E-ISSN 2218-6050 | ISSN 2226-4485
 

Short Communication


Open Veterinary Journal, (2021), Vol. 11(3): 342–345

Short Communication

10.5455/OVJ.2021.v11.i3.2

A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide

Koji Iwanaga1, Ryuji Araki1,2,3 and Mitsuhiro Isaka3*

1Tokyo Veterinary Cardiology Center, Tokyo, Japan

2Yokohama Yamate Dog & Cat Medical Center, Kanagawaken, Japan

3Department of Small Animal Clinical Sciences, School of Veterinary Medicine, Rakuno Gakuen University, Ebetsu, Japan

*Corresponding Author: Mitsuhiro Isaka. Department of Small Animal Clinical Sciences, School of Veterinary Medicine, Rakuno Gakuen University, Ebetsu, Japan. Email: m-isaka [at] rakuno.ac.jp

Submitted: 01/04/2021 Accepted: 10/06/2021 Published: 10/07/2021


Abstract

Background: The use of thiazide diuretics is recommended in the American College of Veterinary Internal Medicine guidelines for advanced heart failure due to mitral insufficiency (MI) in dogs. However, there are no large-scale reports of the use of thiazide diuretics in dogs with advanced heart failure.

Aim: This retrospective study evaluated the therapeutic effect of concomitant hydrochlorothiazide (HTCZ) with loop diuretics in dogs with heart failure.

Methods: The study included 14 dogs diagnosed with advanced pulmonary edema with MI at two facilities. In all cases, high-dose loop diuretics (torsemide; 0.78–4 mg/kg/day) did not improve pulmonary edema. The results of the echocardiography and renal function tests before and after the administration of HTCZ (0.2–0.84 mg/kg/day) in addition to torsemide were statistically compared.

Results: The echocardiographic data demonstrated significant improvement in relation to cardiac stress; left atrium to the aorta ratio, normalized left ventricular internal dimension in diastole, and E wave velocity (m/s) after HTCZ administration. However, blood urea nitrogen and creatinine levels increased, and potassium levels decreased, indicating a decline in renal function following HTCZ administration.

Conclusion: This study suggests that the administration of HTCZ in combination with loop diuretics may be beneficial during advanced heart failure due to MI in dogs. The results can also be extended to patients who are resistant to loop diuretics, resulting in the improvement of cardiac function. However, as the combination of HTCZ and loop diuretics can deteriorate renal function, caution should be exercised prior to making recommendations regarding its use, and renal function should be monitored.

Keywords: Echocardiology, Hydrochlorothiazide, Loop diuretic, Mitral insufficiency, Pulmonary edema.


Introduction

Mitral insufficiency (MI) is the most common form of acquired heart disease in dogs, accounting for 75% of all cases in North America (Borgarelli and Haggstrom, 2010). Small dogs, such as the Cavalier King Charles Spaniel, are the most common breed, with most being small dogs being middle-aged. MI causes volume overload in the left heart system and manifests in the form of congestive left heart failure and pulmonary edema, causing respiratory distress (Borgarelli and Haggstrom, 2010). In severe cases, signs due to anterior output failure, such as exercise intolerance are also observed (Atkins and Häggström, 2012). Fainting attacks are sometimes seen and are deemed a poor prognostic factor (Borgarelli et al., 2008). In 2019, the American College of Veterinary Internal Medicine (ACVIM) published new guidelines for diagnosing and treating MI (Keene et al., 2019). The ACVIM guidelines recommend treatment with diuretics, mainly loop diuretics, after MI and Stage C severity. However, there are no large-scale reports on the use of thiazide diuretics in veterinary medicine, and the dose and effect determination is left to the veterinarian’s judgment. Heart disease is on the rise with the increasing lifespan of dogs, and evidence related to its treatment with thiazide diuretics needs to be established. The concomitant use of thiazide and loop diuretics was previously reported in a human patient with heart disease who was resistant to treatment with loop diuretics (Jentzer et al., 2010). The long-term use of loop diuretics leads to the up-regulation of the thiazide-sensitive sodium ion transporter present in the distal tubules and hypertrophy of distal tubule cells. With loop diuretics alone, sodium ions, which have escaped reabsorption in the Loop of Henle, are reabsorbed in the distal tubules, which weaken the effect. Therefore, it has been reported in human medical treatment that to achieve a strong diuretic effect, the concomitant use of a thiazide diuretic inhibits the sodium6 chloride cotransport in distal tubules is required (Ellison, 1991; Sica and Gehr, 1996; Kim, 2004). This study evaluated the effect of a combination of thiazide and loop diuretics in dogs with heart failure due to MI that was unresponsive to high-dose loop diuretics alone. There are various thiazide diuretics, and in this study, hydrochlorothiazide (HTCZ) was used, which has been reported in human medicine (Robson et al., 1964; Dettli and Spring, 1966; Dormans and Gerlag, 1996; Vánky et al., 1997). The purpose of this study was to retrospectively evaluate the effects of using two drugs (HTCZ and loop diuretics) using echocardiography and renal function tests.


