Organ |
large intestine > cecum |
Age classes |
adolescent |
Gender |
M |
Condition |
fed |
weight |
1.19 g (sd=0.09)
|
Palacio et al., 2016 - Palacio, M. I., Weisstaub, A. R., Zuleta, Á., Etcheverría, A. I., & Manrique, G. D. (2016). α-Galactosides present in lupin flour affect several metabolic parameters in Wistar rats. Food & function, 7(12), 4967-4975.
|
weight > per 100 g body weight |
0.41 g / 100 g BW (sd=0.07)
|
Palacio et al., 2016 - Palacio, M. I., Weisstaub, A. R., Zuleta, Á., Etcheverría, A. I., & Manrique, G. D. (2016). α-Galactosides present in lupin flour affect several metabolic parameters in Wistar rats. Food & function, 7(12), 4967-4975.
|
pH > fed |
7.42 (sd=0.18
|
Palacio et al., 2016 - Palacio, M. I., Weisstaub, A. R., Zuleta, Á., Etcheverría, A. I., & Manrique, G. D. (2016). α-Galactosides present in lupin flour affect several metabolic parameters in Wistar rats. Food & function, 7(12), 4967-4975.
|
short-chain fatty acid > acetic acid |
2.31 µmol/g (sd=1.26)
|
Palacio et al., 2016 - Palacio, M. I., Weisstaub, A. R., Zuleta, Á., Etcheverría, A. I., & Manrique, G. D. (2016). α-Galactosides present in lupin flour affect several metabolic parameters in Wistar rats. Food & function, 7(12), 4967-4975.
|
short-chain fatty acid > propionic acid |
0.69 µmol/g (sd=0.19)
|
Palacio et al., 2016 - Palacio, M. I., Weisstaub, A. R., Zuleta, Á., Etcheverría, A. I., & Manrique, G. D. (2016). α-Galactosides present in lupin flour affect several metabolic parameters in Wistar rats. Food & function, 7(12), 4967-4975.
|
short-chain fatty acid > butyric acid |
0.39 µmol/g (sd=0.02)
|
Palacio et al., 2016 - Palacio, M. I., Weisstaub, A. R., Zuleta, Á., Etcheverría, A. I., & Manrique, G. D. (2016). α-Galactosides present in lupin flour affect several metabolic parameters in Wistar rats. Food & function, 7(12), 4967-4975.
|
concentration > ammonia |
0.263 mg/g (SEM=0.012)
|
Śliżewska et al., 2015 - Śliżewska, K., Libudzisz, Z., Barczyńska, R., Kapuśniak, J., Zduńczyk, Z., & Juśkiewicz, J. (2015). Dietary resistant dextrins positively modulate fecal and cecal microbiota composition in young rats. Acta Biochimica Polonica, 62(4).
|