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Parasitology

The Prevalence and Diagnosis of Feline Heartworm Infection

Multimodal diagnostics can enhance detection and help to differentiate between the clinical manifestations of feline heartworm infection: heartworm-associated respiratory disease (HARD) and adult heartworm infection.

June 14, 2024 | 

Issue: July/August 2024

Rachel C. Smith

BS

Ms. Smith is a PhD student under the mentorship of Dr. Lindsay Starkey at Oklahoma State University College of Veterinary Medicine. She earned her BS in animal science from Auburn University in 2020 before beginning graduate studies at the Auburn University College of Veterinary Medicine. Her primary research focus is vector-borne infections in companion animals with an interest in diagnostics and teaching parasitology to veterinary students.

Read Articles Written by Rachel C. Smith

Daniel F. Barrantes Murillo

DVM, MS, DACVP (Anatomic Pathology)

Dr. Murillo earned his DVM degree in 2016 from the National University of Costa Rica, where he worked as a lecturer and research assistant for 3 years in the pathology department. In 2020, he obtained his master’s degree in microbiology from the University of Costa Rica. He completed a residency in anatomic pathology at Auburn University and became a diplomate of American College of Veterinary Pathologists in 2023. His research interests are arthropod-borne diseases and infectious diseases in wild animals. His PhD dissertation is focused on serological and molecular diagnosis of Dirofilaria immitis in companion animals in the United States and is scheduled to be completed in the spring of 2024.

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Lindsay A. Starkey

DVM, PhD, DACVM (Parasitology)

Dr. Starkey earned her bachelor’s degree in animal science from the University of Arkansas and her DVM and PhD degrees at Oklahoma State University, where her graduate research focused on vector-borne infections. She completed her residency training through the National Center for Veterinary Parasitology at Oklahoma State University. Dr. Starkey recently rejoined Oklahoma State University’s College of Veterinary Medicine as an associate professor after several years at Auburn University. She is a diplomate of the American College of Veterinary Microbiology with a subspecialty in parasitology. She is involved in various research projects involving vectors, vector-borne pathogens, and diagnostic parasitology. She also teaches parasitology to veterinary students and has received 2 teaching awards, most recently the Zoetis Distinguished Teacher Award. She currently serves as a board member for the National Center for Veterinary Parasitology and the American Heartworm Society.

Updated January 2025

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Lindsay A. Starkey - Featured Image
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Abstract

Infection with Dirofilaria immitis, more commonly known as heartworm, is not an issue limited to dogs. Although the observed prevalence of heartworm infection is lower in cats than in dogs, infected cats can be subject to serious and even fatal disease. Accurate diagnosis persists as a major obstacle in tackling feline heartworm infection and estimating its prevalence. Multimodal diagnostics can enhance detection and help to differentiate between the clinical manifestations of feline heartworm infection. This article briefly reviews the life cycle and clinical aspects of feline heartworm infection and focuses on optimizing diagnosis and updating prevalence information.

Take-Home Points

  • Heartworm disease in cats can be serious and even fatal and does not require the presence of adult worms to cause substantial pathology and clinical signs.
  • Cats infected with adult heartworms may suffer from acute collapse and death with or without preceding clinical signs.
  • No single diagnostic test can consistently and accurately diagnose feline heartworm infection, but a combination of diagnostics can increase likelihood of detection and help distinguish heartworm-associated respiratory disease from adult heartworm infection.
  • Although outdoor access is a major risk factor for heartworm infection, even strictly indoor cats are not protected from heartworms in the absence of compliant prevention.
  • Antigen testing alone is not a complete evaluation of feline heartworm risk, and it is likely that true exposure to, and prevalence of clinical disease caused by, heartworms is underestimated in cats.

Within the past few decades, it has become apparent that infection with Dirofilaria immitis, more commonly known as heartworm, can cause serious and even fatal disease in cats as well as dogs. Although the prevalence of heartworm infection in cats is admittedly lower than that observed in dogs, its occurrence is likely underestimated, in part due to difficulty in making an accurate diagnosis in cats.

Multimodal diagnostics can enhance detection and help to differentiate between the clinical manifestations of feline heartworm infection: heartworm-associated respiratory disease (HARD) and adult heartworm infection.

