Objective: Instructions contained in over-the-counter medicine package inserts can be hard to read because of the limited printing space.  Pictograms are one means of helping users to understand important information.  However, few pictogram systems have been reliably and validly evaluated.  Therefore, a new method was developed to improve the clarity of each illustration and the legitimacy as a pictogram for conveying information important.
Methods: Four creators developed 69 illustrations, each of which expressed one of 24 instructions in the package insert of an H2 blocker.  In a survey, participants (449 university undergraduate and graduate students and 103 pharmacy users) were asked to describe the possible meaning of each illustration and to provide their personal suggestions for improvement.  To evaluate comprehension of information, each instruction was broken into two or three different parts.  Comprehension level was calculated by: (number of people who answered correctly) × 100 / (total number of respondents).  Existing pictograms were included to compare comprehension levels for the same instructions.
Results: Using 67% as the minimum standard for comprehension, we classified each illustration into one of three categories: “no need for improvement,” “need for partial improvement,” and “need for total improvement.”  The students and pharmacy users tended to accurately interpret the possible meanings of illustrations that were familiar to them.
Conclusion: Breaking one instruction of the package insert into a few important pieces of information was useful for determining the level of improvement needed for each illustration.  Evaluating how well each illustration conveys important information in the instructions through two steps was also beneficial, which are to improve the illustration’s clarity with students and its legitimacy among pharmacy users for fulfilling the intended functions of a pictogram.

A 2-month-old girl had been urgently seen on postnatal day 10 due to poor weight gain and tachypnea. Echocardiography showed congenital valvular aortic stenosis (AS), ventricular septal defect (VSD), atrial septal defect (ASD), and aortic valve dysplasia, but no cyst image was seen at the aortic valve level. Aortography revealed a dysplastic aortic valve along with coarctation of aorta (CoA) and patent ductus arterious (PDA). Balloon aortic valvotomy (BAV) was performed on day 53. Ballooning was satisfactory, but there was no change in gradient. Operation was performed on day 70 under a diagnosis of congenital AS and CoA complex. After cardiopulmonary bypass was established, the ascending aorta was transected. The blood cyst originated from the center of the anterior leaflet and was resected. The pressure gradient at the aortic valve decreased to 22.5mmHg. The patient was discharged 25 days after surgery.

Major bleeding associated with sagittal split ramus osteotomy (SSRO) involves vessels such as the inferior alveolar, facial, and maxillary arteries and veins, and the retromandibular vein (RMV). The present study aimed to clarify and classify the three-dimensional variations in RMV position and course direction in relation to the mandible. Specimens comprised a total of 15 scientific cadavers, and the relationship between RMV and the mandible lateral and posterior views was observed.We identified 3 patterns on the lateral view, the mean distance between the RMV and the posterior border of the ramus was 3.9 mm at the height of the lingula. A total of five course patterns were identified on the posterior view. In no course pattern, the RMV inferior to the lingula was lateral to its position superior to the lingual. The present findings suggest that it may be possible to predict correlations with intraoperative bleeding risk. Further study is planned using contrast computed tomography in patients with jaw deformity for skeletal classification.

BACKGROUND: Along with the advances in technology of three-dimensional (3D) printer, it became a possible to make more precise patient-specific 3D model in the various fields including oral and maxillofacial surgery. When creating 3D models of the mandible and maxilla, it is easier to make a single unit with a fused temporomandibular joint, though this results in poor operability of the model. However, while models created with a separate mandible and maxilla have operability, it can be difficult to fully restore the position of the condylar after simulation. The purpose of this study is to introduce and asses the novel condylar repositioning method in 3D model preoperational simulation. METHODS: Our novel condylar repositioning method is simple to apply two irregularities in 3D models. Three oral surgeons measured and evaluated one linear distance and two angles in 3D models. RESULTS: This study included two patients who underwent sagittal split ramus osteotomy (SSRO) and two benign tumor patients who underwent segmental mandibulectomy and immediate reconstruction. For each SSRO case, the mandibular condyles were designed to be convex and the glenoid cavities were designed to be concave. For the benign tumor cases, the margins on the resection side, including the joint portions, were designed to be convex, and the resection margin was designed to be concave. The distance from the mandibular ramus to the tip of the maxillary canine, the angle created by joining the inferior edge of the orbit to the tip of the maxillary canine and the ramus, the angle created by the lines from the base of the mentum to the endpoint of the condyle, and the angle between the most lateral point of the condyle and the most medial point of the condyle were measured before and after simulations. Near-complete matches were observed for all items measured before and after model simulations of surgery in all jaw deformity and reconstruction cases. CONCLUSIONS: We demonstrated that 3D models manufactured using our method can be applied to simulations and fully restore the position of the condyle without the need for special devices.
Chin ; Congenital Abnormalities ; Equidae ; Glenoid Cavity ; Humans ; Jaw ; Joints ; Mandible ; Mandibular Condyle ; Mandibular Osteotomy ; Maxilla ; Methods ; Oral and Maxillofacial Surgeons ; Orbit ; Orthognathic Surgery ; Osteotomy, Sagittal Split Ramus ; Surgery, Oral ; Temporomandibular Joint