Bat coronavirus was detected positive from insectivorous bats in Krau Wildlife Reserve Forest

@#Bats are flying mammals with unique immune systems that allow them to hold many pathogens. Hence, they are recognised as the reservoir of many zoonotic pathogens. In this study, we performed molecular detection to detect coronaviruses, paramyxoviruses, pteropine orthoreoviruses and dengue viruses from samples collected from insectivorous bats in Krau Reserve Forest. One faecal sample from Rhinolophus spp. was detected positive for coronavirus. Based on BLASTN, phylogenetic analysis and pairwise alignment-based sequence identity calculation, the detected bat coronavirus is most likely to be a bat betacoronavirus lineage slightly different from coronavirus from China, Philippines, Thailand and Luxembourg. In summary, continuous surveillance of bat virome should be encouraged, as Krau Reserve Forest reported a wide spectrum of biodiversity of insectivorous and fruit bats. Moreover, the usage of primers for the broad detection of viruses should be reconsidered because geographical variations might possibly affect the sensitivity of primers in a molecular approach.

Bat coronavirus was detected positive from insectivorous bats in Krau Wildlife Reserve Forest.

Bats are flying mammals with unique immune systems that allow them to hold many pathogens. Hence, they are recognised as the reservoir of many zoonotic pathogens. In this study, we performed molecular detection to detect coronaviruses, paramyxoviruses, pteropine orthoreoviruses and dengue viruses from samples collected from insectivorous bats in Krau Reserve Forest. One faecal sample from Rhinolophus spp. was detected positive for coronavirus. Based on BLASTN, phylogenetic analysis and pairwise alignment-based sequence identity calculation, the detected bat coronavirus is most likely to be a bat betacoronavirus lineage slightly different from coronavirus from China, Philippines, Thailand and Luxembourg. In summary, continuous surveillance of bat virome should be encouraged, as Krau Reserve Forest reported a wide spectrum of biodiversity of insectivorous and fruit bats. Moreover, the usage of primers for the broad detection of viruses should be reconsidered because geographical variations might possibly affect the sensitivity of primers in a molecular approach.

Distinguishing second primary tumors from lung metastases in patients with head and neck squamous cell carcinoma.

BACKGROUND: In patients with head and neck squamous cell carcinoma (HNSCC), a squamous cell carcinoma (SCC) in the lung represents either another primary tumor or a metastasis. This distinction greatly influences patient prognosis and could guide treatment strategies, but the nature of a solitary lung nodule is often difficult to discern by use of standard clinical and histologic parameters. Comparison of genetic alterations in the tumors could resolve this dilemma. METHODS: We compared paired tumors from 16 patients with HNSCC and a solitary lung SCC for loss (i.e., deletion) of loci on chromosomal arms 3p and 9p. Losses at these loci occur early during neoplastic transformation of the respiratory tract. DNA from microdissected tumors and normal tissues was subjected to polymerase chain reaction-based microsatellite analysis. An effort was also made to distinguish primary lung cancers from lung metastases on the basis of clinical and histopathologic features. RESULTS: In most cases, comparison of genetic alterations clarified the relationship between the lung tumor and the primary HNSCC. The paired tumors from 10 patients had concordant patterns of loss at all loci suggesting metastatic spread, whereas three paired tumors had discordant patterns of loss at all loci suggesting independent tumor origin. These observations were supported by the clinical and pathologic findings. CONCLUSIONS/IMPLICATIONS: In patients with HNSCC and a solitary SCC in the lung, microsatellite analysis provides a rapid genetic approach for discerning clonal relationships. In such patients, we found that a solitary SCC in the lung more likely represents a metastasis than an independent lung cancer. Microsatellite analysis could potentially be applied to any patient with multiple tumors, where tumor relationships are not clear on clinical, radiographic, or even histopathologic grounds.