Ganesan Suresh Kumar scite author profile

Cleidocranial dysplasia is an inherited skeletal anomaly that affects primarily the skull, clavicle, and dentition, which can occur spontaneously, but most are inherited in autosomal dominant mode. The skull findings are brachycephaly, delayed or failed closure of the fontanelles, presence of open skull sutures and multiple wormian bones with pronounced frontal bossing. The syndrome is notable for aplasia or hypoplasia of the clavicles. The neck appears long and narrow and the shoulders markedly droop. Oral manifestations exhibit a hypoplastic maxilla with high-arched palate. Crowding of teeth is produced by retention of deciduous teeth, delayed eruption of permanent teeth, and the presence of a large number of unerupted supernumerary teeth. We report a case of CCD in a 12-year-old girl who presented with an unaesthetic facial appearance, unerupted permanent dentition with hearing loss.

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Is extracorporeal plating ideal for condylar fracture? A case report with a two-year follow-up study

Balasubramaniyan¹,

Kumar²,

Bhagat³

et al. 2022

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Management of condylar fractures includes the closed and open methods. The closed method, although is conservative, has disadvantages such as inadequate reduction, disturbances in occlusion, and a decrease in ramal height. To overcome these disadvantages, surgeons prefer open reduction and internal fixation. One of the methods used is extracorpeal fixation of condyle fractures. This method has a limiting factor of excessive condylar resorption and avascular necrosis. We report a two-year follow-up of a patient with condylar head resorption and fractured implant.

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Molecular Docking Analysis of Bacoside A with Selected Signalling Factors Involved in Glioblastoma

Vishnupriya

Saikia

Kumar

et al. 2022

JPRI

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Glioblastoma is the malignant tumor affecting the central nervous system. Despite the advancement in treatment modalities, presence of blood-brain barrier, recurrence after surgical removal, resistance to radiotherapy and chemotherapy remain the major obstacles for long term survival of the patients. In this context, finding suitable therapeutics which have anticancer potential and are nontoxic might be useful to improve the overall survival of GBM. Plant products are safer, nontoxic and cheaper when compared to the chemotherapeutic drugs in trend which are expensive and highly toxic, owing to their systemic effects. Bacoside A (BA) is one such plant constituent isolated from Bacopa monnieri which offers neuroprotection and possesses anticancer potential. The present investigation elucidates the specific interaction of BA with various cell surface receptors, signal transduction proteins, effector proteins and transcription factors involved in glioblastoma signalling such as EGFR/Ras/Raf/MAPK pathway, Notch signalling and Wnt-beta catenin signalling through molecular docking studies. The interaction between BA and the target proteins of glioblastoma were analysed through the Glide module (Version 6.5) of Schrodinger Suite (2015) software. According to the results of molecular docking, jagged-1 ligands interact with BA with stronger affinity and Frizzled receptors interact with least affinity in terms of glide score. The results indicate that BA interacts well with the polar amino acids such as Asn, Trp, Arg, Ser, Thr, Tyr, Gln, Asp, Lys and Glu. The ligand also showed interactions with specific hydrophobic amino acids such as Val, Ala and Leu in all the protein targets studied. The in vitro cytotoxicity studies reveal the cytotoxic potential of BA on the U87MG glioblastoma cell line. This study warrants further investigation to elucidate modulations on cell signalling pathways resulting from the specific BA-target interactions in glioblastoma.

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