Method Article

Versatility of Protocols for Resistance Training and Assessment Using Static and Dynamic Ladders in Animal Models

DOI:

10.3791/63098

December 17th, 2021

In This Article

Summary

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The present protocol describes resistance training and testing using static and dynamic ladders in animal models.

Abstract

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Resistance training is a physical exercise model with profound benefits for health throughout life. The use of resistance exercise animal models is a way to gain insight into the underlying molecular mechanisms that orchestrate these adaptations. The aim of this article is to describe exercise models and training protocols designed for strength training and evaluation of resistance in animal models and provide examples. In this article, strength training and resistance evaluation are based on ladder climbing activity, using static and dynamic ladders. These devices allow a variety of training models as well as provide precise control of the main variables which determine resistance exercise: volume, load, velocity, and frequency. Furthermore, unlike resistance exercise in humans, this is a forced exercise. Thus, aversive stimuli must be avoided in this intervention to preserve animal welfare. Prior to implementation, a detailed design is necessary, along with an acclimatization and learning period. Acclimatization to training devices, such as ladders, weights, and clinical tape, as well as to the manipulations required, is necessary to avoid exercise rejection and to minimize stress. At the same time, the animals are taught to climb up the ladder, not down, to the resting area on the top of the ladder. Resistance evaluation can characterize physical strength and permit adjusting and quantifying the training load and the response to training. Furthermore, different types of strength can be evaluated. Regarding training programs, with appropriate design and device use, they can be sufficiently versatile to modulate different types of strength. Furthermore, they should be flexible enough to be modified depending on the adaptive and behavioral response of the animals or the presence of injuries. In conclusion, resistance training and assessment using ladders and weights are versatile methods in animal research.

Introduction

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Physical exercise is a determinant lifestyle factor for promoting health and decreasing the incidence of the most prevalent chronic diseases as well as some types of cancer in humans1.

Resistance exercise has raised interest because of its overwhelming relevance for health throughout life2, especially due to its benefits in counteracting age-related diseases that affect the locomotor system, such as sarcopenia, osteoporosis, etc3. Moreover, resistance exercise also affects tissues and organs not directly involved in the execution of movement, such as the brain

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Protocol

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The methods presented in this protocol have been evaluated and approved by the animal research technical committee (reference PROAE 04/2018, Principado de Asturias, Spain).

1. Planning

  1. Carefully select animals for the study based on the characteristics of interest (genetically modified, pathology models, age, etc.) and apply specific adaptations to the protocol (climbing without weights, reducing the number of rungs to climb, and inclination).
  2. Identify the strength modality to be assessed or trained: maximal strength, endurance-resistance, speed, etc. depending on the objectives of the study.

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Results

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Results with static ladder
The progressive resistance training protocol used and described by Codina-Martinez et al.4 (Table 4) was tested in a preliminary study consisting of 7 weeks of training on a static ladder with 6-months-old wild-type C57BL6J mice (n = 4). In this preliminary study, incremental tests to assess maximal strength were performed before and after the training period. We observed a 46.4% increase in maximal strength, meaning that at the end .......

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Discussion

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Training is an intervention with multiple applications in research, apart from the study of exercise itself. Thus, the analysis of its effect on ageing20 or certain pathological conditions and physical therapy21 has received much attention in recent years. In addition, numerous authors have analyzed the effect of pharmacological22 or dietary21 interventions on physical fitness. In this context, interest has.......

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Disclosures

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The corresponding author ensures that all authors have no conflicts of interest.

Acknowledgements

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This work was supported in part by the Ministerio de Economía y Competitividad, Spain (DEP2012-39262 to EI-G and DEP2015-69980-P to BF-G). Thanks to Frank Mcleod Henderson Higgins from McLeod´s English Centre in Asturias, Spain, for language assistance.

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Materials

List of materials used in this article
NameCompanyCatalog NumberComments
Dynamic ladderin-house production
Elastic adhesive bandage 6 cm x 2.5 mBSN medical4005556
Gator Clip Steel NON-INSUL 10ADigikey electronicsBC60ANP
Static ladderin-house production
Weightsin-house production
Wire for holding weigthsin-house production

References

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  1. Pedersen, B. K., Saltin, B. Exercise as medicine - evidence for prescribing exercise as therapy in 26 different chronic diseases. Scandinavian Journal of Medicine & Science in Sports. 25, Suppl 3 1-72 (2015).
  2. Westcott, W. L.

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Tags

Resistance TrainingAnimal ModelsLadder ClimbingStrength AssessmentStatic LadderDynamic LadderAcclimatization ProtocolMaximal Strength TestEndurance ResistanceTraining Load

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