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63 Jurnal Tanah dan Sumberdaya Lahan Vol 1 No 2: 63-72, 2014 RESPON CACING PENGGALI TANAH Ponthoscolex Corethrurus TERHADAP BERBAGAI KUALITAS SERESAH Herwin Setyaningsih, Kurniatun Hairiah., Widyatmi Sih Dewi Jurusan Tanah, Fakultas Pertanian, Universitas Brawijaya. penulis korespondensi: email protected Abstract Forest conversion to agriculture systems leads to. Download Jurnal Disini Hutan, Vol. 10, Halaman 503: Pengaruh Fenofoli Endofit dan Budburst Foliar pada Kelangsungan Hidup Satwa Liar dan Belimbing Budworm Bagian Timur, Choristoneura fumiferana pada Pohon Cemara Putih (Picea glauca) Hutan doi: 10.3390 / f965: Dan Quiring Greg Adams Leah Flaherty Andrew McCartney J. David Miller Sara Edwards Sebuah studi lapangan manipulatif.
Volume 17, Number 5—May 2011
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Linguatula serrata Tongue Worm in Human Eye, Austria
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Abstract
Linguatula serrata, the so-called tongue worm, is a worm-like, bloodsucking parasite belonging to the Pentastomida group. Infections with L. serrata tongue worms are rare in Europe. We describe a case of ocular linguatulosis in central Europe and provide molecular data on L. serrata tongue worms.
The species Linguatula serrata belongs to the Pentastomida, a still-enigmatic group of worm-like, bloodsucking parasites that inhabit the upper respiratory tract of terrestrial, carnivorous vertebrates, mostly reptiles and birds; L. serrata, commonly called tongue worms, typically inhabit canids and felids. The intermediate hosts of these parasites are usually sheep, cattle, or rodents. The hosts ingest the eggs, and the first instar larva hatches within their intestines, penetrates the mucosa, and retreats into the tissue, where it encysts and molts to the third larval stage. Humans can serve as aberrant final hosts after ingesting raw or poorly cooked viscera (i.e., liver, lungs, and trachea) of intermediate hosts. This nasopharyngeal infection is known as Halzoun syndrome in the Middle East or as Marrara in Sudan (1,2). Humans can also serve as accidental intermediate hosts, when ingesting the eggs (visceral infection) (3). Intraocular infection is extremely rare; only 5 cases caused by L. serrata tongue worms have been described: 2 from the southern United States (4–5), 1 from Portugal (6), 1 from Israel (7), and 1 from Ecuador (8).
The phylogenetic position of the pentastomids is still not fully resolved. A position as the sister group of branchiurian crustaceans (Maxillopoda) is supported by molecular data and sperm morphology (9–11) and is widely accepted today; however, sound evidence also exists for other classifications (12). The group itself is divided into 2 orders, the more primitive Cephalobaenida and the more advanced Porocephalida. All species infecting humans are currently classified as Porocephalida; the species L. serrata and Armillifer armillatus are responsible for most human cases of infection.
A 14-year-old girl was referred to the eye clinic at the Medical University of Vienna with an unknown parasite detected during ophthalmologic examination. The girl had redness, pain, and progressive visual loss in the right eye. Her medical history was unremarkable except that she had reported regular contact with domestic animals: 2 dogs, cats, and 1 turtle. She had no history of bites or other infestations, and neither she nor any of her animals had been abroad.
[[AA:FA:PREVIEWHTML]]Vision was reduced to 0.1 Snellen. Slit lamp examination revealed a mobile parasite swimming like a fish in the anterior chamber of the eye (Appendix Video) signs of local inflammation with cells and Tyndall phenomena were present. The pupil was round and reactive, the lens was clear, and a slight iridodonesis was observed. Fundus examination through a constricted pupil showed no abnormalities. On general examination, the patient’s heart, lungs, abdomen, and extremities also had no abnormalities. Her nose and throat were examined carefully for additional parasites. Serologic data including serum chemistry, C-reactive protein, fasting blood glucose, erythrocyte sedimentation rate, creatinine, and blood urea nitrogen levels were within normal limits. Her complete blood count revealed cell differentiation within normal limits without eosinophilia. Her chest and sinus radiographs showed no abnormalities. Surgical removal of the parasite was complicated because of high mobility of the parasite inside the anterior chamber. The worm escaped into the posterior segment of the eye where it was found, after lens removal and complete vitrectomy, in a recess of the ciliary body. A viable parasite was extracted and transferred to physiologic saline. One month later, the eye was completely free of irritation, and 3 months later an artificial intraocular lens (ARTISAN; OPHTEC BV, Groningen, the Netherlands) was implanted. Final visual acuity was 1.0 Snellen.
