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Thiamine deficiency in a patient with recurrent renal cell carcinoma who developed weight loss with normal appetite and loss of energy soon after nivolumab treatment

Published online by Cambridge University Press:  19 September 2019

Hideki Onishi Open the ORCID record for Hideki Onishi [Opens in a new window] ,
Takashi Okabe ,
Nozomu Uchida ,
Suguru Shirotake ,
Maki Todo ,
Masafumi Oyama  and
Mayumi Ishida Open the ORCID record for Mayumi Ishida [Opens in a new window]
Hideki Onishi*
Affiliation:
Department of Psycho-oncology, Saitama Medical University International Medical Center, Saitama, Japan
Takashi Okabe
Affiliation:
Department of Uro-Oncology, Saitama Medical University International Medical Center, Saitama, Japan
Nozomu Uchida
Affiliation:
Department of General Medicine, Ogano Town Central Hospital, Saitama, Japan
Suguru Shirotake
Affiliation:
Department of Uro-Oncology, Saitama Medical University International Medical Center, Saitama, Japan
Maki Todo
Affiliation:
Department of Pharmacy, Saitama Medical University International Medical Center, Saitama, Japan
Masafumi Oyama
Affiliation:
Department of Uro-Oncology, Saitama Medical University International Medical Center, Saitama, Japan
Mayumi Ishida
Affiliation:
Department of Psycho-oncology, Saitama Medical University International Medical Center, Saitama, Japan
*
Author for correspondence: Hideki Onishi, Department of Psycho-oncology, Saitama Medical University International Medical Center, 1397-1 Yamane, Hidaka City, Saitama350-1298, Japan. E-mail: honishi@saitama-med.ac.jp
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Abstract

Background

Nivolumab has become an effective treatment option for cancer in various sites; however, this drug may cause immune-related adverse effects due to its mechanism of action. Furthermore, little has been reported on thiamine deficiency (TD) in patients receiving nivolumab treatment.

Method

From a series of cancer patients, we reported a patient with recurrent renal cell carcinoma who developed TD after the start of nivolumab treatment.

Results

A 74-year-old man with recurrent renal cell carcinoma was referred to the psycho-oncology department as he had lost about 4 kg and displayed a loss of energy after four cycles of nivolumab treatment. Psychiatric interviews revealed a decrease in energy. Neurological examination did not reveal any impairment in consciousness, ataxia, or ocular symptoms. He did not develop appetite loss. The malabsorption or overconsumption of some nutrients is thought to occur due to the rapid loss of weight; thus, a reduction in vitamin B1, which has a short storage period in the body and is often deficient in cancer patients, was suspected. The diagnosis of TD was supported by the patient's abnormally low serum thiamine level.

Significance of results

In patients treated with nivolumab, it is necessary to pay careful attention to TD when proceeding with the treatment. It is hoped that future research may reveal the link between nivolumab administration and TD.

Keywords

CancerNivolumabThiamine deficiencyWernicke encephalopathy
Type
Case Report
Information
Palliative & Supportive Care , Volume 18 , Issue 2 , April 2020 , pp. 241 - 243
Copyright
Copyright © Cambridge University Press 2019

Introduction

Nivolumab is a human immunoglobulin G4 anti-programmed cell death 1 monoclonal antibody that is used to restore antitumor immunity disturbed by cancer cells. This drug has become an effective treatment option for cancer in various sites, and its indication is expanding. However, this drug may cause immune-related adverse effects due to its mechanism of action (Hofmann et al., Reference Hofmann, Forschner and Loquai2016; Zimmer et al., Reference Zimmer, Goldinger and Hofmann2016). Furthermore, there are a number of unconfirmed side effects.

Thiamine, in its biologically active form of thiamine pyrophosphate, is an essential coenzyme for oxidative metabolism (Sechi et al., Reference Sechi, Sechi and Fois2016b). As this vitamin cannot be synthesized in vivo, the maintenance of its physiological level is dependent on external intake. However, thiamine stores in the body can be depleted in as few as approximately 18 days (MacLean et al., Reference MacLean, Rhode and Shizgal1983), and serum thiamine levels decrease when a reduced dietary intake continues for two to three weeks (Sechi et al., Reference Sechi, Sechi and Fois2016b).

