Head and Neck Cancer Clinical Trial
Official title:
The Effect of Dental and Salivary Gland Radiation Dose on the Occurrence of Post-radiotherapy Dental Disease in Patients With Head and Neck Cancer
Background Post-radiotherapy head and neck cancer (HANC) patients are at increased risk of
dental caries and periodontal disease due to radiation-related damage to the teeth and
salivary glands. Currently the exact aetiology of post-radiotherapy dental disease, and
variation in its incidence and severity based on tumour location and radiotherapy dose, is
poorly understood. Consequently there is a lack of clear guidance on how HANC patients should
be dentally managed both before and after their radiotherapy.
Aim The aim of this study is to quantify the relationship between dental radiation dose,
'spared' parotid gland radiation dose, tumour location, and post-radiotherapy dental disease.
Methods A prospective cohort study will be undertaken in HANC patients treated with
radiotherapy. A total of 215 patients will be recruited over a period of 2.5 years.
Participants will be assessed and rendered dentally fit prior to radiotherapy in the School
of Dentistry, Belfast. All patients will be followed-up at 6, 12, and 24-months
post-radiotherapy. Data to be collected at each visit will include: total number of carious
teeth, periodontal disease indices, salivary flow rates, diet, oral hygiene, mouth opening,
xerostomia and oral health-related quality of life.
Radiotherapy, including individual tissue-dose exposures, will be prescribed by the Clinical
Oncology team as per current practice. Doses to the teeth and 'spared' parotid gland will be
determined using radiotherapy research software (Non-Clinical Eclipse System sold by Varian
Medical Systems UK Ltd).
Using appropriate statistical tests, data analysis will determine the relationship between
dental disease, radiation dose, and tumour location.
Anticipated variation in the incidence and severity of post-radiotherapy dental disease based
on the radiotherapy dose and tumour location, will inform the development of a clinical
risk-assessment tool that will allow dentists to categorise patients as 'high' or 'low' risk
of future disease. Guidelines regarding pre-radiotherapy dental extractions and
post-radiotherapy preventative strategies will also be developed and will advise clinicians
based on this risk assessment.
A micro-costings study will be undertaken to evaluate patient and healthcare costs associated
with the diagnosis and management of pre- and post-radiotherapy dental disease.
Plan of investigation
Clinical hypothesis The primary hypothesis of the study is that increased mean radiation dose
to the teeth and to the 'spared' parotid gland is associated with an increase in the mean
number of carious teeth and in the proportion with periodontal disease 2 years
post-radiotherapy.
Study design: Prospective cohort study.
- Pre-radiotherapy assessment at baseline and patients rendered dentally fit.
- Post-radiotherapy follow-up assessments at 6 months, 12 months, and 24 months.
Pre-radiotherapy assessment:
In line with current practice, the Multidisciplinary Head and Neck Cancer Team (Royal
Victoria Hospital, Belfast) will continue to refer head and neck cancer patients for
pre-radiotherapy dental assessment to the School of Dentistry, Belfast. Referred patients
will be assessed in the existing 'Head and Neck Clinic' in the School of Dentistry. All
potentially eligible patients will be informed of the research study and invited to
participate. Each recruited patient will be assessed by a trained and calibrated dentist
(examiner). Examiners will undergo pre-study training and calibration to ensure consistent
clinical measurements. Inter-examiner consistency will be calculated using the Kappa
statistic. A structured protocol will be followed. Radiographs may be requested provided
specific criteria have been fulfilled. The same examiner(s) will interpret and record data
from all radiographs.
The following measurements will be collected:
- Dental caries: The presence or absence of dental caries on each tooth will be determined
using the World Health Organization's criteria and coding system and ICDAS-II, and
recorded in a modified version of the Oral Health Assessment Form for Adults, 2013.
Radiographic evidence of secondary caries or caries into dentine will also be recorded.
- Periodontal disease: A six-point periodontal charting will be performed for all
patients. Clinical attachment loss and probing pocket depths will be measured using a
Williams Periodontal Probe and recorded for six sites on each tooth. The 'Centers for
Disease Control and Prevention (CDC)', in partnership with the 'American Academy of
Periodontology (AAP)' workgroup definition of periodontitis will be used to identify
those with active periodontal disease: 2 or more interproximal sites with attachment
loss ≥3 mm, and 2 or more interproximal sites with pocket depths ≥4 mm (not on same
tooth) or one site with pocket depth ≥5 mm.
- Stimulated salivary flow rate using paraffin pellets.
- Ruler measurement of mouth opening.
- Oral hygiene practice and dietary assessment using the World Health Organization's Oral
Health Questionnaire for Adults.
- Subjective assessment of quality of life and experience of xerostomia using
questionnaire booklets containing the European Organization for Research and Treatment
of Cancer (EORTC) QLQC30 quality-of-life instrument, the associated head and neck
specific module HN35, the Oral Health Impact Profile, and the modified Xerostomia
Questionnaire.
All patients will receive standardised oral hygiene and dietary advice. A dental treatment
plan will be formulated for each patient to ensure adequate dental fitness prior to
radiotherapy. Dental treatment required pre-radiotherapy (e.g. restorations and extractions)
will be co-ordinated by the School of Dentistry in line with current practice.
