Oral Manifestations in Children and Young Adults with Down Syndrome: A Systematic Review of the Literature
Abstract
:Featured Application
Abstract
1. Introduction
2. Materials and Methods
2.1. Research Protocol
2.2. Eligibility Criteria
2.3. Literature Search, Selection of Studies and Data Extraction
2.4. Risk of Bias (RoB) in Individual Studies
3. Results
3.1. Characteristics of the Studies
3.2. Risk of Bias (RoB) Assessment
3.3. Outcome
3.3.1. Fissured Tongue
3.3.2. Geographic Tongue
3.3.3. Lip Lesions (Lip Fissures and Cheilitis)
3.3.4. Other Lingual/Oral Affections
3.3.5. Oral Candidiasis and Candida spp. Carriage
4. Discussion
5. Conclusions
- Reduction of the risk of underestimating the presence of oral mucosal pseudo-lesions;
- Enhancement of the clinician’s ability to intercept early signs of fungal infections; and
- Prevention of these infections and/or interruption of the vicious circle of recurrence in subjects in which systemic and local conditions can favor them.
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Acknowledgments
Conflicts of Interest
References
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Search Topic | Search Items (September 2020) | |||
---|---|---|---|---|
“Down syndrome” OR “21 trisomy” | AND | children | AND | “oral diseases” |
“candidiasis” | ||||
“trush” | ||||
“ulcerative lesions” | ||||
“erosive lesions” | ||||
vescicles | ||||
sores | ||||
aphtous | ||||
geographic tongue | ||||
glossitis | ||||
stomatitis | ||||
cheilitis | ||||
fissured tongue |
First Author, Year, Country | Type of Study | Outcome | DS Diagnosis | N. of Patients Enrolled with DS | Mean Age (Range) Yr | Sex F:M (%) | Experts Performing the Oral Examinations | Fissured Tongue | Geographic Tongue | Other Lingual/Oral Affections | Lip Fissures, Cheilitiis | Oral Candidiadis/Candida spp. Carriage | |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | Ercis et al. (1996) [9], Turkey | cohort | mucocutaneous findings in DS children | partly clinical, partly chromosomal # | 71 | 2.83 (0.17–25) | 30:41 (42%:58%) | dermatologists | yes | yes | yes | ||
2 | Carlstedt et al. (1996) [11], Sweden | case-control | Oral carriage of Candida species in DS children and adolescents | not specified | 55 | 6.7 ± 5.3 (0.6–20.5) | 21:34 (38%:62%) | dentist | yes | ||||
3 | Chow et al. (1997) [12], China | case report | dental and oral anomalies in one DS girl | not specified | 1 | 12.5 | 1:0 | dentist | yes | ||||
4 | Scully et al. (2002) [13], UK/Spain | cohort | lip lesions and C.albicans in DS children and adults | chromosomal | 77 (39 under 30 yr) | (0–>60) | 37:40 | dentist | yes | yes | |||
5 | Ribeiro et al. (2006) [15], Brazil | case-control | C.albicans phenotype in DS children | chromosomal | 25 | (0–10) | dentist | yes | yes | ||||
6 | Daneshpazhooh et al. (2007) [3], Iran | cohort | mucocutaneous findings in DS children | not specified | 100 | 11.2 (3–20) | 53:47 | dermatologist | yes | yes | hypertrophy of tongue papilla | yes | |
7 | Bilgili et al. (2011) [10], Turkey | case-control | mucocutaneous findings in DS children and healthy controls | partrly clinical, partly chromosomal | 50 | 1.08 (0–11) | 22:28 (44%:56%) | dermatologists | yes | yes | yes | ||
