Distal renal tubular acidosis without renal impairment after use of tenofovir: a case report

Background

Tenofovir, one of antiretroviral medication to treat human immunodeficiency virus (HIV) infection, is known to cause proximal renal tubular acidosis such as Fanconi syndrome, but cases of distal renal tubular acidosis had never been reported.

Case presentation

A 20-year-old man with HIV infection developed nausea and vomiting without diarrhea after starting antiretroviral therapy. Arterial blood gas revealed non-anion-gap metabolic acidosis and urine test showed positive urine anion gap. Tenofovir, one of antiretroviral medicine the patient received, was considered to be the cause of this acidosis and all antiretroviral drugs were discontinued. Symptoms disappeared promptly without recurrence of symptoms after resuming antiretroviral medications without tenofovir.

Conclusion

Distal renal tubular acidosis caused by tenofovir, without renal impairment is very rare. Since causes of nausea and vomiting among HIV/AIDS patients are very diverse, awareness of this phenomenon is useful in diagnosing and managing the problem.

Causes of nausea and vomiting among patients with human immunodeficiency virus (HIV) infection and/or acquired immune deficiency syndrome (AIDS) are diverse; gastrointestinal, neurological, endocrine causes to name a few [1]. Nephrotoxicity and proximal renal tubular acidosis (RTA) known as Fanconi syndrome are known and established side effect of tenofovir (TDF), a nucleotide analog [2–5]. One study reported that the incidence rate of moderate or severe renal insufficiency caused by tenofovir was 29.2 and 2.2 cases per 1000 person-year respectively [6]. Fanconi syndrome caused by tenofovir is rare and exact incidence rate is not known. Fanconi syndrome caused by tenofovir is usually associated with other manifestations such as worsening of glomerular filtration rate (GFR), proteinuria, hypophosphataemia, and glycosuria [4, 5].

RTA can be differentiated into either distal or proximal, depending on the site of tubules affected. Both have normal serum anion gap, but distal RTA is characterized by positive urine anion gap ([Na⁺ + K⁺]_u – [Cl⁻]_u), whereas proximal RTA has negative urine anion gap [7]. Major causes of distal RTA in adults is autoimmune diseases such as Sjögren’s syndrome [7]. Medications such as ibuprofen are also known to cause distal RTA [8], but distal RTA caused by antiretroviral medications has never been reported to the best of our knowledge. We here present such a rare case of distal RTA most likely caused by tenofovir.

A 20-year-old man with HIV infection visited us with chief complaint of nausea and vomiting. He had been followed at our Infectious Diseases clinic. He had no past medical history otherwise, including opportunistic diseases. Two months after his initial visit, antiretroviral therapy (ART) was started with Truvada ® (tenofovir and emtricitabine), and raltegravir. His baseline CD4+ T lymphocytes count before initiation of ART was 456/μL and RT-PCR for HIV-1 was 2.8 x 10³ copies/mL. Other routine blood and urine tests were all normal. He stated that he had been adherent to ART. Six weeks after initiation of ART, he developed nausea and vomiting. He visited our Infectious Diseases clinic on the following day. He denied fever, headache, seizure, abdominal pain, or diarrhea. He also denied use of medications other than we prescribed, supplements, alcohol or any illicit drugs.

On physical examination, he appeared anxious. Blood pressure was 116/70 mmHg, pulse rate 95/min, respiratory rate 18/min, and body temperature 36.9 °C. Rest of physical examination including thorough neurological examination was normal. On blood tests, complete blood counts (CBC), electrolytes, liver and kidney function tests were all unremarkable (Table 1). Arterial blood gas showed pH 7.327, pCO2 38.3 mmHg, bicarbonate 19.3 mmol/L, and anion gap 13.9 mmol/L. Spot urianalysis showed urine pH 5.5, and urine sodium 160 mmol/L, potassium 52 mmol/L, chloride 48 mmol/L, with urine anion gap ([Na⁺ + K⁺]_u – [Cl⁻]_u) of 164 mmol/L. Urine phosphorus was 138.4 mg/dL, urine calcium was 31.9 mg/dL, and urine β2-microglobulin was 1268 μg/L (normal range 0-289). Urine was also positive for protein (1+) and ketone (3+). Urine specific gravity was 1.032 with approximate urine osmolality of 1000 mOsm/kg [9]. Calculated urine osmolality (2 x [Na + K]) + [urea nitrogen in mg/dL]/2.8 + [glucose in mg/dL]/18) was 939 mOsm/kg [10], with approximate urine osmolal gap of 61 mOsm/kg.

