Abstract
The study aimed to investigate the analgesic as well as anti-inflammatory effects of diclofenac and silymarin in chicks. The up and down procedure was used to assess the effective median analgesic dosages (ED50s) of diclofenac and silymarin administered intraperitoneally either alone or at the same time in chicks. Also, Analgesic and anti-inflammatory effects were measured by using the formalin test. Isobolographically, ED50s of drugs were assessed for the manner of interaction between both. Formalin testing also supervised analgesic and anti-inflammatory coadministration impact of diclofenac and silymarin at doses 5 and 40 mg/kg and 2.5 and 20 mg/kg respectively. Analgesic ED50s for diclofenac and silymarin in chicks were 9.3 and 76.6 mg/kg separately. Concomitant administration of drugs at a fixed ratio 0.5:0.5 and 0.25:0.25 of their individual ED50 values reduced their ED50s to 2.3:18.6 mg/kg and 2.2:16.5 mg/kg separately. ED50s isobolographic analysis showed synergistic analgesic effects of both drugs. Additionally, coadministration of both drugs had effective analgesic and anti-inflammatory effect, as seen by formalin test, led to a significant rise in latency to lift right foot beside a significant decline in foot lifting frequency when compared with control value, the anti-inflammatory reaction was demonstrated by a significant decrease in foot thickness compared to control value. In conclusion, the data indicate that diclofenac and silymarin coadministration controls acute pain synergistically, and suppress inflammatory reaction.
Main Subjects
Highlights
Article Highlights
1- Diclofenac and silymarin coadministration controls acute pain synergistically.
2- Diclofenac and silymarin coadministration suppress inflammatory reaction.
3- Diclofenac and silymarin coadministration offering fewer adverse effects and more effective properties.
Full Text
Study the analgesic effect of diclofenac and silymarin coadministration in chicks
Y.M. Albadrany, A.S. Naser and M.M. Hasan
Department of Physiology, Biochemistry and Pharmacology, College of Veterinary Medicine, University of Mosul, Mosul, Iraq
yasseralbadrany@yahoo.com, 0000-0003-4301-1095
ahmedvet81@yahoo.com, 0000-0003-1618-0678
mohammadmaree2@gmail.com, 0000-0003-4222-7126
2020-05-07
2020-05-22
Abstract
The study aimed to investigate the analgesic as well as anti-inflammatory effects of diclofenac and silymarin in chicks. The up and down procedure was used to assess the effective median analgesic dosages (ED50s) of diclofenac and silymarin administered intraperitoneally either alone or at the same time in chicks. Also, Analgesic and anti-inflammatory effects were measured by using the formalin test. Isobolographically, ED50s of drugs were assessed for the manner of interaction between both. Formalin testing also supervised analgesic and anti-inflammatory coadministration impact of diclofenac and silymarin at doses 5 and 40 mg/kg and 2.5 and 20 mg/kg respectively.Analgesic ED50s for diclofenac and silymarin in chicks were 10.74 and 83.4 mg/kg separately. Concomitant administration of drugs at a fixed ratio 0.5:0.5 and 0.25:0.25 of their individual ED50 values reduced their ED50s to 2.10:16.81 mg/kg and 3.90:23.50 mg/kg separately. ED50s isobolographic analysis showed synergistic analgesic effects of both drugs. Additionally, coadministration of both drugs had effective analgesic and anti-inflammatory effect, as seen by formalin test, led to a significant rise in latency to lift right foot beside a significant decline in foot lifting frequency when compared with control value, the anti-inflammatory reaction was demonstrated by a significant decrease in foot thickness compared to control value.In conclusion, the data indicate that diclofenac and silymarin coadministration controls acute pain synergistically, and suppress inflammatory reaction.