Thiamine deficiency (TD) typically results in Wernicke's encephalopathy. This disorder shows a classic triad of symptoms: impaired consciousness, ataxia, and nystagmus. Treatment involves the administration of thiamine, and early detection and treatment can resolve the condition without sequelae. However, less than 20% of cases present with all three symptoms, and as the classic triad of symptoms are nonspecific, they are often overlooked due to confusion with the neuropsychiatric symptoms of other diseases (Sechi and Serra, Reference Sechi and Serra2007; Isenberg-Grzeda et al., Reference Isenberg-Grzeda, Kutner and Nicolson2012). Continued failure to recognize the disorder can lead to Korsakoff syndrome, resulting in severe brain complications. The mortality rate is reported to be as high as 17% (Victor et al., Reference Victor, Adams and Collins1971).

Recent studies have shown that TD is present among cancer patients, with the time of onset ranging from the preoperative to terminal stage, and a variety of symptoms are also observed (Isenberg-Grzeda et al., Reference Isenberg-Grzeda, Hsu, Hatzoglou, Nelso and Breitbart2015, Reference Isenberg-Grzeda, Alici and Hatzoglou2016a, Reference Isenberg-Grzeda, Rahane and DeRosa2016b, Reference Isenberg-Grzeda, Shen and Alici2017; Onishi et al., Reference Onishi, Ishida and Toyama2016, Reference Onishi, Ishida, Takahashi, Taji, Ikebuchi, Furuya, Uchida and Akechi2018a, Reference Onishi, Ishida and Tanahashi2018b, Reference Onishi, Ishida and Tanahashi2018c, Reference Onishi, Ishida and Tanahashi2018d, Reference Onishi, Ishida and Uchida2018e, Reference Onishi, Ishida, Kagamu, Murayama, Kobayashi, Sato, Uchida and Akechi2019). Onset is more often observed in patients who have received fluorouracil-based chemotherapy, active cancer treatment, and have weight loss within 2 months (Isenberg-Grzeda et al., Reference Isenberg-Grzeda, Shen and Alici2017). However, there is only one report on TD during nivolumab treatment in cancer patients presenting with delirium (Onishi et al., Reference Onishi, Ishida, Kagamu, Murayama, Kobayashi, Sato, Uchida and Akechi2019).

Herein, we present a case of TD in a patient with recurrent renal cell cancer who presented at our department complaining of weight loss and a loss of energy after the start of nivolumab treatment, and for whom we were able to prevent the progression of symptoms through treatment.

Case Report

A 74-year-old man was referred to the psycho-oncology department of our institution.

He had been diagnosed with renal cell carcinoma and lung metastasis 6 years prior to referral and underwent nephrectomy at that time. Postoperative chemotherapy was discontinued due to side effects. Treatment with sorafenib was initiated 4 years prior to referral due to the progression of lung metastasis; however, treatment was changed to pazopanib 3 years prior to referral due to the continued progression of lung metastasis.

Two months prior to referral, treatment with nivolumab was initiated due to liver metastasis. The administration of furosemide 10 mg was thereafter initiated due to swelling of the legs and decreased urine output. After four treatments, he was referred as an outpatient to the psycho-oncology department as he had lost about 4 kg and displayed a loss of energy.

Psychiatric interviews at the time of the examination revealed a decrease in energy. Neurological examination did not reveal any impairment in consciousness, ataxia, or ocular symptoms. The patient and his wife received a detailed interview regarding anorexia, but no loss of appetite was confirmed. In addition, no diarrhea or vomiting was observed. Furosemide 10 mg had been administered as internal medicine. Peripheral blood and biochemical findings were normal, and no specific findings were identified on head CT scans.

The malabsorption or overconsumption of some nutrients is thought to occur due to the rapid loss of weight; and thus, a reduction in vitamin B1, which has a short storage period in the body and is often deficient in cancer patients (MacLean et al., Reference MacLean, Rhode and Shizgal1983; Isenberg-Grzeda et al., Reference Isenberg-Grzeda, Shen and Alici2017), was suspected and blood samples showed a reduction in its serum concentration to 15 ng/mL (reference range: 24–66 ng/mL).

