- Keywords
- BioRoot Flow,
- MeSH
- Biocompatible Materials therapeutic use MeSH
- Adult MeSH
- Gutta-Percha * therapeutic use MeSH
- Injections methods MeSH
- Humans MeSH
- Molar pathology MeSH
- Root Canal Obturation * methods MeSH
- Periodontitis therapy MeSH
- Check Tag
- Adult MeSH
- Humans MeSH
- Female MeSH
- Publication type
- Case Reports MeSH
OBJECTIVE: This study aimed to compare the force degradation of intermaxillary elastics (IE) in vitro and in vivo while stretching the IE to a precise diameter. MATERIALS AND METHODS: IE 3/16′′ medium Dentaurum from five different batches of packaging were analyzed. The in vivo study involved 10 volunteers, of which 100 IE were examined. To achieve three times the original diameter of the elastic, the distance between the upper canine and the lower dental arch was measured. Buttons were then placed in the mouth accordingly, and IE and passive aligners were inserted for five sessions of 48 h each. To investigate in vitro, 100 IE were placed in an incubator set at 37°C in a humid environment and stretched three times their diameter. The force of the elastics was measured in both investigations using a force meter at 0, 2, 8, 24, and 48 h. RESULTS: In all patients except one, the three times diameter distance extended from the upper canine to the lower second premolar. The force degradation in vivo at 2, 8, 24, and 48 h was 20.58%, 26.78%, 34.81%, and 38.56% and in vitro was 16.38%, 22.83%, 28.32%, and 30.78%. CONCLUSIONS: The amount of stretching of IE varies for each patient when using standard insertion points. The force of IE decreases exponentially, the force degradation in vivo being higher. The clinician must consider the force decrease when advising the patient of the time interval to change the elastics.
- MeSH
- Dental Stress Analysis MeSH
- Adult MeSH
- Latex * chemistry MeSH
- Humans MeSH
- Stress, Mechanical MeSH
- Young Adult MeSH
- Orthodontic Appliances MeSH
- Orthodontic Appliance Design MeSH
- Materials Testing * MeSH
- Dental Arch MeSH
- Check Tag
- Adult MeSH
- Humans MeSH
- Young Adult MeSH
- Male MeSH
- Female MeSH
- Publication type
- Journal Article MeSH
- Comparative Study MeSH
UNLABELLED: Aim of our study is to analyse the sensitisation profile to molecular components of latex and of food allergens with the use of ALEX2 Allergy Xplorer test and to compare these results with the anamnestical data after latex exposure and with the anamnestical data after exposure to food allergens in atopic dermatitis patients. METHODS: 100 patients were included in the study (49 men and 51 women with the average age 40.6 years). The specific IgE was examined with the use of ALEX2 Allergy Xplorer test. A detailed personal history of allergic reaction to latex and allergic reaction to food allergens was taken in all included patients. RESULTS: The sensitisation to latex was recorded in 17 % of patients, majority of patients have positive results of specific IgE to Hev b 8 without clinical reaction to latex. In 7 % of patients with positive results of specific IgE to Hev b 1, Hev b 3, Hev b 5, Hev b 6.02 and Hev b 11 the contact urticaria or contact dermatitis were recorded. The latex fruit syndrome was recorded in 7 % of patients; in another 10 % of patients we recorded no clinical reaction to latex, but the positive results to molecular components of latex and the clinical symptoms after ingestion of different kinds of fruits. CONCLUSION: The significant relation between the results of specific IgE to molecular components Hev b 3, Hev b 5 and Hev b 6.02 and the clinical reaction to latex was confirmed; these components significantly imply clinical reactivity to latex.
- MeSH
- Allergens * immunology MeSH
- Latex Hypersensitivity * immunology MeSH
- Dermatitis, Atopic * immunology MeSH
- Adult MeSH
- Immunoglobulin E * immunology MeSH
- Latex immunology MeSH
- Middle Aged MeSH
- Humans MeSH
- Adolescent MeSH
- Young Adult MeSH
- Food Hypersensitivity * immunology MeSH
- Aged MeSH
- Check Tag
- Adult MeSH
- Middle Aged MeSH
- Humans MeSH
- Adolescent MeSH
- Young Adult MeSH
- Male MeSH
- Aged MeSH
- Female MeSH
- Publication type
- Journal Article MeSH
Previously, a new biodegradable poly(ester urethane urea) was synthesized based on polycaprolactone-diol and fish gelatin (PU-Gel). In this work, the potential of this new material for neural tissue engineering is evaluated. Membranes with randomly oriented fibers and with aligned fibers are produced using electrospinning and characterized regarding their mechanical behavior under both dry and wet conditions. Wet samples exhibit a lower Young's modulus than dry ones and aligned membranes are stiffer and more brittle than those randomly oriented. Cyclic tensile tests are conducted and high values for recovery ratio and resilience are obtained. Both membranes exhibited a hydrophobic surface, measured by the water contact angle (WCA). Human mesenchymal stem cells from umbilical cord tissue (UC-MSCs) and human neural stem cells (NSCs) are seeded on both types of membranes, which support their adhesion and proliferation. Cells stained for the cytoskeleton and nucleus in membranes with aligned fibers display an elongated morphology following the alignment direction. As the culture time increased, higher cell viability is obtained on randomfibers for UC-MSCs while no differences are observed for NSCs. The membranes support neuronal differentiation of NSCs, as evidenced by markers for a neuronal filament protein (NF70) and for a microtubule-associated protein (MAP2).
