Three-dimensional photon treatment planning for carcinoma of the nasopharynx

Dosimetric comparison between three-dimensional conformal radiotherapy (3D-CRT) and intensity-modulated radiotherapy (IMRT) in the treatment of different stages of nasopharyngeal carcinoma

Background

This work aims to compare the dosimetric performance of three-dimensional conformal radiotherapy (3D-CRT), a relatively available technique in developing countries, to intensity-modulated radiotherapy (IMRT) in the treatment of different stages of nasopharyngeal carcinoma (NPC).

Materials and Methods

According to the diagnostic stages, 40 NPC patients were divided into two equal groups. Three planning techniques such as 3D-CRT, seven-field IMRT (7F-IMRT) and nine-field IMRT (9F-IMRT) were compared. Dose prescriptions of 70 and 66 Gy were delivered in 35 fractions to gross planning target volume (PTV1) and bilateral retropharyngeal carcinoma (PTV2), respectively.

Results

Stage I dose data for almost all of the three investigated planning techniques obey the international recommendations. The dose delivered to PTV1 and PTV2 for 3D-CRT and 7F-IMRT are statistically similar, whereas 9F-IMRT is significantly better than 3D-CRT. For organs at risk (OARs), the delivered dose is significantly better for 9F-IMRT compared with the other two techniques, whereas 7F-IMRT is significantly better than 3D-CRT.

Conclusions

3D-CRT is an acceptable alternative treatment technique for stage I NPC patients in developing countries suffering from the lack of advanced radiotherapy treatment techniques. 3D-CRT and 7F-IMRT have comparable performance in PTVs, while 9F-IMRT is superior in PTVs and OARs.

Late Visual and Auditory Toxicity of Radiotherapy for Nasopharyngeal Carcinoma

Aims and Background

Classical irradiation of carcinoma of the nasopharynx involves large fields and high doses; therefore, significant late toxicity and late side effects are to be expected. Given the fact that nasopharyngeal carcinoma (NPC) is a relatively radiosensitive disease and a significant proportion of patients are long-term survivors, late visual and auditory complications of treatment are of utmost concern for patients and radiation oncologists. The aim of this study was to evaluate the long-term visual and auditory toxicity in patients treated with radiotherapy for NPC.

Methods and Study Design

Forty-three long-term survivors (including 11 children), following definitive radiotherapy for NPC, underwent a thorough visual and auditory evaluation 2–22 years after their treatment. Ophthalmological examination consisted of anamnesis of dry eye syndrome and visual acuity, visual acuity testing, slit-lamp examination, Schirmer test, fundus examination, and intraocular pressure measurement, as well as fluorescein angiography in patients with pathological vascular findings in the fundus examination. Audiological evaluation included anamnesis of hearing loss, tinnitus or vertigo, examination of the ears and nasopharynx, audiogram, and tympanogram.

Results

Radiation retinopathy was found in 16% of patients by fundus examination, with one patient (2.3%) developing blindness. Severe dry eye syndrome was present in 26%. Fifty-six percent had some degree of hearing impairment, with 74% showing severe sensorineural hearing loss. Fifty-eight percent of patients reported tinnitus and 26% reported suffering from dizziness. Radiation retinopathy as well as all manifestations of auditory toxicity were found to bear a direct correlation with dose per fraction.

Conclusions

Unless there is tumor involvement, the orbital contents should be completely excluded from the target volume. Auditory toxicity is significant when treating NPC with two-dimensional techniques.

Concurrent chemoradiotherapy with or without adjuvant chemotherapy in intermediate and locoregionally advanced nasopharyngeal carcinoma

Concurrent chemoradiotherapy (CCRT) showed a significant improvement in disease control and clinical outcome in patients with intermediate and locoregionally advanced nasopharyngeal carcinoma (NPC) (stage II, III and IVA+B). However, there has been debate about the contribution and application of additional adjuvant chemotherapy (AC) to a CCRT regime. This study aims to evaluate the additional value of AC in the treatment of intermediate and locally advanced NPC with regard to toxicity and clinical outcomes. A total of 189 patients with American Joint Committee on Cancer (AJCC) stage II to stage IVB NPC were retrospectively identified. Patient characteristics, toxicity, compliance with treatment and clinical outcomes, including response to treatment, overall survival (OS), progression-free survival (PFS), relapse-free survival (RFS), freedom from local recurrence (FLR) and freedom from distant metastasis (FDM), were analyzed. The overall response rate of CCRT and CCRT/AC groups was 97.92 % and 97.83 %, respectively (P=0.643). The 5-year OS rate was 68.2 % in the CCRT group and 75.9 % in the CCRT/AC group (P=0.53). The 5-year PFS rate was 66.7 % and 71.4 % in CCRT and CCRT/AC groups, respectively (P=0.96). This study showed no evidence of an additional value of AC in CCRT treatment in disease control and clinical outcomes in patients with locally advanced NPC in endemic regions. Moreover, three additional cycles of AC after CCRT appeared to be poorly tolerated in patients. Therefore, AC should not be routinely used for treatment, although clinical trials may be justified.

Effectiveness of three-dimensional conformal radiotherapy for treating early primary nasopharyngeal carcinoma

OBJECTIVE

In 2-dimensional radiotherapy, the irradiating portal is defined mainly by soft tissues and bony structures, so the exact location of nasopharyngeal tumors and many spatial relationships are unknown, resulting in high local-regional relapse rates and radiation toxicities. Three-dimensional conformal radiotherapy (3D CRT) provides more precise targeting of radiation. We studied whether 3D CRT could maintain survival and increase local-regional tumor control whereas reducing the morbidity and severity of radiation toxicity in patients with early primary nasopharyngeal carcinoma (NPC).

METHODS

Patients with histologically proven keratinizing or nonkeratinizing undifferentiated NPC (T₁₋₂N₀₋₁M₀ stage) received a prescribed 3D CRT dose of 70 Gy to the gross tumor volume (GTV(nx)), 60 Gy to the GTV(nx) with an additional 5- to 10-mm margin (CTV(nx)₆₀), 60 to 70 Gy to the region involved by the metastatic lymph nodes (GTV(nd)), and 50 Gy to the prophylactic irradiating region (CTV(nd)₅₀).

