AI Article Synopsis
- * In a study conducted in East Thrace, Turkey, researchers screened 179 samples, including blood from tortoises and various tick pools, using PCR methods to detect the presence of CCHFV.
- * The study found that 9.5% of the samples tested positive for CCHFV, indicating that H. aegyptium ticks can carry the virus, which highlights potential implications for both tortoise and human health in the region.
Article Abstract
Background: Recent reports have demonstrated the presence of Crimean-Congo hemorrhagic fever virus (CCHFV) genomic material in Hyalomma aegyptium ticks feeding primarily on tortoises belonging to the genus Testudo. This raises the question if these ticks and their hosts play a role in the natural transmission dynamics of CCHFV. However, the studies are limited, and assessing the relevance of H. aegyptium in perpetuating the virus in nature, and a potential spillover to humans remains unknown. This study aimed to detect CCHFV in H. aegyptium ticks and their tortoise hosts in the East Thrace region of Turkey, where H. aegyptium is the most common human-biting tick and where a high density of tortoises of the genus Testudo can be found.
Methods: During the study period, 21 blood samples from different tortoises (2 T. hermanni and 19 T. graeca), 106 tick pools (containing 448 males, 152 females, 93 nymphs and 60 larvae) collected from 65 tortoises (5 T. hermanni and 60 T. graeca), 38 adult unfed questing ticks (25 males and 13 females, screened individually) and 14 pools (containing 8 nymphs and 266 larvae) of immature unfed questing ticks collected from the ground were screened for CCHFV genome by nested PCR and partial genomes sequenced.
Results: As a result of the screening of these 179 samples, 17 (9.5%) were detected as positive as follows: 2 of 21 blood samples (9.52%), 13 (containing 18 nymphs in 3 pools, and 52 males and 8 females in 10 pools) of 106 tick pools from tortoises (12.26%), and 2 of 38 adult questing ticks (5.26%). No positive result was determined in 14 pools of immature questing ticks.
Conclusions: Previous studies have shown that reptiles can participate in the transmission of arthropod-borne viruses, but they may contribute to different aspects of the disease ecology and evolution of tick-borne viral pathogens. Our results indicate the presence of CCHFV in questing and feeding H. aegyptium ticks as well as tortoise hosts. This may indicate that CCHFV circulates in a cryptic transmission cycle in addition to the primary transmission cycle that could play a role in the natural dynamic of the virus and the transmission to humans.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7168965 | PMC |
| http://dx.doi.org/10.1186/s13071-020-04074-6 | DOI Listing |
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Article Synopsis
- - This study investigated the presence of a bacteria responsible for tularemia in tortoise blood and ticks from West Azerbaijan province, Iran, utilizing a method called Nested-PCR.
- - Results showed that 7% of tortoise blood samples and 15% of tick samples tested positive for the bacteria, specifically a subspecies identified in ticks from the region.
- - The findings highlight the potential risk of ticks transmitting tularemia to both livestock and humans through bites, emphasizing the need for awareness in that area.
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