1.Natural infection of Blastocystis ST6 among commercial quails (Coturnix coturnix) in Penang, Malaysia
Rauff-Adedotun, A.A. ; Douglas, S.J. ; Rajamanikam, A. ; Amira Suriaty, Y. ; Farah Haziqah, M.T.
Tropical Biomedicine 2022;39(No.1):73-77
Blastocystis sp. is a unicellular, anaerobic intestinal protist regularly reported in humans
and various animals worldwide. There seems to be little research on Blastocystis infection in
poultry in Malaysia, and none on Blastocystis in quail specifically. In Malaysia, the
consumption of quail meat and eggs is rapidly gaining popularity as a significant source of
protein. It is, therefore, essential to explore the presence of Blastocystis in Malaysian quails
in order to aid in the understanding of Blastocystis in this group of birds and their role in its
transmission. Intestinal contents were collected from 90 commercial quails raised on two
farms in Penang, Malaysia, in a multi-layer cage system with adequate farm management.
Detection of Blastocystis sp. was by cultivation in modified Jones’ medium supplemented
with 10% horse serum. Giemsa-stained slides made from positive cultures were used for
morphological studies whereas Blastocystis subtyping was conducted by using Polymerase
Chain Reaction (PCR). A prevalence of 17.8% (16/90) was recorded for Blastocystis sp. in quail
in this study. The most common forms detected in the in vitro culture medium were vacuolar
and granular forms with cell diameters ranging from 9.09μm to 33.33μm. None of the quail
birds screened had any visible gastrointestinal symptoms or signs. All successfully sequenced
isolates were identified as Blastocystis sp. ST6, one of the potentially zoonotic subtypes of
Blastocystis. This study posits that the quail birds may serve as reservoirs of zoonotic subtypes
of Blastocystis. More studies are required to understand the source of Blastocystis infection to
poultry under intensive care and the role of poultry animals in the transmission of Blastocystis
to humans.
2.Molecular subtyping and phylogeny of Blastocystis sp. isolated from turkey (Meleagris gallopavo) populations in Penang, Malaysia
Siti Alawiyah, J.A.N. ; Rauff-Adedotun, A.A. ; Aishah, S. ; Rusydi Abdul Hafiz, R. ; Zary Shariman, Y. ; Farah Haziqah, M.T.
Tropical Biomedicine 2021;38(No.4):578-589
Most poultry farms in Malaysia preferred rearing chickens either for eggs or/and meat than
turkeys. This is due to several challenges such as parasitic load and heat stress in rearing
turkey. Blastocystis is one of the most common protozoan parasites infecting poultry. As no
study was conducted on Blastocystis infection in turkey in Malaysia, this study aims to
determine the current status, the morphological characteristics and subtyping of Blastocystis
from turkey reared either in closed house or free-range system in Penang, Malaysia. It was
found that the prevalence of Blastocystis sp. infection in turkeys were moderately high with
41.6% (25/60) in the closed house and 45.0% (45/100) in free-range system as infection was
higher in the female turkeys with no gastrointestinal signs and symptoms. Vacuolar form
was the most common form found in the in vitro culture ranged between 5 to 20 μm in
diameter with a rough surface coat and undulating cell surface viewed under the scanning
electron microscope. Meanwhile, the ultrastructure of the cells from turkey isolates were
varies with partially expanded electron-opaque vacuoles to electron-dense in fully distended
vacuoles. Interestingly, sequence analysis for 30 positive Blastocystis isolates from turkeys
revealed one subtypes with three alleles namely, ST7 allele 99 (73.4%, n=22), ST7 allele 100
(23.3%, n=7) and ST7 allele 101 (3.3%, n=1). Findings from this study added to our understanding
on Blastocystis infection in turkey production.
3.Blastocystis in captivated and free-ranging wild animals worldwide: a review
Sanggari, A. ; Komala, T. ; Rauff-Adedotun, A.A. ; Awosolu, O.B. ; Attah, O.A. ; Farah Haziqah, M.T.
Tropical Biomedicine 2022;39(No.3):338-372
Blastocystis is the most prevalent eukaryotic gastrointestinal symbiont found in humans and animals
worldwide. Increased human infection rates are associated with raising concerns about the involvement
of the parasite in public health. Over the last decade, the number of linked epidemiology studies has
been prudently grown. Microscopy has been used to detect the presence of protozoan and the advent of
molecular techniques has made detection easier. However, due to its limited host specificity and zoonotic
potential, animals, either livestock or wildlife animals, may serve as a potential reservoir for Blastocystis
infection transmission. The approach utilised in this study aided in understanding the distribution and
prevalence of Blastocystis in animals, particularly captivated and free-ranging wild animals worldwide
due to increased interest. This review will help comprehend the epidemiological aspects, demographic,
subtypes, and the zoonotic potential of Blastocystis in wildlife and captive animals.