Scholarly article on topic 'Sarcocystis nesbitti Causes Acute, Relapsing Febrile Myositis with a High Attack Rate: Description of a Large Outbreak of Muscular Sarcocystosis in Pangkor Island, Malaysia, 2012'

Sarcocystis nesbitti Causes Acute, Relapsing Febrile Myositis with a High Attack Rate: Description of a Large Outbreak of Muscular Sarcocystosis in Pangkor Island, Malaysia, 2012 Academic research paper on "Clinical medicine"

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Academic research paper on topic "Sarcocystis nesbitti Causes Acute, Relapsing Febrile Myositis with a High Attack Rate: Description of a Large Outbreak of Muscular Sarcocystosis in Pangkor Island, Malaysia, 2012"

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Sarcocystis nesbitti Causes Acute, Relapsing Febrile Myositis with a High Attack Rate: Description of a Large Outbreak of Muscular Sarcocystosis in Pangkor Island, Malaysia, 2012

Claire M. Italiano1, Kum Thong Wong2, Sazaly AbuBakar3, Yee Ling Lau4, Norlisah Ramli5, Sharifah Faridah Syed Omar1, Maria Kahar Bador6, Chong Tin Tan1*

1 Department of Medicine, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia, 2 Department of Pathology, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia, 3TIDREC, Department of Medical Microbiology, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia, 4 Department of Parasitology, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia, 5 Department of Medical Imaging, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia, 6 Department of Medical Microbiology, Faculty of Medicine, University of Malaya, Kuala Lumpur, Malaysia


Background: From the 17th to 19th January 2012, a group of 92 college students and teachers attended a retreat in a hotel located on Pangkor Island, off the west coast of Peninsular Malaysia. Following the onset of symptoms in many participants who presented to our institute, an investigation was undertaken which ultimately identified Sarcocystis nesbitti as the cause of this outbreak.

Methodology/Principal Findings: All retreat participants were identified, and clinical and epidemiological information was obtained via clinical review and self-reported answers to a structured questionnaire. Laboratory, imaging and muscle biopsy results were evaluated and possible sources of exposure, in particular water supply, were investigated. At an average of 911 days upon return from the retreat, 89 (97%) of the participants became ill. A vast majority of 94% had fever with 57% of these persons experiencing relapsing fever. Myalgia was present in 91% of patients. Facial swelling from myositis of jaw muscles occurred in 9 (10%) patients. The median duration of symptoms was 17 days (IQR 7 to 30 days;range 3 to 112). Out of 4 muscle biopsies, sarcocysts were identified in 3. S. nesbitti was identified by PCR in 3 of the 4 biopsies including one biopsy without observed sarcocyst. Non-Malaysians had a median duration of symptoms longer than that of Malaysians (27.5 days vs. 14 days, p = 0.001) and were more likely to experience moderate or severe myalgia compared to mild myalgia (83.3% vs. 40.0%, p = 0.002).

Conclusions/Significance: The similarity of the symptoms and clustered time of onset suggests that all affected persons had muscular sarcocystosis. This is the largest human outbreak of sarcocystosis ever reported, with the specific Sarcocystis species identified. The largely non-specific clinical features of this illness suggest that S. nesbitti may be an under diagnosed infection in the tropics.

Citation: Italiano CM, Wong KT, AbuBakar S, Lau YL, Ramli N, et al. (2014) Sarcocystis nesbitti Causes Acute, Relapsing Febrile Myositis with a High Attack Rate: Description of a Large Outbreak of Muscular Sarcocystosis in Pangkor Island, Malaysia, 2012. PLoS Negl Trop Dis 8(5): e2876. doi:10.1371/journal.pntd.0002876

Editor: Joseph M. Vinetz, University of California San Diego School of Medicine, United States of America

Received December 24, 2014; Accepted April 3, 2014; Published May 22, 2014

Copyright: © 2014 Italiano et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Funding: This study imaging protocol was funded with the assistance from a University of Malaya Research Grant (RG324/11HTM). The molecular work was funded by Tropical Infectious Disease Research and Education Center Internal Research Fund, University of Malaya High Impact Research Fund (UM.C/HIR/MOHE/ MED/02 and UM.C/HIR/MOHE/MED/18) and University of Malaya Research Grant (RP011-2012). Pathological studies were funded by University of Malaya High Impact Research Fund (E00004-20001) and University of Malaya HIR grant UM.C/625/HIR/MOHE/MED-06. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Competing Interests: The authors have declared that no competing interests exist.

