• Title/Summary/Keyword: POP bow system

Search Result 4, Processing Time 0.015 seconds

In vitro comparison of the accuracy of an occlusal plane transfer method between facebow and POP bow systems in asymmetric ear position

  • Dae-Sung Kim;So-Hyung Park;Jong-Ju Ahn;Chang-Mo Jeong;Mi-Jung Yun;Jung-Bo Huh;So-Hyoun Lee
    • The Journal of Advanced Prosthodontics
    • /
    • v.15 no.5
    • /
    • pp.271-280
    • /
    • 2023
  • PURPOSE. This in vitro study aimed to compare the accuracy of the conventional facebow system and the newly developed POP (PNUD (Pusan National University Dental School) Occlusal Plane) bow system for occlusal plane transfer in asymmetric ear position. MATERIALS AND METHODS. Two dentists participated in this study, one was categorized as Experimenter 1 and the other as Experimenter 2 based on their clinical experience with the facebow (1F, 2F) and POP bow (1P, 2P) systems. The vertical height difference between the two ears of the phantom model was set to 3 mm. Experimenter 1 and Experimenter 2 performed the facebow and POP bow systems on the phantom model 10 times each, and the transfer accuracy was analyzed. The accuracy was evaluated by measuring the angle between the reference virtual plane (RVP) of the phantom model and the experimental virtual plane (EVP) of the upper mounting plate through digital superimposition. All data were statistically analyzed using a paired t-test (P < .05). RESULTS. Regardless of clinical experience, the POP bow system (0.53° ± 0.30 (1P) and 0.19° ± 0.18 (2P) for Experimenter 1 and 2, respectively) was significantly more accurate than the facebow system (1.88° ± 0.50 (1F) and 1.34° ± 0.25 (2F), respectively) in the frontal view (P < .05). In the sagittal view, no significant differences were found between the POP bow system (0.92° ± 0.50 (1P) and 0.73° ± 0.42 (2P) for Experimenter 1 and 2, respectively) and the facebow system (0.82° ± 0.49 (1F) and 0.60° ± 0.39 (2F), respectively), regardless of clinical experience (P > .05). CONCLUSION. In cases of asymmetric ear position, the POP bow system may transfer occlusal plane information more accurately than the facebow system in the frontal view, regardless of clinical experience.

Treatment of upper and lower 3D printing CAD-CAM dentures using the POP (PNUD Occlusal Plane) Bow system, a prefabricated occlusal plane transfer device: A case report (조립식 교합 평면 인기 장치 POP (PNUD Occlusal Plane) Bow 시스템을 이용한 3D 프린팅 CAD-CAM 의치치료 증례)

  • Seol-Hwa Lee;Chang-Mo Jeong;Mi-Jung Yun;Jung-Bo Huh;So-Hyoun Lee
    • The Journal of Korean Academy of Prosthodontics
    • /
    • v.61 no.1
    • /
    • pp.44-54
    • /
    • 2023
  • In order to manufacture functional and esthetic prostheses, it is essential to accurately transmit information about the patient's occlusal plane. In particular, in the case of a completely edentulous patient, the occlusal plane is very important to correctly support the soft tissue, to achieve aesthetic harmony with the facial appearance, and to properly pronounce it, and to form a balanced occlusal relationship for stable mastication. In the conventional method, various facebow systems were used to transmit patient's information from the clinic to the laboratory, but there were several limitations in the process of transferring them to CAD. To simplify this process, a prefabricated POP (PNUD Occlusal Plane) Bow system was recently developed. In this case, a CAD-CAM (Computer-aided design-computer-aided manufacturing) treatment dentures reflecting the patient's occlusal plane information was manufactured using the POP Bow system during the treatment of a completely edentulous patient, and aesthetic and functional satisfaction was obtained.

3D printed interim immediate denture by using the occlusal plane digital transfer method of the POP BOW system in a patient planning to extract upper and lower residual teeth: a case report (상하악 전악 발거 환자에서 POP BOW 시스템의 교합평면 디지털 전이법을 이용한 3D 프린팅 임시 즉시의치의 수복 증례)

  • Park, Do-Hyun;Bae, Eun-Bin;Jung, In-Hwan;Jeong, Chang-Mo;Yun, Mi-Jung;Huh, Jung-Bo;Lee, So-Hyoun
    • Journal of Dental Rehabilitation and Applied Science
    • /
    • v.38 no.3
    • /
    • pp.178-188
    • /
    • 2022
  • Interim immediate denture is fabricated to minimize the period of edentulousness after removal of the patient's remaining teeth and before delivery of final prosthesis. In the case of using the CAD/CAM system, there is an advantage in that the manufacturing process in the clinic and laboratory can be simplified by overcoming some of the limitations of manufacturing interim immediate dentures in the traditional way. However, there are also disadvantages in that errors occur in the process of transmitting information about the patient's intermaxillary relationship to the digital network of the laboratory, resulting in unstable occlusal relationships or non-esthetic prostheses. To overcome this problem, using the simple and accurate POP BOW system's occlusal plane digital transfer method, it was possible to fabricate an esthetic and functional 3D printed interim immediate denture after removal of the remaining upper and lower anterior teeth.

Full mouth rehabilitation with implant fixed prostheses using POP bow system and 3D printing gothic arch tracer in a patient with unilateral facial nerve palsy (편측성 안면 신경마비 환자에서 3D printing gothic arch tracer와 POP bow system을 이용한 전악 임플란트 고정성 보철 수복)

  • Seong-Yun Jeong;Chang-Mo Jeong;Mi-Jung Yoon;Jung-Bo Huh;So-Hyoun Lee
    • The Journal of Korean Academy of Prosthodontics
    • /
    • v.62 no.3
    • /
    • pp.201-214
    • /
    • 2024
  • In patients with unstable mandibular movements who are accompanied by involuntary facial muscle movements and asymmetrical changes in the facial features, many difficulties exist in determining the vertical dimension of occlusion, recording centric relation, and transferring information about the occlusal plane. In this case, for a patient with unilateral facial nerve palsy who was edentulous for a long period of time, a CAD-CAM provisional prosthesis was fabricated using a 3D printing customized gothic arch tracer and a prefabricated occlusal plane recorder, the POP bow system, to achieve a stable interarch relationship. Afterwards, a full mouth implant fixed prosthesis was fabricated by delivering an appropriate vertical dimension of occlusion, a reproducible centric relation, and a correct three-dimensional occlusal plane, and continuous maintenance was performed to restore functional and aesthetic oral health to the patient.