Validation and calibration of a digital subtraction radiography system for quantitative assessment of alveolar bone changes /

Woo, Mei-sum, Becky,

January 2000

Thesis (M.D.S.)--University of Hong Kong, 2000. / Includes bibliographical references (leaves 69-85).

Radiography, Medical Alveolar process.

A systematic review of post extractional alveolar hard and soft tissuedimensional changes: comparison of animal andhuman studies

Tan, Wah Lay., 陳華麗.

January 2012

Background: Removal of teeth results in both horizontal and vertical changes of hard and soft tissue dimensions. The magnitude of these changes is important for decision-making and comprehensive treatment planning, with provisions for possible solutions to expected complications during prosthetic rehabilitation. Objectives: to review all English dental literature to assess the magnitude of dimensional changes of both the hard and soft tissues of the alveolar ridge up to 12 months following tooth extraction in humans. Materials and methods: An electronic MEDLINE and CENTRAL search complemented by manual searching was conducted to identify randomized controlled clinical trials and prospective cohort studies on hard and soft tissue dimensional changes after tooth extraction. Only studies reporting on undisturbed post-extraction dimensional changes relative to a fixed reference point over a clearly stated time period were included. Assessment of the identified studies and data extraction was performed independently by two reviewers. Data collected were reported by descriptive methods. Weighted means and percentages of the dimensional changes over time were calculated where appropriate. Results: The search provided 3954 titles and 238 abstracts. Full text analysis was performed for 104 articles resulting in 20 studies that met the inclusion criteria. In human hard tissue, horizontal dimensional reduction (3.79 ± 0.23 mm) was more than vertical reduction (1.24 ± 0.11 mm on buccal, 0.84 ± 0.62 mm on mesial and 0.80 ± 0.71 mm on distal sites) at 6 months. Percentage vertical dimensional change was 11-22 % at 6 months. Percentage horizontal dimensional change was 32% at 3 months, and 29-63% at 6-7 months. Soft tissue changes demonstrated 0.4-0.5 mm gain of thickness at 6 months on the buccal and lingual aspects. Horizontal dimensional changes of hard and soft tissue (loss of 0.1 mm to 6.1 mm) was more substantial than vertical change (loss 0.9 mm to gain 0.4mm) during observation periods of up to 12 months, when study casts were utilised as a means of documenting the changes. Conclusions: Human re-entry studies showed horizontal bone loss of 29-63% and vertical bone loss of 11-22% after 6 months following tooth extraction. These studies demonstrated rapid reductions in the first 3-6 months that was followed by gradual reductions in dimensions thereafter. / published_or_final_version / Dental Surgery / Master / Master of Dental Surgery

Alveolar process.

Teeth - Extraction.

A systematic review of post-extractional alveolar hard and soft tissue dimensional changes in humans : comparison of studies with non-fixed or fixed reference points

Tan, Wah Lay, Wong, Lok-tin, 陳華麗, 黃洛天

January 2011

Background: Removal of teeth results in both horizontal and vertical changes of hard and soft tissue dimensions. The magnitude of these changes is important for decision-making and comprehensive treatment planning, with provisions for possible solutions to expected complications during prosthetic rehabilitation. Objectives: to review all English dental literature to assess the magnitude of dimensional changes of both the hard and soft tissues of the alveolar ridge up to 12 months following tooth extraction in humans. Materials and methods: An electronic MEDLINE and CENTRAL search complemented by manual searching was conducted to identify randomised controlled clinical trials and prospective cohort studies on hard and soft tissue dimensional changes after tooth extraction. Only studies reporting on undisturbed post-extraction dimensional changes relative to a fixed reference point over a clearly stated time period were included. Assessment of the identified studies and data extraction was performed independently by two reviewers. Data collected were reported by descriptive methods. Weighted means and percentages of the dimensional changes over time were calculated where appropriate. Results: The search provided 3954 titles and 238 abstracts. Full text analysis was performed for 104 articles resulting in 20 studies that met the inclusion criteria. In human hard tissue, horizontal dimensional reduction (3.79 ± 0.23 mm) was more than vertical reduction (1.24 ± 0.11 mm on buccal, 0.84 ± 0.62 mm on mesial and 0.80 ± 0.71 mm on distal sites) at 6 months. Percentage vertical dimensional change was 11-22 % at 6 months. Percentage horizontal dimensional change was 32% at 3 months, and 29-63% at 6-7 months. Soft tissue changes demonstrated 0.4-0.5 mm gain of thickness at 6 months on the buccal and lingual aspects. Horizontal dimensional changes of hard and soft tissue (loss of 0.1 mm to 6.1 mm) was more substantial than vertical change (loss 0.9 mm to gain 0.4mm) during observation periods of up to 12 months, when study casts were utilised as a means of documenting the changes. Conclusions: Human re-entry studies showed horizontal bone loss of 29-63% and vertical bone loss of 11-22% after 6 months following tooth extraction. These studies demonstrated rapid reductions in the first 3-6 months that was followed by gradual reductions in dimensions thereafter. / published_or_final_version / Dental Surgery / Master / Master of Dental Surgery

