Sundeep Singh scite author profile

Percutaneous thermal ablation has proved to be an effective modality for treating both benign and malignant tumors in various tissues. Among these modalities, radiofrequency ablation (RFA) is the most promising and widely adopted approach that has been extensively studied in the past decades. Microwave ablation (MWA) is a newly emerging modality that is gaining rapid momentum due to its capability of inducing rapid heating and attaining larger ablation volumes, and its lesser susceptibility to the heat sink effects as compared to RFA. Although the goal of both these therapies is to attain cell death in the target tissue by virtue of heating above 50 o C, their underlying mechanism of action and principles greatly differs. Computational modelling is a powerful tool for studying the effect of electromagnetic interactions within the biological tissues and predicting the treatment outcomes during thermal ablative therapies. Such a priori estimation can assist the clinical practitioners during treatment planning with the goal of attaining successful tumor destruction and preservation of the surrounding healthy tissue and critical structures. This review provides current state-ofthe-art developments and associated challenges in the computational modelling of thermal ablative techniques, viz., RFA and MWA, as well as touch upon several promising avenues in the modelling of laser ablation, nanoparticles assisted magnetic hyperthermia and noninvasive RFA. The application of RFA in pain relief has been extensively reviewed from modelling point of view. Additionally, future directions have also been provided to improve these models for their successful translation and integration into the hospital work flow.

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Temperature-controlled radiofrequency ablation of different tissues using two-compartment models

Singh

Repaka

2016

International Journal of Hyperthermia

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The results show that the surrounding tissue environment significantly affects the ablation volume produced during RFA. The optimal treatment time for complete tumour ablation can play a critical role in minimising the damage to the surrounding healthy tissue and ensuring safe and risk free application of RFA. The obtained results emphasise the need for developing organ-specific clinical protocols and systems during RFA of tumour.

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Identification of invasion proteins of Cryptosporidium parvum

Singh

Mirdha

Srinivasan

et al. 2015

World J Microbiol Biotechnol

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Host cell interactions and invasion by Cryptosporidium is a complex process mediated by zoites ligand-host cell receptors. Knowledge of proteins involved in this process will enable entry level inhibitors to be tried as therapeutic agents. In the present study, invasion proteins of Cryptosporidium parvum were studied in vitro. Cryptosporidium sporozoites membrane proteins were isolated and Cy5 dye labelled. They were then allowed to interact with the intact host cells. The interacting proteins were identified using 2-dimensional gel electrophoresis followed by mass spectrometry analysis. Sixty-one proteins were identified including twenty-seven previously reported invasion proteins. The newly identified proteins such as serine/threonine protein kinase, PI4 kinase, Hsp105 and coiled coil may have their roles in the parasitic invasion process. Thus, a new approach was used in the study to identify the probable proteins involved in invasion and/or host-parasite interactions. The advantage of this method is that it takes only a months' time instead of decades to identify these proteins involved in invasion process.

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Coupled thermo-electro-mechanical models for thermal ablation of biological tissues and heat relaxation time effects

Singh

Melnik

2019

Phys. Med. Biol.

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Sundeep Singh

Thermal ablation of biological tissues in disease treatment: A review of computational models and future directions

Temperature-controlled radiofrequency ablation of different tissues using two-compartment models

Identification of invasion proteins of Cryptosporidium parvum

Coupled thermo-electro-mechanical models for thermal ablation of biological tissues and heat relaxation time effects

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