Prosthodontic principles in the framework design of maxillary obturator prostheses

J Prosthet Dent 2005;93:405-11 Prosthodontic principles in the framework design of maxillaryobturator prostheses Gregory R. Parr, DDS,Greggory E. Tharp, DMD, and Arthur O. Rahn, DDS GDC 김연휘

Dr. Mohammed Aramany • 술후 상악 defect의 분류 체계 수립(1978) • 분류 기준 • 잔존 치아 • 발생 빈도 • 분류 범주 • 6개 GDC 김연휘

Dr. Mohammed Aramany • 분류 체계의 의의 • 의사 소통 기구 • obturator framework의 최종 설계에 영향 obturator design(templates) 개발 GDC 김연휘

디자인의 목적 • 기능력 분산/중립화 • 구강 조직 지지/ 안정화 / 유지 • 구강 조직의 생리적 한계를 넘지 않는 범위에서 stress없이 최대의 효과를 발휘 • 잔존 치아 보존 • 의치 지지/ 안정화/ 유지에 필수적 • 모든 경우에서 1차적 목표 GDC 김연휘

General comments GDC 김연휘

Obturator prosthesis 설계 원리 • RPD설계의 일반적 원리 적용 : 당연 • (1)견고한 주연결장치의 필요성 • (2)guide planes와 안정과 파지에 필요한 다른 장치들 • (3)지지를 최대화하는 설계 • (4)지대치의 장축을 따라 지지력이 발휘되게 하는 rest • (5)안정시에는 passive하고 탈락에는 저항하면서 지대치에 과부하를 야기하지 않는 직접 유지장치 • (6) defect 반대 부위의 교합 평면의 조정이 중요(특히 자연치를 포함할 때) GDC 김연휘

Unique considerations in the design • (1) defect의 위치와 크기 • 특이 자연치와 관련하여 • (2)defect주위의 지대치의 중요성 • obturator의 지지, 유지에 중요 • (3) lateral scar band의 유용성 • 보철물의 장착을 허용하고 변위에 저항 • (4) defect검사를 위한 surveyor의 사용 • useful undercuts 보존/ undesirable undercuts제거 GDC 김연휘

Forces in designing an obturator framework • by Aramany • vertical downward forces (gravity ) • vertical upward (occlusal) forces • rotational forces (multidirectional around constantly changing fulcrum lines) • anterioposterior forces (occlusal prematurities) GDC 김연휘

Prognosis of the obturator • arch의 크기(수술 후)와 만곡도(curvature) • 치조제 피개 조직과 defect이장 조직의 질 • 지대치 배열 : curved  >  linear • defect쪽 치아의 지지/유지면에서의 유용성 GDC 김연휘

Class I. curved arch form (Fig. 1) GDC 김연휘

classic maxillary resection defect • unilateral defect : hard palate, alveolar, ridge, and dentition are removed to the midline • most commonly seen • Aramany’s framework design • linear design • if the remaining anterior teeth were not to be used for support or retention • tripodal design • if the anterior teeth were used GDC 김연휘

Fig. 1. Aramany class I tripodal obturator design for curved arches GDC 김연휘

Support • Support • remaining natural teeth • palate • Goal • functional load의 분산 • via a rigid major connector • broad square / ovoid palatal form • tissue-bearing surface  • tripodization  GDC 김연휘

Rest • location • the most anterior abutment • closest to the defect • the mesio-occlusal surface of the most distal abutment tooth • double rest between adjacent posterior teeth • wedging , separation • periodontal damage from food impaction  GDC 김연휘

Path of insertion • compound path of insertion • as undercuts and support regions within the defect will be negotiated before the teeth are engaged defect  teeth GDC 김연휘

Guide planes • precise placement • predictable retention of the prosthesis • stability • Guide planes on the anterior abutment • minimum vertical height (1 to 2 mm) •  limit torque on the abutment teeth GDC 김연휘

Indirect retainer • perpendicular to the fulcrum line • (which connects the most anterior and most posterior rests) • as far forward as possible • canine / first premolar • downward movement에 저항 GDC 김연휘

Retention • by direct retainer • anterior abutment • “I-bar” design • 19- or 20-gauge wrought wire • 0.25-mm undercut • midlabial surface • splinting 1 or 2 adjacent teeth • full crowns • resin GDC 김연휘

Retention • posterior retainer • cast circumferential clasp • 0.25 mm undercut • buccal surface GDC 김연휘

