Q. T. Smith scite author profile

A cross-sectional study of 117 subjects from a dental clinic serving a diverse population (i.e., Whites, African-Americans, Native-Americans, and Asians) was performed to evaluate risk indicators of periodontal disease. Gingival crevicular fluid (GCF) and subgingival plaque were taken at the same visit from 4 posterior sites of the most diseased sextant in each subject. Age, smoking packyears, beta-glucuronidase (beta G), neutrophil elastase (NE), myeloperoxidase (MPO), Fusobacterium nucleatum (F. nucleatum), and Porphyromonas gingivalis (P. gingivalis) were significantly (p < 0.05-0.005) correlated with attachment loss. Probing depth was significantly correlated with smoking packyears, beta G, NE, MPO, F. nucleatum and Prevotella intermedia (P. intermedia) (p < 0.05-0.005). Mean NE value of Whites was lower than the mean NE values of African-Americans, Native-Americans and Asians (p < 0.05). Whites had a lower mean beta G value compared to African Americans, and a lower mean MPO value compared to African Americans and Native Americans. The %s of patients positive for F. nucleatum, P. intermedia and Eikenella corrodens (E. corrodens) were higher in Native Americans compared to Whites. Step-wise multiple regression analysis was performed to construct models for the estimation of probing depth and attachment loss. The most parsimonious regression models which had the best R2 values included the following variables and accounted for the indicated % of variability: models 1 and 2: beta G, race, and F. nucleatum accounted for 50% of the variability in mean probing depth and 39% of the variability in a single site (first molar) for probing depth, respectively; model 3: age, beta G, and F. nucleatum accounted for 53% of the variability in mean attachment loss; model 4: age, NE, and F. nucleatum explained 35% of the variability in a single site (first molar) for attachment loss. The results suggest that age, race, smoking packyears, beta G, NE, MPO, F. nucleatum, P. gingivalis and P. intermedia are risk indicators for periodontal disease in this racially diverse urban population. Regression models which include multiple variables (i.e., demographic factors, GCF enzymes and periodontopathic bacteria) can be used to estimate periodontal disease status.

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Crevicular fluid myeloperoxidase at healthy, gingivitis and periodontitis sites

Cao

Smith

1989

J Clinic Periodontology

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The volume and myeloperoxidase (MPO) activity of gingival crevicular fluid (GCF) collected with filter paper strips for 30 s from the sulcus of healthy, gingivitis and periodontitis sites of Chinese subjects were measured. MPO/site and MPO/microliter GCF were both greater at gingivitis and periodontitis sites than at healthy sites. Enzyme activity was similar at the 2 categories of diseased sites. Mean GCF volume and MPO activity were calculated for all samples from healthy, gingivitis and periodontitis sites with GI 0, 1, 2 and 0 + 1. GCF volume, MPO/site and MPO/microliter GCF all were greater at GI 2 than GI 0 or 0 + 1. These data indicate that increased GCF MPO previously observed at periodontitis sites is not specific to such sites. Rather increased GCF MPO likely occurs when additional polymorphonuclear leukocytes enter the sulcus as a result of gingival inflammation. A second sample was obtained from 22 sites 4 weeks after the initial collection. These samples were collected for 5 s rather than 30 s. The GCF volume, MPO/site and MPO/microliters GCF were each greater in samples collected for 30 s rather than 5 s. Correlation coefficients showed that the amount of GCF and MPO activity of the fluid collected for 5 s and 30 s was dependent upon the site even though the 5-s and 30-s samples were collected 4 weeks apart.

