Evaluation of infrared thermography, arterial Doppler ultrasound, and Doppler echocardiography in healthy adult dogs exposed to a single session of Whole-body vibration at different frequencies
Öz
This study aimed to evaluate the infrared thermography, arterial Doppler ultrasound, and Doppler echocardiography in healthy adult dogs exposed to a single Whole-body vibration (WBV) at different frequencies. Sixteen (16) healthy crossbreed dogs males of ages from 1 to 5 years, and weighing 16.3 to 24.5 kg were enrolled in the study. The dogs were exposed to a single WBV session at frequencies of 30 Hz (5 min), 40 Hz (5 min), and 50 Hz (5 min) with intervals between each frequency exposure of 10 min. The cutaneous temperature, arterial Doppler ultrasound, and Doppler echocardiography were evaluated 10 min before the WBV session, between each frequency, and 1 min after the last frequency. The cutaneous temperature of the regions of the superficial gluteal muscle and biceps femoris muscle of both hind limbs was obtained with an infrared camera. Resistive indexes of carotid and femoral arteries were determined using Doppler ultrasound, and Doppler echocardiography was used to assess the end-systolic volume and end-diastolic volume, heart rate, aortic blood flow velocity, and pulmonary artery flow velocity. Complete blood count and serum biochemical (alanine aminotransferase, creatinine, and creatine phosphokinase) were evaluated at 10 min before and 60 min after the end of the WBV session. Statistically significant differences were not found in any of the variables among the time points. In conclusion, the protocol of increasing vibration frequencies (30, 40, and 50 Hz) at short-period WBV can be considered appropriate since no change occurred in the parameters evaluated.
Anahtar Kelimeler
exercise mechanical vibration ultrasound vibrating platform.
Destekleyen Kurum
State of São Paulo Research Foundation (FAPESP), and National Council for Scientific and Technological Development (CNPq).
Proje Numarası
FAPESP (grant nº. 2018/11261-3; and 09/18299-7) and CNPq (grant nº. PQ no.301585/2017-2).
Teşekkür
State of São Paulo Research Foundation (FAPESP), and National Council for Scientific and Technological Development (CNPq).
Kaynakça
- Batista MAB, Wallerstein LF, Dias RM, et al (2007): Effects of training with vibratory platforms. Rev Bras Cienc Mov, 15, 103-113.
- Button C, Anderson N, Bradford C, et al (2007): The effect of multidirectional mechanical vibration on peripheral circulation of humans. Clin Physiol Funct Imaging, 27, 211-216.
- Cardinale M, Wakeling J (2005): Whole body vibration exercise: are vibrations good for you? Br J Sports Med, 39, 585-589.
- Cochrane DJ (2011): Vibration exercise: the potential benefits. Int J Sports Med, 32, 75-99.
- Dolny DG, Reyes GF (2008): Whole-body vibration exercise: training and benefits. Curr Sports Med Rep, 7, 152-157.
- Freire LF, Rahal SC, Santos IFC, et al (2015): Renal resistive index of adult healthy dogs submitted to short-term Whole-body vibration exercise. Asian J Anim Vet Adv, 10, 797-802.
- Kaneko JJ, Harvey JW, Bruss ML (2008): Clinical Biochemistry of Domestic Animals. 6th ed. Academic Press, New York.
- Kim HJ, Lee YH, Kim CK (2007): Biomarkers of muscle and cartilage damage and inflammation during a 200 km run. Eur J Appl Physiol, 99, 443-447.
- Miyazaki Y (2000): Adverse effects of whole-body vibration on gastric motility. Kurume Med J, 47, 79-86.
- Nagai LR, Rahal SC, Dadalto C, et al (2020): Acute effects of Whole-body vibration on dopplerfluxometry of the common carotid artery parameters among adult and elderly nonathletes healthy dogs. Acta Sci Vet, 48, e1764.
