The Ameliorating Effect of Uncooked beans Diet in Cd-1 Mice
Aduema W1* and Agbai JU2
1Department of Medical Physiology, Gregory University, Nigeria
2Department of Human Anatomy, Abia State University, Nigeria
Submission: October 27, 2017; Published: December 15, 2017
*Corresponding author: Aduema W, Department of Medical Physiology, Gregory University, Uturu, Abia State, Nigeria, Email: wadioniaduema@gmail.com
How to cite this article: Aduema W, Agbai J. The Ameliorating Effect of Uncooked beans Diet in Cd-1 Mice. Curr Trends Biomedical Eng & Biosci. 2017; 10(5): 555796. DOI: 10.19080/CTBEB.2017.10.555796.
Abstract
Beans contain serotonin and its precursor, 5-Hydroxytryptophan which have neurobehavioral actions on memory, anxiety, mood and pain. This study was therefore, designed to investigate the ameliorating effect of uncooked beans on pain sensation using three groups of Swiss white mice (control and test) weighing 18g-35g (n=10 each).The control group received normal rodent chow, while the test group received 50g of uncooked beans in 50g of rodent chow per day and serotonin precursor (5HTP) (0.2mg/50g w/w) diet. Water was given adlibitum while daily food and water intake, as well as body weight changes, were monitored during the 30-day study. The formalin tests were used to assess pain sensation. The results showed that in the formalin test, the frequency and duration of paw attention in both phases of the test was significantly lower (P<0.05) compared to the control group. The duration and frequency of paw licks (P<0.05) was also significantly lower in the uncooked beans diet and serotonin precursor group compared to the control. Therefore, consumption of uncooked beans diet may decrease pain sensation.
Keywords: Beans; Pain sensation; Formalin; Mice
Introduction
Pain can simply be referred as an emotional feeling which is associated with tissue damage. It is therefore a protective mechanism in the body. Beans are considered as good source of protein content, complex carbohydrates, dietary fibers and some minerals and vitamins [1]. In addition to these nutritional components, common beans are rich in a variety of several phytochemicals with potential health benefits, such as polyphenolic compounds, flavonoids, saponins, alkaloids, glycosides, tannin, lectin, trypsin inhibitor, and phytic acids, among others [2,3]. It has also been reported that beans contain serotonin and its precursor 5-Hydroxytrytophan (5-HTP) [4]. Since beans contain neurotransmitters and chemicals that can potentially affect behavioural patterns, it may be worthwhile to find out whether long term consumption of uncooked beans diet can affect behaviour, such as pain sensation.
Materials and Methods
Experimental animals/grouping
Thirty Swiss white mice weighing between (18-35g) and bred at the animal room of the Department of Human Physiology, University of Abia State University. The animals were acclimatized under standard laboratory conditions and given free access to normal feed and clean drinking tap water. The animals were randomly assigned into two groups, control and a test group. The animals in the control group received normal feed (rodent chow) only; while the test group received mixed feed of 50g powdered uncooked beans per every 50g of rodent chow (50% of the uncooked beans diet) and (0.2mg/50g) serotonin precursor diet for 30 days.
Experimental design
The formalin test was used to test for pain sensation as developed by [5]. Mice were carried into the room in their home cages. Each mouse was picked by the base of its tail and 0.2ml of 2.5% formalin was injected into the right hind paw of the mouse using a needle and syringe. The animal was placed in the observation box and observed for 5 minutes. The animal was then returned to its cages and allowed for 30 minutes before it was taken back to the observation box to be re-observed for another 5 minutes. This procedure was repeated for each animal.
Behaviour scored during the pain test included the following;
a) Frequency of Right hind lick/scratch
b) Frequency of Right hind paw attention
c) Duration of attention.
Statistical analysis
Data Obtained from the experiments was statistically analyzed using Microsoft excel, with factorial ANOVA/T-test in the statistics programme start view version for windows or Mac. Post-hoc comparison was also done using the student ±Newmankeuls design. Values were represented as Mean ± SEM and a “P” value less than 0.05, was considered as significant.
Results
Figure 1 shows the frequency of right hind paw licks for mice fed normal, uncooked beans and serotonin precursor diets as 14.90±1.59; 7.71±0.75 and 5.71±0.42/5mins respectively in the first trial after 5 minutes of formalin administration denoting acute pain. The frequency of paw lick for the mice fed uncooked beans and serotonin precursor diet was significantly shorter (p<0.05) than that of the control fed mice. In the second trial after 30 minutes of formalin administration denoting chronic pain, the frequency of paw licks was 0.87±0.22; 0.14±0.14 and 0.14±0.14/5mins for mice fed normal, uncooked beans and serotonin precursor diet respectively. The frequency of right hind paw lick in the uncooked beans and serotonin precursor diet fed mice was significantly shorter (p<0.05) than those of the control fed mice.
The values for duration of hind paw lick following administration of normal, uncooked beans and serotonin precursor diets were 26.79±2.56; 17.75±2.32 and 8.67±2.08 seconds respectively in the first 5 minutes. The duration of hind paw lick in the uncooked beans and serotonin precursor fed mice was significantly lower (p<0.05) compared to control. In the second trial, after 30 minutes of formalin administration, the hind paw lick duration in the group of mice fed normal, uncooked beans and serotonin precursor diets were 1.30±0.52; 0.16±0.16 and 0.16±0.16 seconds respectively. The duration of hind paw lick was significantly lower in the uncooked bean and serotonin precursor fed mice compared to the control group (p<0.05) see Figure 2.
