In recent years, the wearable device market has been developing rapidly. Wearable devices with personalized health management and chronic disease monitoring are widely used in daily life by virtue of their powerful performance and convenience. However, with the popularization of these devices, skin adverse reactions caused by prolonged wearable wear are gradually increasing, among which allergic contact dermatitis (ACD) is the most common. Common allergens such as acrylates, methacrylates, rosin, chromium and nickel are widely present in adhesives and device components and are the main causes of ACD. Understanding the presence of potential sensitizers in wearable devices can help in diagnostic patch testing in users experiencing skin reactions caused by the device. Future innovations in wearable device materials will focus on the adoption of safer bonding technologies and biocompatible materials to reduce the risk of allergy. The introduction of new materials brings both development opportunities and challenges. Educating users on proper device usage, identifying specific allergens, selecting hypoallergenic materials, and optimizing device maintenance are important for reducing the risk of ACD.

In recent years, the wearable device market has been developing rapidly. Wearable devices with personalized health management and chronic disease monitoring are widely used in daily life by virtue of their powerful performance and convenience. However, with the popularization of these devices, skin adverse reactions caused by prolonged wearable wear are gradually increasing, among which allergic contact dermatitis (ACD) is the most common. Common allergens such as acrylates, methacrylates, rosin, chromium and nickel are widely present in adhesives and device components and are the main causes of ACD. Understanding the presence of potential sensitizers in wearable devices can help in diagnostic patch testing in users experiencing skin reactions caused by the device. Future innovations in wearable device materials will focus on the adoption of safer bonding technologies and biocompatible materials to reduce the risk of allergy. The introduction of new materials brings both development opportunities and challenges. Educating users on proper device usage, identifying specific allergens, selecting hypoallergenic materials, and optimizing device maintenance are important for reducing the risk of ACD.

This study explored the growth-promoting effect and mechanism of the endophytic bacterium Kocuria rosea on Rehmannia glutinosa, aiming to provide a scientific basis for the development of green bacterial fertilizer. R. glutinosa 'Jinjiu' was treated with K. rosea, and the shoot parameters including leaf length, leaf width, plant width, and stem diameter were measured every 15 days. After 120 days, the shoots and roots were harvested. The root indicators(root number, root length, root diameter, root fresh weight, root dry weight, root volume, and root vitality) and secondary metabolites(catalpol, rehmannioside A, rehmannioside D, verbascoside, and leonuride) were determined. The R. glutinosa growth-promoting mechanism of K. rosea was discussed from the effect of K. rosea on the nutrient element content in R. glutinosa and rhizosphere soil and the genome information of this plant. After application of K. rosea, the maximum increases in leaf length, leaf width, plant width, and stem diameter were 35.67%(60 d), 25.39%(45 d), 40.17%(60 d), and 113.85%(45 d), respectively. The root number, root length, root diameter, root volume, root fresh weight, root dry weight, and root viability increased by 41.71%, 45.10%, 48.61%, 94.34%, 101.55%, 147.61%, and 42.08%, respectively. In addition, the content of rehmannioside A and verbascoside in the root of R. glutinosa increased by 76.67% and 69.54%, respectively. K. rosea promoted the transformation of nitrogen(N), phosphorus(P), and potassium(K) in the rhizosphere soil into the available state. Compared with that in the control, the content of available N(54.60 mg·kg~(-1)), available P(1.83 μmol·g~(-1)), and available K(83.75 mg·kg~(-1)) in the treatment with K. rosea increased by 138.78%, 44.89%, and 14.34%, respectively. The content of N, P, and K in the treatment group increased by 293.22%, 202.63%, and 23.80% in the roots and by 23.60%, 107.23%, and 134.53% in the leaves of R. glutinosa, respectively. K. rosea carried the genes related to colonization(rbsB, efp, bcsA, and gmhC), N, P, and K metabolism(narG, narH, narI, nasA, nasB, GDH2, pyk, aceB, ackA, CS, ppa, ppk, ppk2, pstS, pstA, pstB, and pstC), and indole-3-acetic acid and zeatin synthesis(iaaH and miaA). Further studies showed that K. rosea could colonize the roots of R. glutinosa and secrete indole-3-acetic acid(3.85 μg·mL~(-1)) and zeatin(0.10 μg·mL~(-1)). In summary, K. rosea promotes the growth of R.ehmannia glutinosa by enhancing the nutrient uptake, which provides a theoretical basis for the development of plant growth-promoting microbial products.
Rehmannia/metabolism* ; Endophytes/metabolism* ; Plant Roots/growth & development* ; Micrococcaceae/genetics* ; Data Mining ; Plant Leaves/metabolism* ; Genomics ; Rhizosphere

BACKGROUND: Clinical outcomes are poor if patients with acute heart failure (AHF) are discharged with residual congestion in the presence of renal dysfunction. However, there is no single indication to reflect the combined effects of the two related pathophysiological processes. We, therefore, proposed an indicator, congestion and renal index (CRI), and examined the associations between the CRI and one-year outcomes and the incremental prognostic value of CRI compared with the established scoring systems in a multicenter prospective cohort of AHF. METHODS: We enrolled AHF patients and calculated the ratio of thoracic fluid content index divided by estimated glomerular filtration rate before discharge, as CRI. Then we examined the associations between CRI and one-year outcomes. RESULTS: A total of 944 patients were included in the analysis (mean age 63.3 ± 13.8 years, 39.3% women). Compared with patients with CRI ≤ 0.59 mL/min per kΩ, those with CRI > 0.59 mL/min per kΩ had higher risks of cardiovascular death or HF hospitalization (HR = 1.56 [1.13-2.15]) and all-cause death or all-cause hospitalization (HR = 1.33 [1.01-1.74]). CRI had an incremental prognostic value compared with the established scoring system. CONCLUSIONS In patients with AHF, CRI is independently associated with the risk of death or hospitalization within one year, and improves the risk stratification of the established risk models.