* E-mail:


Sarcocystis spp. are intracellular protozoan parasites which may involve humans either as definitive or intermediate hosts. Humans are definitive hosts for Sarcocystis hominis and Sarcocystis suihominis, acquired by consuming undercooked sarcocyst-con-taining beef or pork, respectively. Humans can also become accidental intermediate hosts for other Sarcocystis species by consuming food or water contaminated with fecal sporocysts from an infected definitive host. In such cases, hematogenous

dissemination can occur with invasion of muscle leading to sarcocysts [1].

Asa disease, sarcocystosis is noted in a variety of animals [2] but symptomatic human disease appears to be less common, with fewer than 150 cases reported in the literature [1,3,4]. The prevalence of incidental sarcocysts in humans is also difficult to establish. A previous report showed a series of autopsy tongue muscle collected in the University of Malaya Medical Centre (UMMC), Malaysia, to be positive for sarcocysts in 21% of cases [5], yet, of the more than 1,500 limb muscle biopsies received in

Author Summary

Sarcocystis species are protozoan organisms that have been associated with disease in animals but less frequently so in humans. Following a retreat on Pangkor Island off Peninsular Malaysia, a number of persons presented to our hospital with prolonged fever and muscle pain that was initially difficult to attribute to a known infectious cause. Investigations, including muscle biopsies and PCR, showed that this outbreak was most likely due to Sarcocystis nesbitti infection. The most common clinical features were fever and myalgia that was relapsing-remitting in more than half the patients. Some patients had visible swelling of muscle groups, including of the face, with magnetic resonance imaging also demonstrating inflammation in these muscles. Herein, we present the clinical and investigation findings in 89 symptomatic persons in the largest reported outbreak of human muscular sarcocysto-sis to date. Our findings provide insights and suggestions for the most appropriate forms of investigation, treatment and possible source of infection.

the past 20 years in the same centre for routine diagnosis of various symptomatic muscle diseases, none have yielded any sarcocyst-positive tissue (Wong KT, unpublished data).

The largest clustered outbreak of symptomatic muscular sarcocystosis previously reported was in 6 American military servicemen involved in a Malaysian jungle mission [3]. There were also recent reports involving a total of 100 foreign persons with sporadic acute muscular Sarcocystis-like illness after returning from Tioman Island, off the east coast of Peninsular Malaysia, between 2011 and 2012 [4]. The association of S. nesbitti infection with symptomatic human sarcocystosis has also been recognized recently [6,7]. Herein, we report symptomatic muscular sarcocystosis affecting 89 of 92 persons following a retreat in January 2012 in Pangkor Island, off the west coast of Peninsular Malaysia. This report adds to previous molecular work [6,7] and limited clinical studies by providing a comprehensive overview of the clinical features and time course of the illness. Furthermore, the role and results of blood and imaging investigations, and muscle biopsy, in influencing diagnosis and a consideration of management options is presented.


Case Definition and Outbreak Investigation

A case was defined as a person who attended a specified retreat at a hotel on Pangkor Island, Malaysia, from the 17th to 19th January 2012, and developed relevant clinical symptoms (fever, headache, myalgia and/or arthralgia) within 28 days upon return. Cases were subsequently defined as 'definite sarcocystosis' if there was histological demonstration or nucleotide sequences of Sarcocystis spp. from muscle tissue. The remaining cases were defined as 'probable sarcocystosis'. All persons who attended the retreat, whether or not they had medical reviews at UMMC, submitted self-reported responses to a structured questionnaire aimed at ensuring that all cases were identified. To further elucidate the clinical features, participants were asked about the duration of symptoms, episodes of relapse and to describe the severity of myalgia. Myalgia was defined as 'severe', if ''excruciating'' pain was experienced, 'moderate', if daily activities were affected and analgesics required, and 'mild' if daily activities were not affected and analgesics not required. Fever referred to a subjective sensation of fever as reported by the patient. If there was

any conflicting information between the initial medical review and questionnaire responses, the medical review was taken as more accurate. Participants were also questioned regarding activities and food or water exposure to ascertain potential exposure risks during the retreat. They were also asked if any family members or contacts who did not attend the retreat reported similar symptoms.

To investigate possible sources of infection, water samples were examined as previously described [8]. Ten litre samples were collected from different places along the "gravity-feed'' water supply system (up-, middle, down stream of the water source, and from water tanks in the hotel) approximately 3 months after the outbreak.


Investigations included full blood counts (FBC), renal function tests (RFT), liver function tests (LFT), serum creatine kinase (CK) levels, chest x-rays, blood cultures, and blood films for malarial parasites. Results were considered 'early' if obtained before 12th February 2012 (less than 4 weeks after the start of the retreat) or 'late' if obtained after.