Clinical Aspects of Feline Heartworm Infection

Heartworm infection begins when third-stage D immitis larvae are deposited by a mosquito onto the host’s skin during blood feeding and invade the host through the bite wound. During their subsequent migration to the pulmonary arteries, they molt twice, to the fourth larval stage and then the immature adult stage. Immature adults arrive in the pulmonary arteries 70 to 90 days after infection; here, they complete sexual maturation and begin to reproduce.1

Dogs are usually permissive hosts and tolerate the initial arrival to the pulmonary arteries relatively well, thus allowing the heartworms to persist and complete development into mature adults. Clinical heartworm disease in dogs is most often due to mature heartworms and cumulative, chronic damage within the pulmonary arteries.1

In cats, however, the arrival of immature adult worms in the pulmonary system induces a sizable inflammatory response. While the feline immune system is often capable of eliminating the immature worms without therapeutic intervention (sometimes called “self-curing”), the death of the parasites and resulting inflammation can cause heartworm-associated respiratory disease (HARD), a serious condition.2 The most common pathological findings associated with HARD are eosinophilic infiltration of the lungs, villous endarteritis (often worst within the caudal lung lobes), and thoracic radiograph abnormalities.3-5 Clinically, HARD most often manifests with coughing, dyspnea, and vomiting,6 with an onset approximately 3 months postinfection, coinciding with arrival and death of immature parasites in the pulmonary system.

Less frequently, immature parasites survive the cat’s immune response and adult heartworm infection develops. Presence of adult worms induces pathology in the lungs and pulmonary vessels similar to that observed with HARD. Interestingly, it has been demonstrated that mature, living heartworms are immunosuppressive in cats and that they downregulate pulmonary intravascular macrophage activity.7 It is unclear why immature stages are more immunogenic than adult heartworms in cats.

It is not uncommon for a cat infected with adult heartworms to suffer acute collapse and death (FIGURE 1), regardless of whether it previously exhibited signs associated with heartworm infection.8,9 This scenario is likely attributable to death of an adult heartworm and a sudden inflammatory response or thromboembolism caused by adult worms.8 Many canine and feline heartworm infections exist in the absence of clinical signs, although failure to develop overt clinical signs does not necessarily indicate less severe pathology.

Figure 1. Photo taken at necropsy demonstrating natural heartworm infection in a cat that died suddenly after sharing a household with a dog with heartworm disease. Courtesy Dr. Sarah Morar Schneider, University of Georgia

Feline heartworm infections rarely become microfilaremic, and when microfilaremia has been observed in cats, it has been only transiently detectable, with low numbers of microfilariae.10 This would indicate that cats do not routinely contribute to the transmission of heartworm to mosquitoes and subsequently other hosts.

Optimizing Diagnosis: A Multimodal Approach

Recommendations regarding diagnostic testing and screening for heartworm infection in dogs are straightforward: Perform an antigen test and a microfilaria test for every dog, every year.11 The tendency for heartworm-infected cats to develop clinical disease in the absence of detectable antigen or microfilariae (or despite elimination of the parasite altogether) makes diagnosis and formulating feline diagnostic guidelines difficult. No sole test performs sufficiently for diagnosing feline heartworm infection. Utilizing multiple diagnostic tests both dramatically improves the likelihood of diagnosis and aids in differentiating the type of heartworm infection—HARD or adult heartworms (FIGURE 2).

Antibody Testing

Cats initially infected with third-stage larvae can seroconvert as early as 1 to 2 months postinfection, and it was demonstrated under experimental conditions that all cats seroconverted by 5 months postinfection.12 In the same study, at least 90% of cats seroconverted by 3 months postinfection, coinciding with the typical time for the onset of HARD symptoms.12

The primary limitation of antibody testing is that it cannot delineate between historical and current infection, and the longevity of antibody titer persistence is not well established and likely varies between individuals. However, antibody positivity in the presence of consistent clinical signs and history should strongly increase the suspicion for HARD or adult heartworm infection. A positive antibody test result in a clinically healthy cat indicates both exposure risk and the possibility of current infection. In these cases, the cat should be started on heartworm prevention and the owner should be educated regarding not only the importance of continued year-round prevention but also the possibility that clinical signs could develop and what to look for. Conversely, a negative test drastically lowers, but does not completely eliminate, the index of suspicion and helps to lessen the probability of heartworm as the cause of respiratory signs.