- Perpetuini D, Formenti D, Cardone D, et al (2021): Regions of interest selection and thermal imaging data analysis in sports and exercise science: a narrative review. Physiol Meas, 42, 1088–1098.
- Rauch F (2009): Vibration therapy. Dev Med Child Neurol, 51, 166-168.
- Rauch F, Sievanen H, Boonen S, et al (2010): Reporting Whole-body vibration intervention studies: recommendations of the International Society of Musculoskeletal and Neuronal Interactions. J Musculoskelet Neuronal Interact, 10, 193-198.
- Rittweger J, Beller G, Felsenberg D (2000): Acute physiological effects of exhaustive Whole-body vibration exercise in man. Clin Physiol, 20, 134-142.
- Rittweger J (2010): Vibration as an exercise modality: how it may work, and what its potential might be. Eur J Appl Physiol, 108, 877-904.
- Santos IFC, Rahal SC, Shimono J, et al (2017): Whole-Body Vibration exercise on hematology and serum biochemistry in healthy dogs. Top Companion Anim Med, 32, 86-90.
- Santos I, Rahal S, Santos A, et al (2019): Whole-body vibration on leg muscles thermography and femoral resistive index of in adult healthy dogs. Res Vet Sci, 122, 118–123.
- Silva BM, Santos IFC, Rahal SC, et al (2020): Effects of Whole-body vibration in hematobiochemical and hemogasometric parameters in adult and elderly healthy dogs. Acta Sci Vet, 48, e.1777.
- Silva BM, Rahal SC, Filippi MG, et al (2022): Short-term effects of Whole-Body Vibration on clinical, cardiac, and ambulatory electrocardiographic (Holter) parameters of healthy younger and older adult male non-athletic crossbreed. Arq Bras Med Vet Zootec, 74, 33-42.
- Sonza A, Robinson CC, Achaval M, et al (2015): Whole-body vibration at different exposure frequencies: infrared thermography and physiological effects. Sci World J, 33, e452657.
- Soroko M, Górniak W, Howell K, et al (2021): Changes in body surface temperature associated with high-speed treadmill exercise in beagle dogs measured by infrared thermography. Animals, 11, e2982.
- Stania M, Juras G, Słomka K, et al (2016): The application of Whole-body vibration in physiotherapy - A narrative review. Physiol Int, 103, 133-145.
- Tannus FCI, Rahal SC, Oba E, et al (2021): Serum cortisol and clinical response to a single session of Whole-body vibration in healthy adult dogs. Front Vet Sci, 8, e563898.
- Thrall MA, Weiser G, Allison RW, et al (2021): Veterinary hematology and clinical chemistry. 2nd ed. Willey Blackwell, Philadelphia.
Öz
Anahtar Kelimeler
exercise mechanical vibration ultrasound vibrating platform.
Proje Numarası
FAPESP (grant nº. 2018/11261-3; and 09/18299-7) and CNPq (grant nº. PQ no.301585/2017-2).
Kaynakça
- Batista MAB, Wallerstein LF, Dias RM, et al (2007): Effects of training with vibratory platforms. Rev Bras Cienc Mov, 15, 103-113.
- Button C, Anderson N, Bradford C, et al (2007): The effect of multidirectional mechanical vibration on peripheral circulation of humans. Clin Physiol Funct Imaging, 27, 211-216.
- Cardinale M, Wakeling J (2005): Whole body vibration exercise: are vibrations good for you? Br J Sports Med, 39, 585-589.
- Cochrane DJ (2011): Vibration exercise: the potential benefits. Int J Sports Med, 32, 75-99.
- Dolny DG, Reyes GF (2008): Whole-body vibration exercise: training and benefits. Curr Sports Med Rep, 7, 152-157.
- Freire LF, Rahal SC, Santos IFC, et al (2015): Renal resistive index of adult healthy dogs submitted to short-term Whole-body vibration exercise. Asian J Anim Vet Adv, 10, 797-802.
