Here, we present a protocol to evaluate nociception in mice infected with Trypanosoma evansi, using the electronic von Frey apparatus as a tool, measuring mechanical thresholds of the hind paw and viscera.
Infectious disease pathogenesis is still a complex field to study. The course of several clinical signs, such as allodynia and pain, may be observed in domestic animals. However, the knowledge of their pathways and correct treatment need controlled experiments, many of them using laboratory animals. Measuring changes in mechanical thresholds of the hind paw and viscera is a useful technique to observe changes in pain perception in rodents. Withdrawal response can be measured first in baseline tests, which creates better control of experimental groups. Subsequent tests can be performed after inducing infection and adding drugs to the protocol. The use of an electronic von Frey apparatus associated with the use of a facial scale to observe pain-like changes allows a simple, precise, and consistent assessment to evaluate allodynia and pain in mice. Thus, experiments using the present methodology for Trypanosoma evansi infection represent a useful method to evaluate allodynia and pain in laboratory-infected animals, which can be applied to the conventional treatment for livestock animals.
Trypanosoma evansi is the etiological agent of the disease called "surra" or "mal-das-cadeiras" in South America1,2. It commonly affects equines and cattle, but also wild fauna, being transmitted by hematophagous bats, tabanids, and stomoxes fly bites1,3. Surra is a major disease in domestic animals, which can be fatal in the absence of the correct treatment, exhibiting nonspecific clinical signs such as anemia, loss of appetite and weight, muscle weakness, and abortion, which may vary according to the host and geographic region2,4,5,6.
The expression of allodynia and pain in infected animals during the course of the disease is still a new topic2,7. The urge to understand the pathogenesis behind these signs is an important step to improve and refine the currently used treatment by adding effective analgesic drugs to the classic trypanocidal protocol5,6. In this scenario, the possibility of replicating the disease using a murine model represents an advantage, as mice can be easily kept under controlled environments in the laboratory and therefore, yield results that are more consistent than field experiments using livestock.
A mechanical threshold is commonly obtained using an electronic von Frey (EvF) apparatus for the evaluation of allodynia in a vast number of experiments2,8,9. This device is used to assess tissue sensitivity to mechanical stimulation: once the apparatus touches the paw of the animal, through a 20-200 µL tip attached to the device, the force with which the animal withdraws the paw is recorded.
Rodents are usually used as standard animals in these experiments, and most results are extrapolated to other species, as most researched diseases come from other species in which it would be difficult to conduct a controlled study. Furthermore, allodynia and pain are intimately related. The use of a specific facial scale to evaluate pain in infected mice plays an important role as a confirming adjuvant to affirm the presence of pain during the course of T. evansi infection2,10.
In this protocol, we demonstrate a novel model to evaluate allodynia and pain in mice experimentally infected with T. evansi, showing a high correlation between variables, thus proving to be a strong model. Furthermore, it requires a small number of researchers to carry out the entire procedure, decreasing the chance of human interference during the experiment. It also enables the investigator to replicate the target disease during an acute course and add several different treatment drugs in the experimental design, thereby obtaining consistent results in a short period.
All experiments were performed using 10-week-old adult female Swiss mice (35-55 g). Animals were housed in polysulfone cages (3-5 animals per cage) in a room with controlled temperature (21 ± 1 °C), 12 h light/12 h dark cycle, and standard lab chow and water ad libitum. Ten animals were assigned to each group in every test to demonstrate the consistent effects of drug treatments. The experimental design was submitted and approved by the Ethics Committee of Santa Catarina State University (CEUA) (protocol number: 6019201123). All animal experiments complied with the ARRIVE guidelines (Animal Research: Reporting of in vivo Experiments) and were carried out in accordance with the National Research Council Guide for the Care and Use of Laboratory Animals.
1. Trypanosoma evansi preparation and inoculation
CAUTION: Wear a disposable lab coat, gloves, mask, and eye protection when handling infected blood samples, reagents, and other chemical compounds.
2. Electronic von Frey apparatus setup and operation
NOTE: Be careful about how the obtained data are recorded. Some EvF equipment has specific programs to transfer the obtained data from the apparatus to other electronic devices, such as computers, tablets, or smartphones.
