Case ReportCase Report
Open Access

Delayed tacrolimus-induced optic neuropathy

Muhannad A. Alnahdi and Yaser M. Al Malik
Neurosciences Journal October 2019, 24 (4) 324-326; DOI: https://doi.org/10.17712/nsj.2019.4.20190022

Abstract

Tacrolimus is an immunosuppressant agent utilized for solid organ transplantations. It has been associated with rare neurotoxic effects. This case highlights one possible delayed neurotoxic effect. A 52-year-old lady on tacrolimus (3 mg daily) among her immunosuppressive regimen for her kidney transplant 16 year ago. She presented with unilateral left paracentral black dots progressing over a week, associated with periorbital and temporal pain. The patient was diagnosed with left papillitis. Tacrolimus was tapered and then changed to cyclosporine. However, patient did not show any improvement of any parameter. Reports have indicated such neurotoxic effects with Tacrolimus use. Here, the report emphasizes on the unilateral optic neuropathic effect of tacrolimus even after one decade.

Tacrolimus, an immunosuppressive agent used in organ transplant, suppresses T-cell development and several cytokines. Several studies have reported its use in preventing allogenic organ transplant rejection,1 while others have stated its neurotoxic effects on vision.2-7 This case report presents a possible association of unilateral left optic neuropathy with tacrolimus neurotoxicity.

Case Report

Patient information

A 52-year-old female underwent renal transplant due to hypertensive renal failure in 2002. The patient had a history of diabetes (post-transplant), hypertension, dyslipidemia, and osteoarthritis. The immunosuppressive regimen comprised of tacrolimus (FK506, 3 mg daily), cellcept (mycophenolate mofetil, 500 mg twice daily), and prednisolone (5 mg daily). Regular follow-ups were carried out with an ophthalmologist with normal fundal examination and no other complaints. Other medication history included anti-diabetic drugs, antihypertensive drugs, atorvastatin, multivitamins, and esomeprazole, and allergy to lisinopril and azithromycin.

Clinical findings

The patient presented with paracentral black dots in the left eye progressing over a week that plateaued later, and motion aggravated periorbital and temporal pain. The ophthalmologist confirmed left papillitis. Additionally, the patient had left relative afferent pupillary defect (RAPD), early lens cataract, with visual acuity (VA) in right (Rt.) eye 20\20 and left (Lt.) eye 20/60. The patient was referred to neurology for a comprehensive exam and workup. On evaluation, the patient’s physical examination showed the same VA with normal extraocular muscles (EOM), pain in the Lt. eye with movement was noted, and Lt. papillitis was still evident. Furthermore, cranial nerves, motor, and cerebellar examinations were unremarkable except for antalgic gait. The patient denied any fever, jaw claudication, ptosis, diplopia, recent vaccinations, travel history, weight loss, or any other visual disturbances.

Diagnostic assessment

Extensive investigations were requested. Tacrolimus (FK506) serum level was at 8.9 ng/mL (target range 5 - 15 ng/mL), and not exceeding 9.4 n\mL for 5 years. The magnetic resonance imaging (MRI) of orbits and brain was unremarkable for pathological changes, excluding the neoplastic etiologies in the optic pathway, but had multiple white matter foci suggestive of mild chronic ischemic changes (Figure 1). Serology for neuromyelitis optica antibodies, oligo-clonal band antibodies, and cerebrospinal fluid workup tested negative. Laboratory test results showed normal estimated glomerular filtrate rate, C-reactive protein: 9 mg/L (normal range, <8 mg/L), erythrocyte sedimentation rate: 88 with mild chronic elevation for the last 5 years, otherwise normal. Infectious etiologies were excluded, and stains for cytomegalovirus and mycobacterium were negative.

Figure 1
Figure 1

Magnetic Resonance Imaging images obtained after 4 weeks of presentation. T2 weighted image reflecting the absence of any pathological evidence in the optic pathway that may correlate with neoplastic, inflammatory, or ischemic etiologies.

Therapeutic assessment

The patient was first discharged with a tapered dose of tacrolimus of 1.5 mg daily. Then at 3-week follow-up, tacrolimus was switched to cyclosporine by renal transplant team (Figure 2).

Figure 2
Figure 2

Timetable demonstrating the sequence of events and case progression.

Follow-up and outcomes

Three-week follow-up revealed Lt. RAPD, VA Rt. eye 20\20 and Lt. eye 20\120, visual field (VF) Lt. cecocentral scotoma, and Lt. fundal swelling with normal EOM. At the 6-month follow-up, the patient showed no improvement and symptoms remained similar to the previous state.

Discussion

Tacrolimus, a calcineurin inhibitor, has shown neurotoxic properties causing optic neuropathy in cases of bone, liver, and islet pancreatic transplantations, even at non-toxic levels.2-7 Cortical blindness has been described as a potential adverse effect of tacrolimus use.89 In this case, neurotoxic effects of tacrolimus was the most probable differential diagnosis after extensive laboratory and imaging workup dismissed any possible role of neoplastic, inflammatory, infectious, or ischemic etiologies. The other probable diagnosis was giant cell arteritis; however, it was excluded by rheumatology team due to the patient’s immunosuppressive regimen. The interval between tacrolimus initiation and symptoms onset varied ranging from months to years from previous reports.2-9

In this case, the patient was on tacrolimus for 16 years, and had a normal visual follow-up until incidence of painful unilateral optic neuropathy progressing over a week and then plateaued. Therefore, the interval between tacrolimus initiation and visual changes may indicate delayed toxicity. Even after discontinuing the drug no changes were noted in the patients’ symptoms, indicating irreversibility of the toxic effect. Venneti et al6 reported a case that showed histopathologic demyelination process due to tacrolimus at non-toxic serum levels. Tacrolimus neurotoxic effect reportedly presented white matter lesions on MRI; however, imaging of our case did not reveal any such lesions consistent with the clinical presentation.10 The pathogenesis of tacrolimus-induced optic neuropathy remains unclear, although few reports postulate that ischemia due to vasoconstriction could be the possible etiology. The patient did not regain her previous vision or show any improvement in the visual fields or VA, even after dose tapering or changing to cyclosporine.

In conclusion, tacrolimus has been linked to causing various neurotoxic effects as evident in the case. Unilateral optic neuropathy has been reported throughout the past decade, but the exact etiology remains unclear. However, it is imperative to address the possible delayed toxic role of tacrolimus after long-term use.

Acknowledgments

We would like to thank Editage (www. Editage.com) for English language editing.

Footnotes

  • Disclosure. The authors declare no conflicting interests, support or funding from any drug company.

  • Received April 1, 2019.
  • Accepted August 27, 2019.

Neurosciences is an Open Access journal and articles published are distributed under the terms of the Creative Commons Attribution-NonCommercial License (CC BY-NC). Readers may copy, distribute, and display the work for non-commercial purposes with the proper citation of the original work.

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