Keyword: Diclofenac, Silymarin, Analgesia, Isobolographic analysis, Chicks
10.33899/ijvs.2021.127065.1453
https://vetmedmosul.com/article_168406.html
دراسة التأثیر المسکن المترافق للدیکلوفیناک والسلیمارین فی أفراخ الدجاج
یاسر محمدامین البدرانی، احمد صلاح ناصر و محمد مرعی حسن
فرع الفسلجة والکیمیاء الحیاتیة والأدویة، کلیة الطب البیطری، جامعة الموصل، الموصل، العراق
الخلاصة
کان الهدف من الدراسة الکشف عن التأثیر المسکن والمضاد للالتهابات لکل من الدیکلوفیناک والسلیمارین سویا فی أفراخ الدجاج. استخدمت طریقة الصعود والنزول لتحدید الجرعة المسکنة الفاعلة الوسطیة لکل من الدیکلوفیناک والسلیمارین عن طریق الحقن داخل الصفاق کل على حدة أو سویا. وکذلک تم قیاس الفعل المسکن والمضاد للالتهابات باستخدام اختبار الفورمالین. اعتمادا على التحلیل الایزوبولوکرافی تم تحدید نوع التداخل بین الدوائیین على مستوى الجرعة المسکنة الفاعلة الوسطیة، وکذلک اظهر اختبار الفورمالین التأثیر المسکن والمضاد للالتهابات للإعطاء المتزامن للدیکلوفیناک والسلیمارین بجرعة 5 و 40 ملغم / کغم و 2.5 و 20 ملغم / کغم. کانت الجرعة المسکنة الفاعلة الوسطیة للدیکلوفیناک والسلیمارین فی أفراخ الدجاج 10.74 و 83.4 ملغم / کغم على التوالی. ان اعطاء الدایکلوفیناک والسلیمارین معا وبنسب ثابتة 0.5: 0.5 و 0.25: 0.25 من قیم الجرعة المسکنة الوسطیة الفردیة إلى خفض الجرعة المسکنة الوسطیة إلى 2.10: 16.81 ملغم / کغم و 3.90: 23.50 ملغم / کغم على التوالی. أظهر التحلیل الایزوبولوکرافی تأثیرا تآزری على مستوى الجرع المسکنة الوسطیة لکلا الدوائیین. فضلا عن التأثیر المسکن والمضاد للالتهاب والموضح فی اختبار الفورمالین حیث أدى إعطاء الدوائیین معا إلى زیادة معنویة فی زمن رفع القدم الیمنى وانخفاض معنوی فی عدد مرات رفع القدم بالمقارنة مع مجموعة السیطرة. وتبین التأثیر المضاد للالتهاب على شکل انخفاض معنوی فی سمک القدم بالمقارنة مع مجموعة السیطرة. تشیر نتائجنا إلى أن حقن الدایکلوفیناک والسلیمارین معا لهما تأثیر تآزری فی تسکین الألم والتقلیل من التفاعلات الالتهابیة.
Introduction
In recent years, multimodal analgesia and anti-inflammatory techniques have been suggested, combining additive and synergistic effects of multiple analgesics and anti-inflammatory effects with fewer adverse effects and offering more effective properties. Diclofenac sodium is a Non-Steroidal Anti-Inflammatory Drug (NSAID), with an average relative inhibition cyclooxygenase 1 and 2 (1). Diclofenac has serious pathological effects such as stomach ulceration, GIT bleeding, liver toxicity, kidney papillary necrosis as well as kidney failure on uses for long periods (2). Recently, use of natural compounds, including those extracted from vegetables, fruits, and herbs, as powerful preventive or therapeutic agents has become a promising approach for inflammation-associated disease chemoprevention (3). Silymarin is a mixture of flavolignans resulting from ripe seed of medicinal herb Silybum marianum; containing primarily silybinin A and B, isosilybinin, silychristin, silydianin, and taxifolin, the word silymarin generally includes dihydroflavonol taxifolin and flavolignans (silybinin, isosilybinin, and taxifolin), silymarin includes antioxidants, anti-inflammatory, antifibrotic, antiviral agents as well as immunomodulatory characteristics (4). According to our research, no studies found to explain the analgesic efficacy and anti-inflammatory effect of diclofenac and silymarin coadministration in chicks model, for this reason, the object of our study to evaluate the analgesic and anti-inflammatory activity of diclofenac and silymarin in chicks.
Materials and methods
Experimental animals
Oneday-old chicks were bought from a licensed hatchery and kept until the tests were completed seven to nine days. Chicks were placed in a room at 32-35ºC, persistent illumination, lumber sawdust was used to cover the floor, Food and water were available all the time. All experiments complied with lab animal use regulations and sufficient care was given to the chicks. The scientific board of the Department of Physiology, Biochemistry, and Pharmacology of the Veterinary Medicine College at the University of Mosul has appraised and accepted the protocol of study. The required doses of silymarin (175 mg, 21st Century HealthCare, Inc.) was dissolved in propylene glycol (Sigma chemical CO. 99%).Diclofenac sodium (75 mg/3ml, Gulf Pharmaceutical Industries, UAE) was additional dilute in normal saline (Pharmaceutical Solution Industry, Saudi Arabia) to gain the wanted concentrations of drug. The dosage of administration for each drug was intraperitoneally given at 5 ml/kg of body weight. At the same time, the experimenters observed the chicks' reactions during the tests that had been followed from 9-12 a.m.
