Dental abnormalities after chemotherapy in long-term survivors of childhood acute lymphoblastic leukemia 7–40 years after diagnosis

Late Complications in Long-Term Childhood Cancer Survivors: What the Oral Health Professional Needs to Know

With diagnostic and therapeutic advances, over 80% of children diagnosed with cancer become long-term survivors. As the number of childhood cancer survivors (CCS) continues to increase, dental practitioners become more likely to have CCS among their patients. CCS may develop late complications from damage caused by their cancer treatment to endocrine, cardiovascular, musculoskeletal, and other organ systems. These complications may surface decades after the completion of treatment. Adverse outcomes of childhood cancer treatment frequently involve oral and craniofacial structures including the dentition. Tooth development, salivary gland function, craniofacial growth, and temporomandibular joint function may be disturbed, increasing oral health risks in these individuals. Moreover, CCS are at risk of developing subsequent malignancies, which may manifest in or near the oral cavity. It is important that dental practitioners are aware of the childhood cancer history of their patients and have knowledge of potential late complications. Therefore, this narrative review aims to inform dental practitioners of late oral complications of cancer treatment modalities commonly used in pediatric oncology. Furthermore, selected common non-oral late sequelae of cancer therapy that could have an impact on oral health and on delivering dental care will be discussed.

Tooth Abnormalities and Their Age-Dependent Occurrence in Leukemia Survivors

The multidrug nature of anticancer treatment and different treatment protocols used in the studies are likely to be a major limitation in establishing real risk factors determining the occurrence of dental abnormalities. The authors aimed to establish a relationship between the duration and the dose of chemotherapy and the number of tooth adverse effects in the group receiving the same treatment. Of the 40 anticancer therapy recipients who attended the outpatient dental clinic, 7 leukemia survivors receiving the treatment according to the ALL IC-BFM 2002 protocol were selected. The study group consisted of four females and three males aged 92 to 207 months at the time of dental examination and 29 to 91 months at leukemia diagnosis. As a result of the clinical and radiological examination, dental abnormalities such as agenesis, tooth size reduction, root abnormalities, and taurodontia were identified, and the medical records of all survivors were reviewed in terms of drugs administered, their doses, and treatment schedules. No correlation was observed between the treatment duration of an intensive therapy, the entire therapy, and the number of tooth abnormalities. No relationship was also found between the number of dental abnormalities and the cumulative dose of vincristine, L-asparaginase, methotrexate, cyclophosphamide, cytarabine, and 6-mercaptopurine. The age at the onset of antineoplastic therapy is likely to be the strongest risk factor for toxic injury during tooth development.

Dental caries and dental developmental defects as adverse effects of antineoplastic treatment in childhood cancer survivors

PURPOSE

To evaluate the prevalence of dental caries and dental developmental defects (DDD) in childhood cancer survivors (CCS) and identify disease and treatment-related risk factors.

METHODS

CCS aged up to 21 years, diagnosed with a malignancy before the age of 10 years and in remission for at least one year were included. Data were collected from patients' medical records and through a clinical examination where presence of dental caries and prevalence of DDD were recorded. Fisher's exact test was used to assess possible correlations and multivariate regression analysis to determine risk factors for defect development.

RESULTS

Seventy CCS with a mean chronological age of 11.2 years at the time of examination, mean age at cancer diagnosis of 4.17 years, and a mean post-treatment follow-up time of 5.48 years were included. Mean DMFT/dmft was 1.31, with 29% of survivors presenting with at least one carious lesion. Younger patients on the day of examination and patients treated with higher radiation dose, showed significantly higher prevalence of dental caries. The prevalence of DDD was 59%, with demarcated opacities being the defect most commonly observed (40%). Age at dental examination, diagnosis, age at diagnosis, and time that have elapsed since the end of treatment were the factors significantly affecting its prevalence. Regression analysis revealed that age at examination was the only factor significantly associated with the presence of coronal defects.

CONCLUSION

A great number of CCS presented with at least one carious lesion or a DDD, with the prevalence being significantly associated with various disease-specific characteristics, but age at dental examination the only significant predictor.