Non-anion-gap metabolic acidosis was considered to be the cause of his current symptoms, and medications were suspected as the causative agent. Intravenous hydration and antiemetic was provided and all antiretroviral agents were discontinued at once. On the following day, his symptoms disappeared. Venous blood gas revealed normalized bicarbonate (Table 1). Five days after this event, the patient re-started ART with Epzicom ® (abacavir and lamivudine), and ralteglavir. He remains on the latest regimen without further events. Four months after re-starting ART, his CD4+ T lymphocytes count increased to 648/μL with undetectable HIV-1RNA.

Tenofovir is known to cause drug induced Fanconi syndrome, but is usually associated with other manifestations, particularly worsening of glomerular filtration rate. However, our patient lacked these symptoms, and urine anion gap was positive, making proximal renal tubular acidosis such as Fanconi syndrome less likely.

In our case, acute onset nausea and vomiting without diarrhea, with non-anion-gap metabolic acidosis plus positive urine anion-gap, makes distal renal tubular acidosis most likely. The reason for lack of potassium abnormality in the patient remains unknown, but acute onset of symptoms and prompt treatment might have prevented significant potassium wasting, which is characteristic of most distal RTA. We consider this case is of distal RTA of unclassified type, with prompt improvement after cessation of causative agent; i.e. tenofovir. Since discontinuation of tenofovir was effective in prompt disappearance of symptoms and acidosis, and re-institution of lamivudine (analogous to emtricitabine. They are very similar both in structure and pharmacological properties) and raltegravir did not cause the recurrence of the symptoms, we considered tenofovir as the most likely cause of RTA in this patient. We obtained venous blood gas to ascertain the correction of acidosis since recent meta-analysis found that venous gas is comparable to arterial blood gas in evaluating pH [11].

This is the first case ever reported on such an occurrence as far as we know of. The exact mechanism of renal toxicity caused by tenofovir is unknown, but it is considered to be the result of proximal tubular toxicity [12]. Pathogenesis of distal RTA by tenofovir, as in our case, remains unknown. Diminished hydrogen adenosine phosphatase (H-ATPase) activity is the most common cause of distal RTA [13], and it might have occurred with use of tenofovir. Although not reported so far, other antiretroviral agents, particularly nucleoside/nucleotide analogs also might cause similar side effect. Further studies might reveal pathogenesis of this phenomenon, as well as the true incidence and significance of this side effect. In addition, use of newer and apparently safer agent, tenofovir alafenamide (TAF) may prevent this to occur [14].

We here present a rare case of distal RTA without renal impairment most likely caused by tenofovir. Since causes of nausea and vomiting among HIV/AIDS patients are very diverse, awareness of this phenomenon is useful in diagnosing and managing the problem.

AIDS:

Acquired immune deficiency syndrome

ART:

Antiretroviral therapy

CBC:

Complete blood counts

GFR:

Glomerular filtration rate

H-ATPase:

Hydrogen adenosine phosphatase

HIV:

Human immunodeficiency virus

RNA:

Ribonucleic acid

RTA:

Renal tubular acidosis

TAF:

Tenofovir alafenamide

TDF:

Tenofovir

None.

Funding

Not applicable.

Availability of data and materials

This is a case report and there is no dataset for the analysis. Laboratory data on the case is available in our medical chart.

Authors’ contributions

KI, MN, and SW actually took care of the patient, and discussed the case equally. SN provided further insight particularly regarding metabolic and nephrological aspects, and contributed to the understanding and discussion of our case. KI prepared the manuscript. All read and agreed with the final manuscript.

Competing interests

All authors declare that there is no competing interests.

Consent for publication

The patient of the current case provided a written informed consent to publish the case.

Ethics approval and consent to participate

Since this is a case report, the ethics committee of Kobe University Graduate School of Medicine exempted our report from the approval.

Authors and Affiliations

1. Division of Infectious Diseases Therapeutics, Kobe University Graduate School of Medicine, Kusunokicho 7-5-2, Chuoku, Kobe, Hyogo, Japan, 650-0017

   Kentaro Iwata & Manabu Nagata

2. Division of Nephrology and Kidney Center, Kobe University Graduate School of Medicine, Kusunokicho 7-5-2, Chuoku, Kobe, Hyogo, Japan, 650-0017

   Shuhei Watanabe & Shinichi Nishi

Corresponding author

Correspondence to Kentaro Iwata.

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