Serological testing was done for chikungunya and dengue viruses, Legionella, Mycoplasma, and Leptospira. Testing was performed using an immunofluorescence assay (in-house) for detection of chikungunya IgM and IgG; anti-dengue IgM and IgG capture ELISA (Standard Diagnostics, Inc, Korea) for detection of dengue IgM and IgG; immunofluorescence assays for detection of Legionella IgG (MarDx Diagnostics, Inc, Ireland) and Legionella IgM (Vircell S.L., Spain); SERODIA-MYCO II (Fujirebi Inc., Japan) for detection of Mycoplasma total antibodies, and microscopic agglutination test (in-house) for detection of Leptospira total antibodies. Sarcocystis serology was done at the CDC by an immunoblot assay using S.neurona merozoite-derived antigens (personal communication, CDC, Atlanta, USA) in 10 patients.

Magnetic resonance imaging (MRI) of skeletal muscles was performed in 8 patients who underwent whole-body coronal T2 weighted, T1 weighted and T2 weighted short inversion time inversion recovery (STIR) scans using the 1.5 T SignaHDx MR Systems (GE Healthcare, USA).

Muscle biopsies from affected sites in 4 patients with myalgia and MRI abnormalities were fixed in buffered 10% formalin and routinely processed. Hematoxylin and eosin stained tissue sections were examined by light microscopy. Polymerase chain reaction (PCR) for Sarcocystis spp. was performed on all 4 biopsies (6,7).

Statistical Analysis

Statistical analysis was performed using chi-square testing and Fisher's exact test to compare the categorical variables in relation to patients' nationality and sex. The Mann-Whitney U-test was utilized to compare the median duration of symptoms between nationalities and sexes while Spearman's rank correlation and independent samples t-test were used to analyze the relationship between age and severity of myalgia, and duration of symptoms, respectively.

IBM SPSS Statistics version 21.0 (Armonk, NY: IBM Corp) was used for statistical analysis. P values<0.05 were considered significant.

Ethics Statement

This investigation was undertaken in response to the presentation of acutely ill patients to our institution with the intent of determining the infectious agent responsible for the outbreak. Patients and their guardians were informed throughout their management that investigations were undertaken to ensure that critical illness did not develop in any person, to identify the

Figure 1. 32 year old student from China with facial swelling from swollen temporalis and masseter muscles (Case 1, Table 3).


causative organism, and, if possible, to determine the mode of acquisition of infection and henceforth, to prevent further infection. Ethics or IRB approval was not requested for this outbreak investigation. All patients who underwent muscle biopsy, the only invasive test, gave written informed consent. Written consent was obtained from the patient in Figure 1 for publication of the photograph.


Clinical Presentation and Features

From 17th to 19th January 2012, a group of 92 college students and teachers attended a retreat at a hotel located on Pangkor Island, Malaysia. There were 55 males and 37 females, with a median age of 35 years (IQR 27 to 44; range, 5 to 64). Seventy-one were Malaysians and 21 non-Malaysians. A total of 58 cases were medically assessed at our institute, and 9 were admitted to hospital.

From a review of available medical records and questionnaire responses, it was determined that 89 persons demonstrated or reported features consistent with the case definition. Of these, 53 were male and 36 female with a median age of 34 years (IQR 27 to 43.5). Sixty-nine (77.5%) symptomatic persons were Malaysians and 20 (22.5%) were non-Malaysians: 9 from China, 3 from Nepal, 2 each from Korea and Indonesia and 1 person each from India, Netherlands, Myanmar and Iran, respectively. Malaysians were older with a median age of 38 years (IQR 27.50 to 45.00) compared to 29?5 years (IQR 24.25 to 33.75) for non-Malaysians (p = 0.012).

The onset of symptoms could be accurately ascertained for 82 patients and occurred between day 1 and day 26 post-retreat. Symptoms began between day 9 and 11 for 58 (70.7%) of these patients. The most common symptoms and their frequencies are listed in Table 1. Retreat participants did not report any similar illness in colleagues or family members who did not attend the retreat.

Overall, the total duration of symptoms lasted from 3 days to nearly 4 months with a median duration of 17 days (IQR 7 to 30). Twenty-seven patients (30.3%) experienced symptoms for 1 month or longer, myalgia being the most prolonged symptom. There was no association between age and duration of symptoms, and no significant difference in median age between the sexes. For non-Malaysians, the median duration of symptoms was 27.5 days (IQR, 17.3 to 42.0) which was significantly longer than the 14 days (IQR, 7.0 to 29.5) experienced by Malaysians (p = 0.001).

In the "early" phase of illness, myalgia was particularly marked in the neck muscles. Later it was experienced most commonly in the lower limbs followed by the back and the upper limbs. Among the 73 persons who graded their myalgia for severity, severe myalgia was reported by 10 persons (13?7%), moderate myalgia by 27 (37?0%), and mild myalgia by 36 (49.3%). There was no significant difference in the median age of those with mild or moderate/severe pain and no significant difference between the sexes. Sixty-two (89.9%) Malaysians and 19 (95.0%) non-Malaysians reported myalgia as a symptom but this was not significantly different. However, 15 out of 18 (83.3%) non-Malaysians reported myalgia as moderate/severe compared to 22 out of 55 (40.0%) Malaysians (p = 0.002). Thus, non-Malaysians were more likely than Malaysians to experience moderate/severe myalgia.

