A cone beam computed tomography study on inter-radicular bone to determine the safe zone for miniscrew implants placement

Background: This cone beam computed tomography (CBCT) examination aimed to determine the inter-radicular bone dimensions inside exceptional increase patterns and decide a safe region for the placement of miniscrew implants. Methods: The inter-radicular bone dimensions have been measured at particular websites within the maxillary and mandibular arches. The measurements were taken on the coastal stage, middle of the root, and apical stage of the selected teeth. Statistical evaluation was completed to compare the bone dimensions among distinctive boom styles. Results: The effects discovered giant variations in inter-radicular bone dimensions and the various increase styles. Class II and class III disorder exhibited narrower inter-radicular spaces as compared to class I disorder, especially in the maxillary arch. The crystal degree and middle of the root confirmed narrower dimensions than the apical level in all increase patterns. These findings provide valuable insights into the ability to secure zones for miniscrew implant placement primarily based on the patient's increased sample. Conclusions: This study highlights the importance of considering growth styles whilst planning miniscrew implant placement. Clinicians have to be cautious and select suitable websites for miniscrew insertion, particularly in sufferers with class II or class III disorder, to ensure the most excellent balance and avoid headaches related to inter-radicular bone dimensions. Tailoring implant placement to individual boom patterns can enhance the fulfilment and protection of orthodontic treatments utilizing miniscrew implants

Evaluation of Demirjian stage of the third molar as a reliable predictor of 18 years age

Background: In accordance with section 3(1) of the 1875 Indian majority act, any individual residing in India must reach the majority age when they reach the age of 18 and not before. Third molar formation begins approximately the age of 18. This study aims to distinguish the third molar Demirjian stage(s) indicate that the individual is under the age of 18, and which do not, we will be able to determine the person's age. Methods: In this research, 202 patients' OPG radiographs aged 14-25 years were obtained. Their radiographs revealed 742 third molars in total. Third molar development was examined using Demirjian's eight-stage method, and average age was then calculated for each step of third molar growth. Stages under the age of eighteen and stages over the age of eighteen were analyzed. Results: Data revealed that a person was in stage C most likely under the age of 18 (minor) and at stage H, a person was most likely over the age of 18 (major). Stages A and B were not evident in the age range studied. The age associated with stage C was less than 18 years, while the age associated with stage H was greater than 18 years. Conclusions: Assessing third molar growth stages is a reliable non-invasive method for estimating an individual's age. Stage H indicates a likely age over 18 with completed root development, while stage C suggests an age under 18 with ongoing root development, making it a quick and useful approach

Mechanical and Explosive Properties of Plastic Bonded Explosives Based on Mixture of HMX and TATB

This paper describes formulation of plastic bonded explosives (PBXs) compositions based on 2,4,6- triamino-1,3,5-trinitrobenzene (TATB), Octahydro l,3,5,7-tetranitro- 1,3,5,7-tetrazocine (HMX) by varying their relative amounts with Viton A as polymeric binder by slurry coating technique. These PBXs compositions are studied for mechanical and detonic properties. It has been observed that sensitivity and explosive performance of PBXs based on mixture of HMX and TATB were varied over a wide considerable range by varying relative amounts of TATB and HMX. The detonation study revealed there was increased in velocity of detonation (VOD) and detonation pressure with increasing amount of HMX from 10-80 % by weight. The sensitivity test results exhibited that insensitivity to impact for PBXs compositions was found to decrease with increasing HMX amount.  Friction sensitivity study showed that no reactions were observed upto 36 kg load for PBXs compositions namely HT6030, HT5040, HT4050, HT3060, HT2070 and HT1080. The compressive strength of these PBXs compositions was found within the range of 9-11 MPa.Defence Science Journal, 2013, 63(6), pp.622-629, DOI:http://dx.doi.org/10.14429/dsj.63.576

Assessment Of Purisha At Laboratory Level- A Review

Ahara is panchabhautika, each element of ahara is not used by thebody, thus it is eliminated in the form of waste(Mala). The importanceof by products, produced during the digestion process, is as importantas food consumption in terms of nutrition for every body segment andthese phenomena are unavoidable. The proper formation of these malasis a reflection of the normal metabolic function and regular dhatuproduction, with good characteristics. Mala have the samephysiological value as dosha or dhatu, since they are considered to bebody moola. The metabolism will be affected if malas are not removedfrom the body, eventually leading to a malformation of tissues anddisease

Engineering the Morphology and Particle Size of High Energetic Compounds Using Drop-by-Drop and Drop-to-Drop Solvent–Antisolvent Interaction Methods

Morphology-controlled precipitation of three powerful organic high energetic compounds (HECs) viz. cyclotrimethylenetrinitramine (RDX), octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine (HMX), and 2-methyl-1,3,5-trinitrobenzene (TNT) was achieved by two different processes, namely, drop-by-drop (DBD) and drop-to-drop (DTD) solvent–antisolvent interaction methods. Effect of different experimental parameters on the mean size and morphology of the prepared submicron-sized particles of HECs was investigated thoroughly. The DBD method favors the formation of nanosized particles of RDX and TNT at lower concentrations (5 mM). However, a significant increase in the mean particle size occurred at higher concentrations (25 and 50 mM). Formation of facetted crystals of RDX, HMX, and nanorods of TNT was observed at higher concentrations because of the interaction of crystal facets with the antisolvent. Relatively, smaller sized, spherical particles of RDX and HMX could be prepared through the DTD method even at higher concentrations (25 mM). The DTD method is a continuous process and hence is a facile method for industrial applications. X-ray diffraction and Fourier transform infrared spectroscopy studies revealed that RDX, HMX and TNT were precipitated in their most stable polymorphic forms α, β, and monoclinic, respectively. Differential scanning calorimetry showed that the thermal response of the nano-HECs was similar to the respective raw-HECs. A slight decrease in crystallinity and the melting point was observed because of the decrease in the mean particle size