Post-radiotherapy assessments:
Participants will be followed-up at 6 months, 12 months, and 24 months post-radiotherapy.
At each follow-up visit, patients will undergo dental assessment in the School of Dentistry,
Belfast. The following measurements will be collected (using the same methods and examiners
outlined above): charting of dental caries, 6-point clinical attachment loss and probing
pocket depth charting, stimulated salivary flow rate, mouth opening, oral hygiene practice,
dietary assessment, quality of life, and xerostomia. A structured protocol will be followed.
Radiographs may be requested provided specific criteria have been fulfilled. At each visit,
patients will receive standardised oral hygiene and dietary advice. Consultants will oversee
treatment plans for the restoration of dental health. Required treatment will be co-ordinated
by the School of Dentistry in line with current practice.
Radiation dose and tumour location determination Patients will receive radiotherapy as
prescribed by their Consultant Clinical Oncologist. The Clinical Oncologist will also plan
individual tissue exposures in line with current practice. Using additional research
software, doses to the teeth and to the 'spared' parotid gland will be calculated after the
teeth and parotid glands have been contoured on each patient's radiotherapy planning CT scan.
The Clinical Oncologist will contour the parotid glands in line with current practice. A
dentist will contour the teeth on patient-anonymised CT scans. Tumour location will be
determined from the initial referral letter sent by the Head and Neck Cancer
Multidisciplinary Team.
Sample size Simplified sample size calculations were conducted based upon an independent
samples t-test and correlation coefficient. Assuming the standard deviation of the number of
carious teeth in post-radiotherapy head and neck cancer patients is 4.0 (based upon the
results of a 10-year School of Dentistry audit) and comparing patients receiving over 20 Gray
to the 'spared' parotid gland with those receiving under 20 Gray (based upon a 80%/20%
distribution seen in a Cancer Centre radiation dose audit), the investigators would require a
total sample of 150 patients with available data to have over 80% power to detect a
difference of 3.0 in the mean number of carious teeth between the under 20 Gy and over 20 Gy
groups as statistically significant at the 5% level. Furthermore, a sample size of 150
patients would allow 80% power to detect, as significant at the 5% level, a correlation
coefficient of 0.22 for the association between radiation dose to the 'spared' parotid gland
(Gy) and the number of carious teeth. Assuming 30% dropout the investigators would therefore
need to recruit 215 patients.
Statistical analysis Primary outcome measures to be analysed include: (1) the number of
carious teeth and (2) the presence of periodontal disease.
1. Initial comparisons between the radiation dose to the 'spared' parotid gland and the
number of carious teeth will be performed using independent t-tests (categorising
radiation dose as <20Gy and >20Gy) and ANOVA (categorising radiation dose as <20Gy,
20-30Gy, 30-40Gy, and >40Gy) as appropriate. Adjusted analysis will be performed using
multiple linear regression, with the number of carious teeth as the outcome variable,
radiation dose to the 'spared' parotid gland as an explanatory variable (categorised as
above) along with potential confounding variables: dental radiation dose, oral hygiene
practice, diet, and mouth opening. Without categorising radiation dose, a separate
analysis will be conducted using linear regression with the number of carious teeth as
the outcome variable and radiation dose to the 'spared' parotid gland (Gy) as the
explanatory variable to give the increase in the number of carious teeth per 10 unit
increase in Gray. If the number of carious teeth is not normally distributed
transformations will be used prior to analysis or equivalent non-parametric techniques
will be used.
2. Initial comparisons of the association between radiation dose to the 'spared' parotid
gland (categorised as above) and the presence of periodontal disease (Yes/No) will be
performed using chi-square tests. Adjusted analysis will be performed using logistic
regression with presence of periodontal disease as the outcome variable, radiation dose
to the 'spared' parotid gland as the explanatory variable and dental radiation dose,
oral hygiene practice, diet, smoking, medical history, and mouth opening as potential
confounders. Similar analyses will be undertaken to determine the effects of dental
radiation dose and tumour location on the number of carious teeth and the presence of
periodontal disease in post-radiotherapy head and neck cancer patients.
Secondary outcomes to be analysed include: quality of life, salivary flow rate, diet, oral
hygiene practice, mouth opening, xerostomia (all change from baseline); tooth loss, and
denture wear. Dichotomous outcomes will be analysed using chi-square tests and logistic
regression as above. Continuous outcomes will be analysed as above, apart from variables with
baseline measurements, for which ANCOVA will be used to compare outcome measurements
adjusting for baseline. Adjusted analyses will use multiple linear regression models as above
but with baseline measurements as an additional explanatory variable.
A micro-costings study will also be undertaken to evaluate patient and healthcare costs in
relation to the diagnosis and treatment of pre- and post-radiotherapy dental disease.
- Patient costs to be evaluated include: cost of travel to dental appointments, time off
work to attend for dental treatment, cost of dental treatment incurred pre and
post-radiotherapy (general or private practice), out-of-pocket expenses (e.g.
pain-relief medications).
- Healthcare costs to be evaluated include: clinical and administration staff costs for
pre- and post-radiotherapy dental assessments and treatment, equipment, general
overheads, remuneration of primary care dental practitioners.
Cost savings due to improved treatment planning of patients will also be hypothesised.
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