Relapsing fever was reported in 48 of the 84 (57.1%) patients with fever, and 15 (31?3%) of the relapsing fever cases had 3 or more cycles of fever. Each symptomatic episode lasted a median of 5 days (IQR, 3 to 7; range, 1 to 21) and each remission 4 days (IQR 3 to 7; range, 1 to 30). There was no particular pattern regarding the duration of the first or subsequent cycles. Of the 9 patients admitted to hospital, 8 recorded temperatures greater than or equal to 39°C.

Between 34 and 38 days post-retreat, 9 patients developed visible facial muscle swelling with resolution in all patients within 7 days (Figure 1). One of these patients also reported swelling of the thenar eminence of one hand. Four patients presented with calf muscle swelling and another patient had isolated swelling of the interossei muscles of one hand. The higher proportion of non-Malaysians with muscle swelling (5 cases; 25.0%) compared to non-Malaysians (9 cases; 13.0%) was not statistically significant.

Cough was reported as non-productive, transient, and seen only in the first 2 weeks of illness.


Blood cultures from 21 patients were negative for bacteria or fungal growth. Initial chikungunya IgM serology using immuno-fluorescent staining (IFAT) was positive in 53% (43/81) of patients. However, chikungunya IgG serology up to two weeks after onset of illness confirmed seroconversion in only one patient.

Ten paired patient sera were serologically tested for sarcocys-tosis including 3 'definite sarcocystosis' cases. There were 3 positive results in both acute and convalescent sera, 2 serocon-verted positives, 1 equivocal, and 4 cases that were negative for both acute and convalescent samples. In five patients who had muscle swelling, 3 had positive results. One of the definite cases of sarcocystosis had negative serology.

Table 1. Frequency of symptoms, duration and site of myalgia reported by patients (n = 89).

Symptom Location/duration of myalgia Number of patients with symptom/Total number of patients reporting or affected patients (%)

Fever 84/89 (94.4)

Relapsing fever 48/84 (57.1)

Myalgia Any muscle group 81/89 (91.0)

Lower limbs 57/81 (70.3)

Back 49/81 (60.5)

Upper limbs 46/81 (56.8)

Neck 34/81 (42.0)

Face/jaw 5/81 (6.2)

Duration of myalgia <1 week 21/81 (25.9)

1 to <2 weeks 16/81 (19.7)

2 to <4 weeks 17/81 (21.0)

4 to <8 weeks 22/81 (27.2)

>8 weeks 5/81 (6.2)

Headache 77/89 (86.5)

Cough 36/89 (40.4)

Joint Pain 35/89 (39.3)

Nausea 25/89 (28.1)

Vomiting 16/89 (18.0)

Diarrhoea 16/89 (18.0)

Rash 4/89 (4.5)


None of the other serology tests for dengue, Legionella, Mycoplasma or Leptospira were consistent with recent infection.

Blood Test

FBC, LFTs, and CK abnormalities varied according to the time-point of illness. Those parameters that were most commonly abnormal 'early' or 'late' in the course of the infection are shown in Table 2. Only those symptomatic patients who were reviewed in the hospital had blood tests performed in the early period.

Magnetic Resonance Imaging

Eight patients who had facial swelling and/or myalgia 4-5 weeks after onset of illness underwent MRI examination. Three muscle groups, muscles of mastication, calf, and superficial back muscles demonstrated focal and heterogeneous high signal intensities on STIR consistent with inflammatory edema and myositis. Non-affected muscles demonstrated low signals on STIR. All 8 patients had edema/myositis in the muscles of mastication (superficial temporalis, deep temporalis and masseter muscles) (Figure 2). These were bilateral in 5 and unilateral in 3 patients. Four of these 8 patients had exhibited or reported facial swelling. Four patients had MRI changes in the back muscles and 2 in the calf muscles (Figure 3).

Of the patients who underwent MRI, 2 had both eosinophilia and raised CK, 3 had eosinophilia alone and 3 had only raised CK.

Muscle Biopsy and Sarcocystis spp. Identification

Four biopsies were taken from the temporalis (1 case), tibialis posterior (1 case), and gastrocnemius (2 cases) muscles (Table 3). In 3 biopsies (temporalis, tibialis posterior, gastrocnemius), one or more sarcocysts were detected within muscle fibres by light

microscopy (Figure 4). A whole sarcocyst was also obtained in a muscle tissue culture preparation from the temporalis muscle. In all 3 biopsies with sarcocysts, there were no inflammatory cells immediately surrounding the infected muscle fibre, but mild to moderate inflammation and focal necrosis was noted in other parts of the muscle. Inflammatory cells were mixed and eosinophils were generally not prominent.

