Enhanced γ-H2AX Foci Frequency and Altered Gene Expression in Participants Exposed to Ionizing Radiation During I-131 Nuclear Medicine Procedures.

Purpose: Ionizing radiation-based technologies are extensively used in the diagnosis and treatment of diseases. While utilizing the technologies, exposure to a certain amount of radiation is unavoidable. Data can be obtained from participants who received radiation during medical imaging and therapeutic purposes to predict the effects of low-dose radiation. Methods: To understand the effects of low-dose radiation, participants (n = 22) who received radioactive I-131 for scan/therapy were used as a model in this study. Blood samples were drawn pre- and post-administration of I-131. Biological effects were measured using markers of DNA damage (γ-H2AX, micronucleus (MN), and chromosomal aberrations (CA)) and response to damage through gene expression changes (ATM, CDKN1A, DDB2, FDXR, and PCNA) in blood samples. Results: Mean frequency of γ-H2AX foci in pre-samples was 0.28 ± 0.16, and post-samples were 1.03 ± 0.60. γ-H2AX foci frequency obtained from post-samples showed significant (p < 0.0001) and a heterogeneous increase in all the participants (received I-131 for scan/therapy) when compared to pre-samples. A significant increase (p < 0.0001) in MN and CA frequency was also observed in participants who received the I-131 therapy. Gene expression analysis indicates that all genes (ATM, CDKN1A, DDB2, FDXR, and PCNA) were altered in post-samples, although with varying degrees, suggesting that the cellular responses to DNA damage, such as damage repair, cell cycle regulation to aid in repair and apoptosis are increased, which priority is given to repair, followed by apoptosis. Conclusion: The results of this study indicate that the participants who received I-131 (low doses of ß- and γ-radiation) can produce substantial biological effects.

An Effective Siddha Management for Dermatosis Papulosa Nigra: A Case Report.

Dermatosis papulosa nigra (DPN) is a noncancerous skin growth that is classified as a subtype of seborrhoeic keratoses. DPN is predominantly found in individuals with darker skin tones, namely, those with Fitzpatrick skin types III-VI. This condition primarily affects women of Asian or African American descent. The non-availability of accurate management for this illness presents a challenge to the medical fraternity. Electrodesiccation, laser therapy, and surgery offer expensive solutions. Siddha external medicine provides a solution through appropriate methods. A 70-year-old woman with Fitzpatrick skin type V appeared with many hyperpigmented papules on the malar region that had been present for five years. The dermatological examination revealed the presence of several brown papular lesions, which were particularly pronounced in the malar areas. The dimensions of the lesions typically varied from 1 to 5 mm; however, in the malar area, their size extended up to 1 cm. The Siddha formulation Pachaieruvai was administered externally for five consecutive days. While undergoing treatment, the patient experienced mild pain, burning, slight redness, and swelling in the area where Pachaieruvai was applied. These symptoms persisted for about an hour during and after the procedure but disappeared within 24 hours with the use of coconut oil. The evaluation of treatment response was determined using the recognised quartile grading methodology. During the first-week follow-up appointment after the last treatment, significant improvements were observed in the cheek lesions, particularly in four large lesions.Throughout the treatment, the patient may encounter mild discomfort, a burning sensation, slight redness, and swelling at the administration site of Pachaieruvai. These reactions are positive indicators of disease regression. No adverse symptoms and recurrence were observed during the follow-up. This research specifically examines the Siddha approach to managing DPN. Based on the findings and observations, it can be concluded that Siddha medicine is effective in treating DPN.

Efficacies of a locust bean gum polymer on the startup of a novel upflow anaerobic sludge blanket reactor treating municipal sewage.

The present study investigates the potential of locust bean gum (LBG), in accelerating the startup of a novel upflow anaerobic sludge blanket (UASB) reactor handling municipal sewage. Under identical conditions, two lab-scale UASB reactors were operated in parallel, to substantiate this idea. The novel reactor (RH) with an inner centric hybrid UASB module and an outer concentric downflow hanging sponge (DHS) unit started off with an LBG polymer as an additive. Its performance was compared with a conventional system (RC). RH outclassed with an accelerated startup in 40 days, with the highest COD removal of 89% by the UASB compartment and 95% by the entire system (UASB + DHS). RC took nearly 85 days to achieve the highest COD removal of 83%. The polymer also succeeded with a dense sludge bed fastening most of the anaerobes, read by the least sludge volume index (SVI) of 26 mL/g. Specific methanogenic activity (SMA) (RH - 0.715 ± 0.05 and RC - 0.670 ± 0.07 g CH4-COD/g VSS/ day) and extracellular polymer (ECP) concentration (0.30-0.32 g/g VSS) of biomass in both reactors were almost similar. This further confirmed that early granulation was induced solely by the polymer and it also had no deleterious impact on substrate transfer.

Ghost fishing capacity of lost experimental gillnets: a preliminary study from Indian waters.

Abandoned, lost, or otherwise discarded fishing gear contributes considerably to global marine debris. These lost gears, mostly made of non-biodegradable synthetic materials, persist in the marine environment for longer periods of time and pose a great threat to marine life by entangling and killing target fishes and other non-target species such as turtles, birds, and mammals, a phenomenon known as ghost fishing. Other environmental impacts include physical impacts on aquatic habitats, transfer of microplastics into food web, and interference with fishing. Information regarding the catching efficiency and catch rates of lost nets in Indian waters is lacking. Ghost fishing capacity of simulated lost gillnets is being reported for the first time in India. This study investigates the ghost fishing capacity of lost gillnets through an experimental approach at Aroor, Vembanad lake, Kerala, India. Simulation studies using purposefully abandoned shrimp gillnets (32 mm mesh size) were conducted to understand the fishing capacity of lost gillnets during two seasons (monsoon and post-monsoon) as separate experiments. The gillnets maintained their catching efficiency until the 15th day during the first experiment and up to the 50th day in the second experiment. Catches showed an exponential reduction over time in both experiments. A total of 251 specimens comprising of 27 species were caught from both sets of experimental nets, and the state of catch in the nets showed different decaying stages from the second day itself along with fresh stages. As the days progressed, particulate matter and detritus began to accumulate on the experimental nets, increasing net visibility and reducing their catching efficiency. The results of the study on ghost fishing capability will contribute to the development of strategies for reducing the effects of lost nets on the aquatic ecosystem and for suggesting improved management strategies.