- MeSH
- Biocompatible Materials chemistry pharmacology MeSH
- Cell Adhesion drug effects MeSH
- Cell Differentiation drug effects MeSH
- Cells, Cultured MeSH
- Humans MeSH
- Mesenchymal Stem Cells * cytology drug effects metabolism MeSH
- Neural Stem Cells * cytology drug effects metabolism MeSH
- Tensile Strength MeSH
- Polyesters * chemistry pharmacology MeSH
- Polyurethanes * chemistry pharmacology MeSH
- Cell Proliferation drug effects MeSH
- Materials Testing MeSH
- Tissue Engineering * methods MeSH
- Tissue Scaffolds chemistry MeSH
- Cell Survival drug effects MeSH
- Gelatin * chemistry MeSH
- Check Tag
- Humans MeSH
- Publication type
- Journal Article MeSH
V této kazuistice je popsáno reendodontické ošetření stálého zubu s otevřeným apexem (postup ošetření kořenového kanálku a vytvoření apikální zátky). Autor se zaměřuje na rozdíly mezi reendodontickým ošetřením zubů s intaktním a širokým foramen apicale.
In this case report, the retreatment of a permanent tooth with open apex is described (root end closure procedure). The author focuses on the differences between the retreatment of teeth with intact and wide foramen apicale.
- MeSH
- Adult MeSH
- Gutta-Percha MeSH
- Tooth Apex surgery MeSH
- Humans MeSH
- Retreatment MeSH
- Radiography, Dental MeSH
- Calcium Compounds administration & dosage MeSH
- Root Canal Therapy * methods MeSH
- Root Canal Filling Materials MeSH
- Check Tag
- Adult MeSH
- Humans MeSH
- Male MeSH
- Publication type
- Case Reports MeSH
- Examination Questions MeSH
BACKGROUND: Ultrasound (US) guided intra-articular elbow injections are commonly performed in clinical practice. OBJECTIVE: To describe a proximal to distal approach for US-guided intra-articular elbow injection. DESIGN: Cadaveric study. SETTINGS: Academic institution. METHODS: Both elbows of a single cadaver were injected with green-colored water-diluted latex dye using the US-guided proximal to distal approach. In the left elbow, the needle was kept in situ; in the right elbow, the needle was removed. Subsequently, a layer-by-layer anatomical dissection was performed in both elbows. MAIN OUTCOME MEASURES: Presence and distribution of the latex dye and location of the needle tip within the elbow joint capsule. RESULTS: Anatomical dissection of both elbows confirmed the correct intra-articular position of the needle tip in the left elbow as well as correct placement of the latex dye bilaterally. During layer-by-layer dissection of the left elbow, the position of the radial nerve was observed anterior to the needle. CONCLUSIONS: This cadaveric observation demonstrated that the US-guided proximal to distal approach is a convenient technique to access the elbow joint. Compared to the previously described techniques, the in-plane, proximal to distal approach may provide excellent needle visibility during the entire procedure, precisely targeting the articular space. The preliminary data need to be validated in additional clinical studies.
