Comparison of the Antiphospholipid Syndrome to Medical Syndromes of Captive Black Rhinoceroses (Diceros bicornis)
IAAAM Archive
Ray L. Ball1, DVM; Matthew Morrow2, MS, MT (ASCP)
1Busch Gardens Tampa Bay, Tampa, FL, USA; 2Warren Magnuson Clinical Center, National Institutes of Health, Bethesda, MD, USA

Abstract

The antiphospholipid syndrome (APS) is defined as the occurrence of venous and arterial thrombosis, recurrent fetal losses, and frequently a moderate thrombocytopenia in the presence of the phospholipid antibodies (aPL), namely lupus anticoagulant (aLA), anticardiolipin antibodies (aCL), or both.1 This is a broad definition for a syndrome that can affect virtually any body system. Deep venous thromboses (DVT) and pulmonary embolism (PE) are among the most common clinical presentations of APS. Major vessel occlusion has also been described in virtually every vessel, including the aorta, branches of the aorta, inferior vena cava, hepatic vein, portal vein, intra-abdominal and intracranial vessels, and peripheral vasculature of the extremities. The aPL antibody is associated with many cutaneous conditions, including livedo reticularis, superficial thrombophlebitis, cutaneous necrosis, digital ischemia, gangrene, stasis ulcers of the ankles, epidermal atrophy, splinter hemorrhages of the nailbeds, non-necrotizing purpura, and blue-toe syndrome. Recurrent fetal loss is another major component of APS. Cardiac valvular disease is also common in patients with APS. The aPL proteins result in anti-coagulant activity in vitro, hence prolonged activated partial thromboplastin time (aPTT), but actually cause a hypercoaguable state in vivo. The pathogenesis of APS is quite simply thrombosis regardless of the organ system involved.1

Black rhinoceros in captivity have been plagued by a host of clinical entities. These include superficial necrolytic dermatitis (SND),11 hemosiderosis,8,12 hemolytic2,9,15 and non-hemolytic12,13 anemias, and most recently the idiopathic hemorrhagic vasculopathy syndrome (IHVS) has been described in a group of black rhinoceros.13 Other conditions affecting black rhinoceros include encephalomalacia10 and necrotic laminar disease.14 Infectious conditions ranging from Salmonella sp.,6 Aspergillus pneumonia,16 and leptospirosis3 have all been documented. Recurrent embryonic/fetal loss has been seen in one female by the author and in captive Sumatran rhinoceros (T. Roth, pers. comm.).

Comparisons between APS and black rhinoceros syndromes may not be obvious at first but there may be some parallels (Table 1). Again, the underlying pathogenesis for all the conditions may be thromboembolic events. Other manifestations and criteria that constitute APS in rhinoceros have been seen sporadically. Thrombocytopenia is a hallmark of the condition. Recently, platelet counts were performed on wild black rhinoceros within 4 hr of sampling. The results indicate a significantly (P < 0.05) higher platelet count4 than is normally accepted for captive rhinoceros.5 A previous study7 reported platelet counts in the same range as those reported by the International Species Inventory System (ISIS) but these samples were not analyzed for up to 24 hr after transport. Table 2 shows platelet counts of black rhinoceros at Busch Gardens, Tampa, Florida in comparison with other reported values.4,5 The females consistently had platelets counts above the ISIS mean and comparable to wild rhinoceros. The male has a non-hemolytic anemia and weight loss for several years with platelet counts below those of wild-caught animals. On at least one occasion, this male has demonstrated a prolonged APTT, but the sample size is too small to draw conclusions. Treatment of APS consists of anti-coagulation therapy. One of the most common forms, especially in women with recurrent fetal loss, is low-dose aspirin. The male rhinoceros described above was placed on a dose of approximately 2 mg/kg aspirin (Goldline, Miami, FL 33137 USA) and platelet counts have become more comparable to wild rhinoceros after 2 wk of therapy.

In an effort to follow this lead, a black rhinoceros-specific IgG-aPL enzyme-linked immunosorbent assay (ELISA) is being developed. Once this is in place, clinical and historic samples can be evaluated for the presence of aPL and aPL-related antibodies. Another facet of this work involves the establishment of normal coagulation profiles from wild rhinoceros. In addition to this, platelet morphology and the effect that stress platelets may have on eliciting aPL antibodies will be evaluated.

Table 1. Comparisons within organ systems between APS and black rhinoceros syndromes.