RESULTS

Of 58 patients enrolled between August 2001 and December 2006, (48 men; median age, 46 years; range, 29-69 years), 15 had stage I and 43 had stage II disease. At 5 years, overall survival was 95% and disease-free survival was 91%; 93% of patients were free of local-regional recurrence and 98% were free of distant metastases. Grade 2 or 3 xerostomia occurred in 7 patients and trismus occurred in 5. Mean standard deviation (SD) dental gap was 37.4 (6.9) mm. Four patients had recurrent lesions, mainly in-field.

CONCLUSIONS

The survival and morbidity provided by 3D CRT were excellent in these patients with early NPC.

Comparison of simulator-CT versus simulator fluoroscopy versus surface marking based radiation treatment planning: A prospective study by three-dimensional evaluation

BACKGROUND AND PURPOSE

Field placement for Radiation Treatment Planning can be done based on the surface markings or simulator fluoroscopy or simulator with CT facilities. A prospective study was carried out to compare these three techniques of radiation treatment planning to quantitatively find out the difference in normal tissue dosages and target volume coverage in the three groups after three-dimensional evaluation.

PATIENTS AND METHODS

The CT scans of 30 patients in the treatment position, taken on a Shimadzu SCT-3000 TF scanner at 1cm intervals, were transferred to Theraplan-500 three-dimensional radiation treatment planning computer. The normal tissues and target volumes (GTV and CTV) were outlined on all the CT slices as per (ICRU) Report no. 50. Three types of radiation treatment planning was done sequentially: Plan I-based on the surface markings alone, Plan II-based on simulator-fluoroscopy, and Plan III-based on Simulator-CT.

RESULTS

The mean dose to 95% of the clinical target volume (D95) was increased by 4.4 and 6.4% by Plans II and III as compared with Plan I. The mean dose to 3/3rd (D(3/3)) to all the critical organs was decreased by 6.6 and 8.4% by Plans II and III as compared to Plan I. The mean time, in simulator room, for field placement for Plans I-III was 6.2, 14.6 and 44 min, respectively.

CONCLUSIONS

Thus for adequate coverage of target volumes and sparing normal tissues, Simulator-CT based radiation treatment planning is the best method of radiation treatment planning though it is more time consuming.

Parotid gland-sparing 3-dimensional conformal radiotherapy results in less severe dry mouth in nasopharyngeal cancer patients: a dosimetric and clinical comparison with conventional radiotherapy

BACKGROUND AND PURPOSE

This study examined the efficacy of parotid gland sparing of three-dimensional conformal radiotherapy (3DCRT) compared with conventional radiotherapy for NPC patients. Both the dose given to the parotids and clinical assessment of dry mouth were conducted.

MATERIALS AND METHODS

Dry mouth was assessed for 108 patients treated with conventional technique and 72 treated with 3DCRT. Dose analysis was performed in 48 patients of the 3DCRT group. A dose of 70 Gy was given to the midplane in conventional radiotherapy and to 90% isodose volume in 3DCRT. Prognostic factors affecting the severity of dry mouth were analyzed using Generalized Estimating Equation (GEE).

RESULTS

In the 3DCRT group about 50% of the patients' parotid glands received less than 25 Gy. Parallel analysis of dry mouth shows a significant decrease in the incidence of severe xerostomia after 3DCRT. The proportion of patients without dry mouth was also significantly higher in the 3DCRT group than the conventional group at 1-3 years after completion of radiotherapy. Although 3DCRT delivered a higher dose to the tumor, it spared the parotid gland significantly better than the conventional treatment. Late toxicities were mostly similar between the 2 groups while local control in T4 patients and survival were improved for 3DCRT.

CONCLUSION

Dosimetrically and clinically 3DCRT is better than conventional technique regarding parotid gland protection.

Non-metastatic stage IV nasopharyngeal carcinoma patients: analysis of the pattern of relapse and survival

BACKGROUND AND PURPOSE

The objective of this study is to analyze the mode of recurrence patterns and survival of our 96 non-metastatic stage IVA and IVB nasopharyngeal carcinoma (NPC) patients.

PATIENTS AND METHODS

A total of 234 previously untreated, histologically confirmed non-metastatic NPC patients were treated in our department between 1993 and 2001. Among them 96 patients (41%) were staged as IVA or B disease. All patients were uniformly staged using the fifth edition of AJCC/UICC staging system. There were 76 male and 20 female patients. Their ages ranged from 9 to 72 years (median age: 43.5). Histopathological diagnosis was WHO 2 and 3 in 89 (93%) patients. All patients were treated with external radiotherapy and 77 out of 96 patients (80%) with stage IV disease received either concomitant or neoadjuvant cisplatin based combined chemotherapy regimens. Median follow-up time was 30 months (range: 4-101 months).

RESULTS

At the time of this analysis, 60 (62%) patients were alive and 48 of them were free of disease. Local recurrence rate was found to be significantly higher in stage IVA patients (28 vs. 11%, P=0.02) and distant metastasis rate was significantly higher in stage IVB patients (40 vs. %8, P=0.0001). The 3 year overall (OS), disease free (DFS), loco regional relapse free (LRRFS) and distant metastasis free survival (DMFS) rates were 71, 74, 77 and 94% for stage IVA and 60, 46, 77 and 58% for stage IVB patients, respectively. Three year LRFS rates for stage IVA and IVB were 77 and 89%, respectively (P=0.1). Age older than 40 years was found to be statistically significant adverse prognostic factor both for OS (P=0.01) and LRRFS (P=0.005) in univariate analysis. Advanced N status was an unfavorable prognostic factor both for OS (P=0.03), DFS (P=0.0004) and DMFS (P=0.0003). DMFS was adversely affected by the presence of cranial nerve palsy at diagnosis (P=0.01), advanced T status (P=0.03) and advanced N status (P=0.0003). In univariate analysis treatment with chemotherapy was found to be an unfavorable prognostic factor for DMFS (P=0.02). According to the multivariate analysis, older age (>40 year of age) was a significant independent prognostic factor for OS (P=0.02), DFS (P=0.05) and LRRFS (P=0.01). Patients with advanced N status had worse OS (P=0.03), DFS (P<0.0001) and DMFS (P=0.07). Patients treated with chemotherapy as an adjuvant to radiotherapy had tended to have a better DFS (P=0.04).