Teeth - Extraction

Alveolar process

Collagen fibre bundles in the molar alveolar process of the mousemandible /

Dunstan, Ian Henderson.

January 1977

Thesis (M.D.S.) - Department of Dental Health, University of Adelaide. / Typescript (photocopy).

Collagen. Alveolar process. Mice.

Alveolar duct construction and the humoral regulation of the lung.

Colebatch, Hal John Hester.

January 1971

Thesis (M.D.) -- University of Adelaide, Faculty of Medicine, 1972.

Alveolar process. Lungs

The fine structure and distribution of vessels in a small segment of human periodontal ligament and alveolar bone /

Barker, John Hugh,

January 1980

Thesis (M.D.S.)--University of Adelaide, Dept. of Dental Health, 1981. / Includes bibliographical references.

Periodontal ligament Alveolar process.

Anthropological investigations of the distances from the alveoli of the molars to porus acusticus externus respectively to the condyloid process as well as similar investigations of the molar alveolar widths a thesis /

Hellén, Margit.

January 1948

Thesis--University of Helsingfors, 1948.

Molar. Alveolar Process.

Validation and calibration of a digital subtraction radiography system for quantitative assessment of alveolar bone changes

Woo, Mei-sum, Becky,

January 2000

Thesis (M.D.S.)--University of Hong Kong, 2000. / Includes bibliographical references (leaves 69-85). Also available in print.

Radiography, Medical Alveolar process.

Anthropological investigations of the distances from the alveoli of the molars to porus acusticus externus respectively to the condyloid process as well as similar investigations of the molar alveolar widths a thesis /

Hellén, Margit.

January 1948

Thesis--University of Helsingfors, 1948.

Molar. Alveolar Process.

The effects of primary alvelar bone grafting on maxillary growth and development

Tanimura, Leslie K.

January 1993

Indiana University-Purdue University Indianapolis (IUPUI) / This investigation served as a follow-up of the unilateral and bilateral cleft lip and palate patients who underwent primary alveolar bone grafting at James Whitcomb Riley Hospital of the Indiana University Medical Center. The sample consisted of 18 patients, 15 males and three females, who received primary alveolar grafts between September 7, 1983 and March 5, 1985. Thirteen had complete unilateral clefts, and five had complete bilateral clefts of the lip and palate. The mean age of the group was 8 years, and none had received orthodontic treatment. The statistical analysis of the lateral cephalometric radiographs revealed significant differences in maxillofacial growth between the Riley sample population and the non-cleft, age-matched patients in the University of Michigan Growth Study. The Riley data were, overall, statistically and proportionately smaller than the normal population. These findings are due to the smaller skeletal size of the Riley group. Arch symmetry measurements indicated that at 8 years of age there were significant differences from ideal or perfect symmetry. Due to existent dental development and scarring from the palatal procedure, these findings were expected. Ideal symmetry may not be a realistic achievement for the cleft patients. Palatal surface area values were visually analyzed through graphs. The growth patterns of the Riley population were similar to those of the normal and non-grafted cleft groups in a study from the University of Miami. The data supports the theory that primary alveolar bone grafting, as performed at James Whitcomb Riley Hospital, does not result in growth attenuation.

Pediatric Dentistry

Alveolar Process