Background: In dentistry, barrier membranes are used for guided tissue regeneration (GTR) and guided bone regeneration (GBR). Various membranes are commercially available and extensive research and development of novel membranes have been conducted. In general, membranes are required to provide barrier function, biosafety, biocompatibility and appropriate mechanical properties. In addition, membranes are expected to be bioactive to promote tissue regeneration.Objectives: This review aims to organize the fundamental characteristics of the barrier membranes that are available and studied for dentistry, based on their components. Results: The principal components of barrier membranes are divided into nonbiodegradable and biodegradable materials. Nonbiodegradable membranes are manufactured from synthetic polymers, metals or composites of these materials. The first reported barrier membrane was made from expanded polytetrafluoroethylene (e-PTFE). Titanium has also been applied for dental regenerative therapy and shows favorable barrier function. Biodegradable membranes are mainly made from natural and synthetic polymers. Collagens are popular materials that are processed for clinical use by crosslinking. Aliphatic polyesters and their copolymers have been relatively recently introduced into GTR and GBR treatments. In addition, to improve the tissue regenerative function and mechanical strength of biodegradable membranes, inorganic materials such as calcium phosphate and bioactive glass have been incorporated at the research stage. Conclusions: Currently, there are still insufficient guidelines for barrier membrane choice in GTR and GBR, therefore dentists are required to understand the characteristics of barrier membranes.
Advancements in materials used for restorative and preventive treatment is being directed toward "bio-active" functionality. Incorporation of filler particles that release active components is a popular method to create bio-active materials, and many approaches are available to develop fillers with the ability to release components that provide "bio-protective" or "bio-promoting" properties; e.g. metal/calcium phosphate nanoparticles, multiple ion-releasing glass fillers, and non-biodegradable polymer particles. In this review paper, recent developments in cutting-edge filler technologies to release bio-active components are addressed and summarized according to their usefulness and functions, including control of bacterial infection, tooth strengthening, and promotion of tissue regeneration.
The purpose of the present study was to examine seasonal blood pressure variation and its relationship to environmental temperature in healthy elderly Japanese, as studied by home measurements. Fifteen healthy elderly Japanese (79.3 +/- 5.9 yrs) measured their blood pressure at home each morning for more than 25 times per month for 3 years. Monthly mean outdoor temperatures were obtained from the Takamatsu meteorological Observatory. The highest levels of systolic and diastolic blood pressure measured at home were observed in February (129 +/- 14 and 81 +/- 13 mmHg). The lowest levels of systolic and diastolic blood pressure measured at home were observed in August (117 +/- 11 and 73 +/- 10 mmHg). Likewise, the lowest and highest means of outdoor temperature were observed in February (5.0 degrees C) and August (29.2 degrees C), respectively. Hence, both systolic and diastolic blood pressure demonstrated a close inverse correlation with the means of outdoor temperature (r = -0.973, p < 0.001 and r = -0.985, p < 0.001, respectively). A 1 degree C decrease in the mean outdoor temperature was associated with rises of 0.43 mmHg in systolic blood pressure (SBP) and 0.29 mmHg in diastolic blood pressure (DBP). Seasonal variations in home blood pressure and outdoor temperature showed complete correspondence in healthy elderly Japanese, with the blood pressures being inversely related to the ambient temperature. These seasonal home blood pressure variations should be kept in mind when controlling blood pressure in elderly patients.
Although left ventricular (LV) hypertrophy and diastolic function assessed by echocardiography and chronic kidney disease (CKD) have been established as predictors of cardiovascular events in hypertensive patients, the relationships between the echocardiographic parameters and renal function have not been fully examined. We examined which echocardiographic parameter correlates best with estimated glomerular filtration rate (eGFR) in patients with cardiovascular risk factors. Enrolled in the study were 309 patients (mean age 67 +/- 13 y) with cardiovascular risk factors. Echocardiography was performed to measure left ventricular mass index (LVMI) as an index of LV hypertrophy. Transmitral early to atrial velocity (E/A) ratio and peak early diastolic mitral annular velocity (E') were measured as indexes of LV diastolic function. E/E' was calculated as a parameter of LV preload. eGFR was measured using the equation proposed by the Japanese Society of Nephrology. The correlations of LVMI (r = -0.333, p < 0.001) and hypertension (r = -0.326, p < 0.001) to eGFR were closer than those of E' (r = 0.276, p < 0.001) and E/A (r = 0.224, p < 0.001) to eGFR. Stepwise regression analysis showed that hypertension (beta coefficient = -0.211, p < 0.001) and LVMI (beta coefficient = -0.206, p < 0.001) were independently associated with eGFR. The E/E' increased with a decrease in eGFR, and E/E' in CKD stage 5 (16.0 +/- 6.8) was significantly higher than that in patients in whom eGFR > or = 90 mL/min/1.73 m(2) (10.5 +/- 4.5) (p < 0.001). Left ventricular diastolic function may be influenced by the increase in LV preload due to progression of CKD stage. Therefore, LV hypertrophy may be superior to LV diastolic dysfunction in predicting low eGFR in patients with CKD using echocardiography.
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