The aim of this study was to determine the effect of eugenol on the integrity of the cell wall of Candida albicans. Minimum inhibitory concentration (MIC), minimum fungicidal concentration (MFC) and percentage inhibition of diameter growth (PIDG) of eugenol on C. albicans (ATCC 14053) were determined. The effect of eugenol on the growth profile was also evaluated. The release of cellular material and changes in cell permeability, including ultrastructural alterations to the morphology, were assessed using scanning electron microscopy, and surface disruption to the cell wall structure of C. albicans by atomic force microscopy. The MIC and MFC values of eugenol were found to be 1.0% v/v, while the PIDG was dose dependent. Eugenol influenced cell growth and was fungicidal towards C. albicans. Eugenol was also found to encourage cell leakage, causing the release of cellular material, and to increase cell permeability. The ultrastructure and cell surface morphology were also altered by the presence of eugenol. Thus, eugenol was found to disrupt the cell wall of C. albicans.
The investigation of patellar tendon reflex involves development of a reflex hammer holder, kinematic data collection and analysis of patellar reflex responses using motion analysis techniques. The main aim of this research is to explore alternative means of assessing reflexes as a part of routine clinical diagnosis. The motion analysis system was applied to provide quantitative data which is a more objective measure of the patellar tendon reflex. Kinematic data was collected from 28 males and 22 females whilst subjected to a knee jerk test. Further analysis of kinematic data was performed to predict relationships which might affect the patellar tendon reflex. All subjects were seated on a high stool with their legs hanging freely within the capture volume of the motion analysis system. Knee jerk tests were applied to all subjects, on both sides of the leg, by eliciting hypo, hyper, and normal reflexes. An additional reinforcement technique called the Jendrassik manoeuvre was also performed under the same conditions to elicit a normal patellar tendon reflex. The comparison of reflex response between genders showed that female subjects generally had a greater response compared to males. However, the difference in reflex response between the left leg and the right leg was not significant. Tapping strength to elicit a hyper-reflex produced greater knee-jerk compared to the normal clinical tapping strength. All results were in agreement with clinical findings and results found by some early researchers.
OBJECTIVE:Dark poly(caprolactone) trifumarate is a successful candidate for use as a bone tissue engineering scaffold. Recently, a white polymeric scaffold was developed that shows a shorter synthesis time and is more convenient for tissue-staining work. This is an in vitro comparative study of both the white and dark scaffolds.METHODS:Both white and dark poly(caprolactone) trifumarate macromers were characterized via Fourier transform infrared spectroscopy before being chemically cross-linked and molded into disc-shaped scaffolds. Biodegradability was assessed by percentage weight loss on days 7, 14, 28, 42 and 56 (n = 5) after immersion in 10% serum-supplemented medium or distilled water. Static cell seeding was employed in which isolated and characterized rat bone marrow stromal cells were seeded directly onto the scaffold surface. Seeded scaffolds were subjected to a series of biochemical assays and scanning electron microscopy at specified time intervals for up to 28 days of incubation.RESULTS:The degradation of the white scaffold was significantly lower compared with the dark scaffold but was within the acceptable time range for bone-healing processes. The deoxyribonucleic acid and collagen contents increased up to day 28 with no significant difference between the two scaffolds, but the glycosaminoglycan content was slightly higher in the white scaffold throughout 14 days of incubation. Scanning electron microscopy at day 1 revealed cellular growth and attachment.CONCLUSIONS:There was no cell growth advantage between the two forms, but the white scaffold had a slower biodegradability rate, suggesting that the newly synthesized poly(caprolactone) trifumarate is more suitable for use as a bone tissue engineering scaffold.
Hydroxyapatite has a chemical composition that closely resembles the mineral phase of natural hard tissues, making it a good material for use as a bone scaffold. Previous studies have demonstrated that the use of electrospun nanofibres that contain synthetic hydroxyapatite aids in bone regeneration. In this study, composite scaffolds of polycaprolactone and bovine-derived hydroxyapatite were produced by mixing bovine-derived hydroxyapatite powder into polycaprolactone solution, followed by electrospinning. Field emission scanning electron microscopy images show that the scaffolds contained an interconnected spheroidal porous network. Four groups of scaffolds containing different weight percentages of bovine-derived hydroxyapatite (0, 10, 30 and 50%) were prepared. The scaffolds were characterised by infrared spectroscopy and field emission scanning electron microscopy which was used to observe cell attachment to the scaffolds as well.
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