Case description

The patient was a castrated male American Shorthair cat, approximately 14 years old, weighing 3.4 kg. The cat had chronic kidney disease (CKD) for at least 2 years and was classified as International Renal Interest Society stage 3 approximately 1 month prior. The cat was treated with the prostacyclin analogue beraprost sodium (Rapros; Toray Industries) at a dose of 55 µg q12h PO and fluid replacement therapy (60 ml of lactated Ringer’s solution) every other day. The patient was prescribed oral diazepam (diazepam tablets TOWA; Towa Pharma International Holdings) at a dose of 0.147 mg/kg as needed to stimulate its appetite. On day 1, the patient was admitted to the hospital for intermittent lethargy, wobbling for a month and a generalised seizure 3 days before admission. Physical examination revealed a body condition score of 2/5, with mild dehydration. Blood examinations were conducted using a Dimension EXL 200 (Siemens) and a ProCyte Dx analyser (IDEXX Laboratories). The results are presented in Table 1 and Figure 1. The cat was hypoglycaemic, with findings consistent with renal failure (blood urea nitrogen [BUN] >140 mg/dl; creatinine [CRE] 6.17 mg/dl). Non-regenerative anaemia (haematocrit [HCT] 24%; haemoglobin [HGB] 7.4 g/dl) was also detected. The patient’s blood glucose level was 64 mg/dl. Thoracic radiography and abdominal ultrasonography revealed no significant abnormalities except for bilateral renal atrophy. Based on the results of these clinical tests, daily fluid therapy and an injection of darbepoetin alpha (5.0 µg IM, Nesp Injection Plastic Syringe; Kyowa Kirin Frontier) were administered to improve the clinical signs of CKD.

Table 1

The history of blood examination results in the present case

Figure 1

Blood glucose levels of the patient throughout the observation periods. The white and black bars under the graph show the prednisolone and diazoxide treatment period. An asterisk indicates the date of dose increase of prednisolone from 0.67 to 1.5 mg/kg/day

The patient revisited the hospital on days 6 and 8. Although the levels of HGB, HCT, BUN and CRE improved, clinical signs, such as lethargy and wobbling, did not improve. The blood glucose level was 49 mg/dl on day 8, and the insulin level was 1.78 ng/ml (reference interval [RI] 0.27–0.69 ng/ml; Fuji Film Vet Systems). The amended insulin:glucose ratio (AIGR) was 24.5. The RI for AIGR has not been established for cats, but a cut-off level for dogs (<30.0) has been applied to prior cat cases, albeit without documentation.¹ Furthermore, the actual value ideally would be established by each reference laboratory. Taken together, insulinoma was suspected in this case. Frequent feeding for over five times/day and prednisolone at a dose of 0.67 mg/kg were started on day 8. Although the blood glucose level initially increased (81 mg/dl on day 10), the hypoglycaemia progressively became more severe several weeks later. Although prednisolone was increased to a dose of 1.34 mg/kg/day, the blood glucose level was 24 mg/dl, and the fructosamine level was approximately the lower limit of normal at 177 µmol/l (RI 172–349; Fuji Film Vet Systems). On day 33, an isoechoic nodular mass measuring 6.2 × 6.6 mm was observed in the pancreatic body (Figure 2).

Figure 2

Ultrasound image of the present case. An isoechoic nodular mass measuring 6.2 × 6.6 mm was observed in the pancreatic body (arrowheads)

After informed consent was obtained from the owner, diazoxide (diazoxide capsule ‘OP’; OrphanPacific) was additionally prescribed at a dose of 5.2 mg/kg q12h, which is known as a starting dose for dogs and ferrets.² After starting diazoxide medication, the cat’s activity improved, and neurological abnormalities, such as wobbling and seizures, completely disappeared. Hypoglycaemia also improved. On day 45, 13 days after the start of diazoxide treatment, the blood glucose level was 103 mg/dl. On days 51–93, which were 19–61 days later, the blood glucose level was in the range of 73–105 mg/dl. The fructosamine level increased to 230 µmol/l on day 65. Subsequently, the blood glucose and fructosamine levels gradually decreased but were still maintained at over 50 mg/dl and 200 µmol/l, respectively, until day 170.

Several adverse events were observed during diazoxide treatment. The patient continued to experience intermittent vomiting once every 2–3 days. Non-regenerative anaemia (HCT 18% and HGB 7.0 g/dl) was apparent 19 days after starting diazoxide treatment, whereas the respective values had been 32.3% and 11.6 g/dl before treatment. Anaemia was controlled by a subcutaneous injection of darbepoetin alpha. Loss of appetite and anorexia related to diazoxide administration were not observed.

Weight loss persisted, and dehydration occurred intermittently throughout the observation period. Blood CRE concentrations gradually increased, and oliguria/anuria developed on day 190. The cat died on day 193, which was 161 days after the start of diazoxide administration. A pathological autopsy revealed one visible nodule and several small nodules in the pancreatic body. Immunohistochemistry of the pancreatic nodules showed staining for chromogranin A and insulin, indicating insulinoma as the definitive diagnosis. Renal atrophy, sclerosis of the glomeruli, severe fibrosis of the medulla and cortex, and infiltration of inflammatory cells were observed in both kidneys.

