Acute periodontal lesions

This is a review and update on acute conditions affecting the gingival tissues, including abscesses in the periodontium, necrotizing periodontal diseases, and other acute conditions that cause gingival lesions with acute presentation, such as infectious process not associated with oral bacterial biofilms, muco-cutanenous disorders, and traumatic and allergic lesions. A periodontal abscess is clinically important since it is a relatively frequent dental emergency, it can compromise the periodontal prognosis of the affected tooth, and because bacteria within the abscess have been identified, mainly by the type of etiology, and there are clear diffrences between those affecting a previously existing periodontal pocket ahd those affecting healthy sites. Therapy for this acute condition consists of drainage and tissue debridement, with individual evaluation of the need for systemic antimicrobial therapy. the definitive treatment of the pre-existing condition should be accomplished after the acute phase is controlled. Necrotizing periodontal disease (NPD) present three typical clinical features : papilla necrosis, gingival bleeding, and pain. Although the prevalence of these diseases is not high, their importance is clear, since they represent the most severe conditions associated with dental biofilm, with very rapid tissue destruction. In adittion to bacteria, the etiology of NPD includes numerous factors that alter the host response and predispose to these diseases, including HIV infection, malnutrition, stress, and tobacco smoking. The treatment consists of superficial debridement, careful mechanical oral hygiene, rinsing with chlorhexidine, and daily re-evaluation. Systemic antimicrobials may be used adjunctively in severe cases or in non-responding conditions and the best option is metronidazole.Once the acute disease is under control, definitive treatment should be provided, including the adequate therapy for the pre-existing gingivitis or periodontitis. Among other acute conditions affecting the periodontal tissues, but not caused by the microorganisms present in oral biofilms , are infectious diseases, muco-cutaneous diseases and traumatic or allergic lesions. In most cases, the gingival envolvement is not severe, though they are common and may prompt a dental emergency visit. These conditions may the direct result of a trauma or the consequence of the breaking of vesicles and bullae. A proper differential diagnosis is important for an adequate management of the case

Using Raman spectroscopy for early detection of resistance-breaking strains of tomato spotted wilt orthotospovirus in tomatoes

Tomato spotted wilt (TSW) disease caused by tomato spotted wilt orthotospovirus (TSWV, Orthotospovirus tomatomaculae) poses a significant threat to specialty and staple crops worldwide by causing over a billion dollars in crop losses annually. Current strategies for TSWV diagnosis heavily rely on nucleic acid or protein-based techniques which require significant technical expertise, and are invasive, time-consuming, and expensive, thereby catalyzing the search for better alternatives. In this study, we explored the potential of Raman spectroscopy (RS) in early detection of TSW in a non-invasive and non-destructive manner. Specifically, we investigated whether RS could be used to detect strain specific TSW symptoms associated with four TSWV strains infecting three differentially resistant tomato cultivars. In the acquired spectra, we observed notable reductions in the intensity of vibrational peaks associated with carotenoids. Using high-performance liquid chromatography (HPLC), we confirmed that TSWV caused a substantial decrease in the concentration of lutein that was detected by RS. Finally, we demonstrated that Partial Least Squares-Discriminant Analysis (PLS-DA) could be used to differentiate strain-specific TSW symptoms across all tested cultivars. These results demonstrate that RS can be a promising solution for early diagnosis of TSW, enabling timely disease intervention and thereby mitigating crop losses inflicted by TSWV

Proliferation of Tau 304-380 Fragment Aggregates through Autocatalytic Secondary Nucleation.

The self-assembly of the protein tau into neurofibrillary tangles is one of the hallmarks of Alzheimer's disease and related tauopathies. Still, the molecular mechanism of tau aggregation is largely unknown. This problem may be addressed by systematically obtaining reproducible in vitro kinetics measurements under quiescent conditions in the absence of triggering substances. Here, we implement this strategy by developing protocols for obtaining an ultrapure tau fragment (residues 304-380 of tau441) and for performing spontaneous aggregation assays with reproducible kinetics under quiescent conditions. We are thus able to identify the mechanism of fibril formation of the tau 304-380 fragment at physiological pH using fluorescence spectroscopy and mass spectrometry. We find that primary nucleation is slow, and that secondary processes dominate the aggregation process once the initial aggregates are formed. Moreover, our results further show that secondary nucleation of monomers on fibril surfaces dominates over fragmentation of fibrils. Using separate isotopes in monomers and fibrils, through mass spectroscopy measurements, we verify the isotope composition of the intermediate oligomeric species, which reveals that these small aggregates are generated from monomer through secondary nucleation. Our results provide a framework for understanding the processes leading to tau aggregation in disease and for selecting possible tau forms as targets in the development of therapeutic interventions in Alzheimer's disease