CONCLUSIONS

The local relapse was the major cause of failure in patients with stage IVA disease, and distant metastasis was the predominant treatment failure in stage IVB patients. While stage IVA patients may benefit more intensive local treatment strategies, stage IVB patients definitely need more systemic treatment.

A study of planning dose constraints for treatment of nasopharyngeal carcinoma using a commercial inverse treatment planning system

PURPOSE

The purpose of this study was to develop and test planning dose constraint templates for tumor and normal structures in the treatment of nasopharyngeal carcinoma (NPC) using a specific commercial inverse treatment planning system.

METHODS AND MATERIALS

Planning dose constraint templates were developed based on the analyses of dose-volume histograms (DVHs) of tumor targets and adjacent sensitive structures by clinically approved treatment plans of 9 T1-2 and 16 T3-4 NPC patients treated with inverse planned intensity-modulated radiation therapy (IP-IMRT). DVHs of sensitive structures were analyzed by examining multiple defined endpoints, based on the characteristics of each sensitive structure. For each subgroup of patients with T1-2 and T3-4 NPC, the resulting mean values of these defined endpoint doses were considered as templates for planning dose constraints and subsequently applied to a second group of patients, 5 with T1-2 NPC and 5 with T3-4 NPC. The 10 regenerated plans (called new plans) were compared to the original clinical plans that were used to treat the second group of patients, based on plan conformity index and DVHs.

RESULTS

The conformity indices of the new plans were comparable to the original plans with no statistical difference (p = 0.85). Among the serial sensitive structures evaluated, there was a significant decrease with the new plans in the dose to the spinal cord when analyzed by the maximum dose (p = 0.001), doses encompassing 1 cc of the spinal cord volume (p = 0.001) and 3 cc of the spinal cord volume (p = 0.001). There was no significant difference in the mean maximum dose to the brainstem between the new plans and the original plans (p = 0.36). However, a significant difference in the mean maximum dose to the brainstem was seen among the different T-stages (p = 0.04). A decrease with the new plan to the brainstem in the doses encompassing 5% and 10% of the volume was of borderline statistical significance (p = 0.08 and p = 0.06, respectively). There were no statistical differences between the new plans and the original plans in the mean doses to the chiasm, optic nerve, or eye for each of the endpoints considered. For parallel sensitive structures in the new plans, there was a significant increase in the average mean dose to the parotid glands (p = 0.01), a decrease that was of borderline significance in the average mean dose to the temporomandibular joint (p = 0.07), but no difference in the average mean dose to the ear.

CONCLUSIONS

The statistical analysis showed that new plans are comparable to the original plans for most of the sensitive structures except for a trade-off between a dose reduction to the spinal cord in the new plans and an increase in the mean dose to the parotid glands. These tested planning dose constraint templates can serve as good "starting points" for an inverse plan of NPC using a specific commercial inverse treatment planning system.

Dosimetric study of optimal beam number and arrangement for treatment of nasopharyngeal carcinoma with intensity-modulated radiation therapy

The purpose of this dosimetric study was to evaluate the effect of beam number and arrangement on the dose distribution with intensity-modulated radiation therapy in patients with nasopharyngeal cancer. Computed tomography data sets of seven patients who were treated for nasopharyngeal carcinoma at the Peter MacCallum Cancer Centre were used for the present dosimetric study. The dose planned was 70 Gy in 7 weeks for the gross nasopharyngeal and nodal disease and the biological equivalents of 60 Gy in 6 weeks for the high-risk and 50 Gy in 5 weeks for the low-risk nodal disease. A plan using seven fields was compared to that using nine fields in all patients. Plans were assessed on the dose to the planning target volume (PTV) and the degree of parotid sparing achieved by evaluating both dose-volume histograms (DVH) and axial slices. Seven fields (three anterior and four posterior) provide good PTV coverage and satisfactory parotid sparing in patients with localized nasopharyngeal lesions. Nine fields appear to be better for tumours with significant posterolateral parapharyngeal extension. Parotid sparing is consistently better with nine fields. Both DVH and axial slices need to be evaluated before accepting any plan.

Stereotactic intensity modulated radiation therapy and inverse treatment planning for tumors of the head and neck region: clinical implementation of the step and shoot approach and first clinical results

PURPOSE/OBJECTIVE

The aim of this analysis is to evaluate the feasibility of inverse treatment planning and intensity modulated radiation therapy (IMRT) for head and neck cancer in daily clinical routine. A step and shoot IMRT approach was developed which allows the treatment of large target volumes without the need to use a split beam technique. By using the IMRT approach better protection of different organs at risk in the head and neck region may be achieved and an escalation of the dose in the tumor should be possible. We evaluated the feasibility of the treatment technique and the patient tolerance to the treatment. First clinical results are reported.

MATERIALS AND METHODS

Between 1999 and 2002, 48 patients with a carcinoma of the head and neck region were treated with curative intention. All patients were treated in a patient-specific Scotch-Cast mask. Patients who required treatment of the lymph node levels I-VI, were additionally positioned by a vacuum pillow in order to immobilize the upper part of the thorax. For inverse treatment planning, the software module KonRad was used which was integrated into the VIRTUOS planning system. Each treatment plan was verified using quantitative film dosimetry in a head and neck phantom. The step and shoot IMRT technique with a multileaf collimator integrated in a Primus (Siemens) accelerator was used for treatment. For all target volumes the whole target including the lymph nodes were covered completely by the IMRT treatment.

