Add to ORKGAbstract: Ultrasonic wave technology is widely used during dental treatments. We previously demonstrated that this method protects the gingival tissue. However, the physiological change on the gingival microvasculature caused by this method remains unclear. Objective: The aim of this study was to investigate the relationship between the morphological and physiological effects on gingival microcirculation when preparing teeth, using the conventional dental turbine or ultrasonic method. Methodology: The lower premolar teeth of beagle dogs were prepared along the gingival margin by using a dental turbine or ultrasonic wave instrument. Gingival vasculature changes were investigated using scanning electron microscopy for corrosion resin casts. G...
Abstract The aim of this study was to evaluate the usefulness of 40 MHz periodontal ultrasonography ...
One hundred and fifty-nine normal premature dogs weighing about 1.5 to 3.0 kg., fed under the same c...
AIM: Among the many biological effects which occur during orthodontic movement, we decided to invest...
Introduction: Periodontal diseases are considered as some of the most common reasons of teeth loss, ...
: Scaling using ultrasonic dental equipment was performed on 20 teeth extracted from dogs with advan...
Objective: This study aims to determine and compare the dental pulp and gingival blood flow in patie...
Aim: To develop a laboratory-based tooth model of simulated blood flow in teeth and evaluate it usin...
AbstractBackground/purposeThe aim of this study was to evaluate the pulp–dentin response after pulp ...
The purpose of this study was to investigate in vivo the gingival microcirculatory changes associate...
AbstractUltrasonic instruments have been used in dentistry since the 1950's. Initially they were use...
It is well-known that proper tooth brushing has the effect of stimulating microcirculation in a heal...
It has been suggested that the vascular alterations found in inflamed gingiva may be of significance...
Recently in dentistry for determination of microcirculation in different tissues of the maxillofacia...
Ultrasound (US) is mechanical vibrations above the frequency range audible by the human ear in the f...
Background & Aim: Traumatic events at gingival margin (such as invasive prosthetic restoration or ag...
Abstract The aim of this study was to evaluate the usefulness of 40 MHz periodontal ultrasonography ...
One hundred and fifty-nine normal premature dogs weighing about 1.5 to 3.0 kg., fed under the same c...
AIM: Among the many biological effects which occur during orthodontic movement, we decided to invest...
Introduction: Periodontal diseases are considered as some of the most common reasons of teeth loss, ...
: Scaling using ultrasonic dental equipment was performed on 20 teeth extracted from dogs with advan...
Objective: This study aims to determine and compare the dental pulp and gingival blood flow in patie...
Aim: To develop a laboratory-based tooth model of simulated blood flow in teeth and evaluate it usin...
AbstractBackground/purposeThe aim of this study was to evaluate the pulp–dentin response after pulp ...
The purpose of this study was to investigate in vivo the gingival microcirculatory changes associate...
AbstractUltrasonic instruments have been used in dentistry since the 1950's. Initially they were use...
It is well-known that proper tooth brushing has the effect of stimulating microcirculation in a heal...
It has been suggested that the vascular alterations found in inflamed gingiva may be of significance...
Recently in dentistry for determination of microcirculation in different tissues of the maxillofacia...
Ultrasound (US) is mechanical vibrations above the frequency range audible by the human ear in the f...
Background & Aim: Traumatic events at gingival margin (such as invasive prosthetic restoration or ag...
Abstract The aim of this study was to evaluate the usefulness of 40 MHz periodontal ultrasonography ...
One hundred and fifty-nine normal premature dogs weighing about 1.5 to 3.0 kg., fed under the same c...
AIM: Among the many biological effects which occur during orthodontic movement, we decided to invest...