Validation of maternal report of early childhood caries status in Ile-Ife, Nigeria

BMC Oral Health, Volume 20, No. 1, Year 2020

Interpretação

Background: To determine the validity of maternal reports of the presence of early childhood caries (ECC), and to identify maternal variables that increase the accuracy of the reports. Methods: This secondary data analysis included 1155 mother–child dyads, recruited through a multi-stage sampling household approach in Ile-Ife Nigeria. Survey data included maternal characteristics (age, monthly income, decision-making ability) and maternal perception about whether or not her child (age 6 months to 5 years old) had ECC. Presence of ECC was clinically determined using the dmft index. Maternally reported and clinically determined ECC presence were compared using a chi-squared test. McNemar’s test was used to assess the similarity of maternal and clinical reports of ECC. Sensitivity, specificity, positive and negative predictive values, absolute bias, relative bias and inflation factor were calculated. Statistical significance was determined at p < 0.05. Results: The clinically-determined ECC prevalence was 4.6% (95% Confidence interval [CI]: 3.5–5.0) while the maternal-reported ECC prevalence was 3.4% (CI 2.4–4.6). Maternal reports underestimated the prevalence of ECC by 26.1% in comparison to the clinical evaluation. The results indicate low sensitivity (9.43%; CI 3.13–20.70) but high specificity (96.9%; CI 95.7–97.9). The positive predictive value was 12.8% (CI 4.3–27.4) while the negative predictive value was 95.7% (CI 94.3–96.8). The inflation factor for maternally reported ECC was 1.4. Sensitivity (50.0%; CI 6.8–93.2) and positive predictive value were highest (33.3%; CI 4.3–77.7) when the child had a history of visiting the dental clinic. Conclusions: Mothers under-reported the presence of ECC in their children in this study population. The low sensitivity and positive predictive values of maternal report of ECC indicates that maternal reporting of presence of ECC may not be used as a valid tool to measure ECC in public health surveys. The high specificity and negative predictive values indicate that their report is a good measure of the absence of ECC in the study population. Child’s history of dental service utilization may be a proxy measure of presence of ECC. This was a secondary analysis of a dataset of 1549 maternal-child dyads primarily collected to determine the prevalence of ECC and examine maternal psychosocial factors that were risk indicators for ECC. The data were collected from residents in Ife Central local government area, one of the 774 local government areas in Nigeria. The sample size required for this secondary analysis was determined based on an assumption that 50% of mothers with autonomous decision-making ability were able to accurately report the presence of ECC in their children in the absence of any accessible data. We estimated, based on a margin of error of 5% and 95% confidence level, that the required sample size for this study was 768. We had access to data from 1155 mother–child dyads who reported the presence of ECC in their children. A multi-stage sampling technique was used to collect the primary data. First, 70 of the 700 enumeration areas in the local government area was selected by simple random method (balloting), followed by selection of every other household on each street in the enumeration areas. The sample of the enumeration areas was limited to 10% in line with prior suggestions that a 10% sample was an adequate sample size for household surveys [28]. The final stage was the selection of an eligible respondent in each household for interview and clinical examination. Only one child and mother dyad in each household was eligible for participation in the study. A child was eligible for study participation if (s)he was below the age of 6 years, living with a caregiver, present at the time of the survey and for whom parental consent for study participation was obtained. Children with chronic medical conditions that required prolonged use of sweetened medications and those with medical conditions that increased their risk for ECC were excluded from the primary study. Trained and experienced field workers collected the data electronically using an interviewer-administered structured questionnaire on Open Data Kit—an online/offline platform for the collection and management of data. The questionnaire was administered to the mothers. Folayan et al. [29, 30] provided detailed