Material and Methods

Fourteen dogs were diagnosed with advanced pulmonary edema with MI at two facilities, Tokyo Veterinary Cardiology Center and Yokohama Yamate Dog and Cat Medical Center. The breeds of the cases were as follows: Chihuahua (n=6), Boston Terrier (n=1), Pomeranian (n=1), Cavalier King Charles Spaniel (n =1), Cockapoo (n=1), Shih Tzu (n=1), Toy Poodle (n=2), and Miniature Schnauzer (n=1). The mean body weight and age were 4.9 ± 2.2 kg and 132 ± 22 months, respectively. Physical examinations, chest X-rays, and echocardiography were mainly used for the diagnosis. LOGIC e9 (GE Health care Japan) (probe: 6S) was used at Tokyo Veterinary Cardiology Center for the echocardiography and Xario (TOSHIBA) (probe: PST-50AT) was used at Yokohama Yamate Dog and Cat Medical Center. All cases presented with severe MI, and the radiographic examination confirmed hyper-permeability of the lung field. As a result, all 14 dogs were diagnosed with cardiogenic pulmonary edema. In all cases, high-dose loop diuretics did not ameliorate pulmonary edema, and as such, the dogs were classified as having advanced pulmonary edema. Detailed information on the cases is summarized in Table 1. High doses of torsemide (1.49 ± 0.81 mg/kg/day), angiotensin-converting-enzyme inhibitor (1.19 ± 0.56 mg/kg/day), and pimobendan (0.97 ± 0.32 mg/kg/day) were used in all the cases. The amounts of torsemide and HTCZ are also shown in Table 2. Torsemide was administered in a wide range (0.78–4 mg/kg/day) as the renal side effects varied based on the patient. The results of the echocardiography and renal function tests before and after the administration of HTCZ were compared. Statistical differences between the two groups were compared using Welch’s t-test. A p value < 0.05 was considered to be statistically significant.


Results and Discussion

The echocardiographic data showing cardiac stress improved significantly following the administration of HTCZ. The left atrium to the aorta ratio (LA/Ao) decreased from 3.18 ± 0.5 to 2.97 ± 0.55, normalized left ventricular internal dimension in diastole (LVIDDN) decreased from 2.23 ± 0.22 to 2.15 ± 0.33, and E wave velocity decreased from 1.7 ± 0.2 m/s to 1.5 ± 0.1 m/s following HTCZ administration. Furthermore, heart rate also improved (data not shown). As shown in Tables 3 and 4, a decline in renal function was observed with the following metrics following HTCZ administration: blood urea nitrogen increased from 41.3 ± 17.3 mg/dl to 75.8 ± 38.5 mg/dl, creatinine increased from 1.1 ± 0.4 mg/dl to 1.9 ± 1.2 mg/dl, and potassium ions decreased from 3.78 ± 0.48 mEq/l to 3.33 ± 0.33 mEq/l.

