Causative Mutation of Hypothyroidism in Feline Colony

Hypothyroidism is an endocrine disorder in which the thyroid gland produces insufficient amounts of thyroid hormones for normal physiological function. These functions include heart rate, ventilation rate, and cardiac output. Approximately 5% of the adult population is affected by hypothyroidism (NIH). Congenital hypothyroidism is the most treatable cause of mental retardation, affecting one in every 3,500-5,000 births (Vanderpump, 2011). Using a feline model of multiple generations, the purpose of this study was to identify the gene mutation causing hypothyroidism within a sample population. A pedigree was constructed to observe mode of inheritance. Using a candidate gene approach, the founder cat’s genome was compared to the domestic cat’s sequenced genome. Possible causative sequence mutations were compared against the progeny’s sequences to identify which gene mutation was conserved throughout the affected population. DNA amplified via PCR and gel electrophoresis was used to analyze progeny gene sequences. Of the three genes analyzed-SLC5A5, DUOX1, and TG, none fit the mode of inheritance. This suggests that either these genes were not involved in disease manifestation or it is not caused by a monogenic mutation. Future studies should focus on other homozygous mutated genes found in the proband, specifically DUOX2

Understanding the Potential of Indonesian Museums

This study aims to provide ideas and explanations of the potential development and growth by understanding the strength and opportunities of museums in Indonesia. Descriptive research is deemed best acceptable for the purposes of this study. The data set include museum regulations in Indonesia, namely the Law of the Republic of Indonesia No. 5 of 2017 for Culture Promotion; Government Regulation of the Republic of Indonesia No. 66 concerning Museums; and museum statistical data. This research uses literature review as a data analysis approach by examining the documents that became research data, then assessing the potential for the development and growth of museums in Indonesia by identifying the opportunities and challenges. The results of the analysis are presented in the form of a narrative. The results show that regulations, the advancement of technology; as well as the Indonesian population, provide opportunities for museums in Indonesia to grow and develop in the future. However, the limited number of cultural heritage experts and the low interest of Indonesians in visiting historical sites make developing museums challenging

Anisotropic Mechanical Properties of ABS Parts Fabricated by Fused Deposition Modelling

In recent years, layered manufacturing (LM) processes have begun to progress from rapid prototyping techniques towards rapid manufacturing methods, where the objective is now to produce finished components for potential end use in a product (Caulfield et al., 2007). LM is especially promising for the fabrication of specific need, low volume products such as replacement parts for larger systems. This trend accentuates the need for a thorough understanding of the associated mechanical properties and the resulting behavior of parts produced by layered methods. Not only must the base material be durable, but the mechanical properties of the layered components must be sufficient to meet in-service loading and operational requirements, and be reasonably comparable to parts produced by more traditional manufacturing techniques. This chapter presents the details of a study completed to quantitatively analyze the potential of fused deposition modelling to fully evolve into a rapid manufacturing tool. The project objective is to develop an understanding of the dependence of the mechanical properties of FDM parts on raster orientation and to assess whether these parts are capable of maintaining their integrity while under service loading. The study examines the effect of fiber orientation, i.e. the direction of the polymer beads relative to the loading direction of the part, on a variety of important mechanical properties of ABS components fabricated by fused deposition modeling. Tensile, compressive, flexural, impact, and fatigue strength properties of FDM specimens are examined, evaluated, and placed in context in comparison with the properties of injection molded ABS parts

ISOLATION AND IDENTIFICATION OF STEROIDS FROM DIFFERENT PARTS OF PROSOPIS JULIFLORA

Objective: The present study was carried out to investigate the steroid content present in the leaves, stem, pods and callus of Prosopis juliflora.Methods: The method of Tomita et al., was used for isolation of steroids. The structure of the isolated compound was established on the basis of physical and chemical test and spectroscopic evidence (TLC, IR and GC-MS).Results: The study concluded that a single type of steroid Diosgenin was found in the selected plant species.Conclusion: Diosgenin is an important steroidal metabolite used as a starting material for the synthesis of steroidal drugs, as it exhibits estrogenic activity

Acantholytic oral squamous cell carcinoma with clear cell change - a rare amalgamated variant

Background: Acantholytic squamous cell carcinoma (ASCC) is an uncommon histological variation of oral squamous cell carcinoma (OSCC), accounting for fewer than 4% of all occurrences. The tumor shows a slight masculine predisposition, with the lower lip being the most commonly affected location. ASCC is reported to have a diverse biologic behavior, which explains its ability to metastasize to distant places and, thus, its poor prognosis. Similarly, clear cell change in OSCC is a rare occurrence with an unknown etiology that suggests its aggressive nature. Method and Results: Histopathology reveals central acantholytic cells with numerous duct-like features. The presence of distinct cytological atypia contributes to the diagnosis of SCC. Special stains and IHC aid in distinguishing tumor from other histopathologically similar entities. Conclusion: The case of a 29-year-old male presented here with an updated literature review highlights the need for histological study of the unique and seldom seen oral ASCC with clear cell change, which can be ignored because of similarities with other entities. Because recurrence rates are so high for ASCC, amalgamated clear cell change makes it critical for proper treatment initiation with a definite diagnosis. To the best of our knowledge, this is the first documented occurrence. Our experience with the present case suspected a more aggressive behavior due to a high Ki-67 index, anticipating a poorer prognosis in the oral cavity considering the patient's young age