We attempted to determine the 18S rDNA sequences from the sarcocysts and/or muscle tissue of 3 biopsies (temporalis, tibialis posterior and gastrocnemius muscles) by polymerase chain reaction (PCR) and direct sequencing [6]. S. nesbitti sequences (accession numbers HF544323 and 544324) were confirmed in 2 patients (temporalis and gastronemius muscles). The 18S rDNA gene shared 100% identity with S. nesbitti found in the muscle of Macaca fascicularis from Yunnan Province, China [9,10,11]. The presence of S. nesbitti (accession number JX661499.1) was subsequently confirmed by nested polymerase chain reaction and sequencing from the gastrocnemius muscle of the fourth patient (7).

Thus in our series, 4 cases were classified as definite: Three Malaysians and one non-Malaysian. The clinical features and laboratory findings of these 4 cases are shown in Table 3.


As the etiological agent was not determined until late in the course of illness, only 3 patients received medical treatment aside from basic analgesia. Two patients received oral corticosteroids with 1 patient reporting resolution of symptoms soon after commencement of treatment but the other did not report any change.

A third patient received targeted therapy after diagnosis of biopsy confirmed sarcocystosis 10 weeks into illness. With pre-

Table 2. Peripheral blood parameter results in early and late disease.

Number of patients

Number of patients with with both early and

Time elevated parameter/number Median (109 IQR(109or late bloods/changes Peripheral blood parameter point of patients tested (%) or IU/L or U/L) IU/L or U/L) with time

Eosinophil count (0.02-0.50 x109/L) Early 18/57 (31.6) 0.37 0.20-0.54 12/1 elevated early and late, 7 normal early and elevated late, 4 normal early and late

Late 10/15 (66.7) 0.79 0.46-0.99

Lymphocyte count (1.0-3.0 x109/L) Early 19/59 (32.2) 2.40 1.75-3.39 12/1 elevated early and late, 6 normal early and elevated late, 4 normal early and late, 2 elevatec early and normal late

Late 9/15 (60.0) 3.21 2.30-4.70

Alanine aminotransferase (30-65 IU/L) Early 36/56 (64.3) 86.00 53.00-145.00 25/10 elevated early and late, 1 normal early and elevated late, 4 normal early and late, 10 elevated early and normal late

Late 12/27 (44.4) 63.00 47.00-95.00

Aspartate aminotransferase (15-37 IU/L) Early 39/56 (69.6) 46.00 33.50-62.75 25/12 elevated early and late, 2 normal early and elevated late, 2 normal early and late, 9 elevated early and normal late

Late 16/27 (59.3) 38.00 29.00-52.00

y-glutamyltransferase (5-55 IU/L) Early 35/56 (62.5) 70.00 39.00-143.25 25/12 elevated early and late, 1 normal early and elevated late, 5 normal early and late, 7 elevated early and normal late

Late 15/27 (55.6) 61.00 39.00-106.00

Creatine Kinase (26-192 U/L) Early 7/48 (14.6) 95.00 64.5-151.50 7/1 elevated early and late, 5 normal early and elevated late, 1 normal early and late

Late 9/10 (90.0) 921.00 400-1489.00

Early - <4 weeks after start of retreat. Late - >4 weeks after start of retreat. doi:10.1371/journal.pntd.0002876.t002

existing renal impairment, clindamycin 600 mg qid po and fansidar (sulfadoxine 500 mg/pyrimethamine 25 mg) 2 tablets/ weekly po were prescribed. After 3 days of treatment, the patient reported that pain in the proximal arm muscles and thighs had reduced significantly and proximal arm strength had improved. There was a decrease in CK from 782 to 653 but this had been falling prior to institution of medications. Fansidar was taken for 2 weeks with an interrupted course of clindamycin for 6 weeks. At this point there was no recurrence of myalgia. The patient was subsequently lost to follow-up.

Exposure Investigation

Water and food contamination were investigated as possible sources of Sarcocystis infection. The hotel is located adjacent to a forested area and about 500 m from the beach. The water supply to the hotel came from two sources: chlorinated (treated) water from the mainland and untreated "gravity-feed" water piped down from forested hillsides on the island. Treated water was meant for drinking and preparing food. Untreated water, intended for bathing and washing, was apparently filtered and stored in large outdoor tanks. There was a temporary breakdown in the treated water supply just prior to the retreat. There were reports of the water appearing "cloudy" at the beginning of the retreat and it is possible that untreated water was inadvertently used to prepare food and drinks during the retreat. All 89 symptomatic persons who attended the retreat drank water/beverages prepared in the

hotel. As for the 3 persons who did not fall sick, one person drank only Chinese tea prepared with boiled water, while the other two reported drinking 'mostly' bottled water. All 92 participants ate meals prepared by the hotel.