Experiments
Up-and-down procedure (5) was used to determine the median effective doses of silymarin and diclofenac separately, or concomitantly (silymarin followed immediately by diclofenac) for induction analgesia in chicks. Analgesia was assessed using an electric stimulator (Science and Research Instruments Ltd, UK) to increase the pain threshold after setting the frequency at 50 Hz, width at 5 ms as well as pulse amplitude at 10 volts, the electrodes of stimulator were mildly placed under the wing in free feather of upper chest area which wetted by water. The chick's reaction to pain after electric stimulation was manifested as calls distress and/or wing wiggling. Each chick had a lowest voltage triggered aversive pain reaction before administration diclofenac and silymarin alone or concomitantly, after 15 min from administration drugs for each chick, the rise or reduce in voltage causing pain response has been calculated (6). Generally, within two second after electrical stimulation, the latency for positive analgesic reaction was apparent, dose choice constructed on preliminary experiments. The initial dose of silymarin was at 100 mg/kg, ip while diclofenac was at 12 mg/kg, ip. After determination of ED50s to the silymarin and diclofenac, the combination experiment was done in a fixed ratio from the ED50s. The initial dosages of silymarin and diclofenac were 40 and 5 mg/kg, ip, respectively (0.5:0.5 of their individual ED50 values), also the initial dosages of silymarin and diclofenac were 20 and 2.5 mg/kg, ip, respectively (0.25:0.25 of their individual ED50 values). In order to evaluate kind of interaction engaged in administration of silymarin and diclofenac concomitantly, ED50s of two drugs were applied to isobolographic analysis (7). For isobolographic analysis, a straight line was drawn among the analgesic isoeffective doses (ED50) of silymarin and diclofenac provided to the chicks each alone or concomitantly. On x- as well as y-axes separately, ED50 points of silymarin and diclofenac provided alone are described, straight diagonal line shows the additivity line (zero interaction) at the ED50 values, and the position of concomitantly points on left (below) and right (above) sides of additive line shows synergistic as well as antagonistic interactions, separately. The da / Da + db / Db equation calculated the interaction index. Da and Db, respectively, are the separate silymarin and diclofenac ED50s for analgesia induction, while da and db are their joined ED50s for analgesia induction. An index of interaction of 1 implies additivity (no interaction), < 1 synergism, and > 1 antagonism (8).
Thirty chicks were divided randomly into five groups of six members, and use another anti-inflammatory analgesic method. Chicks were initiated with pain and inflammatory reactions through injection 0.05 ml of 0.1 percent aqueous formalin in right foot plantar (9), left foot plantar was injected as a control measure with a normal saline (0.05 ml). Fifteen minute previously formalin injection, the five chick’s groups were intraperitoneally injected with (normal saline and propylene glycol) 5 ml/kg (control), silymarin 80mg/kg, diclofenac 10 mg/kg, silymarin + diclofenac 40+5 mg/kg respectively, and silymarin + diclofenac 20+2.5 mg/kg respectively. Directly once formalin injection, within 3 minutes the period to lift the right foot and the rate of lifting right foot in response to formalin injection were recorded. Supplementary, we evaluated anti-inflammatory result of silymarin and diclofenac alone or concomitantly through calculating foot thickness (mm) with digital caliber (Electronics Lab, China) formerly and 1 hour subsequently formalin injection. Anti-inflammatory reaction was measured as following (percentage): Anti-inflammatory reaction =[change in control group foot thickness - change in thickness of foot for treatment group / change in control group foot thickness]×100
Statistical analysis
Data are shown as mean + SEM. Statistical analysis was carried outusing a one-way analysis of variance and then subjected to LSD test. P
Results
As calculated by the up-and-down procedure, the ED50 values for silymarin and diclofenac were 83.4 and 10.74 mg / kg ip, separately for analgesic induction (Table 1) and (Table 2).