descriptions of the sampling process and study procedure. Socio-demographics: Information on the socio-demographic profile of the mother (age, income, educational status) were extracted from the primary study dataset. The mother’s age at her last birthday was categorized into three groups: ≤ 29 years, 30–39 years, 40 years and over. Mother’s income was defined as monthly salary for persons in paid employment, and an estimate of monthly income for self-employed persons. Income was categorized using the national Nigerian currency and wage into three categories: ≤ N18,000 ($49)/month, N18,001–N60,000/month, and > N60,000 (168)/month [31]. Mothers’ educational status was defined as no formal education, primary school only, secondary school only, or tertiary (post-secondary) education. Data about women’s participation in making decisions concerning (1) their own health care, (2) major household purchases, and (3) visits to family or relatives without having to get permission were extracted from the primary study dataset. The questions exploring women’s decision-making ability were adopted from the Nigeria Demographic and Health Survey [32]. When others make any of these decisions on behalf of the mother, the mother was regarded as having no decision-making ability for the item scored. Data on children’s dental visit history were extracted from the primary study dataset. Mothers were asked if their children had ever visited the dentist (yes or no), and if the child had a hole in their teeth (yes or no). The prevalence of ECC was determined as the proportion of children reported by their mothers to have caries. Data on the early childhood caries profile of the 1155 children generated in the primary study by five calibrated dentists who conducted the oral examination for each child were extracted for this study. Calibration of the five dentists was conducted by first training them on caries assessment using a colored picture chart with varying presentations of decayed, missing and filled teeth, followed by examining a group of five children with caries and making a diagnosis using the World Health Organization scoring criteria. The scoring for each of the five children was repeated three times with an interval of one week between each visit. Intra-examiner agreement for each of the dentists was calculated using Cohen’s Kappa and the inter-examiner agreement (between the dentists and the trainer) was calculated using the Cohen’s kappa coefficient. The intra- and inter-examiner reliability tests were all greater than 0.80. ECC was determined in the primary study using the decayed-missing-filled teeth (dmft) index as recommended by the World Health Organization [33]. Radiographic assessment was not conducted. The dmft score was an aggregated score of the d, m and f scores for each child. ECC was considered present when the dmft score was > 0 and absent when the dmft was 0. The study had access to the aggregated dmft score for each child and not the respective d, m and f scores. The final analytic sample included only children who had maternally reported and clinically determined presence of ECC (N = 1155). Descriptive analyses were performed, including calculation of mean values and 95% confidence intervals (CI) for maternal reported and clinically determined presence of ECC. The bivariate association was tested between clinical and maternal reported ECC, and selected maternal characteristics separately using a chi-squared test. McNemar’s test was used to assess differences between paired data (i.e. clinical versus maternal reporting of ECC). In addition, sensitivity, specificity, positive and negative predictive values, absolute bias, relative bias and inflation factor (gold standard prevalence/self-reported prevalence) were also calculated [34]. Estimates of sensitivity, specificity, and positive and negative predictive values were stratified by the socio-demographic profile of the mother (age, income, educational status) and maternal decision-making status. Statistical analyses were conducted with Intercooled STATA (release 15) for windows. Statistical significance was inferred at p ≤ 0.05. Ethical approval for the study was obtained from the Obafemi Awolowo University Teaching Hospitals Complex Health Research Ethics Committee (NHREC/27/01/2009a and IRB/EC/0004553). Study participants for the primary study were recruited after receiving written consent from the mothers for their own study participation, and written consent for their child’s participation in the study.

