Edith, Lara-Carrillo
(Department of Orthodontics, Research Center, School of Dentistry, Universidad Autonoma del Estado de Mexico)
,
Montiel-Bastida, Norma Margarita
(Research Center, School of Dentistry, Universidad Autonoma del Estado de Mexico)
,
Leonor, Sanchez-Perez
(Health Attention Department, Universidad Autonoma Metropolitana)
,
Jorge, Alanis-Tavira
(Research Center, School of Dentistry, Universidad Autonoma del Estado de Mexico)
교정치료 중 구강 내 환경 변화를 파악하기 위하여 교정치료 시작 후 24개월까지의 임상적 구강위생지수 및 타액, 구강 내 미생물의 변화양상을 평가하였다. 30명의 환자를 대상으로 하여, 임상적 구강위생지수(DMFS [decayed, missing and filled surfaces], O'Leary's plaqueindex, plaque pH), 타액의 변화(비자극/자극시의 타액량, 완충능(buffercapacity), pH, 잠혈(occult blood)류량, 구강 내 미생물(Streptococcus mutans, Lactobacillus) 변화를 파악하였다. 추가적으로 설문지를 이용하여 구강위생관리 및 식습관을 평가하였다. 분산분석, 회귀분석 및 Spearman의 상관분석을 통해 데이터를 분석하였다. 교정치료 도중 DMFS 값은 유의성있게 증가한 반면, plaque index는 감소하였고, plaque pH는 산성을 나타내었다 (p = 0.23). 비자극 시 타액량은 치료 중 유의성있게 변화하였으며 (p = 0.13), 자극 시의 타액량은 여성에서 장치 부착 이후 증가하는 양상을 보였다. Buffer capacity는 남성에서 치료 도중 감소되었으며, 타액의 pH는 유지되었다. 구강 내 미생물 및 잠혈류량은 고위험 수준까지 증가하였으며 성별의 차이는 나타나지 않았다 (p > 0.05). 치료 전 plaque와 구강위생용품의 사용 (r = 0.429; p = 0.018), 최종 DMFS와 비자극 시의 타액량 (r = -0.372; p = 0.043) 간에 뚜렷한 상관관계가 확인되었다. 교정장치의 부착으로 인해 구강 내 미생물은 증가하고, plaque pH는 산성화되어 치주조직의 손상이 일어나게 되었다. 또한 Buffer capacity는 변하지만, 치료 기간중의 타액의 pH는 유지되었다.
교정치료 중 구강 내 환경 변화를 파악하기 위하여 교정치료 시작 후 24개월까지의 임상적 구강위생지수 및 타액, 구강 내 미생물의 변화양상을 평가하였다. 30명의 환자를 대상으로 하여, 임상적 구강위생지수(DMFS [decayed, missing and filled surfaces], O'Leary's plaque index, plaque pH), 타액의 변화(비자극/자극시의 타액량, 완충능(buffer capacity), pH, 잠혈(occult blood)류량, 구강 내 미생물(Streptococcus mutans, Lactobacillus) 변화를 파악하였다. 추가적으로 설문지를 이용하여 구강위생관리 및 식습관을 평가하였다. 분산분석, 회귀분석 및 Spearman의 상관분석을 통해 데이터를 분석하였다. 교정치료 도중 DMFS 값은 유의성있게 증가한 반면, plaque index는 감소하였고, plaque pH는 산성을 나타내었다 (p = 0.23). 비자극 시 타액량은 치료 중 유의성있게 변화하였으며 (p = 0.13), 자극 시의 타액량은 여성에서 장치 부착 이후 증가하는 양상을 보였다. Buffer capacity는 남성에서 치료 도중 감소되었으며, 타액의 pH는 유지되었다. 구강 내 미생물 및 잠혈류량은 고위험 수준까지 증가하였으며 성별의 차이는 나타나지 않았다 (p > 0.05). 치료 전 plaque와 구강위생용품의 사용 (r = 0.429; p = 0.018), 최종 DMFS와 비자극 시의 타액량 (r = -0.372; p = 0.043) 간에 뚜렷한 상관관계가 확인되었다. 교정장치의 부착으로 인해 구강 내 미생물은 증가하고, plaque pH는 산성화되어 치주조직의 손상이 일어나게 되었다. 또한 Buffer capacity는 변하지만, 치료 기간중의 타액의 pH는 유지되었다.
Objective: To identify clinical, salivary, and bacterial changes during orthodontic treatment with follow-up to 24 months. Methods: In 30 patients, clinical (decayed, missing, and filled surfaces [DMFS], O'Leary's plaque index, and plaque pH), salivary (unstimulated and stimulated saliva, buffer cap...