Table 1: Median effective doses (ED50) of intraperitoneally administered silymarin for analgesic induction via the electrostimulator test in seven to nine day-old chicks
Variable |
Result |
ED50 (mg/kg) |
83.4 |
Dose range given (mg / kg) |
100-80=20 |
Dose initially taken (mg / kg) |
100 |
Dose lastly taken (mg/kg) |
80 |
Total of chicks used |
6 (xxoxoo)a |
Dose-increase or decrease (mg / kg) |
20 mg/kg |
aX-positive analgesic response; O-no analgesic response. The up-and-down procedure calculated the ED50 (6).
Table 2: Median effective doses of intraperitoneally administered diclofenac for analgesic induction via the electrostimulator test in seven to nine day-old chicks
Variable |
Result |
ED50 (mg/kg) |
10.74 |
Dose range given (mg / kg) |
12-10=2 |
Dose initially taken (mg / kg) |
12 |
Dose lastly taken (mg/kg) |
10 |
Total of chicks used |
6 (xxooxx)a |
Dose-increase or decrease (mg / kg) |
2 mg/kg |
aX-positive analgesic response; O-no analgesic response. The up-and-down procedure calculated the ED50 (6).
The combined administration of silymarin and diclofenac at a fixed ratio 0.5:0.5 of their ED50 values led in ED50 values of 16.81 and 2.10 mg / kg ip, respectively for analgesic induction (Table 3). The combined administration of silymarin and diclofenac at a fixed ratio 0.25:0.25 of their ED50 values led in ED50 values of 23.50 and 3.90 mg / kg ip, respectively, for analgesia induction (Table 4).
Table 3:Median effective doses of silymarin and diclofenac inducing analgesia via the electro-stimulator test in chicks at a fixed ratio 0.5:0.5 of their individual ED50 values
Variable |
Silymarin with diclofenac |
|
ED50 |
16.81mg/kg |
2.10mg/kg |
Dose range given (mg / kg) |
40-10=30mg/kg |
5-1.25=3.75mg/kg |
Initial dose |
40mg/kg |
5mg/kg |
Last dose |
10mg/kg |
1.25mg/kg |
Total of chicks used |
6 (xxoxxo)a |
|
Dose-increase or decrease (mg/kg) |
10 mg/kg |
1.25mg/kg |
Y |
0.398 |
aX-positive analgesic response; O-no analgesic response. The up-and-down procedure calculated the ED50 (6).Y= calculated interaction index
Table 4:Median effective doses of silymarin and diclofenac inducing analgesia via the electro-stimulator test in chicks at a fixed ratio (0.25:0.25) of their individual ED50 values
Variable |
Silymarin with diclofenac |
|
ED50 |
23.5 mg/kg |
3.90 mg/kg |
Dose range given (mg / kg) |
20-20=0 mg/kg |
2.5-2.5= 0 mg/kg |
Initial dose |
20mg/kg |
2.5mg/kg |
Last dose |
20mg/kg |
2.5 mg/kg |
Total of chicks used |
5 (xoxox)a |
|
Dose-increase or decrease (mg / kg) |
5 mg/kg |
0.5mg/kg |
Y |
0.645 |
aX-positive analgesic response; O-no analgesic response. The up-and-down procedure calculated the ED50 (6). Y= calculated interaction index
Isobolographic evaluation of these ED50s (alone or in combination) of both drugs at a fixed ratio either 0.5:0.5 or 0.25:0.25 revealed that the combined administration of drugs has a synergetic effect on analgesic induction in chicks (Figure 1)and (Figure 2) respectively. This synergistic effect was indicated by the position of the points below the diagonal line representing the combined analgesic ED50s of diclofenac and silymarin connecting their isoeffective analgesic doses (ED50s) given alone. Additionally, the interaction index calculated for analgesia at fixed ratio either 0.5:0.5 or 0.25:0.25 were 0.398 and 0.645 separately representing a synergistic interaction among both drugs (index
Figure 1: Isobolographic analysis of silymarin and diclofenac analgesic interactions in chicks. Intraperitoneally, silymarin and diclofenac were injected. Points on axes x and y are median analgesic doses (ED50s, mg / kg) of drugs administered alone, whereas the triangular point characterizes 0.5:0.5 of ED50 combinations of both drugs. The diagonal line between both the silymarin and diclofenac individual ED50s is synergistic, and thus the triangular point reveals synergistic relationship. N=5-6 chicks / each experiment with an ED50.
