Can you be too old for oral implants? An update on ageing and plasticity in the oro‐facial sensorimotor system

Sessle, Barry J.

doi:10.1111/joor.12830

Cited by 17 publications

(12 citation statements)

References 126 publications

(440 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…It has been postulated that the extent to which the final prostheses approaches restoration of original function, the more the sensorimotor system will approach the re‐establishment of its original characteristics 127 . The results of our study are consistent with the literature which shows that oral implant rehabilitation in conjunction with neuroplastic adaptation may compensate for reduced sensorimotor function when teeth are lost 128 . This may be attributed to the improvement in retention, stability, muscular function, masticatory efficiency and sensorimotor feedback to the CNS with implant prostheses.…”

Section: Discussionsupporting

confidence: 91%

The role of progressive oral implant rehabilitation in mastication, cognition and oral health‐related quality of life outcomes—A pilot to define the protocol

Tan

Foster

Korgaonkar

et al. 2020

J of Oral Rehabilitation

View full text Add to dashboard Cite

Background The implications of oral rehabilitation after tooth loss require further investigation. Objectives To conduct a pilot study to investigate: (a) changes in masticatory performance with progressive oral implant rehabilitation (POR); (b) association between POR and neurocognitive function using functional magnetic resonance imaging (fMRI); and (c) oral health‐related quality of life (OHQoL) outcomes. Methods Four completely edentulous patients (mean age: 73 ± 1.4 years) participated. Each received new complete removable dental prostheses (RDPs) transitioned to mandibular two implant‐retained RDPs (IR‐RDP). Assessments were performed at 4 time points for neurocognitive skills, fMRI with functional tasks (jaw clenching, working memory and sustained attention, inhibition), masticatory performance with colour‐changing gum and OHQoL. Assessments were performed with new complete RDPs (T0 as baseline data) and IR‐RDPs at 1 week (T1), 6 weeks (T2) and 12 months (T3) post‐insertion. Data analyses were based on intra‐patient and inter‐patient results. Results Masticatory performance and QoL improved with an IR‐RDP at each time point. FMRI jaw clenching sensory and motor cortical activity decreased at T1, with motor cortical activity increasing to T0 levels at T2. For cognitive fMRI activation tasks, cortical activity decreased from T0 to T1 across all regions of interests (ROI) and increased at T2 throughout the cognitive brain regions. Neurocognitive skills declined at T1, followed by improvement to or beyond T0 levels at T2. Conclusion Improvements in masticatory performance and OHQoL occurred from complete RDPs to IR‐RDP. Prosthetic adaptation was associated with neurocognitive changes to pre‐insertion activity levels or greater after 6 weeks. These pilot data suggest both behavioural and neural associations between POR and cognition; however, larger study numbers are required.

show abstract

Section: Discussionsupporting

confidence: 91%

The role of progressive oral implant rehabilitation in mastication, cognition and oral health‐related quality of life outcomes—A pilot to define the protocol

Tan

Foster

Korgaonkar

et al. 2020

J of Oral Rehabilitation

View full text Add to dashboard Cite

show abstract

“…NTS, solitary tract nucleus; sensory V, trigeminal brainstem sensory nuclear complex; V, VII, XII, motor nuclei of the trigeminal, facial, and hypoglossal nerves. Reproduced with permission from Sessle (2019).…”

Section: Introductionmentioning

confidence: 99%

“…Of related clinical relevance is the recent documentation of the neuroplasticity of the orofacial sensorimotor system. Neuroplasticity of the orofacial region of the sensorimotor cortex and other CNS areas has been shown to be critical in learning and memorizing orofacial sensorimotor skills and in adaptation to changes in the orofacial region brought about by aging, injury, pain, and even loss of teeth and oral rehabilitative procedures such as implants (Avivi-Arber et al 2011; Arce-McShane et al 2014; Kumar et al 2017; Avivi-Arber and Sessle 2018; Sessle 2019). The findings have clinical implications since plasticity can be tapped for learning, improving, or rehabilitating the orofacial sensorimotor skills of patients and their adapting to pain, loss of teeth, or other alterations in the face, mouth, or jaws.…”

