The objective of this study was to investigate the effect of seven days of feed restriction (between days 42 and 49) on the morphology of the small intestine in experimental rabbit models. Sixty weaned Hyplus rabbits (35 days old) were included in the experiment and split into three groups of 20 rabbits. The first control group (n=20) received feed
The effect of feed restriction has been studied in numerous animal models (
Rabbit models are very specific. The rabbit is a herbivorous species with functional and morphological specificities of its digestive tract due to the quality of feed ingested. Information on the outcomes of the length and percentage quantity of restriction is important for veterinary practice and clinical medicine, and could be useful for other specific practical purposes. It is necessary to determine the effects of different lengths and intensities of feed restriction, as well as the effect of restriction at different ages, and to verify that there are no pathological effects on the morphology of the small intestine. This can be investigated by observing the changes that occur in intestinal morphology. However, the absorption of nutrients depends on the digestive tract, and it can be assumed that quantitative restriction of feed intake can change the morphology of the small intestine mucosa (
This study was approved by the Ethics Committee of the Institute of Animal Science (Prague, Czech Republic) and the Central Commission for Animal Welfare of the Ministry of Agriculture of the Czech Republic (Prague, Czech Republic) and carried out according to the guidelines for applied nutrition experiments in rabbits (
Sixty Hyplus broiler rabbits (PS 19 × PS 40) were kept in the rabbit building of the Institute of Animal Science under controlled environmental conditions (at a temperature of 16–18°C, with a relative humidity of 65% and 12 h light per day) and housed in cages (50×40×42.5 cm). Three experimental groups (ADL, R1 and R2) were formed. Control rabbits were fed
For small intestine analysis, five rabbits per group were sacrificed at the ages of 49, 56, 63 and 70 days. Samples of small intestine were obtained by the necropsy method using standard procedures. The entire small intestine from pylorus to ileocaecal junction was first measured. One representative sample was subsequently taken from each animal, 20 cm under the pylorus, and the samples were placed in a 4% Bouin solution (Bamed, České Budějovice, Czech Republic) for histological analysis. All the samples were collected within 30 min after sacrifice. The samples were fixed for one week.
The samples were processed in accordance with standard histological methods. Slices with a 5-μm thickness were cut from each sample and stained with haematoxylin and eosin (Diapath, S.R.L., Martinengo, Italy). Standard slides (Bamed, České Budějovice, Czech Republic) were used for histological purposes. The prepared samples were evaluated under a Nikon Eclipse E600 light microscope (Nikon Corporation Instruments Company, Tokyo, Japan). Villus height and crypt depth were measured using the NIS-Elements version 3.0 software (Nikon Corporation Instruments Company). The height of each villus was measured from the top of the villus to the crypt transition, and the crypt depth was defined as the invagination between two villi. The heights of 40 villi and the depths of 40 crypts were measured per animal.
The data were examined by two-way analysis of variance with group and age interactions using the Statistical Analysis System (SAS) 2003 software (SAS Institute Inc., Cary, NC, USA). P<0.05 was considered to indicate a statistically significant difference.
No clinical signs of digestive problems occurred during the experiment. No significant differences were identified among the groups with regard to live weight. The data collected throughout the experiment are presented in
At the beginning of the experiment the weights of rabbits in the three groups had approximately the same values: ADL, 1,678 g; R1, 1,676 g and R2, 1,751 g. At the end of the experiment the weights of the rabbits had increased: ADL, 2,892 g; R1, 2,650 g and R2, 2,791 g. No significant interaction between group and age was identified.
It was found that the length of the small intestine significantly (P<0.001) increased with age; however, the level of restriction did not significantly affect this parameter. The longest small intestine was measured in the R1 group in 63-day-old rabbits (347.60 cm) and the shortest in the ADL group in 49-day-old rabbits (263.60 cm).
The data for villus height show interactions between the feeding regime and the age of rabbits. In general, villus height significantly (P<0.001) increased with rabbit age. However, differences were observed between the ADL and restricted rabbits. In the ADL rabbits, the villus height regularly increased with age. In the R1 group, the mean villus height at the age of 49 days, immediately subsequent to restriction, was significantly higher than that in the ADL group. In the following week, the mean villus height in the R1 group was shorter than that in the other two groups. The maximum mean villus height was observed in the R2 group at 56 days; this was significantly different from the heights in the other two groups at the same age.