Tuning the particle size and morphology of high energetic material nanocrystals

Morphology controlled synthesis of nanoparticles of powerful high energetic compounds (HECs) such as 1,3,5-trinitro-1,3,5-triazinane (RDX) and 1,3,5,7-tetranitro-1,3,5,7-tetrazocane (HMX) were achieved by a simple solvent–antisolvent interaction (SAI) method at 70 °C. The effects of different solvents on particle size and morphology of the prepared nano-HECs were studied systematically. Particle size and morphology of the nano-HECs was characterized using field emission scanning electron microscopy (FE-SEM) imaging. X-ray diffraction (XRD) and Fourier transform infrared (FTIR) spectroscopy studies revealed that RDX and HMX were precipitated in their most stable polymorphic forms, i.e. α and β, respectively. Thermogravimetric analysis coupled with differential scanning calorimetry (TGA-DSC) studies showed that the thermal response of the nanoparticles was similar to the respective raw-HECs. HEC nanoparticles with spherical and rod shaped morphology were observed under different solvent conditions. The mean particle size also varied considerably with the use of different solvents

Appraisal of Inter-rater Agreement among Assessment Scales and Retrospective Analysis of Validated Reports of Cutaneous Adverse Drug Reactions at Tertiary Care Hospital in Eastern India

Introduction: Cutaneous Adverse Drug Reactions (CADRs) share significantly to Adverse Drug Reactions (ADRs) comprising 10%-30% of all ADR reporting in India. Multi Drug Therapy for Leprosy (MDT-L) and antimicrobials contribute remarkably to the overall CADRs burden. Aim: To show distinctive pictures of CADRs profile and to assess inter-rater agreement of assessment scales among study populations. Materials and Methods: A retrospective analysis was done for 245 CADRs reported from March 2018 to March 2020. Cohen kappa statistics was applied for inter-rater agreement study for causality (World Health Organisation-Uppsala Monitoring Cente {WHO-UMC} Scale and Naranjo’s Algorithm), severity (Hartwig and Siegel scale) and preventability assessment (Modified Schumock and Thornton scale). Results: CADRs contribute 45.54% of total ADRs reported during study period. Male (60.41%) and age group 21-40 years (22.45%) were predominant sex and age group, respectively. Multidrug therapy for leprosy (51.83%) was the most common offending agent and hyperpigmentation (20.82%), dryness (13.1%), and both (11%) were the most prevalent CADRs. Causality of WHO– UMC Scale was higher with ‘Possible’ than ‘Probable’. Whereas, ‘Probable’ was maximally found with Naranjo’s Algorithm. Severity assessment showed maximum ‘mild’ cases i.e., 66.53% (manual) and 69.8%% (app). Preventability assessment depicted mostly ‘Definite’, 66.53% (manual) and 85.71% (app). Inter-rater agreement study showed ‘Substantial agreement’ for WHO-UMC Scale (K=0.678) and Naranjo’s algorithm (K=0.820), when manual vs app ratings were compared. ‘Almost perfect’ for severity assessment (K=0.893) and ‘Moderate’ for preventability assessment (K=0.434) were noticed. ‘Fair’ agreement was observed when manual (WHO-UMC scale) vs manual (Naranjo’s algorithm) were compared with K=0.290 and also, in app (WHOUMC scale) vs app (Naranjo’s algorithm) with K=0.319. Conclusion: CADRs were most prevalent among ADRs which have a distinctive picture in eastern India. WHO- UMC scale and Naranjo’s algorithm concluded significant differences in causality with only ‘fair’ agreement between them. Severity and preventability assessment done by manually little varied in their results with pharmvigill app and is still more reliable and popular

Mechanical and Explosive Properties of Plastic Bonded Explosives Based on Mixture of HMX and tAtB

This paper describes formulation of plastic bonded explosives (PBXs) compositions based on 2,4,6- triamino-1,3,5-trinitrobenzene (TATB), Octahydro l,3,5,7-tetranitro- 1,3,5,7-tetrazocine (HMX) by varying their relative amounts with Viton A as polymeric binder by slurry coating technique. These PBXs compositions are studied for mechanical and detonic properties. It has been observed that sensitivity and explosive performance of PBXs based on mixture of HMX and TATB were varied over a wide considerable range by varying relative amounts of TATB and HMX. The detonation study revealed there was increased in velocity of detonation (VOD) and detonation pressure with increasing amount of HMX from 10-80 % by weight. The sensitivity test results exhibited that insensitivity to impact for PBXs compositions was found to decrease with increasing HMX amount.  Friction sensitivity study showed that no reactions were observed upto 36 kg load for PBXs compositions namely HT6030, HT5040, HT4050, HT3060, HT2070 and HT1080. The compressive strength of these PBXs compositions was found within the range of 9-11 MPa.Defence Science Journal, 2013, 63(6), pp.622-629, DOI:http://dx.doi.org/10.14429/dsj.63.576