Evaluation of oral mucositis in pediatric cancer patients in Hiwa Hospital in Sulaymaniyah city, Kurdistan Region, Iraq

Abdullah, Chra; Mohammad, Hayder Fakhir; Rawi, Hisham Al; Omar, K Al; Ibrahim, Lanja

doi:10.15218/zjms.2021.025

Zanco J. Med. Sci.

2021

DOI: 10.15218/zjms.2021.025

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Evaluation of oral mucositis in pediatric cancer patients in Hiwa Hospital in Sulaymaniyah city, Kurdistan Region, Iraq

Chra Abdullah¹,

Hayder Fakhir Mohammad²,

Hisham Al Rawi

et al.

Abstract: Background and objective: Oral mucositis is caused by the destruction of the oral mucosal epithelium and suppression of its growth secondary to antineoplastic treatment in the form of chemotherapeutic drugs, substances, or radiotherapy. This study aimed to evaluate oral mucositis in pediatric cancer patients because it is one of the common side effects of cancer therapy that influences the outcome. Methods: This is a cross-sectional study that enrolled 100 pediatric patients with both hematological and non-he… Show more

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“…Since the lattice vibration's variation depends on the lattice constant and specific heat, on moving towards the nanoscale, lattice constant decreases and the specific heat increases, which leads to the decrement in lattice vibrations resulting in the decrement in the Grüneisen parameter. Abdullah et al [50] also showed decrement in the Grüneisen parameter with the decrease in size for Si nanoparticles.…”

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confidence: 92%

Superheating of free-standing nanometals under pressure

Pachauri

Joshi

Arora

2019

EPL

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High-pressure effects in solids and liquids PACS 65.80.-g -Thermal properties of small particles, nanocrystals, nanotubes, and other related systems PACS 65.40.-b -Thermal properties of crystalline solids Abstract -A simple and new analytical model is proposed to explore the pressure effect on melting temperature for free-standing nanoparticles, based on the Lindemann's formula of melting and the size-dependent Grüneisen parameter. The Grüneisen parameter is a valuable quantity which can be used to set the limitations on the pressure and temperature dependence of thermal properties. The present study reveals that the Grüneisen parameter decreases with the decrement in particle size due to variation in specific heat and lattice constant. On the other hand, melting temperature shows a superheating phenomenon with an increment in pressure for an individual size of free-standing nanoparticles. Due to compression the interatomic distance decreases and there is comparatively more interaction within the atoms of nanoparticles under pressure. Compactness of nanomaterial and reduction in surface vibrations due to external pressure create favourable conditions for superheating. This model is applied to Al (37 nm), Pb (6.7 nm) and Bi (50 nm) nanometals over a range of pressure up to 1 GPa. The consistency of the calculated results with the available experimental data of melting for the above-said materials as core in a particle/matrix system by induced pressure supports the validity of the proposed model.

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mentioning

confidence: 92%

Superheating of free-standing nanometals under pressure

Pachauri

Joshi

Arora

2019

EPL

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Evaluation of oral mucositis in pediatric cancer patients in Hiwa Hospital in Sulaymaniyah city, Kurdistan Region, Iraq

Cited by 1 publication

References 16 publications

Superheating of free-standing nanometals under pressure

Superheating of free-standing nanometals under pressure

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