Volume 28, Number 11—November 2022
Dispatch
Imported Haycocknema perplexum Infection, United States1
, Blaine A. Mathison, Richard S. Bradbury, Teerin Liewluck, Stefan Nicolau, John C. O’Horo, David Grunst, Marcus V. Pinto, Amy A. Swanson, and Abinash Virk
Table
Characteristics of 13 case-patients who had Haycocknema perplexum (haycocknematosis) infections*
| Case-patient (reference) | Year of diagnosis | Country of diagnosis | Age, y/sex at diagnosis | Travel | Flora/fauna exposures | Duration of symptoms, y | Weakness | Weight loss, kg | Rash | Eosinophils, × 109/L | CK, U/L | AST, U/L | ALT, U/L | ESR, mm/h | Treatment | Outcome |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1 (1,5,6) |
1994/1998† |
NZ |
33†/F |
TAS,† NZ, Asia, Europe, Africa |
Native flora (botanist), bush meat consumption |
5 |
Dp, PLE, PUE |
NA |
Y |
0.17–0.8 |
5,532 |
82–228 |
92–5532 |
NA |
ALB. 400 mg, 2×/d for 8 weeks |
Near full recovery |
| 2 (1) |
1996 |
AUS |
48/M |
TAS; trip Far North QLD and NT 5 earlier |
NA |
1.5 |
PLE, PUE |
7 |
Y |
2.0 |
1,586 |
84 |
197 |
26 |
5 weeks: mebendazole, 600–900 mg 3×/d; ALB 400 daily |
Partial recovery |
| 3 (7) |
2004 |
AUS |
61/M |
TAS, Mackay (QLD) |
NA |
3 |
Da, Dp, F, Gen |
NA |
N |
High, NOS |
1,263 |
NA |
NA |
NA |
ALB, 9 weeks |
Died from complications |
| 4 (7) |
2005 |
AUS |
23/F |
Far North QLD, travel in WA, NSW and Victoria over previous 3 y |
NA |
2 |
DLE, Dp, PLE |
18 |
N |
1.1 |
1,370 |
52 |
60 |
50 |
ALB 400 mg 2×/d for 8 weeks |
Partial recovery |
| 5 (7) |
2006 |
AUS |
61/M |
Mackay (QLD) |
Exposure to native wildlife NA; No bush meat consumption |
2 |
Dp, Gen |
NA |
N |
1.36 |
1,230 |
67 |
69 |
NA |
ALB, for 8 weeks |
Partial recovery |
| 6 (9) |
2011 |
AUS |
50/M |
TAS, Ireland |
Native wildlife; consumption of bush meat and unfiltered water |
2 |
Dp, F, NE, NF, PLE>DLE, PUE>DUE |
10 |
N |
WNL |
6,218 |
NA |
92–152 |
NA |
ALB, 400 mg 2×/d for 12 weeks |
Near full recovery |
| 7 (3) |
2012 |
AUS |
80/F |
AUS, TAS, Asia, South America, Africa |
Native wildlife (animal carer); bush meat consumption NA |
1.5 |
PLE > DLE, PUE > DUE |
5 |
N |
0.7 |
270 |
NA |
NA |
15 |
ALB, 400 mg 2×/d for 12 weeks |
No functional improvement |
| 8 (2) |
2014 |
AUS |
30/M |
North QLD, Mackay, Darling Downs (QLD) |
No native wildlife, no bush meat consumption |
2 |
Da, Dp, PLE > DLE, PUE > DUE |
20 |
N |
1.24 |
3,400 |
81–118 |
142–291 |
NA |
ALB, 400 mg 2×/d for 16 weeks |
Near full recovery |
| 9 (2) |
2014 |
AUS |
72/M |
Far North QLD, WA, TAS |
Native wildlife (hunter), bush meat consumption |
>2 |
Gen |
NA |
N |
2.44 |
2,082 |
NA |
NA |
NA |
ALB, 400 mg 2×/d for several weeks |
Partial recovery |
| 10 (8) |
2016 |
AUS |
37/M |
TAS, Victoria |
Native wildlife (hunter); bush meat consumption |
2 |
PLE(A) |
NA |
N |
0.54 |
3,636 |
94 |
139 |
NA |
ALB, 400 mg 2×/d for 12 weeks |
Partial recovery |
| 11 (this study) |
2019 |
USA |
37/M |
Mackay (QLD) |
Native wildlife; no bush meat consumption |
>8 |
Dp, Fa, NF, PLE (A) > DLE, PUE > DUE |
32 |
N |
0.16 (5%) |
2,000 |
25‡ |
33‡ |
NA |
ALB, 400 mg 2×/d for 12 weeks |
Stable, no further deterioration at 19 mo after treatment |
| 12 (11) |
2021 |
AUS |
≈40/M |
North QLD, TAS |
Limited wildlife, bush meat consumption |
4 |
N |
NA |
N |
2.1 |
2,530 |
65 |
94 |
NA |
ALB, 400 mg 2×/d for 12 weeks |
Remained asymptomatic |
| 13 (11) | 2021 | AUS | ≈20/F | North QLD, Brisbane, Thailand | No known exposures | 3 | DLE, NF, PUE | 5 | N | 1.9 | 3,162 | 50–80 | 45–95 | NA | ALB, 400 mg 2×/d for 12 weeks | NA |
