhythms in the body temperatures of intensive care patients with brain lesions.

In many applications of electrical tomography, such as monitoring the lungs of unconscious intensive care patients, data acquisition on the entire boundary of the body is impractical. The boundary area available for electrical tomography measurements is restricted. Physiological processes that produce changes in the electrical conductivity of the body can be monitored by hybrid algorithms. This paper presents the architecture of the system based on electrical tomography.

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Effect of gastrointestinal flora on body temperature of rats and mice

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.1990.258.2.r552 ◽

1990 ◽

Vol 258 (2) ◽

pp. R552-R557 ◽

Cited By ~ 3

Author(s):

M. J. Kluger ◽

C. A. Conn ◽

B. Franklin ◽

R. Freter ◽

G. D. Abrams

Keyword(s):

Drinking Water ◽

Body Temperature ◽

Circadian Rhythms ◽

Marked Decrease ◽

The Body ◽

Body Temperatures ◽

Gut Flora ◽

Nighttime Temperatures ◽

Rats And Mice

The purpose of these experiments was to test the hypothesis that gut flora influences the body temperature of rodents. Rats and mice were implanted with biotelemetry transmitters that enabled us to record both abdominal temperature and activity for long periods of time. Rats given nonabsorbable antibiotics in their drinking water, which reduced their gut flora, had a marked decrease in both their daytime and nighttime temperatures. Similar results were found with germfree mice. The circadian rhythms in body temperature of germfree and conventionalized mice were not different. However, the body temperatures of the germfree mice were lower than those of the conventionalized mice during both the daytime and nighttime. The decrease in body temperature in the germfree mice was not related to changes in activity. These results support the hypothesis that gut flora has a tonic stimulatory effect on both the daytime and nighttime body temperature of rodents.

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Heterogeneous Distribution of Pulmonary Ventilation in Intensive Care Patients Detected by Functional Electrical Impedance Tomography

Journal of Intensive Care Medicine ◽

10.1177/088506669801300404 ◽

1998 ◽

Vol 13 (4) ◽

pp. 168-173 ◽

Cited By ~ 11

Author(s):

Inéz Frerichs ◽

Wolfgang Golisch ◽

Günter Hahn ◽

Kurpitz Michael ◽

Hilmar Burchardi ◽

...

Keyword(s):

Intensive Care ◽

Electrical Impedance Tomography ◽

Electrical Impedance ◽

Pulmonary Ventilation ◽

Bronchial Carcinoma ◽

Biological Tissues ◽

The Body ◽

Impedance Tomography ◽

Heterogeneous Distribution ◽

Intensive Care Patients

Electrical impedance tomography (EIT) is a new noninvasive imaging technique which utilizes the different electrical properties of biological tissues to produce cross-sectional images of selected parts of the body. When applied on the thorax, the cyclic fluctuations of electrical impedance of the lung tissue, associated with different air contents of the lungs in the course of the respiratory cycle, can be used to generate derived EIT tomograms which represent the spatial distribution of ventilation in the chosen transverse plane. The corresponding evaluation technique, the functional EIT, was used for the first time to follow the regional ventilation in three intensive care patients. The method was shown (1) to identify the redistribution of inspired air in the lungs associated with controlled ventilation in a patient undergoing elective laparotomy, (2) to follow the improvement of locally impaired lung ventilation in the course of severe pneumonia, and (3) to detect regional reduction of ventilation due to lobar atelectasis with stasis pneumonia in a patient with bronchial carcinoma.

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