After three injections of 200 mg thiamine as the treatment of TD (Galvin et al., Reference Galvin, Brathen and Ivashynka2010), the patient's vigor recovered, and nivolumab treatment could be resumed.

Other test results revealed that his vitamin B12 concentration was within the normal range at 335 pg/mL (reference range: 180–914 pg/mL), but his zinc concentration had decreased to 53 µg/dL (reference range: 68–113 µg/dL). Nevertheless, this returned to within the normal range after two weeks of oral zinc replacement therapy.

Discussion

TD was observed in a patient with recurrent renal cell carcinoma after the initiation of nivolumab administration. Early detection and high-dose thiamine treatment improved the symptoms and treatment with nivolumab was resumed.

One case of TD in a nivolumab-treated patient, which resulted in anorexia and impaired consciousness, was previously reported (Onishi et al., Reference Onishi, Ishida, Kagamu, Murayama, Kobayashi, Sato, Uchida and Akechi2019); however, none of the classic triad of symptoms (impaired consciousness, ataxia, and ocular symptoms) typical of Wernicke's encephalopathy were observed in the current case. A previous study has also indicated that diagnosis based on these symptoms lacks sensitivity (Isenberg-Grzeda et al., Reference Isenberg-Grzeda, Shen and Alici2017).

The symptoms appearing after nivolumab administration were decreased energy and weight loss. However, the decrease in vigor has recovered after high-dose thiamine treatment. A report on improvements in the mental and physical symptoms and TD, based on a randomized controlled trial of elderly women with marginal TD using thiamine 10 mg and a placebo, revealed significant increases in appetite and general well-being (Smidt et al., Reference Smidt, Cremin and Grivetti1991). In consideration of these results, the recovery of vigor in this case seems to have been related to TD.

Although there was no loss of appetite in this case, there have been a few reports of TD without any loss of appetite (Yae et al., Reference Yae, Okuno and Onishi2005). It was a sudden weight loss that triggered the diagnosis. As a result, it was thought that some nutrient absorption or metabolic disorder had occurred, with thiamine considered to be one of the substances lost from the body within a short period of time (MacLean et al., Reference MacLean, Rhode and Shizgal1983). As the symptoms of TD are variable (Sechi et al., Reference Sechi, Sechi and Fois2016b), they should always be regarded as differential.

It is necessary to consider other causes for the TD as there was no decrease in the amount of food consumed or signs of an unbalanced diet.

A meta-analysis revealed that digestive tract disorders are a frequent side effect of immune checkpoint inhibitors (Abdel-Rahman et al., Reference Abdel-Rahman, ElHalawani and Fouad2015). In the present case, no gastrointestinal symptoms such as diarrhea were observed; however, as the gastrointestinal tract was not reviewed, the possibility of an association could not be ruled out.

In the current case, the administration of furosemide was also begun after the start of nivolumab administration. Furosemide administration increases urinary vitamin B1 excretion (Rieck et al., Reference Rieck, Halkin and Almog1999), and long-term, high-dose (80–240 mg) administration of diuretics in patients with heart failure, etc., may lead to a deficiency in water-soluble vitamins including vitamin B1 (Seligmann et al., Reference Seligmann, Halkin and Rauchfleisch1991; Katta et al., Reference Katta, Balla and Alpert2016). The administration of furosemide in this case was low at 10 mg; nevertheless, it may have contributed to the TD.

In addition, the possibility that nivolumab may have increased the utilization and breakdown of furosemide, as with 5-fluorouracil (Basu et al., Reference Basu, Aksoy and Dickerson1979; Aksoy et al., Reference Aksoy, Basu and Brient1980), or resulted in a thiamine absorption disorder, as with fedranib (Pardanani et al., Reference Pardanani, Harrison and Cortes2015; Sechi et al., Reference Sechi, Batzu and Agro2016a), cannot be excluded.

The current case showed a reduction in the serum zinc level. Zinc plays an important role in cell growth, differentiation, and metabolism (Prasad, Reference Prasad1995), and a deficiency can, clinically, result in weight loss, a decline in immune function (Prasad, Reference Prasad1995; Beck et al., Reference Beck, Prasad and Kaplan1997), and other symptoms. There are no reports of zinc deficiency in cancer patients, and the symptoms of zinc deficiency are nonspecific. Nevertheless, its involvement in weight loss cannot be ruled out.