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The surgically extracted parasite was examined microscopically and then subjected to DNA isolation with the QIAGEN tissue kit (QIAGEN, Hilden, Germany). The 18S rDNA was amplified and sequenced stepwise by using 6 internal primers (P1fw, P1rev, P2fw, P2rev, P3fw, P3rev) (13) and a 310 ABI PRISM automated sequencer (Applied Biosystems, Darmstadt, Germany); 3 sequences each were obtained from both strands. Fragments were combined to a consensus sequence with the GENEDOC sequence editor (www.nrbsc.org/gfx/genedoc), and deposited in GenBank (accession no. FJ528908). For cluster analysis, primer sites, unique gaps, and ambiguously aligned sites were excluded, resulting in a dataset of ≈1,560 aligned sites. Cluster analysis was performed by using the PHYLIP 3.63 package (www.phylip.com), with neighbor joining, maximum parsimony, and maximum likelihood as evolutionary models and 100 bootstrap replicates generated for each model. Trees were rooted with 4 branchiurian sequences (GenBank nos. DQ925818, DQ925819, AF436004, and DQ925842).
Figure 1
Figure 1. Morphology of Linguatula serrata tongue worm. A) Ventral anterior end with hooks. B) Posterior end laterally with primordial uterus, genital porus, and intestine (note peristalsis). C) Dorsal anterior end with cuticular..
The parasite was 4.5 mm long, appeared whitish, and had a flattened (tongue-like) body shape with a rounded anterior (0.9 mm wide) and pointed posterior end (0.35 mm). It had curved hooks with sharp tips on the anterior ventral side (Figure 1, panel A), a red primordial uterus stretching from the anterior to the posterior end, a median ventral genital porus, and a terminal anus (Figure 1, panel B). The anterior end had apical papillae and a chitinoid oral clasp (Figure 1, panel C). The cuticle showed 94 rings and conspicuous spicules (Figure 1, panel D). Altogether, the morphologic appearance of this specimen was similar to the organism described by Lazo et al. (8) and could thus be identified as a third instar larva of L. serrata tongue worm. The cuticular rings and the spicules at the posterior margins of the cuticle rings are also characteristic for this parasite (14). Skyrim special edition phenderix magic evolved mod.
We assumed the mode of infection to be ingestion or direct eye contact with L. serrata eggs and the source of infection to be 1 of the patient’s 2 pet dogs. Dogs are the typical final hosts of L. serrata tongue worms, and children generally tend to have carefree contact with pet animals. Unfortunately, neither dog could be investigated for potential infection. Infection rates of dogs in Austria are unknown; only 1 case has been reported, and it occurred in a dog imported from the United States (15). The girl also had cats and a turtle, but cats are not primary hosts and turtles are never hosts for the life cycle of the L. serrata tongue worm (14). Two of the other 5 ocular linguatulosis case-patients mentioned earlier had a recent history of ocular trauma but whether trauma was related to infection remains unknown. In the case reported here, no eye injury was noted.
Figure 2
Figure 2. Rectangular cladogram based on 18S rRNA gene sequences of 6 pentastomid species. The tree was rooted with 4 branchiura sequences as an outgroup. The numbers at nodes represent bootstrap values based..
The 18S rRNA gene of L. serrata is 1,834 bp long with a GC content of 49.3%. Sequence similarities to other pentastomids range from 90.0% (Armillifer agkistrodontis, Porocephalus crotali) to 90.8% (Raillietiella spp.). However, the distance between L. serrata and the other species is larger than that between any other species. Cluster analyses resulted in homologous consensus trees independent of the evolutionary model used (Figure 2). Notably, L. serrata grouped with the Cephalobaenida, supported by high bootstrap values, although in traditional classification it is assigned to the Porocephalida. To date only 5 other 18S rDNA sequences of pentastomids are available, and the sequence of P. crotali is incomplete, limiting the basis for cluster analysis to only 1,560 aligned sites. Even when a cladogram without P. crotali and on a basis of 1,780 aligned sites was constructed, L. serrata remained in the Cephalobaenida. In fact, at least 1 morphologic feature might support this position: typical Porocephalida, such as those in the genus Armillifer, have their hooks horizontally lined up, whereas the hooks of cephalobaenids are pairwise obliquely arranged, as in those in the genus Linguatula (14).
This study indicates that rearrangements in the current classification scheme of the Pentastomida might be necessary. We hope that our data will be an impetus for a comprehensive phylogenetic study of this group of parasites.
Acknowledgments
The authors thank Christopher Kiss for help with producing the video and Jacek Pietrzak for excellent technical assistance.
This work was supported by the Medical University of Vienna, Austria.
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Cite This ArticleDOI: 10.3201/eid1705.100790
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