AI Digest

Study Justification:

The study aimed to validate maternal reports of early childhood caries (ECC) in Ile-Ife, Nigeria, and identify maternal variables that affect the accuracy of these reports. This validation is important because maternal reports are often used as a tool to measure ECC in public health surveys. By determining the validity of these reports, policymakers and researchers can better understand the accuracy of maternal reporting and make informed decisions regarding ECC prevention and treatment strategies.

Study Highlights:

1. The prevalence of clinically-determined ECC in the study population was 4.6%, while the prevalence reported by mothers was 3.4%.
2. Maternal reports underestimated the prevalence of ECC by 26.1% compared to clinical evaluation.
3. Maternal reports had low sensitivity (9.43%) but high specificity (96.9%).
4. The positive predictive value of maternal reports was 12.8%, while the negative predictive value was 95.7%.
5. Maternal reports of ECC may not be a valid tool to measure ECC in public health surveys, but they can be a good measure of the absence of ECC.
6. Children’s history of dental service utilization may serve as a proxy measure of ECC presence.

Recommendations for Lay Readers and Policy Makers:

1. Maternal reports should not be solely relied upon to measure ECC prevalence in public health surveys.
2. Additional methods, such as clinical evaluations, should be used to accurately assess ECC prevalence.
3. Policies and interventions should focus on improving access to dental services for children, as dental service utilization was associated with higher sensitivity and positive predictive value in maternal reports.
4. Public health campaigns should educate mothers about the importance of regular dental visits for their children and the early detection and prevention of ECC.

Key Role Players:

1. Researchers and public health professionals: Conduct further studies to validate ECC reporting methods and develop accurate measurement tools.
2. Dental professionals: Provide dental services and education to improve ECC prevention and treatment.
3. Policy makers: Develop policies that prioritize access to dental services for children and support ECC prevention programs.
4. Community leaders and organizations: Collaborate with researchers and professionals to raise awareness about ECC and promote oral health in the community.

Cost Items for Planning Recommendations:

1. Research funding: Allocate resources for further studies on ECC reporting methods and validation.
2. Dental services: Budget for increased access to dental services for children, including preventive measures and treatment.
3. Public health campaigns: Allocate funds for educational materials, community outreach programs, and awareness campaigns on ECC prevention and the importance of dental visits for children.
4. Training and capacity building: Invest in training programs for dental professionals and community health workers to enhance their knowledge and skills in ECC prevention and treatment.

Força da prova

The strength of evidence for this abstract is 7 out of 10.
The evidence in the abstract is moderately strong, but there are some areas for improvement. The study design, sample size, and statistical analysis provide a solid foundation. However, the low sensitivity and positive predictive values of maternal report suggest limitations in accurately measuring ECC. To improve the evidence, future studies could consider incorporating additional measures or validation methods to enhance the accuracy of maternal reporting, such as clinical examinations or radiographic assessments. Additionally, expanding the sample size and including a more diverse population could increase the generalizability of the findings.

Resumo

Materiais

N/A

Inovações

Based on the provided information, here are some potential innovations that can be used to improve access to maternal health:

1. Mobile Health (mHealth) Applications: Develop mobile applications that provide information and resources related to maternal health, including prenatal care, nutrition, and breastfeeding. These apps can also offer appointment reminders and connect women to healthcare providers.

2. Telemedicine: Implement telemedicine services to provide remote consultations and follow-up care for pregnant women. This can help overcome geographical barriers and improve access to healthcare in rural or underserved areas.

3. Community Health Workers: Train and deploy community health workers who can provide education, support, and basic healthcare services to pregnant women in their communities. These workers can help bridge the gap between healthcare facilities and remote populations.

4. Maternal Health Vouchers: Introduce voucher programs that provide financial assistance to pregnant women, enabling them to access essential maternal health services such as prenatal care, delivery, and postnatal care.

5. Transport Services: Establish transportation services specifically for pregnant women to ensure they can easily reach healthcare facilities for prenatal visits, delivery, and emergency care.

6. Maternal Health Clinics: Set up dedicated maternal health clinics that offer comprehensive services, including prenatal care, family planning, and postnatal care. These clinics can be conveniently located and staffed with specialized healthcare providers.

7. Health Education Campaigns: Launch targeted health education campaigns to raise awareness about the importance of maternal health and encourage women to seek timely care. These campaigns can be conducted through various channels, such as radio, television, and community outreach programs.

8. Public-Private Partnerships: Foster collaborations between public and private sectors to improve access to maternal health services. This can involve leveraging private healthcare facilities and resources to expand service availability and reduce costs.

9. Maternal Health Hotlines: Establish toll-free hotlines staffed by trained healthcare professionals who can provide information, counseling, and referrals to pregnant women seeking guidance or experiencing complications.

10. Maternal Health Insurance: Develop affordable and accessible health insurance options specifically tailored to cover maternal health services. This can help reduce financial barriers and ensure that women have access to necessary care throughout their pregnancy journey.

It’s important to note that the implementation of these innovations should be context-specific and consider the unique challenges and needs of the target population.