In conclusion, for patients treated with nivolumab, it is necessary to pay careful attention to TD when proceeding with treatment. It is hoped that future research may reveal the link between nivolumab administration and TD.

References

REFERENCES

Abdel-Rahman, O, ElHalawani, H and Fouad, M (2015) Risk of gastrointestinal complications in cancer patients treated with immune checkpoint inhibitors: A meta-analysis. Immunotherapy 7(11), 12131227.CrossRefGoogle ScholarPubMed
Aksoy, M, Basu, TK, Brient, J, et al. (1980) Thiamin status of patients treated with drug combinations containing 5-fluorouracil. European Journal of Cancer 16(8), 10411045.CrossRefGoogle ScholarPubMed
Basu, TK, Aksoy, M and Dickerson, JW (1979) Effects of 5-fluorouracil on the thiamin status of adult female rats. Chemotherapy 25(2), 7076.CrossRefGoogle ScholarPubMed
Beck, FW, Prasad, AS, Kaplan, J, et al. (1997) Changes in cytokine production and T cell subpopulations in experimentally induced zinc-deficient humans. American Journal of Physiology - Endocrinology and Metabolism 272(6 Pt 1), E1002E1007.CrossRefGoogle Scholar
Galvin, R, Brathen, G, Ivashynka, A, et al. (2010) EFNS guidelines for diagnosis, therapy and prevention of Wernicke encephalopathy. European Journal of Neurology 17(12), 14081418.CrossRefGoogle ScholarPubMed
Hofmann, L, Forschner, A, Loquai, C, et al. (2016) Cutaneous, gastrointestinal, hepatic, endocrine, and renal side-effects of anti-PD-1 therapy. European Journal of Cancer 60, 190209.CrossRefGoogle ScholarPubMed
Isenberg-Grzeda, E, Kutner, HE and Nicolson, SE (2012) Wernicke-Korsakoff-syndrome: Under-recognized and under-treated. Psychosomatics 53(6), 507516.CrossRefGoogle ScholarPubMed
Isenberg-Grzeda, E, Hsu, AJ, Hatzoglou, V, Nelso, C and Breitbart, W (2015) Palliative treatment of thiamine-related encephalopathy (Wernicke's encephalopathy) in cancer: A case series and review of the literature. Palliative & Supportive Care 13(5), 12411249.CrossRefGoogle ScholarPubMed
Isenberg-Grzeda, E, Alici, Y, Hatzoglou, V, et al. (2016a) Nonalcoholic thiamine-related encephalopathy (Wernicke-Korsakoff syndrome) among inpatients with cancer: A series of 18 cases. Psychosomatics 57(1), 7181.CrossRefGoogle Scholar
Isenberg-Grzeda, E, Rahane, S, DeRosa, AP, et al. (2016b) Wernicke-Korsakoff syndrome in patients with cancer: A systematic review. The Lancet Oncology 17(4), e142e148.CrossRefGoogle Scholar
Isenberg-Grzeda, E, Shen, MJ, Alici, Y, et al. (2017) High rate of thiamine deficiency among inpatients with cancer referred for psychiatric consultation: Results of a single site prevalence study. Psychooncology 26(9), 13841389.CrossRefGoogle ScholarPubMed
Katta, N, Balla, S and Alpert, MA (2016) Does long-term furosemide therapy cause thiamine deficiency in patients with heart failure? A focused review. The American Journal of Medicine 129(7), 753.e757753.e711.CrossRefGoogle ScholarPubMed
MacLean, LD, Rhode, BM and Shizgal, HM (1983) Nutrition following gastric operations for morbid obesity. Annals of Surgery 198(3), 347355.CrossRefGoogle ScholarPubMed
Onishi, H, Ishida, M, Toyama, H, et al. (2016) Early detection and successful treatment of Wernicke encephalopathy in a patient with advanced carcinoma of the external genitalia during chemotherapy. Palliative & Supportive Care 14(3), 302306.CrossRefGoogle Scholar
Onishi, H, Ishida, M, Takahashi, T, Taji, Y, Ikebuchi, K, Furuya, D, Uchida, N and Akechi, T (2018a) Wernicke encephalopathy without delirium that appeared as agitation in a patient with lung cancer. Palliative & Supportive Care 16(6), 800802.CrossRefGoogle Scholar