Processing and Composition Effects on the Fracture Behavior of Spray-Formed 7XXX Series Al Alloys

The fracture properties of high-strength spray-formed Al alloys were investigated, with consideration of the effects of elemental additions such as zinc,manganese, and chromium and the influence of the addition of SiC particulate. Fracture resistance values between 13.6 and 25.6 MPa (m)1/2 were obtained for the monolithic alloys in the T6 and T7 conditions, respectively. The alloys with SiC particulate compared well and achieved fracture resistance values between 18.7 and 25.6 MPa (m)1/2. The spray-formed materials exhibited a loss in fracture resistance (KI) compared to ingot metallurgy 7075 alloys but had an improvedperformance compared to high-solute powder metallurgy alloys of similar composition. Characterization of the fracture surfaces indicated a predominantly intergranular decohesion, possibly facilitated by the presence of incoherent particles at the grain boundary regions and by the large strength differentialbetween the matrix and precipitate zone. It is believed that at the slip band-grain boundary intersection, particularly in the presence of large dispersoids and/or inclusions, microvoid nucleation would be significantly enhanced. Differences in fracture surfaces between the alloys in the T6 and T7 condition were observed and are attributed to inhomogeneous slip distribution, which results in strain localization at grain boundaries. The best overall combination of fracture resistance properties were obtained for alloys with minimum amounts of chromium and manganese additions

A Microscopic Study on the Corrosion Fatigue of Ultra-Fine Grained and Conventional Al–Mg Alloy

The corrosion behavior of a nanocrystalline (NC)/ultrafine grained (UFG) Al–Mg based alloy was investigated and compared to its conventional counterpart 5083(H111). The corrosion fatigue (CF) was studied with respect to pit initiation, pit location and crack propagation as a function of environment. Scanning electron microscopy (SEM) with EDS was used to analyze the fracture surface of the failed specimen with respect to pitting characteristics, crack propagation and corrosion product. Load vs. cycles to failure was measured and S/N curves were generated for the UFG Al–Mg based alloy and the conventional counterpart 5083 in air and seawater

Slow Strain Rate Testing and Stress Corrosion Cracking of Ultra-Fine Grained and Conventional Al–Mg Alloy

Stress corrosion cracking susceptibility was investigated for an ultra-fine grained (UFG) Al–7.5Mg alloy and a conventional 5083 H111 alloy in natural seawater using slow strain rate testing (SSRT) at very slow strain rates between 1E−5 s−1, 1E−6 s−1 and 1E−7 s−1. The UFG Al–7.5Mg alloy was produced by cryomilling, while the 5083 H111 alloy is considered as a wrought manufactured product. The response of tensile properties to strain rate was analyzed and compared. Negative strain rate sensitivity was observed for both materials in terms of the elongation to failure. However, the UFG alloy displayed strain rate sensitivity in relation to strength while the conventional alloy was relatively strain rate insensitive. The mechanical behavior of the conventional 5083 alloy was attributed to dynamic strain aging (DSA) and delayed pit propagation while the performance of the UFG alloy was related to a diffusion-mediated stress relaxation mechanism that successfully delayed crack initiation events, counteracted by exfoliation and pitting which enhanced crack initiation

Stress Corrosion Cracking Resistance of Cold-Sprayed Al 6061 Deposits Using a Newly Developed Test Fixture

The stress corrosion cracking (SCC) response of Al 6061 bulk deposits produced by high-pressure cold spray (HPCS) was investigated and compared to commercial wrought Al 6061-T6 material. Representative tensile coupons were stressed to 25%, 65% and 85% of their respective yield strength and exposed to ASTM B117 salt fog for 90 days. After exposure, the samples were mechanically tested to failure, and subsequently investigated for stress corrosion cracking via optical and scanning electron microscopy with energy-dispersive X-ray spectroscopy (EDS). The results were compared to the wrought Al 6061-T6 properties and correlated with the observed microstructures. Wrought samples showed the initiation of stress corrosion cracking, while the cold-sprayed deposits appeared to be unaffected or affected by general corrosion only. Optical microscopy revealed evidence of stress corrosion cracking in the form of intergranular corrosion in the wrought samples, while no significant corrosion was observed in the cold-sprayed deposits. Fractography revealed wrought samples failed due to multiple mechanisms, with predominant cleavage and intergranular failure, but cold-sprayed samples only failed by ductile dimple rupture. The difference in SCC response between the differently processed materials is attributed to the documented benefits of the cold spray process, which includes maintaining fine grain structure of the feedstock powder and high density after consolidation, low oxidation, and work hardening effect

An Update on JE Vaccine Development and Use

Japanese encephalitis (JE) is an emerging and re- emerging arboviral infection of global significance. Its causative agent Japanese encephalitis virus (JEV) is the leading cause of viral encephalitis in Asia, Southeast Asia and Pacific. Nearly 3 billion people living in JE endemic areas account for 10000- 15000 deaths annually. The disease has high fatality rate (~30%) and nearly 50% survivors develop permanent neuropsychiatric sequelae. There is no specific treatment for JE. Vaccination is the only effective strategy available for prevention and control of JE. The wider availability and inclusion of JE vaccination in the national immunization programme in many of the affected countries have resulted in better prospects for control of JE. This review is an update on vaccines currently available, their development, recommended immunization schedule for them as well as the upcoming challenges related with cross- protectivity against hetrologous genotypes