Entanglement on linked boundaries in Chern-Simons theory with generic gauge groups

We study the entanglement for a state on linked torus boundaries in $3d$ Chern-Simons theory with a generic gauge group and present the asymptotic bounds of R\'enyi entropy at two different limits: (i) large Chern-Simons coupling $k$, and (ii) large rank $r$ of the gauge group. These results show that the R\'enyi entropies cannot diverge faster than $\ln k$ and $\ln r$, respectively. We focus on torus links $T(2,2n)$ with topological linking number $n$. The R\'enyi entropy for these links shows a periodic structure in $n$ and vanishes whenever $n = 0 \text{ (mod } \textsf{p})$, where the integer $\textsf{p}$ is a function of coupling $k$ and rank $r$. We highlight that the refined Chern-Simons link invariants can remove such a periodic structure in $n$.Comment: 31 pages, 5 figure

Neumann’s tumor: a case report

Background: The congenital granular cell tumour of the newborn, also known as congenital epulis or Neumann‘s tumor, is rare. It occurs on the gingiva of the anterior alveolar ridge of the jaws. This lesion behaves in a benign manner and no recurrent or metastatic lesions have been reported.Case Report: We are reporting a 2-day-old female neonate, who came to our unit with a well defined, solitary, firm mass arising from the maxillary anterior region measuring about 3.5 cms in diameter and causing difficulty in breast feeding but no hindrance to the airway. The mass was surgically excised under general anesthesia. Postoperative wound healing was uneventful.Conclusion: We have shared our experience in handling this rare type of tumor. We have presented the clinical features and the different modalities of its treatment to spread awareness among clinicians for better management of similar tumors.Keywords: Neumann’s tumor, Congenital Epulis, Congenital Granular Cell Tumor (cgct

Effect of Conventional and Microwave Tissue Processing Technique on DNA Integrity: A Comparative Molecular Analysis

BACKGROUND: Methods of diagnostic molecular biology are routinely applied on formalin-fixed, paraffin-embedded tissues processed via conventional method. Recently, there has been a growing interest to use microwave technology in histopathology laboratories to overcome the deficiencies of the conventional processing method. Thefore, this study was aimed to compare and analyze the quality and quantity of DNA obtained from tissues processed by conventional and microwave tissue processing techniques and to further ascertain the applicability of the latter for PCR (polymerase chain reaction based research).METHODS: Thirty fresh tissues of oral squamous cell carcinoma (OSCC) were included, and each sample was cut into two equivalent halves. One tissue half was processed by conventional manual method whereas the other half was processed using a domestic microwave oven. DNA was obtained from all the tissues which were then subjected to Polymerase chain reaction (PCR) to evaluate GAPDH (Glyceraldehyde-3-phosphate dehydrogenase) gene expression.RESULTS: The results revealed better DNA yield from microwave processed tissue while the quality of the DNA was alike from both the techniques.CONCLUSION: On the basis of the results obtained, it can be concluded that DNA produced by microwave processed tissues was similar to that obtained by conventional processing technique in terms of quantity and quality. Thus, microwave processed tissue samples can be successfully used for further molecular studies and researches