AI Innovations Description

The recommendation to improve access to maternal health based on the provided description is to develop a more accurate and reliable tool for measuring the presence of early childhood caries (ECC) in public health surveys. The study found that maternal reports of ECC underestimated the prevalence of ECC in children, indicating low sensitivity and positive predictive values. This suggests that maternal reporting may not be a valid tool for measuring ECC in surveys.

To address this issue, it is recommended to invest in the development of alternative methods or tools for accurately assessing ECC in children. This could involve the use of clinical evaluations conducted by trained professionals, such as dentists, to determine the presence of ECC. Additionally, incorporating objective measures, such as radiographic assessments, could further enhance the accuracy of ECC diagnosis.

Furthermore, it is important to consider the role of maternal variables in improving the accuracy of ECC reports. The study found that a child’s history of dental service utilization was associated with higher sensitivity and positive predictive values in maternal reporting. Therefore, promoting and facilitating access to dental services for children could potentially improve the accuracy of maternal reports of ECC.

Overall, developing a more reliable and valid tool for measuring ECC, incorporating clinical evaluations and objective measures, and considering maternal variables such as dental service utilization can contribute to improving access to maternal health and enhancing the accuracy of ECC assessments in public health surveys.

AI Innovations Methodology

Based on the provided information, here are some potential recommendations to improve access to maternal health:

1. Increase awareness and education: Implement community-based education programs to raise awareness about the importance of maternal health and the available services. This can be done through workshops, seminars, and campaigns targeting both pregnant women and their families.

2. Strengthen healthcare infrastructure: Improve the availability and accessibility of healthcare facilities, especially in rural areas. This can include building new healthcare centers, upgrading existing facilities, and ensuring the availability of essential equipment and supplies.

3. Enhance transportation services: Develop transportation systems or initiatives that provide reliable and affordable transportation options for pregnant women to reach healthcare facilities. This can involve establishing dedicated ambulance services or partnering with existing transportation providers to ensure timely access to maternal health services.

4. Increase skilled healthcare workforce: Train and deploy more skilled healthcare professionals, such as doctors, nurses, and midwives, to areas with limited access to maternal health services. This can be achieved through targeted recruitment and retention strategies, as well as providing incentives for healthcare professionals to work in underserved areas.

To simulate the impact of these recommendations on improving access to maternal health, a methodology could be developed as follows:

1. Define the indicators: Identify key indicators that measure access to maternal health, such as the number of pregnant women receiving prenatal care, the number of deliveries attended by skilled birth attendants, and the distance traveled to reach healthcare facilities.

2. Collect baseline data: Gather data on the current status of these indicators in the target population. This can be done through surveys, interviews, or analysis of existing data sources.

3. Implement the recommendations: Introduce the recommended interventions, such as awareness campaigns, infrastructure improvements, transportation services, and workforce enhancements.

4. Monitor and evaluate: Continuously monitor the implementation of the interventions and collect data on the selected indicators. This can involve regular surveys, interviews, or data collection from healthcare facilities.

5. Analyze the data: Analyze the collected data to assess the impact of the interventions on the selected indicators. This can be done using statistical methods to compare the baseline data with the post-intervention data.

6. Interpret the results: Interpret the findings to determine the effectiveness of the recommendations in improving access to maternal health. This can involve identifying trends, patterns, and correlations in the data.

7. Adjust and refine: Based on the results, make any necessary adjustments or refinements to the interventions to further improve access to maternal health. This can involve scaling up successful interventions, addressing any identified challenges, and adapting strategies based on the local context.

By following this methodology, policymakers and healthcare providers can gain insights into the potential impact of the recommendations and make informed decisions to improve access to maternal health.

Autor

Dima Health

Statistics:

Citations: 5

Identifiers:

DOI: 10.1186/s12903-020-01288-z

Research Areas:

Health System and Policy, Maternal Access, Maternal and Child Health, Quality of Care, Social Determinants

Study Countries:

Nigeria

Study Design:

Cross Sectional Study

Study Approach:

Quantitative

Participants Gender:

Female

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