7 research outputs found
Dental treatment for handicapped patients: sedation vs general anesthesia and update of dental treatment in patients with different diseases
Dental treatment on Handicapped Patients is often difficult because many people with a wide range of ages (from
children to the elderly) with different pathologies that can affect the oral cavity and differ widely are included in
this group. This situation creates some controversy, because according to pathology, each patient will be treated
differently depending on collaboration, general health status, age or medication used to treat this pathologies. Ac
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cording to this situation we can opt for an outpatient treatment without any kind of previous medication, a treat
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ment under conscious or deep sedation or a under general anesthesia treatment.
With this systematic review is intended to help clarify in which cases patients should be treated under general
anesthesia, sedation (conscious or deep) or outpatient clinic without any medication, as well as clarify what kind
of treatments can be carried in private dental clinics and which should be carried out in a hospital.
It will also discuss the most common diseases among this group of patients and the special care to be taken for
their dental treatment
Using Genetics in Periodontal Disease to Justify Implant Failure in Down Syndrome Patients
Peri-implant bone loss leading to dental implant failure does not develop in the same way across subjects who apparently present the same condition—specifically, in the case of Down syndrome patients with the same genetic disorder—given that they do not necessarily develop
immune–inflammatory disorders to the same extent. Methods: This retrospective case-control study was aimed at identifying the possible genes involved in implant failure in Down syndrome patients by matching the periodontal disease variable by means of a retrospective case-control study. This process involved using the functional analysis of gene expression software Transcriptome Analysis Console
(TAC, Affymetrix, Thermo Fisher Scientific, Waltham, MA, USA) and a search for the possible candidate genes involved. Focus was placed on the 92 genes related to the inflammation identified from the TaqMan™ Array Plate Human Inflammation Kit (Thermo Fisher Scientific, Waltham, MA, USA). Results: Six genes showed statistically significant results (p < 0.05) in our comparison. Three of them—PLCG2 (p = 0.0333), ALOX5 (p = 0.03) and LTAH4 (p = 0.0081)—were overexpressed in the implant reject group, and the following three were down-regulated: VCAM1 (p = 0.0182), PLA2G2A (p = 0.0034) and PLA2G10 (p = 0.047). Conclusion: Statistically significant differences exist in the gene expression involved in osteoclastogenesis, inflammatory response and host defensive response
Metallothioneins in Failure of Dental Implants and Periodontitis Down Syndrome Patients
Background: Sometimes dental implants seem to be the only therapeutic alternative for
the oral rehabilitation of patients with Down syndrome, given that they usually lose all their teeth
early due to suffering aggressive periodontitis and they do not usually have the skills required to
wear removable prostheses. However, the evolution of dental implants in these patients shows
very adverse results. It is possible that basal genetic alterations, or at least some characteristics of
these, may underlie these clinical results. The metabolic pathway of metallothioneins, molecules
with an important influence on bone metabolism, could be one of the said alterations. Aims: To
determine whether the expression of metallothioneins (MTs) and their metabolic pathway may be
identified and related to the periodontitis and lack of osseointegration of dental implants in Down
syndrome patients. Materials and Methods: Retrospective study of cases and controls by comparing
patients with Down syndrome, periodontal disease, and implant failure (four patients, test group)
with patients with Down syndrome, without periodontal disease, and without implant failure after
two years of following (seven patients, control group), by extracting peripheral blood at the time of
the dental examination to extract RNA and its subsequent processing in relation to gene expression
of the metabolic pathway of metallothioneins. Results: The results identified low expression in
the group of patients with periodontal disease and implant failure of genes MT1E, MT1H, MT1X,
MT1A, MT1B, MT1C, MT1L, MT2A, MT1M, and MT1G. Conclusions: The low MT1 and MT2 gene
expression seems to be related to the onset of periodontal disease and implant rejection in Down
syndrome patients, although more data are required to confirm whether this relationship is due to one
of the two conditions, to both independently, or to the two jointly—this last option being indicated by
our current studyJunta de Andalucía Consejería de Salud PI-0081-201
Oral Manifestations of Wolf-Hirschhorn Syndrome: Genotype-Phenotype Correlation Analysis
