Editorial on sartans and skeletal muscle regeneration: rethinking fibrosis as a modifiable target in traumatic injury

Filippo Migliorini; Raju Vaishya

doi:10.1007/s00590-025-04446-7

Editorial on sartans and skeletal muscle regeneration: rethinking fibrosis as a modifiable target in traumatic injury

Filippo Migliorini
, Raju Vaishya

Krankenhaus Bozen

Publikation: Beitrag in Fachzeitschrift › Editorial › Begutachtung

1 Quellenangabe (Web of Science)

Abstract

Traumatic muscle injuries are common yet often lead to incomplete recovery, despite the high regenerative potential of skeletal muscle. A major obstacle is fibrosis, which replaces functional tissue with disorganised extracellular matrix, impairing contractility and healing. Central to this maladaptive response is the TGF-beta 1 pathway, a conserved fibrogenic signal also implicated in cardiac, hepatic, and renal fibrosis. This has prompted interest in repurposing antifibrotic agents, particularly angiotensin II receptor blockers (ARBs), or sartans. These drugs, widely used for hypertension, inhibit TGF-beta 1 activation via AT1R antagonism. Preclinical studies in murine models have shown that sartans reduce collagen deposition, promote muscle regeneration, and improve functional outcomes after injury. Some also activate additional regenerative pathways, such as PPAR-gamma. Although no clinical trials have evaluated ARBs for muscle injuries, preliminary data from orthopaedic settings suggest potential benefits. Given their safety, availability, and biological plausibility, sartans represent a promising avenue for therapeutic modulation of fibrosis in muscle trauma. Future research should clarify optimal timing, dosing, and patient selection to translate these findings into clinical practice.

Originalsprache	Englisch
Aufsatznummer	306
Seiten (von - bis)	306
Seitenumfang	3
Fachzeitschrift	EUROPEAN JOURNAL OF ORTHOPAEDIC SURGERY AND TRAUMATOLOGY
Jahrgang	35
Ausgabenummer	1
DOIs	https://doi.org/10.1007/s00590-025-04446-7
Publikationsstatus	Veröffentlicht - 15 Juli 2025

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10.1007/s00590-025-04446-7

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title = "Editorial on sartans and skeletal muscle regeneration: rethinking fibrosis as a modifiable target in traumatic injury",

abstract = "Traumatic muscle injuries are common yet often lead to incomplete recovery, despite the high regenerative potential of skeletal muscle. A major obstacle is fibrosis, which replaces functional tissue with disorganised extracellular matrix, impairing contractility and healing. Central to this maladaptive response is the TGF-beta 1 pathway, a conserved fibrogenic signal also implicated in cardiac, hepatic, and renal fibrosis. This has prompted interest in repurposing antifibrotic agents, particularly angiotensin II receptor blockers (ARBs), or sartans. These drugs, widely used for hypertension, inhibit TGF-beta 1 activation via AT1R antagonism. Preclinical studies in murine models have shown that sartans reduce collagen deposition, promote muscle regeneration, and improve functional outcomes after injury. Some also activate additional regenerative pathways, such as PPAR-gamma. Although no clinical trials have evaluated ARBs for muscle injuries, preliminary data from orthopaedic settings suggest potential benefits. Given their safety, availability, and biological plausibility, sartans represent a promising avenue for therapeutic modulation of fibrosis in muscle trauma. Future research should clarify optimal timing, dosing, and patient selection to translate these findings into clinical practice.",

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author = "Filippo Migliorini and Raju Vaishya",

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AU - Vaishya, Raju

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N2 - Traumatic muscle injuries are common yet often lead to incomplete recovery, despite the high regenerative potential of skeletal muscle. A major obstacle is fibrosis, which replaces functional tissue with disorganised extracellular matrix, impairing contractility and healing. Central to this maladaptive response is the TGF-beta 1 pathway, a conserved fibrogenic signal also implicated in cardiac, hepatic, and renal fibrosis. This has prompted interest in repurposing antifibrotic agents, particularly angiotensin II receptor blockers (ARBs), or sartans. These drugs, widely used for hypertension, inhibit TGF-beta 1 activation via AT1R antagonism. Preclinical studies in murine models have shown that sartans reduce collagen deposition, promote muscle regeneration, and improve functional outcomes after injury. Some also activate additional regenerative pathways, such as PPAR-gamma. Although no clinical trials have evaluated ARBs for muscle injuries, preliminary data from orthopaedic settings suggest potential benefits. Given their safety, availability, and biological plausibility, sartans represent a promising avenue for therapeutic modulation of fibrosis in muscle trauma. Future research should clarify optimal timing, dosing, and patient selection to translate these findings into clinical practice.

AB - Traumatic muscle injuries are common yet often lead to incomplete recovery, despite the high regenerative potential of skeletal muscle. A major obstacle is fibrosis, which replaces functional tissue with disorganised extracellular matrix, impairing contractility and healing. Central to this maladaptive response is the TGF-beta 1 pathway, a conserved fibrogenic signal also implicated in cardiac, hepatic, and renal fibrosis. This has prompted interest in repurposing antifibrotic agents, particularly angiotensin II receptor blockers (ARBs), or sartans. These drugs, widely used for hypertension, inhibit TGF-beta 1 activation via AT1R antagonism. Preclinical studies in murine models have shown that sartans reduce collagen deposition, promote muscle regeneration, and improve functional outcomes after injury. Some also activate additional regenerative pathways, such as PPAR-gamma. Although no clinical trials have evaluated ARBs for muscle injuries, preliminary data from orthopaedic settings suggest potential benefits. Given their safety, availability, and biological plausibility, sartans represent a promising avenue for therapeutic modulation of fibrosis in muscle trauma. Future research should clarify optimal timing, dosing, and patient selection to translate these findings into clinical practice.

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KW - Angiotensin II Type 1 Receptor Blockers/therapeutic use

KW - Transforming Growth Factor beta1/antagonists & inhibitors

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KW - Translational medicine

KW - Traumatic muscle injury

KW - Fibrosis

KW - Antifibrotic therapy

KW - Muscle repair

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Editorial on sartans and skeletal muscle regeneration: rethinking fibrosis as a modifiable target in traumatic injury

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