RESULTS

The mean total dose for the target volumes of macroscopic disease ranged between 63.0 and 64.1 Gy. The mean total dose of microscopic disease ranged between 55.2 and 60.1 Gy. The mean percentage of planning target volume receiving <90% of the prescribed dose ranged between 3.0 and 11.5%. For the treatment, the median number of beams was seven (range: five to nine). The time to deliver the treatment ranged between 9 and 18 min. The results of the verification revealed a mean deviation between measured and calculated absolute doses for the 48 patients of 0.1+/-1.4%. Including the phantom verification the IMRT treatment of the patients could be started approximately after five working days. The treatment was well tolerated by all patients. The 2-year actuarial overall survival was 92% and the 2-year actuarial local control rate was 93%. According to the Radiation Therapy Oncology Group (RTOG), no higher acute toxicity than Grade 3 was seen. Observation of the late effects revealed only one transient Grade 4 toxicity of the bone and only four patients had a xerostomia higher than Grade 1.

CONCLUSION

The use of an inversely-planned and intensity-modulated step and shoot approach is feasible in clinical routine for head and neck tumors. Treatment could be applied as planned and no increased toxicity was found. Compared to other IMRT approaches for the head and neck region the used technique allows the treatment of the primary tumor and the lymph nodes level I-VI with only one intensity modulated treatment volume. The presented technique avoids to match conventional radiotherapy fields and IMRT fields, and therefore, reduce the risk of overdosage or underdosage at the matching line. Compared to conventional treatment techniques IMRT shows advantages in tumor dose and dose at the organs at risk.

Childhood nasopharyngeal carcinoma: from biology to treatment

Nasopharyngeal carcinoma is a rare disease in children with distinct epidemiological, histopathological, and clinical characteristics. Incidence varies widely around the world but bimodal incidence graphs show that in some populations a disproporionate number of cases occur in late childhood. Children with nasopharyngeal carcinoma almost always have the undifferentiated variant of the disease, which is associated with advanced locoregional spread and distant metastases. Both genetic and environmental factors contribute to the development of nasopharyngeal carcinoma, as evidenced by its risk factors which include: specific HLA subtypes; deletions of chromosomes 3p, 9p, 11q, 13q, and 14q; mutations of p53 and RB2/p130; polymorphism of the CYP2E1; and infection with Epstein-Barr virus. Traditional treatment consists of high-dose radiotherapy and cure rates range between 30% and 60%. The high incidence of failure due to systemic disease in children means that chemotherapy is preferable for first-line treatment in advanced-stage disease. Currently, cisplatin-based induction or adjuvant chemotherapy combinations are used along with high-dose radiotherapy. Although combined modality treatment has increased 5-year survival to 70-90%, late morbidity is a major concern.

[Treatment of nasopharyngeal cancer: literature review]

The conventional radiotherapy and the associated treatments improved the prognostic of nasopharyngeal cancer. A better selection of the patients who must have a more aggressive treatment also probably contributed to this improvement. Even if a relation could be found between the locoregional relapse rate and the distant relapse rate, these two events remain often independent. It results from it that the improvement of local control rate necessarily does not result in a better control of the disease. The patients with a locally advanced tumor, with or not an invasion of the base of the skull and/or neurological symptoms, must have an aggressive locally treatment. This probably includes the increase in dose delivered to the tumor via a more conformational radiotherapy, a brachytherapy, radiotherapy in stereotaxic conditions or other techniques. Dose within the tumor must be at least 70 Gy and the prophylactic nodal dose, at least 50 Gy. CT scan and MRI are essential for delineating the volumes of interest. The protocols of hyperfractionated radiotherapy did not give convincing results. Association with chemotherapy allowed, on the other hand, an improvement of the prognostic locally advanced cancers. Neoadjuvant or adjuvant chemotherapy was largely used to attempt to limit the risks of systemic dissemination, but an improvement of results was not clearly demonstrated. An improvement of the rates of survival and control of the disease, on the other hand, was observed in a certain number of studies with the chemoradiotherapy. In the event of locoregional relapse, an aggressive attitude can allow the control of the disease in the absence of systemic dissemination. Salvage treatments are, however, disappointing for when distant relapse occurs which suggests a difference in chemosensitivity between primary tumor and metastasis.

Nasopharyngeal carcinoma

Nasopharyngeal carcinoma is usually present as locally advanced (stage III or IV) disease. Before 1980, the primary treatment was radiotherapy. The 5-year survival rate of patients with stage IVM0 across the world was less than 30%. Local, regional, and systemic recurrences are high in these patients and contributed to the poor survival. Sequential chemotherapy followed by radiotherapy (especially with the combination of cisplatin and 5-fluorouracil infusion for three courses) resulted in a 5-year survival rate of up to 55% in patients with stage IV disease. Concurrent single-agent cisplatin and radiotherapy improved 5-year survival rate to up to 55% in these patients. Total treatment with concurrent chemoradiotherapy followed by adjuvant cisplatin and 5-fluorouracil infusion resulted in 5-year survival rate of approximately 75%. Reversing the sequence of treatment by giving chemotherapy followed by concurrent chemoradiotherapy may improve the 5-year survival to up to 90%. In patients with recurrent disease or systemic metastases, the chances of salvage and long remission (many years) is approximately 15% to 20% with the use of adequate and effective chemotherapy. Newer agents, alone or concomitant with radiotherapy, are being evaluated in these patients.

A feasibility study using three-dimensional conformal boost technique in locally advanced carcinoma of the nasopharynx

To investigate the feasibility and efficacy of dose escalation using three-dimensional (3-D) conformal boost technique, 21 patients with stage III or IV nasopharyngeal cancer were enrolled in a prospective protocol. All patients with node metastases initially received external radiotherapy by conventional technique up to 70.2 Gy, followed by 3-D conformal radiotherapy (3-D CRT) to the boost part up to 79.2 Gy with 9 Gy increments (daily fraction of 1.8 Gy for 5 days). A modified technique with the same dose escalation of 9 Gy using 3-D CRT was applied to 7 patients without node metastases, who were treated by conventional technique up to 54 Gy, followed by 3-D CRT to boost up to a basic dose of 70.2 Gy, and then finally with dose escalation of 9 Gy. The protocol was relatively well tolerated by the majority of patients. Acute complications during the dose escalation schedule was low, with rare occurrences of grade 3 or 4 toxicity. Although late radiation-induced complications also appeared limited, 1 patient developed a temporal lobe necrosis and 2 patients suffered from sensory-neural hearing loss. There were no radiation-induced fatal complications. At a median follow-up of 48 months, only 3 patients experienced local failure and 2 patients developed distant metastases. The 5-year overall actuarial survival rate and recurrence-free survival rate for all patients were 68% and 85%, respectively. On the basis of acceptable morbidity and encouraging treatment results, we conclude that the dose escalation in 9 Gy increments using a 3-D conformal boost technique is relatively safe and efficacious, enough to be used routinely for locally advanced nasopharyngeal cancers.