Factors for poor oral health in long-term childhood cancer survivors

BACKGROUND

Survivors of childhood cancer are at risk for therapy-related dental diseases. The purpose of the study was to investigate the associations between clinical, socioeconomic, and demographic factors and oral diseases in the St. Jude Lifetime Cohort (SJLIFE) participants.

METHODS

We performed a retrospective medical chart review and evaluated longitudinal self-reported dental outcomes in 4856 childhood cancer survivors and 591 community controls participating in the St. Jude Lifetime Cohort (SJLIFE) study. Univariate and multivariable logistic regression models were used to assess the impact of socioeconomic factors, treatment exposures and patient demographics on dental outcomes.

RESULTS

Cancer survivors were more likely to report microdontia (odds ratio (OR) = 7.89, 95% confidence interval (CI) [4.64, 14.90]), abnormal root development (OR = 6.19, CI [3.38, 13.00]), hypodontia (OR = 2.75, CI [1.83, 4.33]), enamel hypoplasia (OR = 4.24, CI [2.9, 6.49]), xerostomia (OR = 7.72, CI [3.27, 25.10]), severe gingivitis (OR = 2.04, CI [1.43, 3.03]), and ≥ 6 missing teeth (OR = 3.73, CI [2.46, 6.00]) compared to controls without cancer history. Survivors who received classic alkylating agents (OR = 1.6, CI [1.36, 1.88]), anthracycline antibiotics (OR = 1.22, CI [1.04, 1.42] or radiation therapy potentially exposing the oral cavity (OR = 1.48, CI [1.26, 1.72]) were more likely to report at least one dental health problem after controlling for socioeconomic factors, age at last follow-up and diagnosis, other treatment exposures, and access to dental services. Survivors who had radiation therapy potentially exposing the oral cavity (OR = 1.52, CI [1.25, 1.84]) were also more likely to report at least one soft tissue abnormality after controlling for socioeconomic factors, age at last follow-up and diagnosis, other treatment exposures, and access and utilization of dental services.

CONCLUSIONS

Childhood cancer survivors have a higher prevalence of oral-dental abnormalities than the controls without a cancer history. Cancer treatment, socioeconomic factors, and access to oral health care contribute to the prevalence of dental abnormalities.

A Novel Oncodental Collaborative Team: Integrating Expertise for Central Line-Associated Bloodstream Infection Prevention in Pediatric Oncology Patients

PURPOSE

Pediatric oncology and bone marrow transplant patients are at high risk of infection, and limitations to dental expertise among medical providers render patients vulnerable to central line-associated bloodstream infections from oral pathogens. Traditionally, oral health maintenance relied on patients and bedside nurses; however, routine methods are often suboptimal to prevent central line-associated bloodstream infection in high-risk patients. Limited overlap of medical and dental expertise, and limited dental resources in typical oncology units, prevent optimal oral care for children with cancer, requiring novel solutions to better integrate specialties.

METHODS

Here, we outline the creation of a novel Pediatric oncodental team to address oral-systemic infection prevention strategies for high-risk patients.

RESULTS

Our oncology and dental teams created a systematic approach for increasing oral surveillance and treatment in select high-risk patients. Supervised pediatric dental residents participated in scheduled oncology rounds, and a permanent oral health educator with a background in dental hygiene was also hired as a dedicated dental professional within our oncology department.

CONCLUSION

Our pediatric oncodental team aims to sustain optimal oral complication prevention strategies to reduce the risk of infection, provide education on the significance of the oral-systemic link in cancer care, and improve access and continuity of care.

Dental developmental complications in pediatric hematopoietic stem cell transplantation patients: A study using CMC clinical data warehouse

OBJECTIVE

This study aimed to investigate the prevalence and extent of dental developmental complications in patients who have undergone pediatric hematopoietic stem cell transplantation (SCT) and identify the risk factors.

MATERIALS AND METHODS

We retrospectively investigated the clinical data warehouse of the Catholic Medical Center information system for identifying patients who: 1) visited the Department of Pediatrics between 2009 and 2019, 2) underwent SCT under the age of 10, and 3) had panoramic radiographs. Thus 153 patients were included in this study. The prevalence and extent of tooth agenesis, microdontia, and root malformation were assessed using panoramic radiographs obtained after SCT, and the risk factors were analyzed using regression analysis.

