Pulsed electromagnetic fields improve the healing process of Achilles tendinopathy A PILOT STUDY IN A RAT MODEL

Pulsed electromagnetic fields improve the healing process of Achilles tendinopathy A PILOT STUDY IN A RAT MODEL

Aims In the context of tendon degenerative disorders, the need for innovative conservative treatments that can improve the intrinsic healing potential of tendon tissue is progressively increasing. In this study, the role of pulsed electromagnetic fields (PEMFs) in improving the tendon healing proces...

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Veröffentlicht in:Bone & joint research 2020-09, Vol.9 (9), p.613-622
Hauptverfasser: Orfei, C. Perucca, Lovati, A. B., Lugano, G., Vigano, M., Bottagisio, M., D'Arrigo, D., Sansone, Setti, S., de Girolamo, L.
Format: Artikel
Sprache:eng
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achilles tendinopathy
Cell & Tissue Engineering
Cell Biology
Cell density
Collagen
Collagen (type I)
Collagenase
Cytology
Electromagnetic fields
Electromagnetism
Foot & Ankle
Injection
Life Sciences & Biomedicine
Orthopedics
pulsed electromagnetic field
Science & Technology
tendon
Tendons
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container_end_page 622
container_issue 9
container_start_page 613
container_title Bone & joint research
container_volume 9
creator Orfei, C. Perucca
Lovati, A. B.
Lugano, G.
Vigano, M.
Bottagisio, M.
D'Arrigo, D.
Sansone
Setti, S.
de Girolamo, L.
description Aims In the context of tendon degenerative disorders, the need for innovative conservative treatments that can improve the intrinsic healing potential of tendon tissue is progressively increasing. In this study, the role of pulsed electromagnetic fields (PEMFs) in improving the tendon healing process was evaluated in a rat model of collagenase-induced Achilles tendinopathy. Methods A total of 68 Sprague Dawley rats received a single injection of type 1 collagenase in Achilles tendons to induce the tendinopathy and then were daily exposed to PEMFs (1.5 mT and 75 Hz) for up to 14 days - starting 1, 7, or 15 days after the injection - to identify the best treatment option with respect to the phase of the disease. Then, 7 and 14 days of PEMF exposure were compared to identify the most effective protocol. Results The daily exposure to PEMFs generally provided an improvement in the fibre organization, a decrease in cell density, vascularity, and fat deposition, and a restoration of the physiological cell morphology compared to untreated tendons. These improvements were more evident when the tendons were exposed to PEMFs during the mid-acute phase of the pathology (7 days after induction) rather than during the early (1 day after induction) or the late acute phase (15 days after induction). Moreover, the exposure to PEMFs for 14 days during the mid-acute phase was more effective than for 7 days. Conclusion PEMFs exerted a positive role in the tendon healing process, thus representing a promising conservative treatment for tendinopathy, although further investigations regarding the clinical evaluation are needed.
doi_str_mv 10.1302/2046-3758.99.BJR-2020-0113.R1
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Perucca ; Lovati, A. B. ; Lugano, G. ; Vigano, M. ; Bottagisio, M. ; D'Arrigo, D. ; Sansone ; Setti, S. ; de Girolamo, L.</creator><creatorcontrib>Orfei, C. Perucca ; Lovati, A. B. ; Lugano, G. ; Vigano, M. ; Bottagisio, M. ; D'Arrigo, D. ; Sansone ; Setti, S. ; de Girolamo, L.</creatorcontrib><description>Aims In the context of tendon degenerative disorders, the need for innovative conservative treatments that can improve the intrinsic healing potential of tendon tissue is progressively increasing. In this study, the role of pulsed electromagnetic fields (PEMFs) in improving the tendon healing process was evaluated in a rat model of collagenase-induced Achilles tendinopathy. Methods A total of 68 Sprague Dawley rats received a single injection of type 1 collagenase in Achilles tendons to induce the tendinopathy and then were daily exposed to PEMFs (1.5 mT and 75 Hz) for up to 14 days - starting 1, 7, or 15 days after the injection - to identify the best treatment option with respect to the phase of the disease. Then, 7 and 14 days of PEMF exposure were compared to identify the most effective protocol. Results The daily exposure to PEMFs generally provided an improvement in the fibre organization, a decrease in cell density, vascularity, and fat deposition, and a restoration of the physiological cell morphology compared to untreated tendons. These improvements were more evident when the tendons were exposed to PEMFs during the mid-acute phase of the pathology (7 days after induction) rather than during the early (1 day after induction) or the late acute phase (15 days after induction). Moreover, the exposure to PEMFs for 14 days during the mid-acute phase was more effective than for 7 days. 