Grade classification and treatment methods are described in the ACVIMclassification for MI (Keene et al., 2019). Although loop diuretics such as furosemide and torsemide are often used in treating MI after Stage C, some patients with heart failure are resistant to treatment with loop diuretics. Patients with refractory heart failure are classified as Stage D according to the ACVIM classification, and the use of thiazide diuretics is considered for these patients (Keene et al., 2019). In human medical treatment, resistance to loop diuretics has been reported, and concomitant use of thiazide diuretics is recommended in such cases (Vánky et al., 1997). However, there is no report summarizing the treatment effects of HTCZ in combination with loop diuretics in heart failure due to MI in dogs. This study investigated 14 cases in which a combination of HTCZ and loop diuretics was used to treat heart failure due to MI. The dogs had been previously treated with loop diuretics; however, they did not respond to the treatment. The criteria for resistance to loop diuretics in this study were assessed based on the following criteria: no reduction in cardiac load and no change in renal function even though the loop diuretics were administered at the maximum doses. Several pathological conditions in which the effects of loop diuretics are diminished in humans have been reported. It has been reported that the renin-angiotensin-aldosterone system and sympathetic nervous system are enhanced in cases of high sodium intake, intestinal malabsorption, non-steroidal anti-inflammatory use, hypoalbuminemia, and in cases where sodium reabsorption is promoted in the distal nephrons (Jentzer et al., 2010). Although the echocardiography results improved significantly following the administration of HTCZ, a marked decline in renal function was also observed. It was suggested that the combination therapy of low-dose thiazide diuretics effectively improves heart failure resistance to loop diuretics. There is no previous report on the use of HTCZ in MI-induced heart failure in dogs. Although loop diuretic resistance is a condition encountered in human medicine, loop diuretic resistance should also be considered in dogs if high doses do not produce a marked effect.

This study has some limitations. First, renal function was measured by blood tests. If possible, urine volume and urine-specific gravity should also be measured to further understand the effects of a combination of HTCZ and loop diuretics on renal function. Second, this study had a small sample size. Further studies must include a higher number of cases. However, this study suggests that the administration of HTCZ is beneficial in advanced heart failure due to MI in dogs and may be further applied to patients who are resistant to loop diuretics.

Table 1. Case data, and type and dose of diuretics.

Table 2. Type and dose of angiotensin-converting enzyme inhibitors and pimobendane in all cases.

Table 3. Echocardiographic parameters before and after HTCZ administration.

Table 4. Renal function parameters before and after HTCZ administration.


Acknowledgements

The authors would like to thank Editage (www.editage.com) for English language editing.

Author contributions

Dr. Koji Iwanaga and Dr. Ryuji Araki collected data and prepared the manuscript. Dr. Isaka and approved the final version.

Conflict of interest

The authors declare that there is no conflict of interest.


References

Atkins, C.E. and Häggström, J. 2012. Pharmacologic management of myxomatous mitral valve disease in dogs. J. Vet. Cardiol. 14, 165–184.

Borgarelli, M. and Haggstrom, J. 2010. Canine degenerative myxomatous mitral valve disease: natural history, clinical presentation and therapy. Vet. Clin. North. Am. Small. Anim. Pract. 40, 651–663.

Borgarelli, M., Savarino, P., Crosara, S., Santilli, R.A., Chiavegato, D., Poggi, M., Bellino, C., Rosa, G.L., Zanatta, R., Haggstrom, J., Tarducci, A. 2008. Survival characteristics and prognostic variables of dogs with mitral regurgitation attributable to myxomatous valve disease. J. Vet. Intern. Med. 22, 120–128.

Dettli, L. and Spring, P. 1966. Therapy with combinations of diuretic agents: comparative studies. Ann. N. Y. Acad. Sci. 139, 471–480.