RESULTS

All 153 patients had at least one dental anomaly. When grouped according to the age at initial chemotherapy (≤ 2.5; 2.6-5.0; 5.1-7.5; > 7.5 years), the prevalence of agenesis showed statistically significant differences among the different age groups (P < 0.001). The prevalence of agenesis was highest in the youngest age group. As the initial age at chemotherapy increased, the number of affected teeth per patient decreased for all three anomalies. The location of the affected tooth was also influenced by the age at initial chemotherapy. Regression analysis demonstrated that young age at initial chemotherapy was a risk-increasing factor for tooth agenesis and microdontia.

CONCLUSIONS

The age at initial chemotherapy may be a critical factor in determining the type, extent, and location of dental complications after SCT. These results suggest that careful dental follow-up and timely treatment are recommended for pediatric patients undergoing SCT.

Systemic Anticancer Therapy Details and Dental Adverse Effects in Children

An idea of therapy intensification in order to make anticancer treatment more effective is still being investigated. The study aimed to estimate the impact of the chemotherapy dose levels and treatment duration on the risk for dental development disturbance. The clinical examination and OPG analysis were carried out in 37 cancer survivors and germ agenesis, microdontia, size reduction, taurodontism, root and enamel abnormalities were identified. An analysis of anticancer treatment was carried out separately for vincristine (VCR), doxorubicin (DXR), cyclophosphamide (CP), etoposide (VP-16), carboplatin (CBDCA) and actinomycin D (ACTD) recipients in terms of treatment duration and drug doses administered. Individuals aged between three years and ten months, and seven years and four months, at diagnosis presented with no severe dental abnormalities, regardless of treatment duration and increasing cytotoxic drug doses. The largest number of abnormalities per one person was noted in the survivors treated with the highest single doses of VCR, DXR, CP and ACTD. No similar observation was made in the cases of cumulative and weekly doses analyzed. Moreover, there were no significant differences between the mean number of abnormalities across all the drug groups.

Oral and dental late effects in long-term survivors of childhood embryonal brain tumors

PURPOSE

To investigate oral and dental late effects in survivors of childhood brain tumors medulloblastoma (MB) and central nervous system supratentorial primitive neuroectodermal tumor (CNS-PNET).

METHODS

This cross-sectional study assessed oral and dental late effects in MB/CNS-PNET survivors treated before 20 years of age, and with a minimum of 2 years since treatment. Participants went through an oral and radiographic examination. We assessed oral status using the decayed-missing-filled index (DMFT), oral dryness, maximum mouth opening (MMO), fungal infection, and registration of dental developmental disturbances (DDD) in the form of hypodontia, microdontia, and enamel hypoplasia.

RESULTS

The 46 participants' mean age at enrolment was 27 ± 12.8 years and at treatment 8.5 ± 5.2 years, and the mean time since treatment was 18.9 ± 12 years. Over a third (35%) of survivors had reduced mouth opening (mean 29.3 ± 5.6 mm (range 16-35)). A significantly lower MMO was found in individuals treated ≤ 5 years compared to survivors treated > 5 years (p = 0.021). One or more DDD were registered in 30.4% of the survivors, with a significantly higher prevalence in individuals treated ≤ 5 years (p < 0.001). Hypodontia was the most prevalent type of DDD. There was no difference in DMFT score in relation to age at treatment. Oral dryness was not frequently reported or observed in these survivors.

CONCLUSION

Survivors of childhood MB/CNS-PNET are at risk of oral and dental late effects including reduced mouth opening and DDD. The risk is highest in survivors treated before the age of 5.

Salivary parameters and their correlation with neutrophil counts in children with acute lymphoblastic leukemia

BACKGROUND

Chemotherapy for Acute Lymphoblastic Leukemia (ALL) is known to render children immuno-deficient. A concomitant suppression of local defence mechanisms, such as saliva may further aggravate the adverse consequences of chemotherapy. The present study was conducted to evaluate alterations in salivary flow rate, pH and buffering capacity and to correlate these parameters with Absolute Neutrophil Counts (ANC).