Figure 2: Isobolographic analysis of silymarin and diclofenac analgesic interactions in chicks. Intraperitoneally, silymarin and diclofenac were injected. Points on axes x and y are median analgesic doses (ED50s, mg / kg) of drugs administered alone, whereas the triangular point characterizes 0.25:0.25 of ED50 combinations of both drugs. The diagonal line between both the silymarin and diclofenac individual ED50s is synergistic, and thus the triangular point reveals synergistic relationship. N=5-6 chicks / each experiment with an ED50.
Usage of a unique anti-inflammatory and analgesic test, silymarin 80mg/kg alone and diclofenac 10 mg/kg alone induced analgesia against pain induced by injected formalin into chick's foot planter region. This was demonstrated by a significant rise in latency to lift right foot as well as a significant decline in frequency of foot lift compared to the control value (Table 5). Combined silymarin and diclofenac show analgesic effect at 40 and 5 mg / kg, and at 20 and 2.5 mg / kg respectively. This was shown by a significant increase in latency to lift the right foot as well as a significant decrease in foot lift frequency relative to control value (Table 5). The anti-inflammatory activity of silymarin and diclofenac alone or in combination was demonstrated by a significant decrease of foot thickness relative to the control value. Silymarin 80 mg /kg, diclofenac 10mg /kg, silymarin and diclofenac at 40 and 5 mg/kg, as well as silymarin and diclofenac at 20 and 2.5 mg/kg, showed an anti-inflammatory activity percentage of 21.8, 51.2, 44.8, and 30.7 respectively compared to the control group (Table 6).
Table 5: Onset of raising right foot and number of raising right foot in the chicks treated with silymarin and diclofenac alone or in combination
Groups |
Onset of raising right foot (second) |
n of raising right foot (3min) |
Control |
0.86±0.05a |
45.67±2.52a |
Silymarin 80 mg/kg |
1.08±0.08ab |
34.67±0.76b |
Diclofenac 10 mg/kg |
1.41±0.20b |
21.83±1.44c |
Silymarin 40 mg/kg + Diclofenac 5 mg/kg |
1.83±0.16c |
26.17±1.85c |
Silymarin 20 mg/kg + Diclofenac 2.5 mg/kg |
1.00±0.00a |
26.83±1.99c |
The values represent mean±SE for 6 chicks/group. Values of each column accompanied by various superscript letters are significantly different at significance level of 5 percent.
Table 6:The increase in paw thickness and the anti-inflammatory activity % in the chicks treated with silymarin and diclofenac alone or in combination
Groups |
The increase in paw thickness (mm) |
The anti-inflammatory activity % |
Control |
0.78± 0.08a |
0 |
Silymarin 80 mg/kg |
0.61± 0.04b |
21.8 |
Diclofenac 10 mg/kg |
0.38± 0.03c |
51.2 |
Silymarin 40 mg/kg + Diclofenac 5 mg/kg |
0.43± 0.02c |
44.8 |
Silymarin 20 mg/kg + Diclofenac 2.5 mg/kg |
0.54± 0.02b |
30.7 |
The values represent mean±SE for 6 chicks/group. Values of each column accompanied by various superscript letters are significantly different at significance level of 5 percent.
Discussion
In our study, we observed a synergistic relationship between diclofenac and silymarin coadministration in relieving pain (electro-stimulation test) and reducing pain and inflammation (formalin test) in chicks as a model. Chicks were used as a model for pain assessment, Holloway noted when comparing physiological responses of nociceptors in chickens with mammals, the discharge patterns, as well as receptive field size, are really comparable (10). For this reason, studying the analgesic action of pharmacological compounds in chickens can give an analogous picture of the act of analgesics in mammals.
Determination ED50 value is a sign of the drug's action in laboratory animals used in experiments as well as being of great importance in the determination of doses used in subsequent experiments. The current study explored the potential analgesic effect for silymarin in combination with diclofenac, while this effect has not been reported before. The analgesic impact of combined administration of silymarin and diclofenac was found to be synergistic as verified by isobolographic analysis of individual, as well as combined ED50s of both drugs for analgesia induction at a specified proportion 0.25:0.25 and 0.5:0.5 of their individual ED50s, resulting in an interaction index of
Diclofenac is the most frequently used non-steroidal anti-inflammatory drugs in low, medium, and high-income countries, it is accessible over the counter in most countries, for a long time, non-steroidal anti-inflammatory drugs were used as effective anti-inflammatory therapeutic agents. However, they were often associated with severe side effects on long-term oral administration (11).