Dormans, T.P. and Gerlag, P.G. 1996. Combination of high-dose furosemide and hydrochlorothiazidee in the treatment of refractory congestive heart failure. Eur. Heart. J. 17, 1867–1874.

Ellison, DH. 1991. The physiologic basis of diuretic synergism: its role in treating diuretic resistance. Ann. Intern. Med. 114, 886–894.

Jentzer, J.C., DeWald, T.A. and Hernandez, A.F. 2010. Combination of loop diuretics with thiazide-type diuretics in heart failure. J. Am.Coll. Cardiol. 56, 1527–1534.

Keene, B.W., Atkins, C.E., Bonagura, J.D., Fox, P.R., Häggström, J., Fuentes, V.L., Oyama, M.A., Rush, J.E., Stepien, R. and Uechi, M. 2019. ACVIM consensus guidelines for the diagnosis and treatment of myxomatous mitral valve disease in dogs. J. Vet. Intern. Med. 33, 1127–1140.

Kim, G.H. 2004. Long-term adaptation of renal ion transporters to chronic diuretic treatment. Am. J. Nephrol. 24, 595–605.

Robson, A.O., Kerr, D.N., Ashcroft, R. and Teasdale, G. 1964. The diuretic response to frusemide. Lancet 2, 1085–1088.

Sica, D. A. and Gehr, T.W. 1996. Diuretic combinations in refractory oedema states: pharmacokinetic-pharmacodynamic relationships. Clin. Pharmacokinet. 30, 229–249.

Vánky, F., Broquist, M. and Svedjeholm, R. 1997. Addition of a thiazide: an effective remedy for furosemide resistance after cardiac operations. Ann. Thorac. Surg. 63, 993–997.



How to Cite this Article
Pubmed Style

Iwanaga K, Araki R, Isaka M. A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide. Open Vet J. 2021; 11(3): 342-345. doi:10.5455/OVJ.2021.v11.i3.2


Web Style

Iwanaga K, Araki R, Isaka M. A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide. https://www.openveterinaryjournal.com/?mno=69325 [Access: November 08, 2024]. doi:10.5455/OVJ.2021.v11.i3.2


AMA (American Medical Association) Style

Iwanaga K, Araki R, Isaka M. A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide. Open Vet J. 2021; 11(3): 342-345. doi:10.5455/OVJ.2021.v11.i3.2



Vancouver/ICMJE Style

Iwanaga K, Araki R, Isaka M. A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide. Open Vet J. (2021), [cited November 08, 2024]; 11(3): 342-345. doi:10.5455/OVJ.2021.v11.i3.2



Harvard Style

Iwanaga, K., Araki, . R. & Isaka, . M. (2021) A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide. Open Vet J, 11 (3), 342-345. doi:10.5455/OVJ.2021.v11.i3.2



Turabian Style

Iwanaga, Koji, Ryuji Araki, and Mitsuhiro Isaka. 2021. A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide. Open Veterinary Journal, 11 (3), 342-345. doi:10.5455/OVJ.2021.v11.i3.2



Chicago Style

Iwanaga, Koji, Ryuji Araki, and Mitsuhiro Isaka. "A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide." Open Veterinary Journal 11 (2021), 342-345. doi:10.5455/OVJ.2021.v11.i3.2



MLA (The Modern Language Association) Style

Iwanaga, Koji, Ryuji Araki, and Mitsuhiro Isaka. "A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide." Open Veterinary Journal 11.3 (2021), 342-345. Print. doi:10.5455/OVJ.2021.v11.i3.2



APA (American Psychological Association) Style

Iwanaga, K., Araki, . R. & Isaka, . M. (2021) A retrospective study of 14 dogs with advanced heart failure treated with loop diuretics and hydrochlorothiazide. Open Veterinary Journal, 11 (3), 342-345. doi:10.5455/OVJ.2021.v11.i3.2