Adjuvant high-dose-rate brachytherapy after external beam radiotherapy in nasopharyngeal carcinoma

PURPOSE

To compare the local control and survival rates obtained with either external beam radiation therapy (ERT) and adjuvant high-dose-rate (HDR) brachytherapy (BRT) or ERT alone in patients with nasopharyngeal cancer.

METHODS AND MATERIALS

Between December 1993 and December 1999, 144 patients (106 male, 38 female) with the diagnosis of nasopharyngeal cancer were treated with either ERT and adjuvant HDR BRT (Group A) or ERT alone (Group B) at our department. BRT was not applied in 38 patients for the following reasons: (1) Unit was unavailable (n = 13), (2) Patient was younger than 18 years (n = 17), (3) Patient received accelerated hyperfractionated ERT (n = 6), and (4) Patient refused BRT (n = 2). The median age for whole group was 43 (range: 9-82 years). According to the AJCC-1997 staging system, there were 11 (7.6%), 35 (24.3%), 38 (26.4%), and 60 (41.7%) patients in Stage I, II, III, and IV, respectively. There were 57 (39.6%) patients with T1, 41 (28.5%) with T2, 20 (13.9%) with T3, and 26 (18.1%) with T4 tumors. Histopathologic diagnosis was WHO 2-3 in 137 (95.2%) patients. ERT doses ranged between 58.8 and 74 Gy (median: 66 Gy). There were significantly more patients with young age, N2 status, and Stage III disease in Group B and with Stage II disease in Group A. Significantly more patients received chemotherapy in Group B. BRT with an HDR 192Ir microSelectron afterloading unit was delivered in 106 patients at the conclusion of ERT using a single-channel nasal applicator. Dose was prescribed at 1 cm from the source, and total dose of 12 Gy in 3 fractions on 3 consecutive days was given immediately after ERT. Besides radiotherapy, 82 (56.9%) patients received cisplatin-based chemotherapy, as well. Follow-up time ranged between 12 and 80 months (median: 32 months).

RESULTS

The two groups were comparable in terms of local recurrence, locoregional failure, regional failure, and rate of distant metastasis. Local failure was observed in 11 (10.3%) out of 106 patients in Group A and in 2 (5.2%) out of 38 patients in Group B (p > 0.05). Three-year disease-free survival rate was 67% and 80% (p = 0.07), respectively, and 3-year local recurrence-free survival rate was 86% and 94% (p = 0.23) for Group A and B, respectively. Multivariate analysis showed that advanced nodal status and male gender were significantly unfavorable factors for disease-free survival, and Stage II disease was unfavorable for local recurrence-free survival. The administration of adjuvant HDR BRT was not an independent prognostic factor in multivariate analysis. Out of 106 patients, 42 (39.7%) experienced nasal congestion, transient nasal obstruction, and/or fibrinous exudate in response to antihistaminic treatment. Only three (2.8%) patients experienced nasal synechy related, most probably, to the BRT. Five patients developed severe neural complications; only one out of five was observed in Group A. No severe complication attributed directly to BRT was detected.

CONCLUSION

The acute and late morbidity of adjuvant HDR BRT is acceptable with our treatment scheme, but we did not find any local control difference between our patients treated with adjuvant BRT after ERT and ERT alone. We believe that the exact role of adjuvant HDR BRT can be elucidated only by prospective randomized studies.

A treatment planning comparison of 3D conformal therapy, intensity modulated photon therapy and proton therapy for treatment of advanced head and neck tumours

BACKGROUND AND PURPOSE

In this work, the potential benefits and limitations of different treatment techniques, based on mixed photon-electron beams, 3D conformal therapy, intensity modulated photons (IM) and protons (passively scattered and spot scanned), have been assessed using comparative treatment planning methods in a cohort of patients presenting with advanced head and neck tumours.

MATERIAL AND METHODS

Plans for five patients were computed for all modalities using CT scans to delineate target volume (PTV) and organs at risk (OAR) and to predict dose distributions. The prescribed dose to the PTV was 54 Gy, whilst the spinal cord was constrained to a maximum dose of 40.5 Gy for all techniques. Dose volume histograms were used for physical and biological evaluation, which included equivalent uniform dose (EUD) calculations.

RESULTS

Excluding the mixed photon-electron technique, PTV coverage was within the defined limits for all techniques, with protons providing significantly improved dose homogeneity, resulting in correspondingly higher EUD results. For the spinal cord, protons also provided the best sparing with maximum doses as low as 17 Gy. Whilst the IM plans were demonstrated to be significantly superior to non-modulated photon plans, they were found to be inferior to protons for both criteria. A similar result was found for the parotid glands. Although they are partially included in the treated volume there is a clear indication that protons, and to a lesser extent IM photons, could play an important role in preserving organ functionality with a consequent improvement of the patient's quality of life.

CONCLUSIONS

For advanced head and neck tumours, we have demonstrated that the use of IM photons or protons both have the potential to reduce the possibility of spinal cord toxicity. In addition, a substantial reduction of dose to the parotid glands through the use of protons enhances the interest for such a treatment modality in cases of advanced head and neck tumours. However, in terms of target coverage, the use of 3D conformal therapy, although somewhat inferior in quality to protons or IM photons, has been shown to be a reasonable alternative to the more advanced techniques. In contrast, the conventional technique of mixed photon and electron fields has been shown to be inferior to all other techniques for both target coverage and OAR involvement.

Treatment planning and delivery of intensity-modulated radiation therapy for primary nasopharynx cancer

PURPOSE

To implement intensity-modulated radiation therapy (IMRT) for primary nasopharynx cancer and to compare this technique with conventional treatment methods.