Background: Wolf-Hirschhorn syndrome (WHS) is a rare disease caused by deletion in the distal moiety of the short arm of chromosome 4. The objectives of this study were to report the most representative oral findings of WHS, relate them with other clinical characteristics of the disease, and establish possible phenotype-genotype correlation. Methods: The study was conducted at 6 reference centers distributed throughout Spain during 2018-2019. The study group consisted of 31 patients with WHS who underwent a standardized oral examination. Due to behavioral reasons, imaging studies were performed on only 11 of the children 6 years of age or older. All participants had previously undergone a specific medical examination for WHS, during which anatomical, functional, epilepsy-related, and genetic variables were recorded. Results: The most prevalent oral manifestations were delayed tooth eruption (74.1%), bruxism (64.5%), dental agenesis (63.6%), micrognathia (60.0%), oligodontia (45.5%), and downturned corners of the mouth (32.3%). We detected strong correlation between psychomotor delay and oligodontia (p = 0.008; Cramér's V coefficient, 0.75). The size of the deletion was correlated in a statistically significant manner with the presence of oligodontia (p = 0.009; point-biserial correlation coefficient, 0.75). Conclusion: Certain oral manifestations prevalent in WHS can form part of the syndrome's phenotypic variability. A number of the characteristics of WHS, such as psychomotor delay and epilepsy, are correlated with oral findings such as oligodontia and bruxism. Although most genotype-phenotype correlations are currently unknown, most of them seem to be associated with larger deletions, suggesting that some oral-facial candidate genes might be outside the critical WHS region, indicating that WHS is a contiguous gene syndrome
Metallothioneins in Failure of Dental Implants and Periodontitis Down Syndrome Patients
Background: Sometimes dental implants seem to be the only therapeutic alternative for the oral rehabilitation of patients with Down syndrome, given that they usually lose all their teeth early due to suffering aggressive periodontitis and they do not usually have the skills required to wear removable prostheses. However, the evolution of dental implants in these patients shows very adverse results. It is possible that basal genetic alterations, or at least some characteristics of these, may underlie these clinical results. The metabolic pathway of metallothioneins, molecules with an important influence on bone metabolism, could be one of the said alterations. Aims: To determine whether the expression of metallothioneins (MTs) and their metabolic pathway may be identified and related to the periodontitis and lack of osseointegration of dental implants in Down syndrome patients. Materials and Methods: Retrospective study of cases and controls by comparing patients with Down syndrome, periodontal disease, and implant failure (four patients, test group) with patients with Down syndrome, without periodontal disease, and without implant failure after two years of following (seven patients, control group), by extracting peripheral blood at the time of the dental examination to extract RNA and its subsequent processing in relation to gene expression of the metabolic pathway of metallothioneins. Results: The results identified low expression in the group of patients with periodontal disease and implant failure of genes MT1E, MT1H, MT1X, MT1A, MT1B, MT1C, MT1L, MT2A, MT1M, and MT1G. Conclusions: The low MT1 and MT2 gene expression seems to be related to the onset of periodontal disease and implant rejection in Down syndrome patients, although more data are required to confirm whether this relationship is due to one of the two conditions, to both independently, or to the two jointly—this last option being indicated by our current study.This study was funded by Consejería de Salud de la Junta de Andalucía (Spain) PI-0081-2016.Peer reviewe
Differential Expression of Inflammation-Related Genes in Down Syndrome Patients with or without Periodontal Disease
[Aim] Aware that Down Syndrome patients present among their clinical characteristics impaired immunity, the aim of this study is to identify the statistically significant differences in inflammation-related gene expression by comparing Down Syndrome patients with Periodontal Disease (DS+PD+) with Down Syndrome patients without Periodontal Disease (DS+PD-), and their relationship with periodontitis as a chronic oral inflammatory clinical feature.[Materials and Methods] Case study and controls on eleven Down Syndrome patients (DS+PD+ vs. DS+PD-). RNA was extracted from peripheral blood using a Qiagen PAXgene Blood miRNA Kit when performing an oral examination. A search for candidate genes (92 selected) was undertaken on the total genes obtained using a Scientific GeneChip® Scanner 3000 (Thermo Fisher Scientific) and Clariom S solutions for human, mouse, and rat chips, with more than 20,000 genes annotated for measuring expression levels.[Results] Of the 92 inflammation-related genes taken initially, four genes showed a differential expression across both groups with a value of <0.05 from the data obtained using RNA processing of the patient sample. Said genes were TNFSF13B (), ITGB2 (), ANXA3 (), and ANXA5 ().[Conclusions] There are differences in inflammation-related gene expression in Down Syndrome patients when comparing patients who present a state of chronic oral inflammation with patients with negative rates of periodontal disease.This study was funded by Consejería de Salud, Junta de Andalucía (Spain) (PI-0081-2016).Peer reviewe