1.Effect of the humanized nursing care on type 1 diabetes management outside the hospital
Jieling LI ; Shuqin ZHONG ; Donghai GU ; Feiyan QUE ; Xueman ZHOU
The Journal of Practical Medicine 2018;34(8):1380-1382
Objective To investigate the effect of the humanized care on the blood glucose, blood lipid and diabetic ketoacidosis control of type 1 diabetes patients outside the hospital. Methods Fifty type 1 diabetes patients were enrolled in this study, aged from 18 to 30 years old, outside the hospital. The duration of this study was from Mar 2009 to Jan 2016.The clinical and laboratory data of patients,including HbA1c,LDL-C,HDL-C,TG and diabetic ketoacidosis were collected and analyzed. Results About 60.0% and 80.0% of type 1 diabetes pa-tients achieved the goals of contorlling glycemia (HbA1c < 6.5%) and dyslipidemia (LDL-C < 2.6 mmol/L) respec-tively, after receiving the humanized care outside the hospital, while only 32.0% and 22.0% of type 1 diabetes pa-tients achieved these goals before.Moreover,after receiving the humanized care outside the hospital,only 16.0% of type 1 diabetes patients suffered from diabetic ketoacidosis which was 40.0% before.Conclusions The humanized care outside the hospital can help patients to acheive the goals of contorlling glycemia and dyslipidemia among the type 1 diabetes.Besides,it contributes to reduce the incidence rate of the diabetic ketoacidosis.
2.Customized maxillary incisor position relative to dentoskeletal and soft tissue patterns in Chinese women: A retrospective study
Xueman ZHOU ; Yingcheng ZHENG ; Zhenzhen ZHANG ; Zihan ZHANG ; Lina WU ; Jiaqi LIU ; Wenke YANG ; Jun WANG
The Korean Journal of Orthodontics 2022;52(2):150-160
Objective:
To provide reliable prediction models based on dentoskeletal and soft tissue variables for customizing maxillary incisor positions and to optimize digitalized orthodontic treatment planning.
Methods:
This study included 244 Chinese women (age, 18–40 years old) with esthetic profiles after orthodontic treatment with fixed appliances (133 in group I: 1° ≤ The angle between the nasion [N]-A point [A] plane and the N-B point [B] plane [ANB] ≤ 4°; 111 in group II: 4° < ANB ≤ 7°). Dental, skeletal, and soft tissue measurements were performed on lateral cephalograms of the participants. Correlation and multiple linear regression analyses were used to determine the influence of dentoskeletal and soft tissue variables on maxillary incisor position.
Results:
The ideal anteroposterior position of the maxillary incisor varied between sagittal skeletal patterns. The position of the maxillary incisor correlated with the sagittal discrepancy between the maxilla and the mandible (ANB), protrusion of the midface, nasal tip projection, development of the chin, and inclination of both the maxillary and mandibular incisors. Distance from the maxillary central incisor to nasion-pogonion plane predicted using multiple linear regression analysis was accurate and could be a practical measurement in orthodontic treatment planning.
Conclusions
Instead of using an average value or norm, orthodontists should customize a patient’s ideal maxillary incisor position using dentoskeletal and soft tissue evaluations.