Download and share this client handout on feline heartworm disease.

For these reasons, and because it is relatively inexpensive, antibody testing can be very beneficial as a first step in the diagnostic workup for suspected feline heartworm infection. However, it is possible for cats with other evidence of heartworm infection (e.g., positive antigen test result, worms visualized on echocardiography, adult worms recovered at necropsy) to have negative antibody test results.6,13-15 Although uncommon, this finding underscores the importance of a multimodal approach for diagnosis of feline heartworm infection.

Antigen Testing

Due to the interplay of heartworms and the feline immune system, antigen testing alone is generally considered a less reliable diagnostic method in cats. Combining antigen detection with antibody testing increases the diagnostic value. A positive antigen test is highly suggestive of adult heartworm infection, especially if other diagnostic tests and/or the case history fit with the positive result. However, a negative antigen test result should be interpreted as inconclusive. It is possible that the cat may be truly negative. Alternatively, the result could be falsely negative due to low worm burden, immature worms, male-only infection (commercial tests target an antigen primarily expressed by the reproductive tract of mature female worms), or immune-complex formation binding any available antigen and rendering it undetectable. Because cats typically mount a strong antibody response to immature adult heartworms early in infection, antibody binding of antigen likely reduces test sensitivity and results in false negatives.16

When heartworm infection is suspected in a cat, heating the samples prior to antigen testing should be considered, as it causes immune-complex dissociation and improves test performance17,18; however, this recommendation is contrary to label indications of the diagnostic tests. A negative antigen test result in conjunction with a positive antibody test result and associated clinical signs is highly indicative of HARD.

Thoracic Radiography

Thoracic radiography may provide useful supportive evidence for diagnosis of both HARD and adult heartworm infection (FIGURE 3). Multiple studies have sought to establish a conclusive relationship between specific radiographic changes and heartworm infection status in cats, as this has been a successful diagnostic approach in dogs.3,5,14,19 However, radiographic changes in cats are variable, have not been able to consistently predict heartworm infection status, and are often indistinguishable from those caused by other respiratory disease. Nonetheless, in cats with suspicion of heartworm infection based on serologic findings and history, thoracic radiography may help to support diagnosis and evaluate lesion severity.

Figure 3. Thoracic radiographs demonstrating abnormalities associated with heartworm infection in a domestic shorthair shelter cat. (A) Dorsoventral radiographic view showing diffuse bronchointerstitial pattern with enlargement of the caudal lobar pulmonary artery (arrowhead).
Figure 3B. Right lateral radiographic view showing a diffuse bronchointerstitial pattern within the lung area. The cat was heartworm antigen–positive and had variable heartworm antibody test results depending on the assay used. Radiographic analysis showed an arteriole wall to lumen ratio of 96.76% (occlusive hypertrophy) and a radiographic score of 2 (0–3 scale). One female heartworm was recovered at necropsy.

The most common radiographic findings in heartworm-infected cats are pulmonary arterial enlargement and increased bronchointerstitial pattern, particularly in the caudal lung lobes.3,5,14,19 Radiographic changes in cats with heartworm infection have not been found to differ significantly.3

Echocardiography

Echocardiography has proven to be a useful tool for visualizing and diagnosing adult heartworm infection in cats.20,21 Adult worms within the pulmonary arteries or cardiac chambers appear as characteristic double-lined structures, sometimes called “train tracks.” Enumerating worms via echocardiography is possible, although the accuracy of this method for determining worm burden is not consistent.21 Accurate enumeration of worms may not be of much clinical relevance since even a single worm can be of serious consequence for a cat.

It was previously thought that visualization of worm structures on echocardiography was conclusively diagnostic; however, false positives can occur even with a trained eye.21 Visualization of supposed worm structures on echocardiography in conjunction with a positive antigen test result is as close to a definitive antemortem confirmation of adult heartworm infection as can be achieved.

Conflicting results, such as a positive antigen test result in the absence of echocardiographic evidence or, conversely, echocardiographic evidence of adult worms with a negative antigen test result, present a more complex diagnostic picture but do not necessarily rule out infection. It is possible that the infection is undetectable by echocardiography or that antigen is below the detectable threshold, bound by antibody complexes, or absent (i.e., the infection is immature or there are male worms only).

