Periodontal Disease (PD) is present in 60+% of adults \>65 years and is associated with tobacco smoking, diabetes, and atherosclerosis that worsen inflammation, comorbidities common in older people with mild to moderate cognitive impairment (MCI). Older MCI patients are prone to poor oral hygiene and dental health, which if untreated worsens inflammation-mediated brain and nervous system function, and accelerates progression to dementia. Asymptomatic carotid artery stenosis (ACAS) is often a silent disease detected in only \~10% of older adults, and may have a strong association with MCI. This study examines the effects of intensive therapy for periodontitis on cognition in high-risk older people with ACAS. Results could highlight PD as a readily modifiable risk factor for dementia.
Periodontal Disease (PD) is present in 60+% of adults \>65 years and is associated with tobacco smoking, diabetes, and atherosclerosis that worsen inflammation, comorbidities common in older people with mild to moderate cognitive impairment (MCI). Older MCI patients are prone to poor oral hygiene and dental health, which if untreated worsens inflammation-mediated brain and nervous system function, and accelerates progression to dementia. Asymptomatic carotid artery stenosis (ACAS) is often a silent disease detected in only \~10% of older adults, and may have a strong association with MCI. This study examines the effects of intensive therapy for periodontitis on cognition in high-risk older people with ACAS. Results could highlight PD as a readily modifiable risk factor for dementia. This pilot study examines the hypothesis that intensive treatment of PD (IPT) in older people with MCI and ACAS will attenuate their cognitive decline by reducing oral microbial-mediated inflammation and improving cerebrovascular endothelial function that contribute to neurodegeneration-associated dementia. The aims are to determine the effects of intensive compared to control PD treatment (randomized: IPT vs. CPT) in 60 MCI subjects with ACAS and PD on 1) Cognitive function (Primary Outcome) and quality of life (Secondary Outcome), and 2) The potential mechanisms mediating these effects
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
26
Dental evaluation at baseline, 3, 6, and 9 months.
Dental evaluation at baseline, 3, 6, and 9 months. Plus one or more sessions as needed at baseline of full mouth supra- and sub-gingival scaling and root planing, plus oral hygiene instruction. Additional sessions as necessary to remove remaining local factors and treat inflammation and bacteria overgrowth. Additional evaluations and therapy at 2 months or as needed based on therapeutic response. If bleeding on probing levels do not decrease to \<20% of sites following initial therapy or at subsequent visits, intermediate treatment visits will be scheduled. Each participant will be instructed to use half of a capful of 0.12% chlorhexidine twice a day during active treatment including two weeks beyond the treatment visit.
University of Maryland - Administrative Center
Baltimore, Maryland, United States
Changes in performance on Montreal Cognitive Assessment (MoCA)
The Montreal Cognitive Assessment (MoCA) is 30 item screening tool used to detect cognitive impairment. Score: 30 points (maximum), 0 points (minimum). Higher scores indicate better cognitive function. Differences in rate of change of MoCA score in those on intensive treatment for periodontitis and those receiving standard care.
Time frame: 1 year
Presence of oral bacteria in saliva and dental plaque samples
Dental plaque and saliva samples will be analyzed for differences in species of oral microbial biology between those on standard care compared to those on intensive treatment for periodontitis. Oral microbiome will be characterized using molecular genetic methods.
Time frame: 1 year
Presence of bacteria in stool samples
Stool samples will be analyzed for differences in species of oral microbial biology between those on standard care compared to those on intensive treatment for periodontitis. Stool microbiome will be characterized using molecular genetic methods.
Time frame: 1 year
Systemic inflammation
Differences in inflammatory markers such as Interleukin 6 (IL-6) and tumor necrosis factor (TNF) alpha found in blood samples in those on standard care compared to those on intensive treatment for periodontitis.
Time frame: 1 year
Change from baseline in Fluorodeoxyglucose Positron Emission Tomography (FDG-PET) Metabolic Measure of Standard Uptake Value Ratio (SUVR)
Brain metabolic activity or glucose metabolism will be determined using the FDG-PET scan by reporting results as SUVR and compared in those on intensive treatment for periodontitis and those receiving standard treatment for periodontitis.
Time frame: 1 year
Changes in performance on Wechsler Adult Intelligence Scale (WAIS)-III Digit Span subtest
Change in Digit Span score as a measure of working memory in those on standard care compared to those on intensive treatment for periodontitis. Raw score: 0-30, t score 19-77
Time frame: 1 year
Changes in performance on Hopkins Verbal Learning Test
Change in Hopkins Verbal Learning test score in those on standard care compared to those on intensive treatment for periodontitis. Total raw score: 0 (minimum)-36 (maximum), t score 19-77. Higher scores indicate higher functioning.
Time frame: 1 year
Changes in performance on Brief Visuospatial Memory test
Change in Brief Visuospatial Memory test score in those on standard care compared to those on intensive treatment for periodontitis. Total raw score : 0 (minimum)-36 (maximum), t score 19-77. Higher scores indicate higher functioning.
Time frame: 1 year
Changes in performance on Trail Making Test (A+B)
Change in Trail Making Test (A+B) score as a measure of visual attention and task switching in those on standard care compared to those on intensive treatment for periodontitis. Range: 10-400 seconds; t score 19-77. Lower times indicate higher functioning.
Time frame: 1 year
Changes in performance on Controlled Oral Word Association Test
Change in Controlled Oral Word Association Test as a measure of verbal fluency score in those on standard care compared to those on intensive treatment for periodontitis. Total raw score : 0 (minimum)-90 (maximum); t score 19-77. Higher scores indicate higher functioning.
Time frame: 1 year
Changes in performance on Boston Naming Test
Change in Boston Naming Test score as a measure of confrontational word retrieval in those on standard care compared to those on intensive treatment for periodontitis. Total raw score : 0 (minimum)-60 (maximum); t score 19-77. Higher scores indicate higher functioning.
Time frame: 1 year
Changes in performance on Modified Wisconsin Card Sorting Test
Change in Modified Wisconsin Card Sorting Test score as a measure of abstract reasoning ability in those on standard care compared to those on intensive treatment for periodontitis. Number of categories score : 0 (minimum)-6(maximum); t score 19-77. Higher scores indicate higher functioning.
Time frame: 1 year
Changes in performance on Grooved Pegboard Test
Change in Grooved Pegboard Test score as a measure of visual-motor coordination in those on standard care compared to those on intensive treatment for periodontitis. Range: 10-500 seconds; t score 19-77. Lower times indicate higher functioning.
Time frame: 1 year
Changes in Composite Cognitive Function Score
Change in composite cognitive function in those on standard care compared to those on intensive treatment for periodontitis. T scores (19-77) of individual neuropsychological tests will be averaged to compute composite scores. Neuropsychological tests include: Digit span, Hopkins Verbal Learning Test, Brief Visuospatial Memory test, Trail Making Test (A+B), Controlled Oral Word Association Test, Grooved Pegboard Test, Boston Naming Test, Modified Wisconsin Card Sorting Test.
Time frame: 1 year
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