Section: Introductionmentioning

confidence: 99%

The Evolution of Neuroscience as a Research Field Relevant to Dentistry

Iwata

Sessle

2019

J Dent Res

View full text Add to dashboard Cite

The field of neuroscience did not exist as such when the Journal of Dental Research was founded 100 y ago. It has emerged as an important scientific field relevant to dentistry in view of the many neurally based functions manifested in the orofacial area (e.g., pain, taste, chewing, swallowing, salivation). This article reviews many of the novel insights that have been gained through neuroscience research into the neural basis of these functions and their clinical relevance to the diagnosis and management of pain and sensorimotor disorders. These include the neural pathways and brain circuitry underlying each of these functions and the role of nonneural as well as neural processes and their “plasticity” in modulating these functions and allowing for adaptation to tissue injury and pain and for learning or rehabilitation of orofacial functions.

show abstract

“…Equalize the Oromotor Performance for Comparison ( Figure 1B) In older people, the 'overactivation' of some brain regions (e.g., the prefrontal recruitment during chewing) would indicate a compensatory process or 'working harder' than their younger counterparts (Reuter-Lorenz and Cappell, 2008). However, such an 'overactivation' may represent maladaptive neuroplasticity of sensorimotor functions, rather than an underlying compensation (Sessle, 2019). Therefore, the use of the term 'compensation' should be confined to situations where a substantial degree of functional performance was regained against the observed structural impairment.…”

Section: Proposed Conditions For a Study On The Adaptation Of Oromotomentioning

confidence: 99%

Functional Adaptation of Oromotor Functions and Aging: A Focused Review of the Evidence From Brain Neuroimaging Research

Lin

2020

Front. Aging Neurosci.

View full text Add to dashboard Cite

Practice makes perfect" is a principle widely applied when one is acquiring a new sensorimotor skill to cope with challenges from a new environment. In terms of oral healthcare, the traditional view holds that restoring decayed structures is one of the primary aims of treatment. This assumes that the patient's oromotor functions would be recovered back to normal levels after the restoration. However, in older patients, such a structural-functional coupling after dental treatment shows a great degree of individual variations. For example, after prosthodontic treatment, some patients would adapt themselves quickly to the new dentures, while others would not. In this Focused Review, I argue that the functional aspects of adaptation-which would be predominantly associated with the brain mechanisms of cognitive processing and motor learning-play a critical role in the individual differences in the adaptive behaviors of oromotor functions. This thesis is critical to geriatric oral healthcare since the variation in the capacity of cognitive processing and motor learning is critically associated with aging. In this review, (a) the association between aging and the brain-stomatognathic axis will be introduced; (b) the brain mechanisms underlying the association between aging, compensatory behavior, and motor learning will be briefly summarized; (c) the neuroimaging evidence that suggests the role of cognitive processing and motor learning in oromotor functions will be summarized, and critically, the brain mechanisms underlying mastication and swallowing in older people will be discussed; and (d) based on the current knowledge, an experimental framework for investigating the association between aging and the functional adaptation of oromotor functions will be proposed. Finally, I will comment on the practical implications of this framework and postulate questions open for future research.

show abstract

Can you be too old for oral implants? An update on ageing and plasticity in the oro‐facial sensorimotor system

Cited by 17 publications

References 126 publications

The role of progressive oral implant rehabilitation in mastication, cognition and oral health‐related quality of life outcomes—A pilot to define the protocol

The role of progressive oral implant rehabilitation in mastication, cognition and oral health‐related quality of life outcomes—A pilot to define the protocol

The Evolution of Neuroscience as a Research Field Relevant to Dentistry

Functional Adaptation of Oromotor Functions and Aging: A Focused Review of the Evidence From Brain Neuroimaging Research

Contact Info

Product

Resources

About