Microfilaria Testing

Since microfilaremia is rare or transient in cats infected with heartworm,10 tests for the recovery or detection of microfilariae are unlikely to be accurate diagnostic methods. The modified Knott’s test and polymerase chain reaction testing do offer the advantages of being relatively sensitive as well as allowing species-level identification of microfilariae, which is important as other filarial infections that result in microfilaremia have been reported in cats in the United States.15 If microfilariae are recovered, the possibility of infection with a filariid other than heartworm should not be ruled out until the species is definitively identified.

Prevalence And Risk Trends

Evaluating feline heartworm prevalence is difficult for the same reason as is making a confident diagnosis: lack of a single, reliable test that is commonly used and easily available. It is estimated that feline heartworm infection prevalence is 5% to 20% of the canine infection prevalence in the same geographic area.22 Most studies comparing canine and feline prevalence among similar populations have corroborated this estimate.15,23 In a nationwide study comparing antigen prevalence among shelter-housed and owned cats (n=34975), prevalence in both populations was found to be 0.4%, with outdoor access increasing risk of infection threefold.24 Although outdoor exposure is a major risk factor for infection, the perception that indoor cats are protected from heartworm infection is a myth debunked by several studies that found strictly indoor cats to be infected with heartworms.6,8,24 A separate nationwide study that evaluated healthy pet cats found an antigen prevalence of 0.3% but a substantially higher antibody prevalence of 3.5%.25

Summary

Although adult heartworm infection seems relatively uncommon in cats, even among high-risk populations, antigen prevalence is not a completely accurate metric for assessing true risk of infection or prevalence of clinical disease caused by heartworms. Additionally, housing cats indoors does not completely protect them from infection with or disease related to heartworm. Regardless of lifestyle, year-round heartworm prevention is a necessity to completely protect cats from both HARD and adult heartworm infection.