METHODS AND MATERIALS

Between May 1998 and June 2000, 23 patients with primary nasopharynx cancer were treated with IMRT delivered with dynamic multileaf collimation. Treatments were designed using an inverse planning algorithm, which accepts dose and dose-volume constraints for targets and normal structures. The IMRT plan was compared with a traditional plan consisting of phased lateral fields and a three-dimensional (3D) plan consisting of a combination of lateral fields and a 3D conformal plan.

RESULTS

Mean planning target volume (PTV) dose increased from 67.9 Gy with the traditional plan, to 74.6 Gy and 77.3 Gy with the 3D and IMRT plans, respectively. PTV coverage improved in the parapharyngeal region, the skull base, and the medial aspects of the nodal volumes using IMRT and doses to all normal structures decreased compared to the other treatment approaches. Average maximum cord dose decreased from 49 Gy with the traditional plan, to 44 Gy with the 3D plan and 34.5 Gy with IMRT. With the IMRT plan, the volume of mandible and temporal lobes receiving more than 60 Gy decreased by 10-15% compared to the traditional and 3D plans. The mean parotid gland dose decreased with IMRT, although it was not low enough to preserve salivary function.

CONCLUSION

Lower normal tissue doses and improved target coverage, primarily in the retropharynx, skull base, and nodal regions, were achieved using IMRT. IMRT could potentially improve locoregional control and toxicity at current dose levels or facilitate dose escalation to further enhance locoregional control.

Three-dimensional dosimetric evaluation of a conventional radiotherapy technique for treatment of nasopharyngeal carcinoma

BACKGROUND AND PURPOSE

The aim of this study is to evaluate and delineate the deficiencies in conventional two-dimensional (2-D) radiotherapy planning of nasopharyngeal carcinoma (NPC) treatment and to explore the means for improvement of the existing treatment technique aiming at enhancing local tumor control and reducing treatment complications.

METHODS AND MATERIALS

Ten patients with NPC sparing the skull base and without intracranial extension or cranial nerve(s) palsy were chosen in the present study. Two sets of CT images for Phases I and II of the radiotherapy treatment were taken with patient immobilized in the flexed-head and the extended-head positions, respectively. Based on the CT images and endoscopic findings, the gross tumor volume (GTV) was defined. The clinical target volume (CTV) circumscribing the GTV was defined according to Ho's (Halnan, K.E. (ed.) Treatment of Cancer. London: Chapman and Hall, 1982. pp. 249-268) description of the organs at risk of tumor infiltration. The planning target volume (PTV) was defined by adding a margin to the CTV which catered for geometrical inaccuracies. The field borders and shields were set at standard distances from certain bony landmarks and were drawn on the simulator radiograph. Data on the beams and shield arrangements were then transferred to the planning computer via a digitizer. By applying 3-D volumetric dose calculation using a commercial three-dimensional (3D) treatment planning computer, the dose-volume-histograms (DVHs) of GTV, CTV, PTV and critical normal organs were generated for both phases of Ho's treatment technique. The same patients were re-planned using a modified Ho's technique which used 3-D beams-eye-view (BEV) in placing the shielding blocks and the same set of DVHs were generated and compared with those obtained from Ho's technique.

RESULTS

The median volumes of GTV, CTV and PTV covered by the 95% isodose in Ho's phase I treatment were around 60%. The dose coverage was unsatisfactory in the superior and inferior and the posterolateral regions. In phase II treatment, the median volume of GTV, CTV and PTV covered by the 95% isodose were 99, 96 and 72%, respectively. Even though the dose coverage of the PTV in both phases of treatment were unsatisfactory, radiotherapy with the original Ho's technique had consistently produced good local control for NPC. However, there is potential room for enhancing the local control further because after modifying Ho's technique by using 3-D BEV customization of the treatment portals, the median volume of the target covered by the 95% isodose was defined as V(95). The V(95) of the PTV during the Phase II treatment was improved by 13%. The 90% of the volume of temporo-mandibular joints and parotid glands were both irradiated to 53 Gy and 43.6 Gy of the total prescribed dose of 66 Gy, respectively, in phase I and II treatments. With the addition of a hypothalamus-pituitary shield to Ho's technique, 50% of the volume of optic chiasma and temporal lobes received, respectively, 19.3 Gy and 4.5 Gy. However, small volume of the temporal lobes received a maximum dose (D(max)) of 62.8 Gy (95.2% of 66Gy). Most of the brainstem was shielded from the lateral portals but 5% of its volume received a dose ranging from 25.4 to 50.4Gy. The spinal cord (at C1/C2 level) received a D(max) of 40.8 Gy in phase I and of 4.8 Gy in phase II. After modifying Ho's technique by 3-D BEV customization of the treatment portals, the D(max) to the brainstem, the optic chiasma and the temporal lobes could be reduced by 8, 12 and 5%, respectively.

CONCLUSIONS

Our study indicated that the dose-coverage of the PTV in Ho's radiotherapy technique for the early T-stage NPC was less than satisfactory in the superior and inferior and the posterolateral regions. However, in view of the excellent historical local tumor control with Ho's technique, we have to postulate that the present definition of CTV (and hence the PTV after adding margins to the CTV) lacks clinical significance and can be improved. It appears that the inclusion of the entire sphenoid sinus floor and both medial and lateral pterygoid muscles in the CTV is not necessary for maximal tumor control in the absence of clinical/radiological evidence of tumor infiltration of these organs. Ho's technique can be improved by using 3-D BEV to customize the treatment portals with multileaf collimators or blocks.

Comparison of treatment plans involving intensity-modulated radiotherapy for nasopharyngeal carcinoma

PURPOSE

To compare intensity-modulated radiotherapy (IMRT) treatment plans with conventional treatment plans for a case of locally advanced nasopharyngeal carcinoma.

METHODS AND MATERIALS

The study case was planned using two types of IMRT techniques, as well as a three-dimensional conformal radiotherapy technique (3D-CRT), and a traditional treatment method using bilateral opposing fields. These four plans were compared with respect to dose conformality, dose-volume histogram (DVH), dose to the sensitive normal tissue structures, and ease of treatment delivery.