Objective: To identify clinical, salivary, and bacterial changes during orthodontic treatment with follow-up to 24 months. Methods: In 30 patients, clinical (decayed, missing, and filled surfaces [DMFS], O'Leary's plaque index, and plaque pH), salivary (unstimulated and stimulated saliva, buffer capacity, pH, and occult blood), and bacterial (Streptococcus mutans and Lactobacillus) markers were evaluated. A questionnaire was employed to evaluate their hygienic-dietary habits. Data were analyzed by ANOVA, logistic regression and Spearman's correlation. Results: DMFS increased significantly, whereas the plaque index diminished, plaque pH was more acidic (p = 0.23), and unstimulated salivary flow showed significant differences during the treatment (p = 0.013). Stimulated saliva flow increased in females after the placement of appliances; buffer capacity was diminished in males during the therapy; salivary pH remained at basal values. Bacterial levels and occult blood increased to high-risk levels and were not statistically significant different between genders (p > 0.05). Two major relationships were confirmed: initial plaque with use of dental aids (r = 0.429; p = 0.018) and final DMFS with unstimulated salivary flow (r = -0.372; p = 0.043). Conclusions: The increase in retentive surfaces increased the bacterial levels, plaque pH became acidified, and gingival damage was greater. Buffer capacity was altered but maintained a healthy salivary pH during the treatment.
Objective: To identify clinical, salivary, and bacterial changes during orthodontic treatment with follow-up to 24 months. Methods: In 30 patients, clinical (decayed, missing, and filled surfaces [DMFS], O'Leary's plaque index, and plaque pH), salivary (unstimulated and stimulated saliva, buffer capacity, pH, and occult blood), and bacterial (Streptococcus mutans and Lactobacillus) markers were evaluated. A questionnaire was employed to evaluate their hygienic-dietary habits. Data were analyzed by ANOVA, logistic regression and Spearman's correlation. Results: DMFS increased significantly, whereas the plaque index diminished, plaque pH was more acidic (p = 0.23), and unstimulated salivary flow showed significant differences during the treatment (p = 0.013). Stimulated saliva flow increased in females after the placement of appliances; buffer capacity was diminished in males during the therapy; salivary pH remained at basal values. Bacterial levels and occult blood increased to high-risk levels and were not statistically significant different between genders (p > 0.05). Two major relationships were confirmed: initial plaque with use of dental aids (r = 0.429; p = 0.018) and final DMFS with unstimulated salivary flow (r = -0.372; p = 0.043). Conclusions: The increase in retentive surfaces increased the bacterial levels, plaque pH became acidified, and gingival damage was greater. Buffer capacity was altered but maintained a healthy salivary pH during the treatment.
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문제 정의
treatment. In this study we reported significant, positive correlations between plaque index and the use of dental aids. Plaque percentages were lower in females than in males, which agrees with a previous report.
Therefore, the aim of this study was to identify changes in the oral environment in hygienic-dietary habits, saliva, plaque, and bacterial counts during four different stages of orthodontic treatment.
가설 설정
This questionnaire included a series of questions regarding daily brushing and eating habits, focusing on behavioral risk factors for dental disease. The questions were the following: 1) When do you brush your teeth?, 2) How many times do you brush your teeth per day?, 3) Do you use some dental auxiliary for cleaning your mouth?, 4) How often do you change your toothbrush?, 5) Do you eat between meals?, 6) How many times per day do you eat food between meals?
제안 방법
At the beginning of the study and at the time of taking the final sample (anterior segment retraction with closing loops), we queried the patients' hygienic and dietary habits with a questionnaire. We compared their responses with the experimental results to determine the influence hygienic-dietary habits may have had on the latter.
The patients were asked to fill out a questionnaire stating their identification data and hygienic-dietary habits, both before treatment and at the last stage. This questionnaire included a series of questions regarding daily brushing and eating habits, focusing on behavioral risk factors for dental disease.
Japan). The procedure involves dipping the test paper into the hematemetic, stimulated saliva for 2 -3 seconds and then judging by comparing it with the standard color-change chart. The color reaction is divided into three levels: no change = 0.
This questionnaire included a series of questions regarding daily brushing and eating habits, focusing on behavioral risk factors for dental disease. The questions were the following: 1) When do you brush your teeth?, 2) How many times do you brush your teeth per day?, 3) Do you use some dental auxiliary for cleaning your mouth?, 4) How often do you change your toothbrush?, 5) Do you eat between meals?, 6) How many times per day do you eat food between meals?
대상 데이터
studied. Thirty patients, including 11 males (mean age, 16.5 + 3.7 years) and 19 females (mean age, 16.5 士 5.5 years) participated. Patients having any systemic disease, using antibiotics within 15 days of enrolling in the study, having active caries, or being in the mixed dentition phase were excluded.
이론/모형
Plaque was disclosed with a chewable tablet (Viarden®; Viarden, Mexico City, Mexico) and its amount estimated using criteria according to O'Leary's plaque index.“雄 This index was evaluated before toothbrushing as routinely performed by the patients to verify whether the techniques they employed were effective for plaque removal.
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