References

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  2. Blagburn BL, Dillon AR. Feline heartworm disease: solving the puzzle. dvm360. March 1, 2007. Accessed April 12, 2024. https://www.dvm360.com/view/feline-heartworm-disease-solving-puzzle
  3. Dillon AR, Blagburn BL, Tillson M, et al. Heartworm-associated respiratory disease (HARD) induced by immature adult Dirofilaria immitis in cats. Parasit Vectors. 2017;10(suppl 2):514. doi:10.1186/s13071-017-2452-6
  4. Browne LE, Carter TD, Levy JK, Synder PS, Johnson CM. Pulmonary arterial disease in cats seropositive for Dirofilaria immitis but lacking adult heartworms in the heart and lungs. Am J Vet Res. 2005;66(9):1544-1549. doi:10.2460/ajvr.2005.66.1544
  5. Holmes RA, Clark JN, Casey HW, Henk W, Plue R. Histopathologic and radiographic studies of the development of heartworm pulmonary vascular disease in experimentally infected cats. Proceeding presented at: American Heartworm Society Triennial Symposium; March 27-29, 1992; Austin, Texas. Accessed April 12, 2024.
  6. Atkins CE, DeFrancesco TC, Coats JR, Sidley JA, Keene BW. Heartworm infection in cats: 50 cases (19851997). JAVMA. 2000;217(3):355358. doi:10.2460/javma.2000.217.355
  7. Dillon AR, Warner AE, Brawner W, Hudson J, Tillson M. Activity of pulmonary intravascular macrophages in cats and dogs with and without adult Dirofilaria immitis. Vet Parasitol. 2008;158(3):171176. doi:10.1016/j.vetpar.2008.09.004
  8. Genchi C, Venco L, Ferrari N, Mortarino M, Genchi M. Feline heartworm (Dirofilaria immitis) infection: a statistical elaboration of the duration of the infection and life expectancy in asymptomatic cats. Vet Parasitol. 2008;158(3):177182. doi:10.1016/j.vetpar.2008.09.005
  9. Robertson-Plouch CK, Dillon AR, Brawner WR, Guerrero J. Prevalence of feline heartworm infections among cats with respiratory and gastrointestinal signs: results of a multicenter study. Vet Ther. 2000;1(2):8895.
  10. McCall JW, Dzimianski MT, McTier TL, et al. Biology of experimental heartworm infections in cats. Proceeding presented at: American Heartworm Society Triennial Symposium; March 27-29, 1992; Austin, Texas. Accessed April 12, 2024.
  11. Nelson CT, McCall JW, Jones S, Moorhead A. Highlights of the current canine guidelines for the prevention, diagnosis, and management of heartworm (Dirofilaria immitis) infection in dogs. American Heartworm Society. 2020. Accessed December 12, 2023. https://d3ft8sckhnqim2.cloudfront.net/images/pdf/AHS_Canine_Guidelines_11_13_20.pdf?1605556516
  12. McCall JW, Guerrero J, Supakorndej P, et al. Evaluation of the accuracy of heartworm antigen and antibody for cats. Proceeding presented at: American Heartworm Society Heartworm Symposium; May 1-3, 1998; Tampa, Florida. Accessed April 12, 2024.
  13. Berdoulay P, Levy JK, Snyder PS, et al. Comparison of serological tests for the detection of natural heartworm infection in cats. JAAHA. 2004;40(5):376384. doi:org/10.5326/0400376
  14. Dillon AR, Brawner WR, Robertson-Plouch CK, Guerrero J. Feline heartworm disease: correlations of clinical signs, serology, and
    other diagnostics    results of a multicenter study. Vet Ther. 2000;1(3):176182.
  15. Hays KM, Rodriguez JY, Little SE, et al. Heartworm prevalence in dogs versus cats: multiple diagnostic modalities provide new insights. Vet Parasitol. 2020;277S:100027. doi:10.1016/j.vpoa.2020.100027
  16. Little SE, Saleh M, Wholtjen M, Nagamori Y. Prime detection of Dirofilaria immitis: understanding the influence of blocked antigen on heartworm test performance. Parasit Vectors. 2018;11:186. doi:10.1186/s13071-018-2736-5
  17. Little SE, Raymond MR, Thomas JE, et al. Heat treatment prior to testing allows detection of antigen of Dirofilaria immitis in feline serum. Parasit Vectors. 2014;7:1. doi:10.1186/1756-3305-7-1
  18. Gruntmeir JM, Adolph CB, Thomas JE, Reichard MV, Blagburn BL, Little SE. Increased detection of Dirofilaria immitis antigen in cats after heat pretreatment of samples. J Feline Med Surg. 2017;19(10):10131016. doi:10.1177/1098612X16670562
  19. Venco L, Genchi C, Genchi M, Grandi G, Kramer LH. Clinical evolution and radiographic findings of feline heartworm infection in asymptomatic cats. Vet Parasitol. 2008;158(3):232237. doi:10.1016/j.vetpar.2008.09.011
  20. Selcer BA, Newell SM, Mansour AE, McCall JW. Radiographic and 2D echocardiographic findings in eighteen cats experimentally exposed to D. immitis via mosquito bites. Vet Radiol Ultrasound. 1996;37(1):3744. doi:10.1111/j.1740-8261.1996.tb00810.x
  21. Atkins CE, Arther RG, Ciszewski DK, et al. Echocardiographic quantification of Dirofilaria immitis in experimentally infected cats. Vet Parasitol. 2008;158(3):164170. doi:10.1016/j.vetpar.2008.09.003
  22. Ryan WG, Newcomb KM. Prevalence of feline heartworm disease-a global review. Proceeding presented at: American Heartworm Society Heartworm Symposium; March 31-April 2, 1995; Auburn, Alabama. Accessed April 12, 2024.
  23. Venco L, Genchi M, Genchi C, Gatti D, Kramer L. Can heartworm prevalence in dogs be used as provisional data for assessing the prevalence of the infection in cats? Vet Parasitol. 2011;176(4):300303. doi:10.1016/j.vetpar.2011.01.013
  24. Levy JK, Burling AN, Crandall MM, Tucker SJ, Wood EG, Foster JD. Seroprevalence of heartworm infection, risk factors for seropositivity, and frequency of prescribing heartworm preventives for cats in the United States and Canada. JAVMA. 2017;250(8):873880. doi:10.2460/javma.250.8.873
  25. Barrantes Murillo DF, Starkey L, Wood T, et al. A nationwide serological survey for Dirofilaria immitis in companion cats in the United States of America: 3.5% antibody and 0.3% antigen positivity. Parasit Vectors. 2023;16(1):296. doi:10.1186/s13071-023-05829-7

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