- Kaneko JJ, Harvey JW, Bruss ML (2008): Clinical Biochemistry of Domestic Animals. 6th ed. Academic Press, New York.
- Kim HJ, Lee YH, Kim CK (2007): Biomarkers of muscle and cartilage damage and inflammation during a 200 km run. Eur J Appl Physiol, 99, 443-447.
- Miyazaki Y (2000): Adverse effects of whole-body vibration on gastric motility. Kurume Med J, 47, 79-86.
- Nagai LR, Rahal SC, Dadalto C, et al (2020): Acute effects of Whole-body vibration on dopplerfluxometry of the common carotid artery parameters among adult and elderly nonathletes healthy dogs. Acta Sci Vet, 48, e1764.
- Perpetuini D, Formenti D, Cardone D, et al (2021): Regions of interest selection and thermal imaging data analysis in sports and exercise science: a narrative review. Physiol Meas, 42, 1088–1098.
- Rauch F (2009): Vibration therapy. Dev Med Child Neurol, 51, 166-168.
- Rauch F, Sievanen H, Boonen S, et al (2010): Reporting Whole-body vibration intervention studies: recommendations of the International Society of Musculoskeletal and Neuronal Interactions. J Musculoskelet Neuronal Interact, 10, 193-198.
- Rittweger J, Beller G, Felsenberg D (2000): Acute physiological effects of exhaustive Whole-body vibration exercise in man. Clin Physiol, 20, 134-142.
- Rittweger J (2010): Vibration as an exercise modality: how it may work, and what its potential might be. Eur J Appl Physiol, 108, 877-904.
- Santos IFC, Rahal SC, Shimono J, et al (2017): Whole-Body Vibration exercise on hematology and serum biochemistry in healthy dogs. Top Companion Anim Med, 32, 86-90.
- Santos I, Rahal S, Santos A, et al (2019): Whole-body vibration on leg muscles thermography and femoral resistive index of in adult healthy dogs. Res Vet Sci, 122, 118–123.
- Silva BM, Santos IFC, Rahal SC, et al (2020): Effects of Whole-body vibration in hematobiochemical and hemogasometric parameters in adult and elderly healthy dogs. Acta Sci Vet, 48, e.1777.
- Silva BM, Rahal SC, Filippi MG, et al (2022): Short-term effects of Whole-Body Vibration on clinical, cardiac, and ambulatory electrocardiographic (Holter) parameters of healthy younger and older adult male non-athletic crossbreed. Arq Bras Med Vet Zootec, 74, 33-42.
- Sonza A, Robinson CC, Achaval M, et al (2015): Whole-body vibration at different exposure frequencies: infrared thermography and physiological effects. Sci World J, 33, e452657.
- Soroko M, Górniak W, Howell K, et al (2021): Changes in body surface temperature associated with high-speed treadmill exercise in beagle dogs measured by infrared thermography. Animals, 11, e2982.
- Stania M, Juras G, Słomka K, et al (2016): The application of Whole-body vibration in physiotherapy - A narrative review. Physiol Int, 103, 133-145.
- Tannus FCI, Rahal SC, Oba E, et al (2021): Serum cortisol and clinical response to a single session of Whole-body vibration in healthy adult dogs. Front Vet Sci, 8, e563898.
- Thrall MA, Weiser G, Allison RW, et al (2021): Veterinary hematology and clinical chemistry. 2nd ed. Willey Blackwell, Philadelphia.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Veteriner Cerrahi |
| Bölüm | Araştırma Makalesi |
| Yazarlar | |
| Proje Numarası | FAPESP (grant nº. 2018/11261-3; and 09/18299-7) and CNPq (grant nº. PQ no.301585/2017-2). |
| Erken Görünüm Tarihi | 27 Ekim 2023 |
| Yayımlanma Tarihi | |
| Yayımlandığı Sayı | Yıl 2024Accepted Papers |