8 | Sureshbabu et al. (2011) [17], India | cohort | mucocutaneous findings in DS children | chromosomal | 95 (67 up to 14 yr, 28 more than 14 yr | 11.97 ± 8.8 (0.5–40) | 59:36 | dermatologist and paediatrician | yes | yes | yes | ||
9 | Arejas et al. (2012) [19], Portugal | case/control | mutans streptococci, lactobacilli and Candida relative frequencies in saliva samples from DS children and controls | not specified | 45 | 12.7 ± 4.0 (6–18) | 23:22 (51%:49%) | dentists | Yes | ||||
10 | Camacho et al. (2014) [14], Spain | cohort | mucocutaneous findings in DS children and young adults | not specified | 57 | 16.7 (2–29) | 23:34 (39%:61%) | dermatologists | yes | yes | |||
mucocutaneous findings in children with alopecia aerata and DS | not specified | 15 | 11.2 (7–16) | 7:8 (47%:53%) | yes | yes | |||||||
11 | Shukla et al. (2014) [18], India | cohort | dentofacial abnormalities in DS children and young adults | not specified | 77 | (6–40) | 7:70 (9%:91%) | dentists | yes | macroglossia, ankyloglossia | yes | ||
12 | Al-Maweri et al. (2015) [20], Yemen | cohort | Lip and oral lesions in DS children | karyotyping | 50 | 12.66 (6–18) | 19:31 (38%:62%) | dentists | yes | herpes labialis, fibroma, traumatic ulcers | yes | ||
13 | Szaflarska-Popławska et al. (2016) [21], Poland | cohort | Aphthous stomatitis and enamel hypoplasia in DS children and young adult with and without coeliac disease | Genetic * | 301 | (1–34) | 137:164 (45.5%:54.5%) | pediatricians | aphthous stomatitis | ||||
14 | Maranhão et al. (2020) [16], Brazil | case-control | Molecular Identification of Candida Species in the Oral Microbiota of Ds children and young adults | not specified | 80 | 12.8 (0.5–34) | 31:49 | geneticists | yes |
Observational Studies | Bias Due to Confounding | Bias in Participant Selection | Bias in Classification of Interventions | Bias Due to Departures from Intended Interventions | Bias Due to Missing Data | Bias in Measurement of Outcomes | Bias in Selection of the Reported Result | Overall Bias |
---|---|---|---|---|---|---|---|---|
Ercis et al. [9] | UR | LR | MR | MR | MR | LR | LR | MR |
Carlstedt et al. [11] | UR | LR | LR | MR | LR | LR | LR | MR |
Chow et al. [12] | UR | MR | MR | MR | LR | LR | SR | MR |
Scully et al. [13] | UR | UR | LR | MR | MR | LR | LR | MR |
Ribeiro et al. [15] | UR | UR | LR | MR | LR | LR | LR | MR |
Daneshpazhooh et al. [3] | UR | UR | MR | MR | LR | LR | LR | MR |
Bilgili et al. [10] | UR | UR | MR | MR | LR | LR | LR | MR |
Sureshbabu et al. [17] | UR | LR | MR | MR | LR | LR | LR | MR |
Arejas et al. [19] | UR | SR | LR | MR | LR | LR | LR | SR |
Camacho et al. [14] | UR | UR | MR | MR | MR | LR | LR | MR |
Shukla et al. [18] | UR | SR | LR | MR | MR | LR | LR | SR |
Al-Maweri et al. [20] | UR | LR | LR | MR | MR | LR | LR | MR |
Szaflarska-Popławska et al. [21] | UR | LR | MR | MR | LR | LR | LR | MR |
Maranhão et al. [16] | UR | SR | SR | MR | MR | MR | LR | SR |
Mean Age (Range) Yr | Fissured Tongue | |||||||
---|---|---|---|---|---|---|---|---|
0–1 Years | 1–2 Years | 2–5 Years | 5–10 Years | 10–15 Years | >15 Years | Total | ||
Ercis et al. [9] | 2.83 (0.17–25) | 1/28 (6%) | 0/16 (0%) | 5/15 (33%) | 9/12 (75%) | 15/71 (21%) | ||