- MeSH
- Injections, Intra-Articular methods MeSH
- Ultrasonography, Interventional methods MeSH
- Latex MeSH
- Humans MeSH
- Elbow MeSH
- Elbow Joint * diagnostic imaging MeSH
- Cadaver MeSH
- Check Tag
- Humans MeSH
- Publication type
- Journal Article MeSH
BACKGROUND: Ultrasound (US)-guided intraarticular hip joint injections are commonly performed using an in-plane anterior approach, which has several limitations. OBJECTIVE: To describe and report a "lateral" (lateral to medial) approach for US-guided intraarticular hip injection. DESIGN: Cadaveric investigation. SETTING: Academic institution, department of anatomy. PARTICIPANTS: One cadaveric specimen. METHODS: Both hips of a single cadaver were injected using the US-guided lateral approach. In the left hip, the needle was inserted and kept in situ. The right hip was injected with white-colored water-diluted latex dye. Subsequently, a layer-by-layer anatomical dissection was performed. MAIN OUTCOME MEASURES: Presence and distribution of latex dye and location of needle tip within the joint capsule of the hip. RESULTS: Anatomical dissection of the left and right hips confirmed the correct intraarticular position of the needle tip and the placement of the latex dye, respectively. During layer-by-layer dissection of the left hip, positions of the lateral cutaneous nerve and the lateral circumflex femoral artery were observed anterior to the needle, 30 mm for the nerve and 8 mm for the artery. CONCLUSIONS: This preliminary study demonstrated that the US-guided lateral approach is a convenient technique to access the hip joint in a cadaveric specimen. Compared with the "classical" anterior technique, the lateral approach may provide several advantages, including improved needle visibility, theoretically decreased risk of vascular injury, and less risk of needle contamination. Because injury to the lateral epiphyseal arteries is possible when lateral approach is used, caution is required, especially in children. These preliminary conclusions will need to be validated in future/larger clinical studies.
Nerve agents have been used recently in the Syrian civil war. Collecting relevant samples for retrospective identification of an attack is often problematic. The article deals with the possibility of using contaminated gloves as an analytical sample for evidence of the chemical weapons use. There have not yet been published studies dealing with the identification of chemical warfare agents in this type of matrix, where the diversity of chemical properties of gloves and the lifetime of the contaminated sample would be considered. Sarin, soman, and cyclosarin were used as contaminants in the study. Nitrile, latex, and vinyl disposable gloves were chosen as matrices. The identification method was gas chromatography. Six solvents commonly used in military laboratories were tested as extractants. The extraction procedure was optimized in terms of the appropriate method (vortex) and the required extraction time (1 min) and resulted in significant reduction in sample preparation time. The chromatographic background of the extracts was also monitored in order to find a method with the least number of peaks interfering in the identification. Suitable solvents were hexane and acetonitrile. The lifetime of the sample was also investigated. The worst result was recorded for latex. For individual contaminants, the time varied depending on the volatility. The developed procedures were successfully validated within a sample handling effects scenario. The results demonstrate that in the event of an ongoing military risk at the site of an attack, even discarded disposable rubber glove type samples can be used as evidence.
- MeSH
- Rubber * chemistry MeSH
- Latex MeSH
- Nerve Agents * MeSH
- Gloves, Protective MeSH
- Retrospective Studies MeSH
- Solvents MeSH
- Publication type
- Journal Article MeSH
- MeSH
- Cyamopsis MeSH
- Defecation drug effects MeSH
- Child MeSH
- Rubber * therapeutic use MeSH
- Lactulose administration & dosage MeSH
- Humans MeSH
- Dietary Fiber therapeutic use MeSH
- Randomized Controlled Trials as Topic MeSH
- Treatment Outcome MeSH
- Constipation * therapy MeSH
- Check Tag
- Child MeSH
- Humans MeSH
Magnetorheological elastomer (MRE) materials have the potential to be used in a wide range of applications that require long-term service in hostile environments. These widespread applications will result in the emergence of MRE-specific durability issues, where durability refers to performance under in-service environmental conditions. In response, the outdoor tropical climatic environment, combined with the effects of weathering, will be the primary focus of this paper, specifically the photodegradation of the MRE. In this study, MRE made of silicone rubber (SR) and 70 wt% micron-sized carbonyl iron particles (CIP) were prepared and subjected to mechanical and rheological testing to evaluate the effects under natural weathering. Magnetorheological elastomer samples were exposed to the natural weathering conditions of a tropical climate in Kuala Lumpur, Malaysia, for 30 days. To obtain a comprehensive view of MRE degradation during natural weathering, mechanical testing, rheology, and morphological evaluation were all performed. The mechanical and rheological properties test results revealed that after 30 days of exposure and known meteorological parameters, Young's modulus and storage modulus increased, while elongation at break decreased. The degradation processes of MRE during weathering, which are responsible for their undesirable change, were given special attention. With the help of morphological evidence, the relationship between these phenomena and the viscoelastic properties of MRE was comprehensively defined and discussed.
- MeSH
- Elastomers * MeSH
- Weather MeSH
- Rheology MeSH
- Silicone Elastomers MeSH
- Tropical Climate * MeSH
- Publication type
- Journal Article MeSH
