Evaluation of Force Degradation Characteristics of Orthodontic Latex Elastics in Vitro and In Vivo

Abstract: There were some differences among groups in the different times to start wearing elastics in intermaxillary traction but no significant differences in intramaxillary traction.

“…Various studies 2,3,[5][6][7][8][9]3,14,[17][18][19][20] have attempted to establish the mechanical and environmental factors that contribute to the force decay of interarch elastics. However, a recent study 18 involving the effects of pH levels did not consider interarch elastics, nor the material modifications of the past 20 years.…”

“…The purpose of the present study is to test similar interarch elastics in a static environment to isolate the influence of pH on force decay. As in the study by Wang et al, 8 the term force degradation has been used in the orthodontic literature. Stress relaxation is the technically correct engineering term.…”

“…1 Several properties of latex and nonlatex elastics have been evaluated, [2][3][4][5][6][7][8][9][10][11][12] some involving saliva or simulated saliva solutions. 2,[6][7][8][13][14][15][16][17] Few studies have investigated the effects of salivary pH levels on viscoelastic force relaxation of nonlatex interarch elastics. 18 Great individual pH variability is noted within the oral cavity, and this can fluctuate with diet.…”

The effect of pH levels on nonlatex vs latex interarch elastics

“…Various studies 2,3,[5][6][7][8][9]3,14,[17][18][19][20] have attempted to establish the mechanical and environmental factors that contribute to the force decay of interarch elastics. However, a recent study 18 involving the effects of pH levels did not consider interarch elastics, nor the material modifications of the past 20 years.…”

“…The purpose of the present study is to test similar interarch elastics in a static environment to isolate the influence of pH on force decay. As in the study by Wang et al, 8 the term force degradation has been used in the orthodontic literature. Stress relaxation is the technically correct engineering term.…”

“…1 Several properties of latex and nonlatex elastics have been evaluated, [2][3][4][5][6][7][8][9][10][11][12] some involving saliva or simulated saliva solutions. 2,[6][7][8][13][14][15][16][17] Few studies have investigated the effects of salivary pH levels on viscoelastic force relaxation of nonlatex interarch elastics. 18 Great individual pH variability is noted within the oral cavity, and this can fluctuate with diet.…”

The effect of pH levels on nonlatex vs latex interarch elastics

“…Al igual que otros estudios (Kersey et al;Fernandes et al;Wang et al, 2007;Gioka et al, 2006) la mayor degradación de la fuerza se produjo durante la primera hora, 13,8 % para los elásticos de látex y 32,5 % para los elásticos no látex, y se hizo más lenta con el pasar del tiempo. Los elásticos de látex presentaron una degradación media de la fuerza de 23,4 % a las 24 horas.…”

Degradación de la Fuerza de los Elásticos Intermaxilares de Látex y no Látex

“…The gradual reduction in force of elastomers is linked to the time of activation, temperature of the oral medium and patients' diet 7,8 .…”

Do alcoholic beverages interfere in the force of orthodontic elastics?