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Diversity in academic medicine no. 1 case for minority faculty development today

Nivet

Taylor

Butts

et al. 2008

Mount Sinai J Medicine

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For the past 20 years, the percentage of the American population consisting of nonwhite minorities has been steadily increasing. By 2050, these nonwhite minorities, taken together, are expected to become the majority. Meanwhile, despite almost 50 years of efforts to increase the representation of minorities in the healthcare professions, such representation remains grossly deficient. Among the underrepresented minorities are African and Hispanic Americans; Native Americans, Alaskans, and Pacific Islanders (including Hawaiians); and certain Asians (including Hmong, Vietnamese, and Cambodians). The underrepresentation of underrepresented minorities in the healthcare professions has a profoundly negative effect on public health, including serious racial and ethnic health disparities. These can be reduced only by increased recruitment and development of both underrepresented minority medical students and underrepresented minority medical school administrators and faculty. Underrepresented minority faculty development is deterred by barriers resulting from years of systematic segregation, discrimination, tradition, culture, and elitism in academic medicine. If these barriers can be overcome, the rewards will be great: improvements in public health, an expansion of the contemporary medical research agenda, and improvements in the teaching of both underrepresented minority and non-underrepresented minority students.

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Five parameters of gingival crevicular fluid from eight surfaces in periodontal health and disease

Smith

Freese

et al. 1992

J of Periodontal Research

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Volume and amounts of myeloperoxidase (MPO), lactoferrin (LF), aryl sulfatase (AS) and lactate dehydrogenase (LDH) were measured in gingival crevicular fluid (GCF) collected from the mesial and distal proximal surfaces of the premolars and first and second molars of 3 subject groups. Group assignment was based on subject mean gingival index (GI) and probing depth (PD) of sampled sites as follows: healthy, GI less than or equal to 0.5, PD less than or equal to 3.0; disease 1, GI greater than or equal to 1.0, PD greater than or equal to 3.0 mm; disease 2, PD greater than or equal to 4.0 mm. Attachment loss (ATL) of most sites in the 3 groups was: healthy, 0-1 mm; disease 1, 1-2 mm; and disease 2, 4-9 mm. GCF volume differed among surfaces and teeth in each of the 3 groups. The greater amount of GCF collected from posterior locations was not related to the GI and PD. Differences with sampling location in amounts of GCF constituents were restricted to MPO and LF. Most of these differences (greater amounts at posterior sites) were associated with more severe disease. Variability in amount and composition of GCF collected from different sites, therefore, should be considered in experiments which include quantitation of GCF parameters. The ratio of MPO in disease group 2 to disease group 1 was greater than similar ratios for GCF volume and LF, AS and LDH. The quantity of MPO was the only measure which differed between the 2 disease groups at all surfaces. MPO thus appears to have the greatest potential, among the measured parameters, to serve as a marker for advanced periodontal disease.

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Repeated measurement of crevicular fluid parameters at different sites

Smith

Geegan

1991

J Clinic Periodontology

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Few systematic studies have been made of amounts or of the composition of gingival crevicular fluid (GCF) from different sites or of the stability of GCF parameters over time. These data are needed to better understand the relation of GCF composition to periodontal health status. This report gives the volume and the amounts of lactate dehydrogenase (LDH), aryl sulfatase (AS) and neutrophil elastase (NE) for GCF collected from 6 samplings of 6 standard gingival sites in 11 young adult subjects over a 6-week period. Attachment loss (3 mm) was noted at only 1 of the 66 sites. The mean gingival index of the 11 subjects ranged from 0.33 to 1.67. The GCF volume and activity/sample of LDH and AS but not NE differed among subjects. However, differences among subjects were not found when the GCF enzyme activities were expressed as activity/microliter GCF. GCF volume and LDH, AS and NE activity all differed among the 6 sites when the activities were expressed as either quantity/sample or microliter GCF. These data show that differences among sites must be carefully considered in evaluation of GCF data. Fluid volume and LDH, AS and NE activity all varied from sampling to sampling. However, differences among sites were retained throughout the experimental period.

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Q. T. Smith

Risk indicators for periodontal disease in a racially diverse urban population

Crevicular fluid myeloperoxidase at healthy, gingivitis and periodontitis sites

Diversity in academic medicine no. 1 case for minority faculty development today

Five parameters of gingival crevicular fluid from eight surfaces in periodontal health and disease

Repeated measurement of crevicular fluid parameters at different sites

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