METHODS

A cohort of 43 patients, aged 3-12 years were evaluated for the aforementioned parameters at baseline, post-induction and post-consolidation phases. Salivary collection was done and ANC was measured from routine haematological reports.

RESULTS

A decrease in the salivary parameters was observed at the end of Induction phase as compared to baseline, with a statistically significant decrease in unstimulated salivary flow rates (p < 0.01). Statistically significant positive correlations were found between ANC and salivary flow rate (p = 0.005), pH (p < 0.00) and buffering capacity (p < 0.00). On testing the significance of these correlations, all the values for these parameters were found to be statistically significant.

CONCLUSION

Salivary parameters showed derangements over the phases of chemotherapy, with maximum decrease at the end of induction phase. The positive correlations of salivary parameters with ANC of the subjects may be considered indicative of a concomitant immunological compromise in these children.

Long-Term Effects of Childhood Cancer Treatment on Dentition and Oral Health: A Dentist Survey Study from the DCCSS LATER 2 Study

Simple Summary

We aimed to identify the prevalence of and independent risk factors for dental and oral problems in childhood cancer survivors (CCSs). This cross-sectional study is part of the Dutch Childhood Cancer Survivor Study (DCCSS) LATER 2. Our study included survey data on 154 CCSs, on whom information from dentists on oral health data was received (71.3%). In total, 36.3% of survivors were reported to have at least one dental developmental disorder (DDD). The most prevalent DDDs were short-root anomaly (14.6%), agenesis (14.3%), and microdontia (13.6%). Risk factors for at least one DDD were younger age at diagnosis (<3 years vs. 5+ years) and dose-dependent alkylating agent therapy. This study provides more insight into risk factors for oral health problems in Dutch CCSs. This information is essential in order to improve early detection, prevention, and dental care of oral health problems in CCSs.

Abstract

Objectives: The aim of this study was to identify the prevalence of and independent risk factors for long-term effects of childhood cancer treatment on the dentition and oral health in childhood cancer survivors (CCSs). Methods: This cross-sectional study is part of the Dutch Childhood Cancer Survivor Study (DCCSS) LATER 2. CCSs were diagnosed with cancer between 1963 and 2001. This study focuses on survey data of 154 CCSs on whom information about their oral health was received from their dentists (71.3%). Descriptive statistics and univariable and multivariable Poisson regression analyses were performed to determine the association between treatment characteristics and oral health data. Results: Of the study group, 36.3% had at least one DDD. The most prevalent DDDs were short-root anomaly (14.6%), agenesis (14.3%), and microdontia (13.6%). Risk factors for at least one DDD were younger age at diagnosis (<3 years) and dose-dependent alkylating agent therapy. Conclusions: This study provides more insight into risk factors for oral health problems in Dutch CCSs. This information is essential in order to improve early detection, prevention, dental care, and quality of life. Further studies are needed in order to better define dose-related radiotherapy exposure of the developing teeth in correlation with oral health problems.

Oral health status of patients with leukemia: a systematic review with meta-analysis

OBJECTIVE

The aim of this study was to systematically review the literature regarding the prevalence of periodontal diseases and dental caries in patients with leukemia.

METHODS

An electronic search for observational studies on oral health outcomes in patients with leukemia was performed on Medline/PUBMED, Embase, Web of Science, and Science Direct databases up to April 2020. Dental caries and periodontal diseases were assessed using the following standardized parameters, respectively: mean number of decayed, missing and filled teeth (DMFT), and presence of marginal inflammation (gingivitis) or clinical attachment loss (periodontitis). Two independent reviewers conducted all phases of review. Included studies reporting similar outcomes were subjected to random-effects meta-analysis.

RESULTS

From 1,246 retrieved references, 39 were included. Most studies were cross-sectional investigations involving young patients with acute lymphoblastic leukemia. Nine studies presented high risk of bias and were not included on quantitative analyses. All studies in the meta-analysis (n = 14) were conducted with children/teenagers with acute leukemia. Pooled gingivitis prevalence in patients before and during leukemia treatment was 85% (95%CI 75, 97%; 4 studies) and 82% (95%CI 71, 94%; 6 studies), respectively. Pooled DMFT means were 2.28 (95%CI 1.31, 3.25; 7 studies) and 3.65 (95%CI 1.45, 5.86; 5 studies) respectively for patients during and after leukemia treatment. Studies regarding periodontitis prevalence were too few to run a meta-analysis.