The Composition of Quantitative Nutritional Analysis Using Raman Spectroscopy

With the substantial global population growth, it is estimated that the population will be nearing around 9.7 billion by 2050. With this in hand, the demand for food production is an imminent matter in question that must be fulfilled to avert a food crisis of global malnutrition. This is where we introduce our research to enhance the upcoming, cutting-edge technology that is Raman spectroscopy (RS), known for being non-invasive, non-destructive, and chemical free. Through this method, we aim to strengthen and test the instrument's potential in its ability to accurately identify and classify different vibrational frequencies to enhance our nutritional analysis. Through advancements in nutritional analysis, we can identify important macromolecules such as carbohydrates, proteins, and fats to reach a precise quantification of one's nutrient intake. By analyzing popular international foods such as ramen noodles, bread, and similar carbohydrate foods, we can promote the use of RS to create a non-destructive and chemical-free method in the production of these foods. In this study, we hypothesized that through RS we could collect substantial data and process this data to produce accurate results to enhance our nutritional analysis. Our results indicate that RS is successful in its ability to differentiate between foods and, more specifically, food brands. The data collected is then analyzed using a multi-paradigm programming language to further enhance this precise nutritional analysis. In this study we use RS to analyze and distinguish the samples tested, however, we are also studying the potential of RS towards our agricultural sciences to impact the impending global issue

Evaluación in vitro de la resistencia compresiva y la microdureza superficial en ionómeros de vidrio, Lima 2023

La investigación lleva por nombre: «Evaluación in vitro de la resistencia compresiva y la microdureza superficial en ionómeros de vidrio, Lima 2023». Se planteó como objetivo comparar la evaluación in vitro de la resistencia compresiva y la microdureza superficial en ionómeros de vidrio, Lima 2023. Estudio experimental, con una muestra de 72 bloques de cementos ionómero de vidrio modificado con resina y cementos ionómero de vidrio convencionales que fueron confeccionados acorde a los requerimientos establecidos en la norma ISO 9917-1, ambas fueron sometidas a pruebas mecánicas y los resultados fueron colocados en el instrumento ficha de recolección de datos. En los hallazgos, el ionómero Cention N presentó la mayor resistencia compresiva con una media de 179.19 MPa en comparación a las otras marcas, mientras que Ionómero GC Fuji IX demostró la RC más baja con un promedio de 27.59 Mpa. Respecto a la microdureza superficial, se determinó que el ionómero Ketac Molar easy Mix presentó el promedio más alto con 50.33 kg/mm2 en comparación a las otras marcas, mientras que Ionómero GC Fuji IX demostró la MS más baja con un promedio de 17.86 kg/mm2 y al comparar las variables de investigación se encontraron diferencias significativas (p-valor =0,000). En conclusión, existe una diferencia significativa en la evaluación in vitro de la resistencia compresiva y la microdureza superficial en ionómeros de vidrio, Lima 2023. Además, el ionómero Cention N fue el que presentó la resistencia compresiva más alta, mientras que el ionómero Ketac Molar easy Mix presentó la mayor microdureza superficial

Plasmalogens Alter the Aggregation Rate of Transthyretin and Lower Toxicity of Transthyretin Fibrils

Heart tissue can experience a progressive accumulation of transthyretin (TTR), a small four subunit protein that transports holoretinol binding protein and thyroxine. This severe pathology is known as transthyretin amyloid cardiomyopathy. Numerous experimental studies indicated that the aggregation rate and toxicity of TTR fibrils could be altered by the presence of lipids; however, the role of plasmalogens in this process remains unknown. In this study, we investigate the effect of choline plasmalogens (CPs) with different lengths and saturations of fatty acids (FAs) on TTR aggregation. We found that CPs with saturated and unsaturated FAs strongly suppressed TTR aggregation. We also found that CPs with saturated FAs did not change the morphology of TTR fibrils; however, much thicker fibrillar species were formed in the presence of CPs with unsaturated FAs. Finally, we found that CPs with C16:0, C18:0, and C18:1 FAs substantially lowered the cytotoxicity of TTR fibrils that were formed in their presence

DataSheet_1_Using Raman spectroscopy for early detection of resistance-breaking strains of tomato spotted wilt orthotospovirus in tomatoes.docx

Tomato spotted wilt (TSW) disease caused by tomato spotted wilt orthotospovirus (TSWV, Orthotospovirus tomatomaculae) poses a significant threat to specialty and staple crops worldwide by causing over a billion dollars in crop losses annually. Current strategies for TSWV diagnosis heavily rely on nucleic acid or protein-based techniques which require significant technical expertise, and are invasive, time-consuming, and expensive, thereby catalyzing the search for better alternatives. In this study, we explored the potential of Raman spectroscopy (RS) in early detection of TSW in a non-invasive and non-destructive manner. Specifically, we investigated whether RS could be used to detect strain specific TSW symptoms associated with four TSWV strains infecting three differentially resistant tomato cultivars. In the acquired spectra, we observed notable reductions in the intensity of vibrational peaks associated with carotenoids. Using high-performance liquid chromatography (HPLC), we confirmed that TSWV caused a substantial decrease in the concentration of lutein that was detected by RS. Finally, we demonstrated that Partial Least Squares-Discriminant Analysis (PLS-DA) could be used to differentiate strain-specific TSW symptoms across all tested cultivars. These results demonstrate that RS can be a promising solution for early diagnosis of TSW, enabling timely disease intervention and thereby mitigating crop losses inflicted by TSWV.</p