System

APS

Black Rhinoceros Syndrome

Skin/Digits

Cutaneous necrosis,
livedo reticularis

Superficial necrolytic dermatitis,
laminar necrosis, IVHS

Pulmonary

Pulmonary embolism

IVHS, hemosiderosis

Cardiovascular

Valvular lesions

Valvular hemosiderosis

Reproductive

Embryonic/fetal loss

Embryonic/fetal loss

Neurologic

Embolic stroke

Encephalomalacia

Table 2. Comparisons of platelet count in black rhinoceroses.

 

ISIS

DuPlessis4

Male 1
Pre-treatment

Male 1 after
2 mg/kg
aspirin

Female 1

Female 2

Platelet count 103

284

377

288

309

449

331

SD

83

100

83

30

31

85

n

175

7

20

10

9

18

References

1.  Asherson RA, R Cervera, JT Lie. 1999. The antiphospholipid syndromes. Systemic Lupus Erythematosus. Pp. 829-869.

2.  Chaplin H Jr., AC Malecek, RE Miller, CE Bell, LS Gray, VL Hunter. 1986. Acute intravascular hemolytic anemia in the black rhinoceros: hematologic and immunohematologic observations. Am. J. Vet. Res. 47:1313-1320.

3.  Douglass EM, RE Plue. 1980. Hemolytic anemia suggestive of leptospirosis in the black rhinoceros. J. Am. Vet. Med. Assoc. 177:921-923.

4.  Du Plessis L, AJ Botha, K Stevens. 1999. Morphology of rhinoceros platelets. J. Morphol. 239:245-253.

5.  International Species Inventory System (ISIS). Normal physiologic data. 1989. Apple Valley, Minnesota.

6.  Kenny DE. 1999. Salmonella sp. survey of captive rhinoceroses in U.S. zoological institutions and private ranches. J. Zoo Wildl. Med. 30:383-388.

7.  Kock MD, R du Toit, D Morton, N Kock, B Paul. 1990. Baseline biological data collected from chemically immobilized free-ranging black rhinoceros (Diceros bicornis) in Zimbabwe. J. Zoo Wildl. Med. 21:283-291.

8.  Kock N, C Foggin, M Kock, R Kock. 1992. Hemosiderosis in the black rhinoceros (Diceros bicornis): comparison of free-ranging and recently captured with translocated and captive animals . J. Zoo Wildl. Med. 23:230-234.

9.  Miller RE, WJ Boever. 1982. Fatal hemolytic anemia in the black rhinoceros: case report and a survey. J. Am. Vet. Med. Assoc. 181:1228-1231.

10. Miller RE, RC Cambre, A de Lahunta, RE Brannian, TR Spraker, C Johnson, WJ Boever. 1990. Encephalomalacia in three black rhinoceros (Diceros bicornis). J. Zoo Wildl. Med. 21:192-199.

11. Munson L, JW Koerler, JE Wilkinson, RE Miller. 1998. Vesicular and ulcerative dermatopathy resembling superficial necrolytic dermatitis in captive black rhinoceroses (Diceros bicornis). Vet. Pathol. 35:31-42.

12. Murnane RD, SA Raverty, M Briggs, LG Phillips. 1994. Chronic recurrent anemia, massive pulmonary and systemic mineralization, chronic interstitial nephritis and membranoproliferative glomerulonephritis, and hemosiderosis with myelophthisis in a euthanized black rhinoceros (Diceros bicornis). Proc. Am. Assoc. Zoo Vet. Pp. 325-331.

13. Murray S, NP Lung, TP Alvarado, KC Gamble, MA Miller, DE Paglia, RJ Montali. 2000. Idiopathic hemorrhagic vasculopathy syndrome in seven black rhinoceros. J. Am. Vet. Med. Assoc. 216:230-233.

14. Nance M. 1998. Clinical management of severe necrotic laminar disease in an eastern black rhinoceros (Diceros bicornis michaeli) associated with an undetermined etiology. Proc. Am. Assoc. Zoo Vet./Am. Assoc. Wildl. Vet. Joint Conf. Pp. 208-211.

15. Paglia DE, WN Valentine, RE Miller, M Nakatani, RA Brockway. 1986. Acute intravascular hemolysis in the black rhinoceros: erythrocyte enzymes and metabolic intermediates. Am. J. Vet. Res. 47:1321-1325.

16. Weber M, E Miller. 1996. Fungal pneumonia in black rhinoceros (Diceros bicornis). Proc. Am. Assoc. Zoo Vet. Pp. 34-36.

Speaker Information
(click the speaker's name to view other papers and abstracts submitted by this speaker)

Ray L. Ball, DVM
Busch Gardens Tampa Bay
Tampa, FL

Matthew Morrow, MS, MT (ASCP)


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