Sarcocystis spp.were not detected by PCR in any water samples.


This outbreak has previously been described in relation to the molecular identification of S. nesbitti as a cause of human muscular sarcocytosis [6,7]. This report adds to the previous work by providing a comprehensive description of the clinical features of the illness in a large group of affected persons. The focal point of exposure allows for the potential incubation period to be estimated and the temporal changes in both the clinical features and blood investigation results are clearly demonstrated. The important role of MRI is also shown with, for the first time, selected images of the most evident changes. Other aspects of the illness, including treatment options and a possible modification of illness in Malaysians, are also discussed. This report incorporates the clinical, investigative and management aspects of this illness, adding substantially to the previously reported work.

Our findings strongly suggest that muscular sarcocystosis was responsible for the outbreak of acute relapsing febrile myositis in our cohort. Four patients had definite sarcocystosis with sarcocysts or nucleotide sequences demonstrated in the muscles that were shown to be involved by MRI. The other 85 patients had probable

Figure 2. Coronal STIR MRI demonstrating bilateral asymmetrical high signal in deep (arrow head) and superficial (arrow) temporalis muscles (Case 1, Table 3).


muscular sarcocystosis as suggested by the clustered time of onset and recovery from symptoms, overall similarity of symptoms to definite cases, and absence of similar illnesses among patient contacts who did not attend the retreat.

Although sarcocysts have previously been noted as incidental findings in tongue muscles in an autopsy series [5], we believe that their presence in our cases represents a pathological process. Sarcocysts have never been detected in more than 1500 limb

Figure 4. A single sarcocyst (arrow) within a muscle fibre (Case 4, Table 3). Typically there is mild myositis (W) near the sarcocyst. Bar = 40 microns. H&E stains, x20 objective lens. doi:10.1371/journal.pntd.0002876.g004

muscle biopsies examined at the University of Malaya Medical Centre (Wong KT, unpublished data), thus finding sarcocysts in inflamed skeletal muscles from sites other than the tongue is unlikely to be incidental. In addition, with more than 120 Sarcocystis spp. reported in animals [12] it seems unlikely that 3 cases from our cohort could co-incidentally have the same species identified by PCR, with 3 cases also demonstrating sarcocysts of very similar morphology. Although a few previous human studies have shown that febrile myalgia is associated with biopsy-proven, muscular sarcocystosis [3,4,13-15], this is the first time that S. nesbitti has been identified as a cause of symptomatic human muscular sarcocytosis.

Our results suggest that S. nesbitti has a very high 97% attack rate. With an identifiable common period of exposure lasting 3 days, the incubation period was determined as most likely to be between 9 and 13 days, but could be up to 28 days. The most common symptoms, fever (94%) and myalgia (91%), were nonspecific making initial diagnosis difficult. However, the majority (57.1%) of cases had relapsing fever. Nine patients exhibited facial swelling and an additional 4 had MRI changes consistent with

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Figure 3. Axial STIR demonstrating heterogenous increased signal right (Rt) tibialis posterior (arrow) compared to non-oedematous muscles (arrowhead) left (Lt) calf (Case 2, Table 3).


myositis involving the muscles of mastication. Some of the clinical features in the present outbreak appear similar to those described previously. An outbreak involving 6 American military personnel who were believed to be infected in Malaysia, showed that nearly half of them had prolonged fever, myositis and raised liver enzymes [3]. However, there were also reports of bronchospasm, rashes, lymphadenopathy and marked eosinophilia, features not found in our patients. One patient had bitemporal muscle tenderness but facial swelling was not reported. Facial swelling as a striking clinical manifestation has also been reported more recently in a Dutch traveler to Tioman Island, Malaysia [15].

Earlier reports of human muscular sarcocystosis often referred to the disease as an 'eosinophilic myositis' [3,14]. However, we think it important not to exclude this diagnosis on the basis of the eosinophil count since this could be normal early in disease. Normal eosinophil counts were also observed in travellers returning from Tioman Island with possible Sarcocystis-like myositis [4]. In fact, in our cohort, lymphocytosis appeared to be as common as eosinophilia throughout the illness.