*A, asymmetry; ALB, albendazole; ALT, alanine aminotransferase; AST, aspartate aminotransferase; AUS, Australia; CK, creatinine kinase; Da, dysarthria or dysphonia; DLE, distal lower extremity; Dp, dysphagia; DUE, distal upper extremity; ESR, erythrocyte sedimentation rate; Fa, facial; Gen, generalized weakness not otherwise specified; N, no; NA, not available; NE, neck extensors; NF, neck flexors; NOS, not otherwise specified; NSW, New South Wales; NT, Northern Territory; NZ, New Zealand; PLE, proximal lower extremity; PUE, proximal upper extremity; QLD, Queensland; TAS, Tasmania, USA, United States; WA, Western Australia; WNL, within normal limits, Y, yes. †Patient 1 was initially misdiagnosed as having trichinosis in 1994 and was retrospectively diagnosed as having haycocknematosis in 1998. Despite an extensive previous travel history, her most extensive wildlife exposures were in Tasmania and the Australian Northern Territory. ‡AST and ALT levels for patient 11 were mildly increased in 2011, but exact values are not available. These levels were not increased during his most recent presentation.
References
- Dennett X, Siejka SJ, Andrews JR, Beveridge I, Spratt DM. Polymyositis caused by a new genus of nematode. Med J Aust. 1998;168:226–7. DOIPubMedGoogle Scholar
- Koehler AV, Spratt DM, Norton R, Warren S, McEwan B, Urkude R, et al. More parasitic myositis cases in humans in Australia, and the definition of genetic markers for the causative agents as a basis for molecular diagnosis. Infect Genet Evol. 2016;44:69–75. DOIPubMedGoogle Scholar
- Vos LJ, Robertson T, Binotto E. Haycocknema perplexum: an emerging cause of parasitic myositis in Australia. Commun Dis Intell Q Rep. 2016;40:E496–9.PubMedGoogle Scholar
- Haycocknema perplexum: life threatening disease of humans, 2018 [cited 2022 Jan 2]. https://www.wildlifehealthaustralia.com.au/Portals/0/Documents/FactSheets/Public%20health/Haycocknema%20perplexum.pdf
- Andrews JR, Ainsworth R, Abernethy D. Trichinella pseudospiralis in humans: description of a case and its treatment. Trans R Soc Trop Med Hyg. 1994;88:200–3. DOIPubMedGoogle Scholar
- Andrews JR, Ainsworth R, Pozio E. Nematodes in human muscle. Parasitol Today. 1997;13:488–9. DOIPubMedGoogle Scholar
- Basuroy R, Pennisi R, Robertson T, Norton R, Stokes J, Reimers J, et al. Parasitic myositis in tropical Australia. Med J Aust. 2008;188:254–6. DOIPubMedGoogle Scholar
- Koehler AV, Leung P, McEwan B, Gasser RB. Using PCR-based sequencing to diagnose Haycocknema perplexum infection in human myositis case, Australia. Emerg Infect Dis. 2018;24:2368–70. DOIPubMedGoogle Scholar
- McKelvie P, Reardon K, Bond K, Spratt DM, Gangell A, Zochling J, et al. A further patient with parasitic myositis due to Haycocknema perplexum, a rare entity. J Clin Neurosci. 2013;20:1019–22. DOIPubMedGoogle Scholar
- Spratt DM, Beveridge I, Andrews JR, Dennett X. Haycocknema perplexum n. g., n. sp. (Nematoda: Robertdollfusidae): an intramyofibre parasite in man. Syst Parasitol. 1999;43:123–31. DOIPubMedGoogle Scholar
- Ward K, Krishnan A, R Iyengar K, Robertson T, White R, Urkude R. Haycocknema perplexum myositis: the first description of subclinical disease and a proposed distinctive triad to evoke clinical suspicion. BMJ Neurol Open. 2022;4:
e000290 . DOIPubMedGoogle Scholar
1This study was presented as a late breaker abstract at the 68th Annual Meeting of the American Society of Tropical Medicine and Hygiene, November 20‒24, 2019, National Harbor, Maryland, USA.