Discussion

Feline insulinoma is a rare disease, with only a few cases reported.^{1,3 –5} A definitive diagnosis of insulinoma was established by histological confirmation.^6,7 Although clinically specific indicators for a definitive diagnosis have not been established in veterinary medicine,⁸ a physiologically inappropriate normal-to-high insulin concentration in the presence of hypoglycaemia is considered the most accurate criterion for a preliminary diagnosis in dogs.⁷ Standard diagnostic criteria for cats are yet to be established. In the present case, a definitive diagnosis was made via autopsy. Although AIGR, fructosamine and glycoalbumin (RI 8.5–16.5%; Fuji Film Vet Systems) in this case were approximately the lower limit of the RI, a high level of insulin with hypoglycaemia was observed. These results suggest that it is difficult to establish clear diagnostic criteria for feline insulinoma and that it is necessary to make a comprehensive assessment for the ante-mortem diagnosis of feline insulinoma.

Although diazoxide has been used in dogs with insulinomas that do not respond to dietary management and prednisone,^9,10 its use has not been reported in cats, except for one case report of administration to a single cat. In the report, diazoxide was administered to a cat at a dose of 5 mg/kg q12h.¹ Hypoglycaemia improved rapidly 8 h after treatment. However, the medication was discontinued because of severe loss of appetite immediately after administration. In the present case, continuous administration was tolerated for more than 5 months. To the best of our knowledge, this is the first case report of long-term treatment with diazoxide in a cat with hypoglycaemia. Blood glucose, fructosamine and glycoalbumin levels, as well as clinical signs associated with hypoglycaemia, improved throughout the observation period. Moreover, diazoxide was effective in situations where conventional therapies, such as frequent feeding and prednisolone, were ineffective. These results suggest that diazoxide could be considered a new therapeutic option for insulinoma in cats. In this patient, it was used at the starting dose for dogs and ferrets,² and dose increase or reduction was not attempted. Therefore, an appropriate dose for cats should be established in future studies.

Several reviews have documented the adverse effects of diazoxide. According to the client information sheet provided by the British Small Animal Veterinary Association, diazoxide can cause loss of appetite, vomiting and diarrhoea.¹¹ In a previous case report involving cats, treatment was discontinued because of severe appetite loss immediately after the first administration.¹ In any case, attention should be paid to the side effects related to the upper gastrointestinal tract, such as nausea, vomiting and anorexia. Although vomiting once every 2–3 days was observed immediately after starting the medication in the present patient, the clinical signs were not severe enough to impair the cat’s quality of life. Since mild vomiting 2–3 times weekly is expected in a cat with kidney failure, there is no reliable indication that this coincided with the start of diazoxide treatment. In addition, loss of appetite related to the diazoxide treatment was not observed in this case. The patient had been prescribed an appetite stimulant, such as diazepam, for loss of appetite caused by CKD for at least 6 months. Considering this background, it could not be precisely evaluated whether diazoxide caused a reduction in appetite in this case; therefore, it is suggested that appetite stimulants could be useful for the loss of appetite caused by diazoxide. In another review, liver, kidney and/or heart failure were considered contraindications for the use of diazoxide in dogs.⁷

Association with aplastic anaemia is also described in a textbook.¹² These backgrounds support that the significant drop in haematocrit and haemoglobin after initiating diazoxide treatment in the cat could be adverse effects of diazoxide. They also could have been due to a simultaneous rapid diminution in renal function. The medical literature suggests that the diazoxide dose should be reduced in patients with renal failure.¹³ In this case, a low dosage was initiated and not increased, and the CKD was carefully monitored. Unfortunately, the precise assessment of CKD progression using blood pressure measurement or urinalysis was not performed. While there is a high possibility that diazoxide could have driven the progression of renal failure, it is hard to draw conclusions because this case had already severe CKD before treatment.

Conclusions

The long-term administration of diazoxide has been shown to be useful for improving blood glucose levels in cats with insulinoma and CKD.

Non-regenerative anaemia and vomiting frequency progressed after diazoxide treatment and could have been partially a side effect of the medication. It is necessary to prescribe diazoxide very cautiously, while monitoring the haemogram and renal function.

Conflict of interest

The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Funding

This work was supported by JSPS KAKENHI (grant number 21H02355).

Ethical approval

The work described in this manuscript involved the use of non-experimental (owned or unowned) animals. Established internationally recognised high standards (‘best practice’) of veterinary clinical care for the individual patient were always followed and/or this work involved the use of cadavers. Ethical approval from a committee was therefore not specifically required for publication in JFMS Open Reports. Although not required, where ethical approval was still obtained, it is stated in the manuscript.

Informed consent

Informed consent (verbal or written) was obtained from the owner or legal custodian of all animal(s) described in this work (experimental or non-experimental animals, including cadavers) for all procedure(s) undertaken (prospective or retrospective studies). For any animals or people individually identifiable within this publication, informed consent (verbal or written) for their use in the publication was obtained from the people involved.

© The Author(s) 2024

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