3. General considerations for mechanical threshold assessments
4. Baseline mechanical threshold assessment and mouse response to stimuli
5. Experimental right hind paw and visceral allodynia mechanical threshold assessment
6. Mouse grimace scale assessment
Decrease in the mechanical threshold due to T. evansi infection as evaluated by electronic von Frey apparatus on both right hind paw and visceral tissues
The experiment was conducted over 5 days, according to previous data related to the available T. evansi sample2. Infected mice started to show a significant difference in mechanical threshold on the right hind paw at day 3 post infection and remained significantly lower than the control group during the next 2 days post infection (Figure 1A) compared to uninfected mice. Similar results for abdominal tactile sensitivity showed visceral allodynia in infected mice starting at day 3 post infection and remaining significantly lower than the control group during the next 2 days post infection (Figure 1B).
Figure 1: Allodynia evaluation of mice experimentally infected by Trypanosoma evansi. (A) Right hind paw allodynia and (B) visceral allodynia. Data expressed as the mean ± SD of ten animals for each experimental group. Statistical analysis: Student's t-test, one unpaired analysis per time point. Asterisks show significant differences between experimental groups considering the same analyzed time point (p < 0.05). Please click here to view a larger version of this figure.
Induction of mouse pain-related facial features by T. evansi infection and numerical interpretation by Mouse Grimace Scale pain assessment
Infected mice started to manifest significant signs of pain-related facial features on day 3 post infection, showing a mean score of 0.4 [0-1] at the referred time point. The same tendency was observed during the experiment, in which the infected group showed significant differences when compared to the control group, presenting mean scores of 0.6 [0-1] and 1.3 [0-2] for days 4 and 5 post infection, respectively. The control group did not score on the Mouse Grimace Scale, as expected. The statistical analysis was performed using Student's t-test, one unpaired analysis per time point, considering as significant a value of p < 0.05. Furthermore, the Pearson correlation coefficient (r) identified interaction patterns between the Mouse Grimace Scale pain assessment and right hind paw allodynia or between the same scale and visceral allodynia, which values were -96.35% and -84.08%, respectively. In addition, the coefficients of determination (R2) for the Mouse Grimace Scale pain assessment and right hind paw allodynia or visceral allodynia were 0.9283 and 0.7070, respectively.
The present study agrees with previous data, which confirmed the presence of inflammation and pain through the course of T. evansi infection2,3,7,12. Moreover, the described method provides an accurate methodology to identify and measure allodynia and pain in mice. Furthermore, the use of Mouse Grimace Scale pain assessment in infected mice indicated a very high negative r (90 to 100%) when compared to the results expressed by the right hind paw allodynia evaluation and high negative r (70 to 89%) for visceral allodynia evaluation of the respective animals13. Similarly, the use of Mouse Grimace Scale pain assessment in infected mice indicated a very strong R2 (0.90 to 1.00) when compared to the results expressed by the right hind paw allodynia evaluation and strong R2 (0.70 to 0.89) for visceral allodynia evaluation of the same animals14.
A critical step in experiments involving infected animals is the control of parasitemia levels. Different strains of T. evansi may behave in divergent ways in mice, leading from acute to chronic infections2,4,5,6. Furthermore, changes in the infection dose may decrease or extend the survival time of mice. Therefore, obtaining a survival curve prior to the experiments is recommended to determine the correct period of the experiment and prevent frustration with unexpected mouse death events15,16. Additionally, this data may determine humane endpoints for the experiment, if applicable.
In addition, the same isolate must be used to infect all mice in the experiment to respect an equal number of blood passages, as explained in the protocol section. In the same way, cryopreserved or fresh infected blood can be used to infect the mice, as some cryopreserved samples may be inactivated after defrosting in a water bath. However, fresh infected blood may produce faster parasitemia and, therefore, earlier death events17,18.
Modifications in the experiment, such as the addition of trypanocidal or analgesic drugs, are viable. New groups mean more animals and it is important to remember that even control groups for the chosen drugs must be submitted to baseline measurements. In our experience, approximately 20-25% of mice are excluded from the experiment after the second baseline measurement, which is consistent with previous data8. This means that the initial number of animals must be higher than the experimental number of animals, which can be an issue when more groups are evaluated and a consequently higher number of mice is estimated.