RESULTS

The planned dose distributions were more conformal to the tumor target volume in the IMRT plans than those in the conventional plans. With similar dose coverage of the clinical target volume (CTV), defined as delivery of minimum of 60 Gy to >/= 95% of CTV, the IMRT plans achieved better sensitive normal tissue structure sparing, while concomitantly delivering a minimum dose of 68 Gy to >/= 95% of the gross tumor volume (GTV) at a higher dose per fraction.

CONCLUSIONS

Compared to conventional techniques, IMRT techniques provide improved tumor target coverage with significantly better sparing of sensitive normal tissue structures in the treatment of locally advanced nasopharyngeal carcinoma. With improvement of the delivery efficiency, IMRT should provide the optimal treatment for all nasopharyngeal carcinoma. Further studies are needed to establish the true clinical advantage of this new modality.

Critical appraisal of a conformal head and neck cancer irradiation avoiding electron beams and field matching

PURPOSE

In head and neck cancer patients, spinal chains are usually irradiated by a combination of photon and electron beams, requiring high precision in field matching. This study compares a conventional treatment approach where two lateral photon beams are combined to direct electron fields, to a conformal radiotherapy based on five photon fields, covering the whole neck.

METHODS AND MATERIALS

A comparative analysis of dose distributions and dose-volume histograms was carried out in patients with locally advanced head and neck tumors, for which planning target volumes (PTV) were outlined from the base of the skull down to the supraclavicular region. The prescribed dose to PTV (excluding booster irradiation) was 54 Gy, with spinal dose constraint not exceeding 75% of the total dose, whatever the technique.

RESULTS

For the new five-field technique, minimum and maximum point doses showed mean deviations, on five patients entered in the study, of 84% and 113% from the ICRU prescription point. In the conventional treatment, the corresponding figures were 73% and 112%, respectively. A positioning error analysis (isocenter displacement of 2 mm, in all directions) did not elicit any systematic difference in five-field treatment plans while hot spots were found with electron fields.

CONCLUSIONS

The five-field technique appears routinely feasible and compares favorably with the conventional mixed photon- and electron-therapy approach, especially in regard to its better compliance with dose homogeneity requirements and a reduced risk in dose inhomogeneity related to field matching and patient positioning.

[Conformal radiotherapy in cancer of the upper aerodigestive tract]

The outcome of head and neck malignancies is closely related to the achievement of local tumor control. The occurrence of severe late complications is the consequence of the anatomic vicinity between dose-limiting normal tissues and the tumor, thus reducing the curative potential of radiotherapy. Conformal radiotherapy is presently actively investigated as a way to improve the dose distribution in head and neck malignancies (especially when originating from the nasopharynx or the sinuses) while protecting healthy organs. Such an approach requires a chain of sophisticated procedures, including efficient quality assurance programs, in order to achieve the proper degree of safety. The relatively limited clinical studies published to-date have already confirmed the advantage of conformal radiotherapy in terms of dose delivery. The development of beam intensity modulation is likely to further contribute to the improvement of the therapeutic ratio.

Comprehensive irradiation of head and neck cancer using conformal multisegmental fields: assessment of target coverage and noninvolved tissue sparing

PURPOSE

Conformal treatment using static multisegmental intensity modulation was developed for patients requiring comprehensive irradiation for head and neck cancer. The major aim is sparing major salivary gland function while adequately treating the targets. To assess the adequacy of the conformal plans regarding target coverage and dose homogeneity, they were compared with standard irradiation plans.

METHODS AND MATERIALS

Fifteen patients with stage III/IV head and neck cancer requiring comprehensive, bilateral neck irradiation participated in this study. CT-based treatment plans included five to six nonopposed fields, each having two to four in-field segments. Fields and segments were devised using beam's eye views of the planning target volumes (PTVs), noninvolved organs, and isodose surfaces, to achieve homogeneous dose distribution that encompassed the targets and spared major salivary gland tissue. For comparison, standard three-field radiation plans were devised retrospectively for each patient, with the same CT-derived targets used for the clinical (conformal) plans. Saliva flow rates from each major salivary gland were measured before and periodically after treatment.

RESULTS

On average, the minimal dose to the primary PTVs in the conformal plans [95.2% of the prescribed dose, standard deviation (SD) 4%] was higher than in the standard plans (91%, SD 7%; p = 0.02), and target volumes receiving <95% or <90% of the prescribed dose were smaller in the conformal plans (p = 0.004 and 0.02, respectively). Similar advantages of the conformal plans compared to standard plans were found in ipsilateral jugular nodes PTV coverage. The reason for underdosing in the standard treatment plans was primarily failure of electron beams to fully encompass targets. No significant differences were found in contralateral jugular or posterior neck nodes coverage. The minimal dose to the retropharyngeal nodes was higher in the standard plans. However, all conformal plans achieved the planning goal of delivering 50 Gy to these nodes. In the conformal plans, the magnitude and volumes of high doses in noninvolved tissue were significantly reduced. The main reasons for hot spots in the standard plans (whose dose calculations included missing tissue compensators) were photon/electron match line inhomogeneities, which were avoided in the conformal plans. The mean doses to all the major salivary glands, notably the contralateral parotid (receiving on average 32% of the prescribed dose, SD 7%) were significantly lower in the conformal plans compared with standard radiation plans. The mean dose to the noninvolved oral cavity tended to be lower in the conformal plans (p = 0.07). One to 3 months after radiation, on average 60% (SD 49%) of the preradiation saliva flow rate was retained in the contralateral parotid glands and 10% (SD 16%) was retained in the submandibular/sublingual glands.

CONCLUSIONS

Planning and delivery of comprehensive irradiation for head and neck cancer using static, multisegmental intensity modulation are feasible. Target coverage has not been compromised and dose distributions in noninvolved tissue are favorable compared with standard radiation. Substantial major salivary gland function can be retained.

Reduction of radiation-induced xerostomia in nasopharyngeal carcinoma using CT simulation with laser patient marking and three-field irradiation technique

PURPOSE

Tumor control and reduction of postirradiation xerostomia in patients with nasopharyngeal carcinoma (NPC) using the three-field irradiation technique based on the CT-based simulation with laser patient marking was investigated.

