Telbivudine-Induced Myopathy: Clinical Features, Histopathological Characteristics, and Risk Factors

Background and Purpose Oral nucleos(t)ide analogs (NAs) are the mainstay treatment for chronic hepatitis B (CHB). Myotoxicity is an important extrahepatic effect related to NA treatment. Telbivudine is the NA for CHB that is frequently associated with muscle-related side effects. The risk factors for telbivudine-induced myopathy (TIM) are not yet clear. Methods This study characterized the clinical, magnetic resonance images (MRI), and pathological features of 12 TIM cases. A group of telbivudine-tolerant (TT) patients with CHB who received regular telbivudine treatment during the same period without the occurrence of myopathy was collected. Demographic and clinical factors were compared between the patients with TIM and the TT controls. Factors independently associated with TIM were identified using logistic regression analysis. Results The patients with TIM (males/females: 7/5, mean age: 57 years) developed myopathy after using telbivudine for a median period of 19.5 months. Muscle histopathology revealed abnormal proliferation, subsarcolemmal or sarcoplasmic accumulations, and ultrastructural defects of mitochondria. When compared with TT cases, patients with TIM had a lower estimated glomerular filtration rate and were more frequently positive for hepatitis B e antigen (HBeAg). Conclusions Mitochondrial abnormalities are characteristic histopathological features, and impaired renal function and HBeAg positivity are risk factors for TIM. Telbivudine-induced mitochondrial dysfunction and immune activation related to mitochondrial damage and HBeAg serostatus changes may underlie TIM. Constant clinical surveillance of myopathy during telbivudine treatment is needed due to the significant latency of its development. Dose adjustment for impaired renal function does not eliminate the risk of TIM occurrence.

[1]  K. Fujio,et al.  Basic mechanism of immune system activation by mitochondria , 2020, Immunological medicine.

[2]  V. Popov,et al.  Regulation of Mitochondrial Biogenesis as a Way for Active Longevity: Interaction Between the Nrf2 and PGC-1α Signaling Pathways , 2019, Front. Genet..

[3]  Xiaohua Zhu,et al.  Telbivudine-Induced Myopathy Incidentally Detected by FDG PET/CT Imaging in a Patient With History of Hepatocellular Carcinoma. , 2019, Clinical nuclear medicine.

[4]  S. Keam Telbivudine , 2018, Reactions Weekly.

[5]  Chang-Youh Tsai,et al.  Telbivudine associated mitochondrial myopathy , 2018, Liver international : official journal of the International Association for the Study of the Liver.

[6]  Wenhong Zhang,et al.  Case report: lactic acidosis and rhabdomyolysis during telbivudine and tenofovir treatment for chronic hepatitis B , 2018, BMC Gastroenterology.

[7]  Jin-xin Zheng,et al.  Rhabdomyolysis, lactic acidosis, and multiple organ failure during telbivudine treatment for hepatitis B: a case report and review of the literature , 2017, Journal of Medical Case Reports.

[8]  T. Xing,et al.  HBeAg Seroconversion in HBeAg-Positive Chronic Hepatitis B Patients Receiving Long-Term Nucleos(t)ide Analog Treatment: A Systematic Review and Network Meta-Analysis , 2017, PloS one.

[9]  M. Goebeler,et al.  Potent NLRP3 Inflammasome Activation by the HIV Reverse Transcriptase Inhibitor Abacavir* , 2017, The Journal of Biological Chemistry.

[10]  Changyun Xu,et al.  Muscular damage in a patient with hepatitis B induced by beta-l-2'-deoxythymidine and detected by 18F-FDG PET/CT. , 2017, Hellenic journal of nuclear medicine.

[11]  K. Wong,et al.  Clinicopathological Features of Telbivudine-Associated Myopathy , 2016, PloS one.

[12]  M. Yuen,et al.  DNA polymerase inhibitors for treating hepatitis B: a safety evaluation , 2016, Expert opinion on drug safety.

[13]  Jiming Zhang,et al.  Cumulative incidence and risk factors of creatine kinase elevation associated with telbivudine , 2016, European Journal of Clinical Pharmacology.

[14]  J. Arenas,et al.  A novel RRM2B gene variant associated with Telbivudine-induced mitochondrial myopathy , 2015, Journal of the Neurological Sciences.