As in the case of villus height, a significant interaction (P<0.001) was detected between age and group for crypt depth. It was found that the ADL group showed a reduction in crypt depth when the depths at the beginning and end of the experiment were compared (from 128.36 to 116.64 μm). Conversely, in the R1 and R2 groups, the crypts were significantly (P<0.001) deeper at 70 days of age in comparison with the depths at the beginning of the experiment (R1, from 123.83 to 132.95 μm; R2, from 116.28 to 145.26 μm).
The physiological functions of the gastrointestinal tract are dependent on the nutrition and quantity of feed. Trying to establish the feed conversion ratio is currently one of the main tasks of all animal breeding sectors. There is a search for the optimal dose of feed that would ensure good yield and also reduce health risk factors.
In rabbits, it is still not known how long a restrictive diet should be applied for and what the effects of restriction for a shorter period of time are on the morphology of the small intestine. Previous studies have shown that starvation is not compatible with a healthy life as it exerts numerous negative effects on the body, although it is common in nature (
The present study revealed that, following one week of feed restriction in the 49-day-old rabbits, mean villus height was greater than that in the ADL group. However, at the end of the experiment, the mean villus height in the R1 and R2 groups was lower than that in the ADL group. It is possible that, in the absence of nutrients, the villous relief increased, and resulted in higher resorption activity. An increase in resorption may also have been effected by a greater small intestine length. With a gradual adaptation to normal conditions in the realimentation period, the heights of the villi then returned to levels comparable to those of the ADL group. In a previous study, which evaluated the morphometric changes in the small intestine of nursing piglets caused by 60% restriction, it was stated that this restriction resulted in a significantly reduced thickness of the mucosa and villus height compared with the control group (
Martignon
This study was supported by the Ministry of Health of Czech Republic (grant code IGA MZCR NT 13424-4/2012).
Composition of the experimental diet.
| Property of feed | Value |
|---|---|
| Component (%) | |
| Soybean meal | 3.0 |
| Sunflower meal | 17.0 |
| Barley | 8.0 |
| Oats | 9.0 |
| Lucerne meal | 30.0 |
| Wheat bran | 22.5 |
| Sugarbeet pulp | 6.0 |
| Rapeseed oil | 1.5 |
| Vitamin supplement | 1.0 |
| Ground limestone | 1.0 |
| Dicalcium phosphate | 0.5 |
| Feeding salt | 0.5 |
| Calculated nutrient content (%) | |
| Crude protein | 16.42 |
| Fat | 3.86 |
| Crude fibre | 18.27 |
| Metabolisable energy (MJ) | 9.52 |
The metabolisable energy applies to 1 kg.
Morphometrical results.
| Groups | Age at sampling (days) | Mean VH (μm) | Mean CD (μm) | Mean SIL (cm) | Mean weight (g) |
|---|---|---|---|---|---|
| ADL | 49 | 460.29a | 128.36b | 263.60 | 1678 |
| 56 | 543.98b | 129.68b | 312.20 | 2236 | |
| 63 | 574.03b,c | 137.18b,c | 316.60 | 2525 | |
| 70 | 609.42b,c | 116.64b | 340.00 | 2892 | |
| R1 | 49 | 517.71b | 123.83b | 265.80 | 1676 |
| 56 | 511.58b | 140.52c | 340.20 | 2273 | |
| 63 | 545.17b | 109.97b | 347.60 | 2587 | |
| 70 | 606.83b,c | 132.95b,c | 336.60 | 2650 | |
| R2 | 49 | 461.38a | 116.28b | 273.40 | 1751 |
| 56 | 643.14c | 155.56c | 346.20 | 2233 | |
| 63 | 553.39b | 113.08b,c | 336.40 | 2428 | |
| 70 | 578.29b,c | 145.26c | 331.40 | 2791 | |
| SEM | 129.24 | 46.11 | 22.17 | 158.48 | |
| Significance (P-value) | |||||
| Group | 0.069 | 0.032 | 0.189 | 0.111 | |
| Age | 0.001 | 0.001 | 0.001 | 0.001 | |
| Group × age | 0.001 | 0.001 | 0.598 | 0.216 | |
Values within a column with different superscripts (a,b,c) show statistically significant differences (P<0.05). Differences express interaction of age and group. VH, villus height; CD, crypt depth; SIL, small intestine length; ADL,