Onishi, H, Ishida, M, Tanahashi, I, et al. (2018b) Early detection and successful treatment of Wernicke's encephalopathy in outpatients without the complete classic triad of symptoms who attended a psycho-oncology clinic. Palliative & Supportive Care 16(5), 633636.CrossRefGoogle Scholar
Onishi, H, Ishida, M, Tanahashi, I, et al. (2018c) Subclinical thiamine deficiency in patients with abdominal cancer. Palliative & Supportive Care 16(4), 497499.CrossRefGoogle Scholar
Onishi, H, Ishida, M, Tanahashi, I, et al. (2018d) Wernicke encephalopathy without delirium in patients with cancer. Palliative & Supportive Care 16(1), 118121.CrossRefGoogle Scholar
Onishi, H, Ishida, M, Uchida, N, et al. (2018e) Subclinical thiamine deficiency identified by preoperative evaluation in an ovarian cancer patient: Diagnosis and the need for preoperative thiamine measurement. Palliative & Supportive Care, 12.Google Scholar
Onishi, H, Ishida, M, Kagamu, H, Murayama, Y, Kobayashi, K, Sato, I, Uchida, N and Akechi, T (2019) Wernicke encephalopathy in a lung cancer patient during treatment with nivolumab. Palliative & Supportive Care 17, 245247.CrossRefGoogle Scholar
Pardanani, A, Harrison, C, Cortes, JE, et al. (2015) Safety and efficacy of fedratinib in patients with primary or secondary myelofibrosis: A randomized clinical trial. JAMA Oncology 1(5), 643651.CrossRefGoogle ScholarPubMed
Prasad, AS (1995) Zinc: An overview. Nutrition 11(1 Suppl), 9399.Google ScholarPubMed
Rieck, J, Halkin, H, Almog, S, et al. (1999) Urinary loss of thiamine is increased by low doses of furosemide in healthy volunteers. Journal of Laboratory and Clinical Medicine 134(3), 238243.CrossRefGoogle ScholarPubMed
Sechi, G and Serra, A (2007) Wernicke's encephalopathy: New clinical settings and recent advances in diagnosis and management. The Lancet Neurology 6(5), 442455.CrossRefGoogle ScholarPubMed
Sechi, G, Batzu, L, Agro, L, et al. (2016a) Cancer-related Wernicke-Korsakoff syndrome. The Lancet Oncology 17(6), e221e222.CrossRefGoogle Scholar
Sechi, G, Sechi, E, Fois, C, et al. (2016b) Advances in clinical determinants and neurological manifestations of B vitamin deficiency in adults. Nutrition Reviews 74(5), 281300.CrossRefGoogle Scholar
Seligmann, H, Halkin, H, Rauchfleisch, S, et al. (1991) Thiamine deficiency in patients with congestive heart failure receiving long-term furosemide therapy: A pilot study. The American Journal of Medicine 91(2), 151155.CrossRefGoogle ScholarPubMed
Smidt, LJ, Cremin, FM, Grivetti, LE, et al. (1991) Influence of thiamin supplementation on the health and general well-being of an elderly Irish population with marginal thiamin deficiency. Journal of Gerontology 46(1), M16M22.CrossRefGoogle ScholarPubMed
Victor, M, Adams, RD and Collins, GH (1971) The Wernicke-Korsakoff syndrome. A clinical and pathological study of 245 patients, 82 with post-mortem examinations. Contemporary Neurology Series 7, 1206.Google ScholarPubMed
Yae, S, Okuno, S, Onishi, H, et al. (2005) Development of Wernicke encephalopathy in a terminally ill cancer patient consuming an adequate diet: A case report and review of the literature. Palliative & Supportive Care 3(4), 333335.CrossRefGoogle Scholar
Zimmer, L, Goldinger, SM, Hofmann, L, et al. (2016) Neurological, respiratory, musculoskeletal, cardiac and ocular side-effects of anti-PD-1 therapy. European Journal of Cancer 60, 210225.CrossRefGoogle ScholarPubMed