Antonio Bowen | Universidad Internacional Isabel I de Castilla (original) (raw)
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empleadas. Entre ellas, cabe destacar la importancia que cobran las terapias realizadas con láser... more empleadas. Entre ellas, cabe destacar la importancia que cobran las terapias realizadas con láser y la fotodinámica.
La aplicación de la tecnología láser en Implantología es reciente. En estos últimos años, con el ... more La aplicación de la tecnología láser en Implantología es reciente. En estos últimos años, con el desarrollo de los láseres de diodo, su uso se está extendiendo; pero estos no se pueden aplicar en todas las fases del tratamiento con implantes.
Ciencia 162 GACETA DENTAL 205, julio 2009 INTRODUCCIÓN Los láser de diodos pertenecen a la serie ... more Ciencia 162 GACETA DENTAL 205, julio 2009 INTRODUCCIÓN Los láser de diodos pertenecen a la serie de láser de estado sólido y de emisión continua, formados por un diodo de Arseniuro de Galio (As Ga), que emite en una longitud de onda en el infrarrojo cercano entre los 804 y los 980 nm, por lo que no puede ser visto por el ojo humano y, en muchas ocasiones, va acompañado de un láser marcador de He Ne (1, 2).
Medicina oral, patología oral y cirugía bucal, 2007
Since the introduction of osseointegrated implant treatment, odontology, and in particular the ar... more Since the introduction of osseointegrated implant treatment, odontology, and in particular the area of prosthodontic replacement of lost teeth, has evolved in an unimaginable way, to the extent that the age-old idea of "restitutio ad integrum" has almost become possible. Implant treatment has a high success rate that has been rated as high as 95 to 99%, according to different casuists, but there is another group of cases in which implants fail, and in fact it is hard to know the causes of such failures. The microbiological component plays an important role in encouraging and facilitating implant infection during implant placement, and also later when the implant is in function in the mouth, which is a septic medium. In this paper we will study infections in implantology, classified according to the treatment phase: Infection prior to the implant; Peri-surgical infection; Severe post-surgical infection; Peri-implant disease.
Medicina Oral Patología Oral y Cirugia Bucal, 2012
Objectives: To explore peri-implant health (and relation with periodontal status) 4-5 years after... more Objectives: To explore peri-implant health (and relation with periodontal status) 4-5 years after implant insertion. Study Design: A practice-based dental research network multicentre study was performed in 11 Spanish centres. The first patient/month with implant insertion in 2004 was considered. Per patient four teeth (one per quadrant) showing the highest bone loss in the 2004 panoramic X-ray were selected for periodontal status assessment. Bone losses in implants were calculated as the differences between 2004 and 2009 bone levels in radiographs. Results: A total of 117 patients were included. Of the 408 teeth considered, 73 (17.9%) were lost in 2009 (losing risk: >50% for bone losses ≥7mm). A total of 295 implants were reviewed. Eight of 117 (6.8%) patients had lost implants (13 of 295 implants installed; 4.4%). Implant loss rate (quadrant status) was 1.4% (edentulous), 3.6% (preserved teeth), and 11.1% (lost teeth) (p=0.037). The percentage of implant loss significantly (p<0.001) increased when the medial/distal bone loss was ≥3 mm. The highest (p≤0.001) pocket depths were found in teeth with ≥5mm and implants with ≥3mm bone losses, with similar mean values (≥4mm), associated with higher rates of plaque index and bleeding by probing. Conclusions: The significant bi-directional relation between plaque and bone loss, and between each of these two parameters/signs and pocket depths or bleeding (both in teeth and implants, and between them) together with the higher percentage of implants lost when the bone loss of the associated teeth was ≥3 mm suggest that the patient's periodontal status is a critical issue in predicting implant health/lesion.
empleadas. Entre ellas, cabe destacar la importancia que cobran las terapias realizadas con láser... more empleadas. Entre ellas, cabe destacar la importancia que cobran las terapias realizadas con láser y la fotodinámica.
La aplicación de la tecnología láser en Implantología es reciente. En estos últimos años, con el ... more La aplicación de la tecnología láser en Implantología es reciente. En estos últimos años, con el desarrollo de los láseres de diodo, su uso se está extendiendo; pero estos no se pueden aplicar en todas las fases del tratamiento con implantes.
Ciencia 162 GACETA DENTAL 205, julio 2009 INTRODUCCIÓN Los láser de diodos pertenecen a la serie ... more Ciencia 162 GACETA DENTAL 205, julio 2009 INTRODUCCIÓN Los láser de diodos pertenecen a la serie de láser de estado sólido y de emisión continua, formados por un diodo de Arseniuro de Galio (As Ga), que emite en una longitud de onda en el infrarrojo cercano entre los 804 y los 980 nm, por lo que no puede ser visto por el ojo humano y, en muchas ocasiones, va acompañado de un láser marcador de He Ne (1, 2).
Medicina oral, patología oral y cirugía bucal, 2007
Since the introduction of osseointegrated implant treatment, odontology, and in particular the ar... more Since the introduction of osseointegrated implant treatment, odontology, and in particular the area of prosthodontic replacement of lost teeth, has evolved in an unimaginable way, to the extent that the age-old idea of "restitutio ad integrum" has almost become possible. Implant treatment has a high success rate that has been rated as high as 95 to 99%, according to different casuists, but there is another group of cases in which implants fail, and in fact it is hard to know the causes of such failures. The microbiological component plays an important role in encouraging and facilitating implant infection during implant placement, and also later when the implant is in function in the mouth, which is a septic medium. In this paper we will study infections in implantology, classified according to the treatment phase: Infection prior to the implant; Peri-surgical infection; Severe post-surgical infection; Peri-implant disease.
Medicina Oral Patología Oral y Cirugia Bucal, 2012
Objectives: To explore peri-implant health (and relation with periodontal status) 4-5 years after... more Objectives: To explore peri-implant health (and relation with periodontal status) 4-5 years after implant insertion. Study Design: A practice-based dental research network multicentre study was performed in 11 Spanish centres. The first patient/month with implant insertion in 2004 was considered. Per patient four teeth (one per quadrant) showing the highest bone loss in the 2004 panoramic X-ray were selected for periodontal status assessment. Bone losses in implants were calculated as the differences between 2004 and 2009 bone levels in radiographs. Results: A total of 117 patients were included. Of the 408 teeth considered, 73 (17.9%) were lost in 2009 (losing risk: >50% for bone losses ≥7mm). A total of 295 implants were reviewed. Eight of 117 (6.8%) patients had lost implants (13 of 295 implants installed; 4.4%). Implant loss rate (quadrant status) was 1.4% (edentulous), 3.6% (preserved teeth), and 11.1% (lost teeth) (p=0.037). The percentage of implant loss significantly (p<0.001) increased when the medial/distal bone loss was ≥3 mm. The highest (p≤0.001) pocket depths were found in teeth with ≥5mm and implants with ≥3mm bone losses, with similar mean values (≥4mm), associated with higher rates of plaque index and bleeding by probing. Conclusions: The significant bi-directional relation between plaque and bone loss, and between each of these two parameters/signs and pocket depths or bleeding (both in teeth and implants, and between them) together with the higher percentage of implants lost when the bone loss of the associated teeth was ≥3 mm suggest that the patient's periodontal status is a critical issue in predicting implant health/lesion.