Diclofenac developed substantial analgesic effects in the chicks, either alone or in combination with silymarin (using an electric stimulator). Researchers have indicated multiple mechanisms of diclofenac in reducing acute pain. In mammals, the prolonged firing of C-fiber nociceptors leads to glutamate release; it is presumed that is comparable in birds, glutamate then works in the spinal cord through N-methyl-D-aspartate receptors lead to central sensitization , diclofenac reduces NMDA-mediated hyperalgesia in rats through L-arginine/NO/cGMP pathway (12). Another researcher pointed out that diclofenac's peripheral antinociceptive impact may result from the activation of several types of K+ channels, which may cause hyperpolarized of peripheral terminals of primary afferents (13).
The experimental and clinical studies show the opioid-related impact of diclofenac can be at least partly accountable for the analgesia observed after diclofenac administration; this effect can be one of the diclofenac analgesic mechanisms with the knowledge that birds have opioid receptors that are comparable to human receptors (14). Also, other molecular targets of diclofenac that contribute to its pain relief behavior, these includes: blockage voltage-dependent sodium channel and acid-sensing ion channel, in addition to the main pharmacological action of NSAIDs ' analgesic are the consequence of their capacity to inhibit cyclooxygenase (COX) enzymes that catalyze the transformation of arachidonic acid into prostaglandins, which cause pain, increase temperature, and inflammation (15). All of these mechanisms may have a role in diclofenac pain relief.
Silymarin is a polyphenolic antioxidant flavonoid isolated from milk thistle fruits and seeds, Silybum marianum , Clinical acute toxicity studies showed that silymarin usually had exceptionally low toxicity and no side effects in certain dosage range on animals and humans (16). Malekinejad noticed that opioid receptors can mediate the antinociceptive effect of silymarin, also the antioxidant capacity of silymarin potentiates its antinociceptive properties (17). Another researcher pointed out silymarin's antinociceptive impact due to prostaglandin E2 inhibition (pain inducers), as well as silymarin has analgesic impacts through the histaminergic pattern (18).
The formalin test is used as an inflammatory tonic pain model. Pain has an inflammatory component. In our research, diclofenac has demonstrated important analgesic and anti-inflammatory effects in chicks, alone or in combination with silymarin (using the formalin test). Sensory fibers respond to physicochemical stimuli that produce mediators with both the source of tissues damage as well as inflammation, and these inflammatory mediators trigger or stimulate afferent nerves, transmitting neural impulses to the spinal cord via peripheral nerves and cranial nerves to cranial nerve ganglia (19). Inflammation, causally related to the release of pro-inflammatory cytokines such as interleukin-1β (IL-1β), interleukin-6 (IL-6), tumor necrosis factor-alpha (TNF-α), and cyclooxygenase-2 (COX-2) has been shown (20).
Prostaglandins are one of the most significant inflammatory pain mediators; COX enzymes induce prostaglandin during inflammation, prostaglandin E2 besides other cyclooxygenase products work synergistically with all other mediators to induce inflammatory nociception: while it has indirect pain-producing action, PGE2 sensitizes receptors in the endings of afferent nerve to bradykinin and histamine activities ,cyclooxygenase occurs in most body tissues and can be regulated with a multitude of stimuli (21). The main impact of NSAIDs is to inhibit cyclooxygenase, thus interfering with the ultimate conversion of arachidonic acid into prostaglandins, prostacyclin, and thromboxanes (16).
The formation of inflammatory mediators is inhibited by silymarin, In particular, prostaglandins and leukotrienes (inhibiting 5-lipoxygenase pathway) and histamine release from basophils (22). Also, silymarin suppressed TNF-α, blocked the IL-1β and cyclooxygenase-2 mRNA expression (23).Silymarin inhibited leukocyte accumulation in the carrageenan-induced paw edema model in rats then considerably decreased the number of neutrophils migrated to the inflamed site (24). Our results are an agreement with other studies; silymarin inhibits the formalin- induced nociceptive behavior in mice and rats (25).
Conclusion
In conclusion, it is a great value in the treatment of pain when two types of agents are combined at doses lower than therapeutic doses. As mentioned in the introduction to the study that diclofenac has multiple side effects, especially in chronic use, and for this reason, it is very useful to reduce the dose of diclofenac to decrease these side effects.
Acknowledgement
The authors share their appreciation for the limitless cooperation of the University of Mosul, College of Veterinary Medicine.
Conflict of interest
The authors state no competing interests.