The values for the frequency of hind paw attention following administration of normal, uncooked beans and serotonin precursor diet were 24.00±2.07; 8.14±1.18 and 6.00±0.82/5mins respectively in the first trial after 5 minutes of formalin administration. The frequency of hind paw attention was significantly lower in the uncooked beans and serotonin precursor fed mice compared to control (p<0.05).In the second trial, after 30 minutes of formalin administration, the values were 1.20±0.47; 0.43±0.30 and 0.43±0.30. The frequency of hind paw attention was significantly lower in the serotonin precursor and uncooked beans group compared to control (p<0.05) See Figure 3.
The values for the duration of hind paw attention following administration of normal, uncooked beans and serotonin precursor diet were 89.38±11.33; 53.59±4.14 and 39.03±5.51 seconds respectively. The duration of hind paw attention fed with uncooked beans and serotonin precursor was statistically shorter than those fed with control diet (p<0.05). In the second trial, after 30 minutes of administration of formalin, the duration of paw attention was 2.60±0.60; 0.37±0.24 and 0.55±0.39 seconds respectively. The duration of hind paw attention was significantly lower in the uncooked beans and serotonin precursor fed mice compared to control (P<0.05) (Figure 4).
Discussion
The response of formalin-induced behaviour reflects activation of C fibre primary afferent nociceptors [6]. This test was in two phases. The response within the first 30 seconds following formalin injection is the perception of acute pain, while the later period shows chronic pain perception. Frequency of hind paw attention and hind paw-licking following injection with formalin was defined as the number of times the mice lick or shake their hind paw after injection with formalin. Lower frequencies of hind paw attention and hind paw licking indicate analgesic effect while higher frequencies indicate hyperalgesia. Our finding showed that during acute and chronic phases of pain, the beans diet- fed mice and that of the serotonin precursor fed mice had significantly less pain perception compared to control, since the frequencies and durations of hind paw lick and hind paw attention following formalin injection was significantly lower in the beans and serotonin precursor diet- fed mice than the control.
Pain reduction was observed on the first and second phases of pain following chronic consumption of beans diet. It is therefore interesting to note that beans diet can be beneficial in the reduction of chronic pain if the results in mice can be extrapolated to man. The Serotonin circuitry is a well-established pathway involved in brain’s analgesia system during transmission of pain in the central nervous system. It is known that the analgesic fibers of this system release neurotransmitters that inhibit pain transmission to the brain, and the neurotransmitters released by the fibers of analgesic pathway are serotonin and encephalin [7,8]. Our findings suggest that uncooked beans and serotonin precursor diet mice showed less sensitive to pain, when compared to those fed with the control diet. Beans diet may decrease pain sensitivity which may also be due to the presence of flavonoids and phlobatannins in the beans which has been reported to reduce pain perception due to their anti-inflammatory properties [9,10]. Finally, uncooked beans diet reduces pain sensation in mice. This may be so because beans contain 5-HTP (serotonin precursor) and 5-HT (serotonin) that plays a positive role in the brain analgesia system. A second set of experiments implicated the serotonergic pathway, as the threshold for pain perception was increased in the mice that consumed the serotonin precursor diet [11,12].
Acknowledgement
We acknowledged Pa and Mrs. BA Aduema, Mr. Iwasam Joshua, Prof EE Osim and Associate Prof AA Nwankwo for their support.
Author(S) Contribution
All authors have contributed one way or the other to the success of this paper and there is no conflict in relation to funding or whatsoever that may prevent the publication of this piece.
References
- Adeyele EJ (1995) Studies of chemical composition and functional properties of African Yam beans (Spensotylis Stenoorpa) flour. PhD Thesis, Department of chemistry, Federal University of Technology, Akure, Ondo State, Nigeria.
- Lyimo M, Mugula J, Elias T (1992) Nutritive composition of broth from selected bean varieties cooked for various periods. J Sci Food Agric 58(4): 535-539.
- Dorria E, Campion B, Sparvoli F, Tava A, Nielsin E, et al. (2012) Antinutrient components and metabolites with health implications in seeds of 10 bean (Phaseolus vulgaris and Phaseolus linutus) landraces cultivated on Southern Italy. Journal of Food Composition and Analysis 26(1-2): 72-80.
- Portas CM, Bjorvatn B, Ursin R (2000) Progress in Neurobiology 60(1): 13-35.
- Abbott FV, Franklin KB, Ludwick RJ, Melzack R (1981) Apparent lack of tolerance in the formalin test suggests a different mechanism for morphine analgesia in different types of pain. Pharmacol Biochem Behav 15(4): 637-640.
- Ito S, Okuda AE, Minami T (2001) Central and peripheral roles of prostaglandins in pain and their interactions with novel neuropathies nociceptin and nocistatin. Neurosci Res 41(4): 299-332.
- Osim EE (2008) Neurophysiology. University of Calabar Press, Calabar, Nigeria, pp. 24-27.
- Sembulingam K, Sembulingam P (2010) Neurophysiology of pain. Essentials of Physiology, Jaypee Brothers, Medical Publishers, New Delhi, India, pp. 803-810.
- Hung XI, Song FL (2001) Activity of plant flavonoids against antibiotic resident bacteria. Phythother Res 15(1): 39-43.
- Muller H (1992) Hindu medicine. The John Hopkins Press, Baltimore, Maryland, USA.
- Osim EE (2012) Our consumables and our emotions. Faculty of Basic Medical Science, lecture series, University of Calaber, Calabar, Nigeria.
- Roefof P, Perkins KA (2004) Relationship between pain and fear. American Journal of Public Health 70: 420.