1. To determine which macronutrient, protein, fat, or fibre is most effective at inducing structural recovery of intestinal villi after feed withdrawal, male layer chickens were allotted to the following groups: intact control (IC), 3-d feed withdrawal (F), ad libitum refeeding of a formula mash diet (AFM), or force-feeding of a formula (FFP) or semi-purified well-balanced (FSP), protein-free (FSPP), fat-free (FSPF), or fibre-free (FSPFi) pellet diets for one day after 3-d feed withdrawal. 2. After refeeding, the formula diet groups increased in villus height and apparent area. However, not all of the semi-purified groups recovered to the levels of the formula diet groups in all light microscopic variables, except in terms of a further decrease in cell mitosis in the FSPP group compared to the F group. Of the semi-purified groups, the FSPFi group tended to be the highest for all variables. This result suggests that the semi-purified diets did not induce villus recovery faster than the formula diet, especially in the case of the protein-free pellet diet. 3. After refeeding, a smooth surface of villus tip in the F group changed to a rough surface, with cell protuberances in the AFM group. This morphological recovery was clearer in the FFP group. Compared with the FFP group, the semi-purified groups had cell protuberances which extended further into the intestinal lumen, and more cell clusters. Among the semi-purified groups, epithelial cells were smaller in the FSPP and larger in the FSPFi than in the other groups. This result suggests that the semi-purified diet can induce a quicker cell recovery than the formula diet but that the protein-free diet is the slowest. 4. The present study demonstrates that protein is the most important nutrient for the recovery of intestinal villi after feed withdrawal.
To establish the basic histological data on intestinal villi in chickens fed a semipurified pellet diet, birds were divided into the following groups : intact control (IC), --d fasting (F), ad libitum refeeding of a formula mash diet (AFM), or force-feeding of a formula pellet diet (FFP) or a semi-purified pellet diet (FSP) for one day after --d fasting. The intestinal histological recovery in these groups was compared with light (LM) and scanning electron microscopy (SEM).The body weight recovery was similar in AFM and FFP, but they tended to be faster than that of FSP. In LM observations, the decreased values of villus height, cell area, cell mitosis, and villus area in F tended to recover to the IC level in AFM and FFP and but did not recover in FSP. All parameters of AFM and FFP were almost the same. In SEM observations, the dome-shaped cells, cell outlines, and cell protuberances seen in IC became faint in F, and the luminal surface area of the cells became small (P῍*.*/). After refeeding, the dome-shaped cells and the clear cell outline reappeared in AFM and FFP, and such a morphological recovery was clearer in FFP than AFM. The luminal surface area of the cells tended to increase in AFM and increased in FFP (P῍*.*/). In addition, cell clusters were frequently observed in FSP. The present histological observations after refeeding suggest that the formula diet can induce hypertrophic intestinal histological alterations at the villus and cell levels. However, although the semi-purified diet does not bring about the histological activation of the villi, it is quicker than the formula diet to activate the cell function. Therefore, it seems that the formula diet produces intestinal histological alterations related to intestinal function at LM and SEM levels, but such a relationship is limited to the SEM level in the semi-purified diet.This demonstrates that nutritional and physiological data from the semi-purified diet cannot always be applied to feeding with a formula diet.
1. To clarify how histological recovery of villi and cells would be affected after refeeding single nutrients such as protein, carbohydrate and fat, male chickens were divided as follows: (1) intact control fed ad libitum a commercial finisher mash diet (CP, 140 g; ME, 11.71 MJ/kg, ALM), (2) 3 d feed withdrawal (FW), (3) FW followed by one day ad libitum free access to the mash diet (FW-ALM), and FW followed by one day force-feeding of (4) a commercial finisher pellet diet (FW-FFM) and an isocaloric diet of (5) a protein (FW-FFP), (6) a carbohydrate (FW-FFC) or (7) a fat (FW-FFF). 2. After refeeding, the formula diet groups increased in villus height and villus area and tended to increase in cell area and cell mitosis. Furthermore, flat cells on the villus tip in the F group developed to dome-shaped cells. This suggests that nutritionally well-balanced diets can induce histological recovery at villus and cellular levels. 3. Not all of the single nutrient groups recovered to the extent of the formula diet groups in all light microscopic variables after refeeding, suggesting that a single nutrient cannot induce histological recovery of the villus. 4. However, the dome-shaped cells were more distributed on the villus tip in these single nutrient groups than in the well-balanced formula diet groups, although cell diameter of the former groups was smaller than that of the latter. This suggests that the single nutrients would be effectively absorbed from cells and can induce histological recovery at the cellular level.
<p class="1Body">To study whether the particle size of golden apple snail (<em>Pomacea Canaliculata</em>, Lamarck) shell induces negative effects on the growth performance, carcass quality, bone strength and small intestinal histology in Thai native chickens (Pradu Hang Dum Chiangmai 1), 192 chickens, both male and female, were divided into 4 groups with 4 replicates of 12 chickens each at 5 weeks of age. The control group received limestone as a source of calcium. The experimental groups received diets containing golden apple snail shell particles, with sizes ranging from 0:50 to 1:00, from 1.00 to 1.70, and from 1.70 to 2.80 mm as a calcium source. Feed intake and weight were measured weekly, and carcass quality, tibial bone strength and small intestinal histology were observed at 16 weeks of age. The data of growth performance, carcass quality, tibial bone strength and small intestinal histology did not present negative results after feeding any of the golden apple snail shell sizes. On the contrary, a slightly higher weight gain was observed in the group consuming the 1.00 to 1.70 mm snail shell particles during the period from the 13th to the 16th week. Improved carcass quality and pectoralis major and tibial bone strength, as well as significantly increased duodenal villus surface and jejunal crypt cell numbers (p < 0.05) were observed in the group fed the 1.00 to 1.70 mm snail shell particles. These results suggest that golden apple snail shell particles between 1.00 and 1.70 mm can improve growth performance due to hypertrophied intestinal function.</p>
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.