The apparent clinical differences between our cases and previous reports could be due to a number of reasons. Firstly, it is possible that a pathogenic Sarcocystis spp. different from S. nesbitti was involved as this is the first time species identification has been successfully performed in human disease. Secondly, the time points at which patients were reviewed appears to affect results as seen in the variations in eosinophil counts and serum CK levels within individual subjects over time. Finally, as the current outbreak occurred within a single community, it is likely that we may have included some patients with milder symptoms who would otherwise not seek medical attention,

Whole body MRI in STIR sequence was helpful to guide the choice of suitable muscle biopsy sites, resulting in a definitive diagnosis in all 4 patients biopsied. This is the highest number of biopsy-proven cases from a single outbreak of symptomatic sarcocystosis, and MRI had an essential role to play. Despite the widespread myalgia, the abnormal MRI changes were confined to 3 distinctive groups comprising of the muscles of mastication, the calves and the back. As discussed, the involvement of the muscles of mastication represents an interesting disease manifestation. In contrast to the utility of MRI, serology performed in a limited number of patients did not appear to be sufficiently sensitive, and this warrants further investigation before diagnostic use in humans can be recommended.

Since clinical manifestations and laboratory investigations may be non-specific, isolated cases of muscular sarcocystosis could be easily missed, and therefore this condition is also likely to be under diagnosed. Nonetheless, prolonged relapsing fever and severe myalgia that lasts several weeks, facial and other muscular swellings, raised LFT, CK, eosinophilia and lymphocytosis could suggest the diagnosis. MRI in STIR sequence, by demonstrating muscles affected by myositis, is a potentially useful tool to guide muscle biopsy to confirm the diagnosis. It cannot be overemphasized that muscle biopsy is most important to confirm the diagnosis and should be done whenever possible. In fact, the definitive diagnosis was only made after muscle biopsy. As our study shows, even in the absence of sarcocysts, the PCR of muscle tissue may be still be useful for diagnosis if clinical suspicion is high.

Interestingly, our study suggests that the only significant risk factor for prolonged disease and moderate/severe myalgia is the patient's nationality. Non-Malaysians were more likely to suffer more prolonged disease and to complain of moderate/severe myalgia than Malaysians. Although perception of severity of pain may be subjective and possibly influenced by cultural values, duration of illness is probably less subjective, suggesting that the

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observed statistical significance, at least for duration of illness, may indeed be true. The histological demonstration of sarcocysts in 21% of Malaysians along with other reports of incidental findings of sarcocysts in Malaysians suggest that exposure to this organism may not necessarily result in symptomatic infection [5,16]. However, we speculate that asymptomatic infection could lead to partial immunity which could help explain the shorter duration of symptoms and less severe myalgia experienced by Malaysians in the cohort. It may also explain why all previous reported cases of symptomatic muscular sarcocystosis from Malaysia involved non-Malaysians [3,4,13,15].

There are no conclusive recommendations for the treatment of sarcocystosis [1] although previous reports raise the possibility of clinical improvement with steroids or albendazole but recovery was not rapid [3]. In animals, medications including clindamycin, pyrimethamine and sulphonamides have been suggested as treatment options [17,18]. There was a previous report of symptomatic improvement and resolution of blood test abnormalities in human sarcocystosis with the use of co-trimoxazole [14]. We elected to treat one patient with prolonged symptoms, as we would a case of toxoplasmosis based on the premise that both organisms are intracellular protozoa. We also elected to utilize medications that have been effective in animals but co-trimoxazole was avoided due to renal insufficiency. Hence the patient received clindamycin and fansidar. It is difficult to attribute the patient's subsequent improvement solely to the medications prescribed but we believe such treatment is worthy of consideration in future cases.

S. nesbitti was first described in muscle tissues of Macaca mulatta monkeys by Mandour in 1969 [19]. An ultrastructural study of human muscular sarcocystosis in Malaysia has previously shown a similarity to sarcocysts found in Macaca fascicularis (Malaysian long tailed macaque) [20]. Phylogenetic analysis suggests that snakes could be a definitive host [10,19]. More recently, S. nesbitti sequences have been detected in the feces of snakes from disparate parts of Malaysia, confirming that snakes may be the definite hosts [7,11]. As such, S. nesbitti is likely to be endemic in the country. We have no evidence for any recent change in ecology of snakes or human/snake interaction to account for the recent cases although further investigations are needed. Reports of 100 foreign persons with an acute muscular Sarcocystis-like illness after returning from Tioman Island, Malaysia, between 2011 and 2012 [4] could either suggest a reemerging infection or an increasing recognition of an endemic disease. It is possible that S. nesbitti could cause a clinically more apparent disease compared to other Sarcocystis spp. that could


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2. Dubey JP (1976) A review of Sarcocystis of domestic animals and of other coccidia of cats and dogs. J Am Vet Assoc 169: 1061-1078.

3. Arness MK, Brown JD, Dubey JP, Neafie RC, Granstrom DE (1999). An outbreak of acute eosinophilic myositis attributed to human Sarcocystis parasitism. Am J Trop Med Hyg 61: 548-53.