METHODS AND MATERIALS

Seventy-eight patients with NPC were consecutively treated between 1983 and 1993. In 33 patients treated before 1987, target volume was determined using a conventional x-ray simulator with a reference of CT images, and the primary site was treated by the conventional parallel-opposed two-field technique (Group I). In 45 patients treated from 1987, target volume was determined using a CT simulator slice by slice, the treatment field was projected onto the patient's skin by a laser beam projector mounted on a C-arm, and the primary site was irradiated by a three-fields (anterior and bilateral) technique (Group II). In Group II, the shape of each field was determined using a beam's eye view to reduce the dose to the bilateral parotid glands. The three-field technique reduced the dose to the superficial lobe of parotid gland to about two-thirds of the dose given by the two-field technique. Radiation-induced xerostomia was evaluated by clinical symptoms and radioisotope sialography.

RESULTS

The 5-year survival rate and disease-free survival rate were 46.6 and 31.2% in Group I, and 46.8 and 46.5% in Group II. A large variation in the volume of parotid glands were demonstrated, ranging from 9 cm3 to 61 cm3 among patients treated with CT simulation. Forty percent of the patients in Group II showed no or mild xerostomia, whereas all of the patients in Group I showed moderate to severe xerostomia (p < 0.01). The radioisotope sialography study showed that the mean secretion ratio by acid stimulation was improved from 3.8% in the Group I to 15.2% in the Group II (p < 0.01).

CONCLUSIONS

CT simulation was useful to determine the size and shape of each field to reduce the dose to the parotid gland, of which size varies largely among individual patients. The three-field technique based on CT simulation with laser patient markings is suggested to result in superior complication-free survival in terms of salivary dysfunction than did the conventional two-field technique with x-ray simulatior for NPC.

Tumor control probability of nasopharyngeal carcinoma: a comparison of different mathematical models

PURPOSE

Radiation dose and tumor volume are factors known to affect the local control of a given type of tumor. Local tumor control is a major factor to consider when a treatment plan is evaluated. This article reports the correlation between tumor control probability, dose, and volume in a retrospective study of 142 patients with nasopharyngeal carcinoma (NPC).

METHODS AND MATERIALS

The tumor volume was outlined and calculated from a computed tomographic scan. Patients were categorized according to tumor volume and radiation dose received in treatment. Local control rate was calculated for each category by the Kaplan-Meier method. Mathematical models were fitted to correlate the local control rate, dose, and volume. Both empirical and mechanistic approaches were attempted; the former included logistic models with two and three parameters, and the latter, the formulation from Brenner and Bentzen with a radiobiological basis.

RESULTS

Brenner's model estimated alpha at 0.041 Gy(-1) with 95% confidence limits (-0.032, 0.113) Gy(-1). The volume dependent constant h was estimated at 0.160 cm(-3) with 95% confidence limits (-0.729, 1.048) cm(-3). The Pearson correlation coefficient was 0.64. The magnitude and sign of the fitted parameters were reasonable and consistent with reported clinical experience. The other models were fitted with slightly better goodness of fit (r = 0.65 - 0.68), but with less interpretable parameters.

CONCLUSION

Brenner's model is considered appropriate for a description of the dose and volume effect on the local control of the NPC. It could be used in combination with normal tissue complication probability for treatment plan evaluation to optimize treatment results.

Head and neck cancer

This synthesis of the literature on radiotherapy for head and neck cancer is based on 424 scientific articles, including 3 meta-analyses, 38 randomized studies, 45 prospective studies, and 246 retrospective studies. These studies involve 79174 patients. The literature review shows that radiotherapy, either alone or in combination with surgery, plays an essential role in treating head and neck cancers. When tumors are localized, many tumor patients can be cured by radiotherapy alone and thereby maintain full organ function (1, 2). Current technical advancements in radiotherapy offer the potential for better local tumor control with lower morbidity (3). This, however, will require more sophisticated dose planning resources. To further improve treatment results for advanced tumors, other fractionation schedules, mainly hyperfractionation, should be introduced (5). This mainly increases the demands on staff resources for radiotherapy. The combination of radiotherapy and chemotherapy should be subjected to further controlled studies involving a sufficiently large number of patients (4, 5). Interstitial treatment (in the hands of experienced radiotherapists) yields good results for selected cancers. The method should be more generally accessible in Sweden. Intraoperative radiotherapy should be targeted for further study and development.

Dose-volume histograms

A plot of a cumulative dose-volume frequency distribution, commonly known as a dose-volume histogram (DVH), graphically summarizes the simulated radiation distribution within a volume of interest of a patient which would result from a proposed radiation treatment plan. DVHs show promise as tools for comparing rival treatment plans for a specific patient by clearly presenting the uniformity of dose in the target volume and any hot spots in adjacent normal organs or tissues. However, because of the loss of positional information in the volume(s) under consideration, it should not be the sole criterion for plan evaluation. DVHs can also be used as input data to estimate tumor control probability (TCP) and normal tissue complication probability (NTCP). The sensitivity of TCP and NTCP calculations to small changes in the DVH shape points to the need for an accurate method for computing DVHs. We present a discussion of the methodology for generating and plotting the DVHs, some caveats, limitations on their use and the general experience of four hospitals using DVHs.

Numerical scoring of treatment plans

This is a report on numerical scoring techniques developed for the evaluation of treatment plans as part of a four-institution study of the role of 3-D planning in high energy external beam photon therapy. A formal evaluation process was developed in which plans were assessed by a clinician who displayed dose distributions in transverse, sagittal, coronal, and arbitrary oblique planes, viewed dose-volume histograms which summarized dose distributions to target volumes and the normal tissues of interest, and reviewed dose statistics which characterized the volume dose distribution for each plan. In addition, tumor control probabilities were calculated for each biological target volume and normal tissue complication probabilities were calculated for each normal tissue defined in the agreed-upon protocols. To score a plan, the physician assigned a score for each normal tissue to reflect possible complications; for each target volume two separate scores were assigned, one representing the adequacy of tumor coverage, the second the likelihood of a complication. After scoring each target and normal tissue individually, two summary scores were given, one for target coverage, the second reflecting the impact on all normal tissues. Finally, each plan was given an overall rating (which could include a downgrading of the plan if the treatment was judged to be overly complex).