Class I. linear arch form (Fig. 2) GDC 김연휘

anterior teeth 가 없을 때 • anterior teeth 사용을 원치 않을 때 • remaining posterior teeth : relatively straight line GDC 김연휘

Fig. 2. Aramany class I linear obturator design (similar to Aramany class IV obturator design) GDC 김연휘

Support • remaining posterior teeth • palatal tissues • more important GDC 김연휘

Retention • combined use of • buccal premolar retention + lingual molar retention GDC 김연휘

Class II (Fig. 3) GDC 김연휘

premaxilla and the premaxillary dentition 유지 • unilateral defect • similar to a Kennedy class II GDC 김연휘

Presurgical consultation • with the surgeon class I situation by carefully planned surgery class II situation improved prosthetic prognosis GDC 김연휘

Fig. 3. Aramany class II obturator design. GDC 김연휘

Support • provided by • rests • nearest to the defect & farthest from the defect • double rests on posterior teeth • palate GDC 김연휘

Guide-plane • location and size : similar to the class I • posterior teeth : full use of the palatal surfaces GDC 김연휘

Indirect retainer • opposite the fulcrum line and as far forward as possible • canine /first premolar • the tripodal design 완성 GDC 김연휘

Retention • similar to that in the class I design • abutment closest to the defect • critical for retention • direct retainer • cast circumferential clasp/ I-bar clasp • 0.25 mm undercut • 19-gauge wrought wire clasp • 0.5 mm or less • mesiofacial undercut • splinting it to the 1 or 2 teeth GDC 김연휘

Retention • The posterior retainer • cast circumferential clasp • 0.25-mm distobuccal undercut GDC 김연휘

Canine • indirect retainer • additional (but optional) retentive site • 19-gauge wrought wire clasp • 0.25-mm undercut • additional clasp • should be a more flexible /less undercut • less flexible clasp on the height of contour  frictional retention GDC 김연휘

Occlusion on the defect side • occlusally directed forces : destructive • Occlusal schemes • fewer, smaller teeth • located further toward the anterior • devoid of premature or deflective contacts GDC 김연휘

Class III (Fig. 4) GDC 김연휘

midline defect of the hard palate (+/_ soft palate) • dentition : preserved • Kennedy class III RPD design와 유사 GDC 김연휘

Fig. 4. Aramany class III obturator design. GDC 김연휘

Support • rests on canines /molars largest quadrilateral shape • Little or no support is expected from the palate or the defect • Bilateral symmetry of the major connector design GDC 김연휘

Guide planes • palatal surfaces of the posterior teeth • short • proximal surfaces • long GDC 김연휘

Indirect retention • not required GDC 김연휘

Retention • cast retainers • 0.25-mm undercuts • facial surfaces • circumferential retainers/I-bars/ modified T-bars • combination-type retainers • esthetic advantage • deeper undercut (0.5 mm) • less conspicuous region GDC 김연휘

Class IV (Fig. 5) GDC 김연휘

removal of the entire premaxillae • a few remaining posterior teeth • in a relatively straight line • creating a unilateral linear design problem GDC 김연휘

Fig. 5. Aramany class IV obturator GDC 김연휘

Support • rests on all of the remaining teeth • channel rests • multiple mesio-occlusal and disto-occlusal results • defect • should also be engaged to use • as much as possible • any sites within the defect that may be contacted GDC 김연휘

Retention • problematic • combination of buccal and palatal retention • loss of bracing and stabilization • increased rotation • the creation of small irritating spaces in the major conector design GDC 김연휘

Retentive sites • facial surfaces of the remaining teeth • lateral wall of the surgical defect (lateral scar band) • If no lateral scar band exists • no choice but to use a combination of buccal and palatal retention GDC 김연휘

Posterior occlusion • size and number of teeth  GDC 김연휘

GDC 김연휘

Prosthodontic principles in the framework design of maxillary obturator prostheses

Prosthodontic principles in the framework design of maxillary obturator prostheses

Presentation Transcript

The Principles of Design

The Principles of Design

The Principles of Design

The Principles of Design

The Principles of Design

The Principles of Design

The Principles of Design

The Principles of Design

The Principles of Design

THE PRINCIPLES OF DESIGN

The Principles of Design

The Principles of Design

The Principles of Design

The Principles of Design

The Principles Of Design

The Principles of Design

The Principles of Design

The Principles of Design