CONCLUSIONS

Based on cross-sectional data, young people with acute leukemia have high prevalence of gingivitis and caries experience. These findings indicate that the effect of leukemia on oral health still needs to be better investigated.

Long-term Adverse Effects of Acute Myeloid Leukemia Treatment on Odontogenesis in a Child

Background

Several studies showed that cancer therapies during tooth development are associated with dental abnormalities, including enamel defects, arrested tooth development, microdontic teeth, and agenesis.

Study design

We describe the case of a nine-year-old boy treated for acute myeloid leukemia at 15 months of age, who presents several dental abnormalities resulting from anticancer treatment.

Results

The patient was included and treated according to the ELAM 02 French protocol. Six years after allogenic hematopoietic stem cell transplantation, the intraoral and radiographic examination highlighted the agenesis of the second permanent molars and three of the four second premolars, microdontia of the first premolars, root stunting of the central incisors and first premolars, rootlessness of the first permanent molars, and enamel defects localized at the permanent incisors and canines. As a first step to reduce enamel defects, restorations with resin composite (Tetric EvoCeram® A2, Ivoclar Vivadent) were performed under a dental dam. Orthodontic treatment was contraindicated due to arrested tooth development, short roots, and a risk of resorption is considered too important.

Conclusion

The young age at diagnosis (<5 years of age) and intensive chemotherapy (especially myeloablative conditioning with high doses of cyclophosphamide and Busulfan) could explain the severity of the dental abnormalities. This case illustrates the importance of systematically scheduling a dental follow-up in parallel with the onco-hematologic follow-up allowing the clinicians to prevent, detect, and propose early intervention for dental late effects.

How to cite this article

Hernandez M, Pochon C, et al. Long-term Adverse Effects of Acute Myeloid Leukemia Treatment on Odontogenesis in a Child. Int J Clin Pediatr Dent 2019;12(3):243–246.

Unique Factors Affecting the Management and Prevention of Caries in the Childhood Cancer Survivor

Childhood cancer survivors are at high risk for a myriad of complications secondary to oncologic treatment regimens. Caries is one of the major sequela of oncologic treatment that place the childhood cancer survivor at risk for complications in adulthood. Dental caries can be prevented with optimum dental care, early identification, and patient education. A barrier to their prevention is the lack of routine dental care received by this population. Health care providers are in a prime position to remedy this problem through their frequent contact with the childhood cancer survivor during sick and well-child office visits. The purpose of this article is to convey information and tools related to dental caries in the pediatric cancer survivor younger than 18 years to enhance primary care providers', acute care pediatric nurse practitioners', and oncology providers' knowledge of risk stratification, early identification, and treatment regimens for caries in the childhood cancer survivor.

Dental Care for Patients With Childhood Cancers

Background

Childhood cancer is the second most common cause of death in children in the United States. Treatments for childhood cancers usually incorporate chemotherapy, radiation therapy, immunotherapy, and/or surgery. This review of contemporary literature highlights the necessity for interprofessional care to achieve the best dental outcomes for this patient population during cancer treatment, as well as for children who are long-term cancer survivors.

Methods

A literature search at PubMed identified research and review articles about oral and dental complications in children diagnosed with cancer. Also included were evidence and current best practices from guidelines published by the American Academy of Pediatric Dentistry on dental management of pediatric patients receiving chemotherapy, hematopoietic cell transplantation, and/or radiation therapy. Finally, clinical recommendations from the European Society for Medical Oncology Guidelines Working Group on management of oral and gastrointestinal mucositis were included. The literature search was limited to articles published in the English language.

Results

Children with a new diagnosis of cancer should have dental care provided by a pediatric dentist to mitigate the oral complications from cancer treatment as well as to avoid dental infections during immunosuppressed states. An individualized oral care program can be developed for each patient to manage and treat acute and long-term oral complications related to cancer treatment.

