A Challenging Case of Visceral Leishmaniasis

The term leishmaniasis includes multiple clinical syndromes: visceral, cutaneous, and mucosal leishmaniasis, resulting from an infection of macrophages throughout the reticuloendothelial system in the dermis and the naso-oropharyngeal mucosa, respectively. The clinical phenotype is mainly driven by the leishmania biologic characteristics and, ultimately, also by the host immune status. The disease is endemic in focal areas in the tropics, subtropics, and southern Europe, transmitted by the bite of female phlebotomine sandflies. Sandflies regurgitate the parasite’s flagellated promastigote stage into the host’s skin; promastigotes bind to receptors on macrophages are phagocytized and transformed within phagolysosomes into non-flagellated amastigotes which replicate and infect additional macrophages. Amastigotes ingested by sandflies transform back into infective promastigotes. Depending on the host’s innate and acquired immune status, systemic and visceral leishmaniasis can be characterized by irregular fever, weight loss, enlargement of the spleen and liver, and anaemia. We present a 42 year-old man with long-lasting type 1 autoimmune hepatitis under immunosuppressive treatment. In January 2017, the patient started to experience low-grade unresponsiveness to empiric antibiotic therapy. The patient developed severe anemia and progressive multilineage cytopenia accompanied by increased levels of inflammatory markers. FDG-PET revealed increased glucose uptake in the liver, spleen, and the whole bone marrow. The subsequently performed bone marrow biopsy evidenced Leishmania amastigotes inside macrophages, confirmed by serological positivity to anti-Leishmania antibody. Immunosuppressive therapy was suspended and replaced by treatment with amphotericin B at 4 mg/kg/day from day 1 to day 5, followed by a single infusion on days 10, 17, 24, 31, and 38. The bone marrow smear after treatment still evidenced few Leishmania amastigotes; in consideration of the patient’s immunosuppression status, two further doses of amphotericin B on days 45 and 52 were employed, leading to infection resolution. In real-life, as exemplified in this case, administering two additional doses of amphotericin B (concerning the guidelines) offered an additional therapeutic opportunity for a patient under long-term immunosuppressive treatment.

[1]  P. Leone,et al.  Impact of Antigen Presentation Mechanisms on Immune Response in Autoimmune Hepatitis , 2022, Frontiers in Immunology.

[2]  V. Procacci,et al.  Short-Term Variations in Neutrophil-to-Lymphocyte and Urea-to-Creatinine Ratios Anticipate Intensive Care Unit Admission of COVID-19 Patients in the Emergency Department , 2021, Frontiers in Medicine.

[3]  A. Vacca,et al.  Actors on the Scene: Immune Cells in the Myeloma Niche , 2020, Frontiers in Oncology.

[4]  G. Angarano,et al.  Targeted therapies for autoimmune/idiopathic nonmalignant diseases: risk and management of opportunistic infections , 2020, Expert opinion on drug safety.

[5]  V. Longo,et al.  Immune system and bone microenvironment: rationale for targeted cancer therapies , 2019, Oncotarget.

[6]  P. Colonna,et al.  Early echocardiographic detection of left ventricular diastolic dysfunction in patients with systemic lupus erythematosus asymptomatic for cardiovascular disease , 2019, Clinical and Experimental Medicine.

[7]  D. Santini,et al.  Skeletal Metastases of Unknown Primary: Biological Landscape and Clinical Overview , 2019, Cancers.

[8]  A. Pinna,et al.  Management of immunosuppressive therapy in liver transplant recipients who develop bloodstream infection , 2018, Transplant infectious disease : an official journal of the Transplantation Society.

[9]  J. van Griensven,et al.  New insights into leishmaniasis in the immunosuppressed , 2018, PLoS neglected tropical diseases.

[10]  F. Dammacco,et al.  Subcutaneous immunoglobulins in patients with multiple myeloma and secondary hypogammaglobulinemia: a randomized trial. , 2017, Clinical immunology.

[11]  L. Leibovici,et al.  Proposed primary endpoints for use in clinical trials that compare treatment options for bloodstream infection in adults: a consensus definition. , 2017, Clinical microbiology and infection : the official publication of the European Society of Clinical Microbiology and Infectious Diseases.

[12]  R. Arenas,et al.  Leishmaniasis: a review , 2017, F1000Research.

[13]  R. López-Vélez,et al.  Diagnosis and Treatment of Leishmaniasis: Clinical Practice Guidelines by the Infectious Diseases Society of America (IDSA) and the American Society of Tropical Medicine and Hygiene (ASTMH)* , 2017, The American journal of tropical medicine and hygiene.

[14]  R. Hotchkiss,et al.  Sepsis and septic shock , 2016, Nature Reviews Disease Primers.

[15]  H. Einsele,et al.  Targeting B-cell non Hodgkin lymphoma: New and old tricks. , 2016, Leukemia research.

[16]  M. Rupp,et al.  Is bacteremic sepsis associated with higher mortality in transplant recipients than in nontransplant patients? A matched case-control propensity-adjusted study. , 2015, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[17]  R. López-Vélez,et al.  Leishmaniasis in immunosuppressed individuals. , 2014, Clinical microbiology and infection : the official publication of the European Society of Clinical Microbiology and Infectious Diseases.

[18]  A. Vacca,et al.  Induction Therapy and Stem Cell Mobilization in Patients with Newly Diagnosed Multiple Myeloma , 2012, Stem cells international.

[19]  G. Yılmaz,et al.  Visceral Leishmaniasis Mimicking Autoimmune Hepatitis, Primary Biliary Cirrhosis, and Systemic Lupus Erythematosus Overlap , 2012, The Korean journal of parasitology.

[20]  G. Wozniak,et al.  Clinical expression of autoimmune hepatitis in a nine-year-old girl with visceral leishmaniasis. , 2011, Polish journal of pathology : official journal of the Polish Society of Pathologists.

[21]  I. Marín,et al.  [Visceral leishmaniasis in a patient with autoimmune hepatitis on combined immunosuppressant therapy]. , 2010, Medicina clinica.

[22]  E. Petinaki,et al.  Polyclonal hypergammaglobulinemia and high smooth-muscle autoantibody titers with specificity against filamentous actin: consider visceral leishmaniasis, not just autoimmune hepatitis. , 2009, International journal of infectious diseases : IJID : official publication of the International Society for Infectious Diseases.

[23]  L. Pontes-de-carvalho,et al.  Inflammation and structural changes of splenic lymphoid tissue in visceral leishmaniasis: A study on naturally infected dogs , 2008, Parasite immunology.

[24]  B. Kemkes-Matthes,et al.  Viszerale Leishmaniose mit ungewöhnlich langer Inkubationszeit , 2008 .

[25]  F. Khaldi,et al.  Visceral leishmaniasis with portal hypertension mimicking auto immune hepatitis. , 2007, Medecine et maladies infectieuses.

[26]  I. Dursun,et al.  A case of visceral leishmaniasis misdiagnosed as autoimmune hepatitis. , 2005, The Turkish journal of gastroenterology : the official journal of Turkish Society of Gastroenterology.

[27]  J. Schiffman,et al.  Continuous Veno-Venous Hemofiltration May Improve Survival From Acute Respiratory Distress Syndrome After Bone Marrow Transplantation or Chemotherapy , 2003, Journal of pediatric hematology/oncology.