[15]  M. Lai,et al.  Significant reduction in end‐stage liver diseases burden through the national viral hepatitis therapy program in Taiwan , 2015, Hepatology.

[16]  H. Lv,et al.  Lamivudine/telbivudine-associated neuromyopathy: neurogenic damage, mitochondrial dysfunction and mitochondrial DNA depletion , 2014, Journal of Clinical Pathology.

[17]  Jaw-Town Lin,et al.  Association of nucleos(t)ide analogue therapy with reduced risk of hepatocellular carcinoma in patients with chronic hepatitis B: a nationwide cohort study. , 2014, Gastroenterology.

[18]  S. Luo,et al.  Lactic acidosis during telbivudine treatment for HBV: a case report and literature review. , 2013, World journal of gastroenterology.

[19]  B. J. Kim,et al.  Dysphagia could be the first presenting symptom of telbivudine‐induced myopathy , 2013, Internal medicine journal.

[20]  Eun Hye Kim,et al.  Two cases of telbivudine-induced myopathy in siblings with chronic hepatitis B , 2013, Clinical and molecular hepatology.

[21]  Jaw-Town Lin,et al.  Association between nucleoside analogues and risk of hepatitis B virus–related hepatocellular carcinoma recurrence following liver resection. , 2012, JAMA.

[22]  H. Hsu,et al.  Minimization of hepatitis B infection by a 25-year universal vaccination program. , 2012, Journal of hepatology.

[23]  J. Jia,et al.  Telbivudine myopathy in a patient with chronic hepatitis B , 2012, International Journal of Clinical Pharmacy.

[24]  Zhi‐hua Liu,et al.  High serum IL-21 levels after 12 weeks of antiviral therapy predict HBeAg seroconversion in chronic hepatitis B. , 2012, Journal of hepatology.

[25]  Jiyuan Zhang,et al.  Immunopathogenesis and prognostic immune markers of chronic hepatitis B virus infection , 2012, Journal of gastroenterology and hepatology.

[26]  X. Zou,et al.  Clinical features and risk factors of creatine kinase elevations and myopathy associated with telbivudine , 2011, Journal of viral hepatitis.

[27]  S. Locarnini,et al.  The hepatitis B e antigen (HBeAg) targets and suppresses activation of the toll-like receptor signaling pathway. , 2011, Journal of hepatology.

[28]  S. Dang,et al.  Rhabdomyolysis in a 48-year-old man with hepatitis B-induced cirrhosis. , 2011, The American journal of the medical sciences.

[29]  Xiangmei Zhou,et al.  A role for mitochondria in NLRP3 inflammasome activation , 2011, Nature.

[30]  J. Finsterer,et al.  Myotoxicity of telbivudine in pre-existing muscle damage , 2010, Virology Journal.

[31]  M. Yuen,et al.  Safety evaluation of telbivudine , 2010, Expert opinion on drug safety.

[32]  M. Manns,et al.  Trial Results : Telbivudine Is Superior to Lamivudine in atients With Chronic Hepatitis B UN – , 2022 .

[33]  G. Fattovich,et al.  Natural history of chronic hepatitis B: special emphasis on disease progression and prognostic factors. , 2008, Journal of hepatology.

[34]  S. Mallal,et al.  Complications Associated with Nrti Therapy: Update on Clinical Features and Possible Pathogenic Mechanisms , 2004, Antiviral therapy.

[35]  A. Levey,et al.  A More Accurate Method To Estimate Glomerular Filtration Rate from Serum Creatinine: A New Prediction Equation , 1999, Annals of Internal Medicine.

[36]  Ding‐Shinn Chen,et al.  Hepatitis B Virus Infection , 2007 .

[37]  R. Williams,et al.  Interleukin-12 induction of Th1 cytokines is important for viral clearance in chronic hepatitis B. , 1997, The Journal of clinical investigation.

[38]  M. Dalakas,et al.  Mitochondrial myopathy caused by long-term zidovudine therapy. , 1990, The New England journal of medicine.

[39]  H. Hsu,et al.  Baseline seroepidemiology of hepatitis B virus infection in children in Taipei, 1984: A study just before mass hepatitis B vaccination program in Taiwan , 1986, Journal of medical virology.