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In this study, the role of pulsed electromagnetic fields (PEMFs) in improving the tendon healing process was evaluated in a rat model of collagenase-induced Achilles tendinopathy. Methods A total of 68 Sprague Dawley rats received a single injection of type 1 collagenase in Achilles tendons to induce the tendinopathy and then were daily exposed to PEMFs (1.5 mT and 75 Hz) for up to 14 days - starting 1, 7, or 15 days after the injection - to identify the best treatment option with respect to the phase of the disease. Then, 7 and 14 days of PEMF exposure were compared to identify the most effective protocol. Results The daily exposure to PEMFs generally provided an improvement in the fibre organization, a decrease in cell density, vascularity, and fat deposition, and a restoration of the physiological cell morphology compared to untreated tendons. These improvements were more evident when the tendons were exposed to PEMFs during the mid-acute phase of the pathology (7 days after induction) rather than during the early (1 day after induction) or the late acute phase (15 days after induction). Moreover, the exposure to PEMFs for 14 days during the mid-acute phase was more effective than for 7 days. 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Perucca</creatorcontrib><creatorcontrib>Lovati, A. 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Perucca</au><au>Lovati, A. B.</au><au>Lugano, G.</au><au>Vigano, M.</au><au>Bottagisio, M.</au><au>D'Arrigo, D.</au><au>Sansone</au><au>Setti, S.</au><au>de Girolamo, L.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Pulsed electromagnetic fields improve the healing process of Achilles tendinopathy A PILOT STUDY IN A RAT MODEL</atitle><jtitle>Bone &amp; joint research</jtitle><stitle>BONE JOINT RES</stitle><addtitle>Bone Joint Res</addtitle><date>2020-09-01</date><risdate>2020</risdate><volume>9</volume><issue>9</issue><spage>613</spage><epage>622</epage><pages>613-622</pages><issn>2046-3758</issn><eissn>2046-3758</eissn><abstract>Aims In the context of tendon degenerative disorders, the need for innovative conservative treatments that can improve the intrinsic healing potential of tendon tissue is progressively increasing. In this study, the role of pulsed electromagnetic fields (PEMFs) in improving the tendon healing process was evaluated in a rat model of collagenase-induced Achilles tendinopathy. Methods A total of 68 Sprague Dawley rats received a single injection of type 1 collagenase in Achilles tendons to induce the tendinopathy and then were daily exposed to PEMFs (1.5 mT and 75 Hz) for up to 14 days - starting 1, 7, or 15 days after the injection - to identify the best treatment option with respect to the phase of the disease. Then, 7 and 14 days of PEMF exposure were compared to identify the most effective protocol. Results The daily exposure to PEMFs generally provided an improvement in the fibre organization, a decrease in cell density, vascularity, and fat deposition, and a restoration of the physiological cell morphology compared to untreated tendons. These improvements were more evident when the tendons were exposed to PEMFs during the mid-acute phase of the pathology (7 days after induction) rather than during the early (1 day after induction) or the late acute phase (15 days after induction). Moreover, the exposure to PEMFs for 14 days during the mid-acute phase was more effective than for 7 days. 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subjects achilles tendinopathy
Cell & Tissue Engineering
Cell Biology
Cell density
Collagen
Collagen (type I)
Collagenase
Cytology
Electromagnetic fields
Electromagnetism
Foot & Ankle
Injection
Life Sciences & Biomedicine
Orthopedics
pulsed electromagnetic field
Science & Technology
tendon
Tendons
title Pulsed electromagnetic fields improve the healing process of Achilles tendinopathy A PILOT STUDY IN A RAT MODEL
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