Conclusion

Childhood cancer survivors present with unique challenges for dental management because of dental anomalies caused by cancer therapy. Interprofessional collaborative care between the pediatric dentist and the oncologist during and after cancer therapy will enable best outcomes for the pediatric patient. In addition, dental professionals must be prepared to meet the unique needs of long-term cancer survivors because of the increasing survival rates of childhood cancers.

Long-term Dental Anomalies after Pediatric Cancer Treatment in Children

Objective:

The aim of this study is to determine the frequency of dental anomalies (DAs) (microdontia, hypodontia, hyperdontia, enamel defect, root malformation) in pediatric cancer patients at the ages <5 years and between 5 and 7 years, and understand their relationship with the received therapy.

Materials and Methods:

Pediatric patients who were diagnosed with cancer and treated before the age of 7 years were investigated in a case- control design. The study included 93 pediatric patients whose ages at diagnosis were between 9 months and 7 years and whose treatments were completed before 5-8 years. Group A consisted of patients in the age range of 9 months to 4 years and Group B consisted of patients in the age range of 5-7 years. Seventy-two siblings with compatible dental age ranges were included in the control group. For both groups, intraoral examinations were performed and panoramic radiographs were taken.

Results:

Among the 93 pediatric patients, the mean age was 9.54±1.25 (range: 8-13 years) and 48 (51.6%) patients were male. The most common diagnosis was hematologic malignancy with a rate of 65.5%. At least one DA was detected in 7 (9.7%) individuals of the control group and in 78 (83.9%) of the patient group. While the patients in the study group had all kinds of DAs, those in the control group had only enamel defects. The rates of microdontia (p=0.077) and hypodontia (p=0.058) were detected to be significantly higher in Group A than in Group B. Root malformation was more common in patients receiving chemotherapy and radiotherapy than in those receiving only chemotherapy (p=0.006).

Conclusion:

In this study it was found that the pediatric patients who received cancer treatment before the age of 7 years constituted a high-risk group for DAs. The frequencies of microdontia and hypodontia were increased even more when the patient was treated for cancer before 5 years of age.

Risk factors for impaired pulmonary function and cardiorespiratory fitness in very long-term adult survivors of childhood acute lymphoblastic leukemia after treatment with chemotherapy only. Acta Oncol 2018;57:658-664. [PMID: 29303026 DOI: 10.1080/0284186x.2017.1423177]

BACKGROUND

Survivors of childhood acute lymphoblastic leukemia (ALL) are at risk of late treatment-related side-effects. Data regarding prevalence and risk factors for impairments in pulmonary function and cardiorespiratory fitness are limited, and reported findings are inconsistent and inconclusive.

MATERIAL AND METHODS

In a cross-sectional study, 116 ALL survivors (median 5 years at diagnosis, 29 years at follow-up, 53% females) were examined, median 23 years after treatment with chemotherapy only. Individual cumulative doses of cytostatic agents were calculated. Methods included blood tests, echocardiography, pulmonary function tests and cardiorespiratory exercise test.

RESULTS

Females had lower % predicted gas diffusing capacity (DLCO) than males (mean [SD] 84 [13] versus 97 [14], p < .001). Impairment in DLCO was found in 34% females versus 7% males, p < .001. In a multiple linear regression model, female gender, body mass index (BMI) and smoking were risk factors for reduced % predicted DLCO, with a borderline significant effect of left ventricular ejection fraction (LVEF). Impaired cardiorespiratory fitness was found in 42% of the survivors, with a borderline increased risk in females, p = .06. Smoking and BMI were risk factors for reduced % predicted VO₂peak. Subjects exposed to anthracyclines had lower LVEF% and % predicted VO₂peak than those not exposed, (mean [SD] 56.2 [4.3] versus 59.2 [5.2], p = .01 and 86.9 [18.4] versus 92.8 [18.4], p = .03, respectively).

CONCLUSIONS

Impairments in pulmonary function and cardiorespiratory fitness are common in very long-term survivors of childhood ALL. Risk factors are female gender, BMI and smoking. In order to preserve pulmonary function and cardiorespiratory fitness, we suggest increased attention and targeted advice on modifiable lifestyle factors such as smoking, inactivity and overweight.