Pharmacokinetics and pharmacodynamics must be taken into consideration for this model. Some drugs take extended periods to exert their pharmacological action, which may impact the experimental design of a model where mice usually die in an average of 4 to 5 days2,6. In addition, if animals are fasting for the chosen treatment, the acclimation period may be an important factor to consider, as it will affect both drug dynamics and experimental schedule and procedure, as reported in the protocol section.
A great improvement in the present method is that a single well-trained researcher may perform the entire EvF reading procedure (both baseline and experimental measurements) while remaining blinded to the infection or treatments. Another investigator must perform the infection at the beginning of the experiment. This is not necessary after the infection procedure, as the EvF apparatus has a specific von Frey Wi-Fi measurement program that allows only one person to fully operate the equipment. Furthermore, this method is faster than the ordinary Filament von Frey equipment and easier to perform8,19.
However, fatigue may be a complication, as the same researcher must perform all animal readings and may develop exhaustion due to the repetitive motion after some time8. Taking into consideration the survival expectation for mice infected by T. evansi, a high number of groups in the experimental design is not encouraged. In our experience, an average of 10 mice at a time (depending on the experimental design) can be measured in less than 30 min. Furthermore, only one target tissue must be chosen for each mouse in every experiment so the animals do not get used to being probed, as explained in the protocol section, which also diminishes the chance of development of fatigue by the investigator.
In addition, both EvF (right hind paw and visceral measurements) and Mouse Grimace Scale assessments need well-trained researchers. Before performing the experiments, the investigator must spend long periods practicing. To correctly evaluate the facial expression changes in mice, the researcher must know not only the expected alterations but also the normal facial expression of an ordinary mouse and its variations of normality and behaviors10,20. Furthermore, to correctly evaluate mice's mechanical threshold using the EvF apparatus, the researcher must repeat several baseline measurements until the mouse response to the probe stimuli is easily recognized and consistency is achieved2,8.
Future applications of the protocol involve the evaluation of allodynia and pain, as well as its treatment, on mice infected by T. evansi. The present model enables scientific investigators to evaluate the pain-related pathogenesis of a disease commonly found in livestock, in mice under a controlled environment in the laboratory.
The authors have nothing to disclose.
The authors give special thanks to the Santa Catarina State University for financial support, to the Pharmacology Laboratory for the animals and space, and to the Hemoparasites and Vectors Biochemistry Laboratory for the cryopreserved blood sample infected with T. evansi used in these experiments.
26 G 1/2" needle coupled to insulin syringe | TKL | 80288090100 | Used to infund solutions on laboratory animals |
Accessories for von Frey analgesimeter | INSIGHT | EFF 303 | Containment box with support for digital analgesimeter assessment |
D-(+)-Glucose | SIGMA-ALDRICH | G7021 | A monosaccharide which is the main source of energy in the form of ATP for living organisms |
Digital analgesimeter | INSIGHT | von Frey Wi-Fi | The von Frey Wi-Fi is a portable device used to assess tissue sensitivity to mechanical stimuli |
Gilson type 10 µL polypropylene tip | CRALPLAST | 18261 | Polypropylene to be used on eletronic von Frey apparatus, recommended for hind paw allodynia assessment |
Laboratory water bath | BEING INSTRUMENT | BW-22P | Used to heat liquid and semi-solid substances contained in appropriate recipients to specific temperature |
Phosphate buffered saline | SIGMA-ALDRICH | 806552 | A balanced salt solution buffer used for a variety of cell culture applications |
Swiss mice (Mus musculus) from both gender | UFSC | Swiss Webster | Laboratory animals used for controlled experiments |
Trypanosoma evansi cryiopreserved sample | UDESC | – | Sample used to infect all mice, ceded by the Hemoparasites and Vectors Biochemistry Laboratory |
Universal type 10 µL polypropylene tip | CRALPLAST | 18171 | Polypropylene to be used on eletronic von Frey apparatus, recommended for visceral allodynia assessment |