4. Esposito DH, Freedman DO, Neumayr A, Parola P (2012) Ongoing outbreak of an acute muscular Sarcocystis-like illness among travellers returning from Tioman Island, Malaysia, 2011-2012. Euro Surveill17 (45):pii = 20310. Available: aspx?ArticleId= 20310. Accessed 30 November 2013.

5. Wong KT, Pathmanathan R (1992) High prevalence of human skeletal muscle sarcocystis in south-east Asia. Trans R Soc Trop Med Hyg 86: 631-6 32.

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potentially cause human sarcocystosis. Moreover, it is not known if the severity of clinical disease is dependent on the dose of sporocysts consumed or if a low dose results in largely asymptomatic infection.

Infection in this outbreak is likely due to consumption of water contaminated by snake feces. Almost all the water supply in Malaysia are sourced from streams or rivers, so contamination by snake or other reptile feces may be common. We believe that drinking gravity-feed water contaminated by snake feces or ingestion of uncooked food washed therein, is most likely to be responsible for this outbreak. Water treatment by chlorination may not be able to kill sporocysts [21], thus contaminated piped water from the mainland could still be responsible, albeit less likely as the contaminants are likely to be diluted by a significantly larger water supply. Unsafe water supply, especially in the islands and other remote places, poses potentially serious public health risks that will require urgent investigation and intervention. Travellers should be advised to only drink boiled or bottled water and to avoid uncooked food [21]. There should also be heightened awareness for this infection in patients who have recently lived in or travelled to Southeast Asia.

There were some limitations to our study. Firstly, since it was commenced as an outbreak investigation and the diagnosis was not known until well into the course of the illness, investigations and their timing could not be more uniformly undertaken for all the patients. Secondly, in determining the severity of myalgia the adopted definitions may not be mutually exclusive, and other factors, including cultural, may also have influenced the perception of pain. Finally, due to ethical and other considerations, it was neither possible nor appropriate to perform further muscle biopsies.


We are grateful to CDC, Atlanta, USA for the Sarcocystis serology, and the staff of University of Malaya Medical Centre for their care of the patients.

Author Contributions

Analyzed the data: CMI CTT. Wrote the paper: CMI KTW SA YLL NR CTT. Supervised and performed the diagnostic microbiological investigations and 18SrDNA genome sequencing: SA. Performed the nested PCR: YLL. Microbiological investigations and data collection: MKB. Patient management: CMI SFSO CTT. Description of pathology: KTW. Description of imaging: NR.

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9. Dahlgren SS, Gjerde B (2007) Genetic characterisation of six Sarcocystis species from reindeer (Rangifer tarandus tarandus) in Norway based on the small subunit rRNA gene. Vet Parasitol 146: 204-213.

10. Tian M, Chen Y, Wu L, Rosenthal BM, Liu X, et al. (2012)Phylogenetic analysis of Sarcocystis nesbitti (Coccidia: Sarcocystidae) suggests a snake as its probable definitive host. Vet Parasitol 183:373-376.

11. Lau YL, Chang PY, Subramaniam V, Ng YH, Rohela M, et al. (2013) Genetic assemblage of Sarcocystis spp. in Malaysian snakes. Parasit Vectors 6:257doi: 10.1186/1756-3305-6-257

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13. Centers for Disease Control and Prevention (CDC)(2012) Notes from the field: Acute muscular Sarcocystis among returning travelers - Tioman Island, Malaysia, 2011. MMWR Morb Mortal Wkly Rep 61: 37-38.

14. Van Den Enden E, Praet M, Joos R, Van Gompel A, Gigasse P (1995) Eosinophilic myositis resulting from sarcocystosis. J Trop Med Hyg 98: 273-276.

15. ProMED-mail (2012) Sarcocystosis, Human-Malaysia (03): New cases, travel related. ProMED-mail 21 October 20121021.1356457. http://www. Accessed 30 November 2013.

16. Kutty MK, Dissanaike AS (1975) A case of human Sarcocystis infection in West Malaysia. Trans R Soc Trop Med Hyg 69: 503-504.

17. Page CD, Schmidt RE, English JH, Gardiner CH, Hubbard GB, et al. (1992) Antemortem diagnosis and treatment of sarcocystosis in two species of psittacines. J Zoo Wildl Med 23: 77-85.

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20. Wong KT, Pathmanathan R (1994) Ultrastructure of the human skeletal muscle sarcocyst. J Parasitol 80: 327-330.

21. CDC (2013). Sarcocystosis in Malaysia. Available online: http://wwwnc.cdc. gov/travel/notices/watch/sarcocystosis-malaysia. Accessed on 8 March 2014.

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