Viral and retroviral myositis

Simona Treidler MD (

Dr. Treidler of Maimonides Medical Center has no relevant financial relationships to disclose.

Emma Ciafaloni MD, editor. (

Dr. Ciafaloni of the University of Rochester received personal compensation for serving on advisory boards and/or as a consultant for Avexis, Biogen, Pfizer, PTC Therapeutics, Sarepta, Ra pharma, Wave, and Strongbridge Biopharma; and for serving on a speaker’s bureau for Biogen. Dr Ciafaloni also received research and/or grant support from Orphazyme, PTC Therapeutics, Santhera, and Sarepta.

Originally released February 10, 1995; last updated November 16, 2020; expires November 16, 2023


Myositis is one of the complications of viral infections. Viral myositis is an illness characterized by muscle weakness and pain associated with elevated muscle enzyme levels and laboratory evidence of viral infection, ideally supported by detection of viral presence in the muscle. Both viruses and retroviruses are well-known pathogens that can be associated with an inflammatory myopathy. Viral myositis results from direct infection of muscle or the ensuing inflammatory response. The treatment of viral myositis overlaps with the treatment of the initial infection. Certain infectious agents have been associated with “idiopathic” chronic inflammatory myopathies and might shed light on pathogenesis and offer practical treatment strategies. This became especially important in the 1990s when HIV and other retroviruses as well as hepatitis C virus were investigated for their role in polymyositis and inclusion body myositis. In this article, the author discusses the clinical manifestations, pathogenesis, and diagnoses of viral and retroviral myositis.

Key points


• Viral myositis manifests with myalgia, weakness, and, rarely, rhabdomyolysis.


• Although virtually any virus can cause an acute myositis, influenza virus and enterovirus are the most common in North America and Northern Europe.


• Acute and subacute viral myositis is mostly benign and self-limited.


• Chronic viral myositis is associated with retroviruses and hepatitis viruses.


• Basic evaluation of viral myositis is warranted in all patients, but further studies for underlying hereditary myopathies is indicated in certain cases.


• Myositis and rhabdomyolysis have been described in association COVID-19 infection.

Historical note and terminology

The topic of viral and retroviral contributions to inflammatory myopathy in humans has important clinical and theoretical implications.

The first recognition of a connection between viruses and human muscle disease occurred with coxsackieviruses in 1934 with the epidemic pleurodynia, an ill-defined, self-limited, acute febrile illness with painful thoracic and abdominal muscles (Sylvest 1934).

Viral myositis. The word myalgia comes from the Greek mys (“muscle”) and algos (“pain”). One of the first physicians to describe myalgia specifically as muscle pain distinct from neuralgia was Dr. Thomas Inman in a book written in 1860 titled On Myalgia. Descriptions of myalgia in journal articles first began to appear in the early 20th century, and again the focus was on muscle-specific pain and differentiation from other causes of pain (Keith 1908).

The word virus originates from Latin meaning “poison.” Diseases caused by viruses (such as poliomyelitis and smallpox) have been recognized since ancient Egypt, yet the discovery and definition of viruses did not occur until the latter half of the 19th century. As early as 1840, German anatomist Jacob Henle of Gottingen posited the existence of agents too small to be seen by the light microscope but able to cause disease. Multiple simultaneous discoveries by Chamberland and Pasteur, Iwanowski, and Beijerinck and Mayer led to the knowledge that living agents smaller than all known bacteria and capable of causing disease in both plants and animals could be transmitted through bacteria-free filtrates (Fields et al 2007; Collier et al 2011).

Myositis comes from the Greek myo (“muscle”) and itis (“inflammation”). The first description of what was most likely a viral myositis was by Dabney in 1888. He described an epidemic in Charlottesville, Virginia, which he likened to dengue and was characterized by acute severe pleuritic chest pain, also called epidemic pleurodynia, and nicknamed “Devil's Grip” in the setting of fever and systemic symptoms. In the summer of 1923, an epidemic of likely viral myositis consisted of an acute febrile disease and severe, transient epigastric pain, thought to be diaphragmatic spasm at the Presbyterian Hospital in New York (Annonymous 1924). In the 1930s, Dr. Ejnar Sylvest of Denmark described “myositis acute epidemica” and posited that there was an infiltration of the muscles and noted the increased frequency in the summer and autumn months (Sylvest 1934). Dr. Thomas Pickles called a similar phenomenon Bornholm disease (named after an island in the Baltic where many cases were seen) and “epidemic myalgia” and even Sylvest disease, whereas others described it as “epidemic pleurodynia.” The localization to the muscle (in particular the diaphragm) was hypothesized given the absence of pleuritic rub or pulmonary findings.

An association between epidemic pleurodynia and a causative viral agent was first found in the late 1940s, and in 1950 the isolation of coxsackievirus from throat washings from prior epidemics as the causative agent (Weller et al 1950). This observation was expanded over the ensuing years to patients with inflammatory myopathies who had serological evidence of high viral antibody titers (Tang et al 1975; Travers et al 1977; Christensen et al 1986). The saga re-emerged when antibodies to the Jo-1 antigen, a histidyl-transfer RNA synthetase (Targoff 1990), were found in up to 10% of patients with myositis (Dalakas 1989). Jo-1 antigen shares structural homology with the genomic RNA of an animal picornavirus, the encephalomyocarditis virus, which suggested a possible molecular mimicry phenomenon. Strengthening the association of viral infection and inflammatory myopathy, enteroviral RNA was found in some cases by in situ hybridization in muscle fibers of some myositis patients (Rosenberg et al 1989; Youse et al 1990), but this could not be verified.

Influenza-associated myositis was first described in 1950s as “myalgia cruris epidemica,” proven to be confirmed with polymerase chain reaction studies (Leff et al 1992; Leon-Monzon and Dalakas 1992). The idea of enterovirus replication within the myocytes of chronic inflammatory myopathies fell from favor as studies began focusing on HIV, other retroviruses, and hepatitis C in 1970.

Retroviral myositis. The first report of a retrovirus associated with inflammatory myopathy came in the 1980s with monkeys infected with simian immunodeficiency virus (Dalakas 1986; Dalakas et al 1986a), followed closely by human cases associated with HIV (Dalakas 1986; Dalakas et al 1986b) and later HTLV-I (Morgan et al 1989).

Other viruses. Hepatitis C virus-associated polymyositis or myositis was first reported in 1994 (Matsuya et al 1994), with numerous subsequent reports (Horsmans and Geubel 1995; Ueno et al 1995; Weidensaul et al 1995; Saperstein et al 1999) including two cases in which hepatitis C virus RNA was detected in muscle biopsies using polymerase chain reaction (Sola et al 1999; Villanova et al 2000). There were next several case reports of inclusion body myositis co-occurring with hepatitis C virus infection (Alexander and Huebner 1996; Saperstein et al 1999; Yakushiji et al 2004), and in one case reverse transcriptase polymerase chain reaction revealed hepatitis C virus RNA in muscle samples (Yakushiji et al 2004). This led to a Muscle Study Group investigation into interferon beta as a treatment for seronegative inclusion body myositis patients. Unfortunately, this was not found to be effective in two randomized controlled trials (Muscle Study Group 2001; Muscle Study Group 2004; Yakushiji et al 2004).

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