Chow et al. [12] | 12.5 | n.c. | 1/1 (100%) | n.c. | 1/1 (100%) | |||
Daneshpazhooh et al. [3] | 11.2 (3–20) | 0/8 (0%) | 7/33 (21%) | 17/50 (34%) | 4/9 (44%) | 28/100 (28%) | ||
Bilgili et al. [10] | 1.08 (0–11) | 5/50 (10%) | n.c. | 5/50 (10%) | ||||
Sureshbabu et al. [17] | 11.97 ± 8.8 (0.5–40) | 35/67 (52%) | 15/28 (60%) | 50/95 (53%) | ||||
Comacho et al. [14] $ | 16.7 (2–29) | n.c. | 40/57 (70%) | 44/72 (61%) | ||||
11.2 (7–16) | n.c. | 4/15 (27%) | n.c. | |||||
Shukla et al. [18] # | (6–40) | 39/50 (78%) | 52/77 (68%) | |||||
Al-Maweri et al. [20] | 12.66 (6–18) | n.c. | 7/9 (78%) | 14/21 (67%) | 18/20 (90%) | 39/50 (78%) |
Cheilitis | Angular Cheilitis | Lip Fissures | ||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Mean Age (Range) Yr | 0–1 Years | 1–2 Years | 2–5 Years | 5–10 Years | 10–15 Years | >15 Years | Total | 0–15 Years | >15 Years | Total | ||
Ercis et al. [9] | 2.83 (0.17–25) | 0/28 (0%) | 1/16 (6.2%) | 0/15 (0%) | 3/12 (25%) | 4/71 (5.6%) | n.c. | n.c. | ||||
Daneshpazhooh et al. [3] | 11.2 (3–20) | 0/8 (0%) | 6/33 (18%) | 6/50 (12%) | 1/9 (11%) | 13/100 (13%) | n.c. | n.c. | ||||
Bilgili et al. [10] | 1.08 (0–11) | 6/50 (12%) | n.c. | 6/50 (12%) | n.c. | n.c. | ||||||
Sureshbabu et al. [17] | 11.97 ± 8.8 (0.5–40) | 0/21 (0%) | 11/46 (24%) | 2/28 (7%) | 13/95 (14%) | 5/67 (7%) | 1/28 (3.6%) | 6/95 (6.3%) | n.c. | |||
Camacho et al. [14] | 16.7 (2–29) | n.c. | 16/57 (28%) | 27/72 (38%) | 0/57 (0%) | |||||||
11.2 (7–16) | n.c. | 11/15 (73%) | n.c. | 3/15 (20%) | ||||||||
Shukla et al. [18] | (6–40) | n.c. | 17/77 (22%) | 17/77 (22%) | n.c. | |||||||
Al-Maweri et al. [20] | 12.66 (6–18) | n.c. | 7/50 (14%) | 7/50 (14%) | n.c. | 32/50 (64%) | ||||||
Scully et al. [13] | (0->60) | 3/11 (27%) | 18/66 (27%) | 21/77(27%) | 17/77 (22%) | 6/24 (25%) | 4/24 (17%) |
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Contaldo, M.; Santoro, R.; Romano, A.; Loffredo, F.; Di Stasio, D.; Della Vella, F.; Scivetti, M.; Petruzzi, M.; Serpico, R.; Lucchese, A. Oral Manifestations in Children and Young Adults with Down Syndrome: A Systematic Review of the Literature. Appl. Sci. 2021, 11, 5408. https://doi.org/10.3390/app11125408
Contaldo M, Santoro R, Romano A, Loffredo F, Di Stasio D, Della Vella F, Scivetti M, Petruzzi M, Serpico R, Lucchese A. Oral Manifestations in Children and Young Adults with Down Syndrome: A Systematic Review of the Literature. Applied Sciences. 2021; 11(12):5408. https://doi.org/10.3390/app11125408
Chicago/Turabian StyleContaldo, Maria, Rossella Santoro, Antonio Romano, Francesca Loffredo, Dario Di Stasio, Fedora Della Vella, Michele Scivetti, Massimo Petruzzi, Rosario Serpico, and Alberta Lucchese. 2021. "Oral Manifestations in Children and Young Adults with Down Syndrome: A Systematic Review of the Literature" Applied Sciences 11, no. 12: 5408. https://doi.org/10.3390/app11125408
APA StyleContaldo, M., Santoro, R., Romano, A., Loffredo, F., Di Stasio, D., Della Vella, F., Scivetti, M., Petruzzi, M., Serpico, R., & Lucchese, A. (2021). Oral Manifestations in Children and Young Adults with Down Syndrome: A Systematic Review of the Literature. Applied Sciences, 11(12), 5408. https://doi.org/10.3390/app11125408