A Nine-Year-Old Child with Nasopharyngeal Cancer Treated with Concomitant Chemoradiotherapy with Cisplatin – A Case Report

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INTRODUCTION
[3] Despite its rarity, NPC poses significant challenges in diagnosis and management due to its association with a multitude of etiological factors.These factors include infectious mononucleosis, Epstein-Barr virus infection, consumption of foods rich in nitrosamines, and various genetic and epigenetic influences that remain poorly understood. [1,4,5]Notably, NPC is particularly uncommon in children under the age of ten, further complicating a timely diagnosis.Consequently, many patients experience delayed diagnosis, leading to local-regional spread of the disease. [6]Complications may arise as the cancer progresses, such as infiltration into the base of the skull potentially resulting in cranial nerve palsy.
Additionally, facial muscle paralysis or difficulty in jaw movement may manifest, underscoring the severity of NPC in pediatric patients.Understanding the unique characteristics and challenges associated with pediatric NPC is crucial for early detection and effective management strategies.The use of optimal modern radiotherapy techniques helps to achieve a much higher dose of rain tumors and preserve the function and structure of normal organs and tissues adjacent to the tumor.This is of utmost importance to achieve long-term local tumor control, especially in children, where the surrounding healthy tissue must be maximally protected to avoid long-term radiation side effects.

CASE REPORT
A nine-year-old patient started treatment based on SIOPE nasopharyngeal carcinoma in children and adolescents (final version V.9) with induction neoadjuvant chemotherapy regimens in the pediatric oncology department.The regimens

5-fluoracil at a dose of 1000 mg/5 days, and on the first day of this regimen 100 mg of cisplatin IV. After this induction therapy, we started radiotherapy with a concomitant weekly infusion of 34.5 mg of cisplatin. Volume-modulated arc therapy (VMAT) technique was used on Elekta Infinity
LINAC.The plan included one whole arc, which started from 180 to 360 degrees of turning (Fig. 1).The daily fraction was 1.8 Gy per day, or 725.2 monitor units (MU), and a total dose of 48.6 Gy to the nasopharynx plus bilateral cervical lymph nodes, plus an integrated simultaneous boost of 2.2 Gy to a total of 59.4 Gy in a nasopharyngeal tumor.The dose in critical organs is within tolerance and meets international protocols (Fig. 2).No early or late radiation side effects were observed.Every day, the position of the patient was checked with a cone beam computer tomograph.When radiotherapy was complete, the patient continued treatment with interferon beta-1a.

RESULTS
Following the completion of therapy, comprehensive imaging assessments were conducted to evaluate the treat-ment response.One-month post-therapy MRI imaging revealed a persistent tumor mass with reduced dimensions (27/15 mm), notable for the absence of contrast enhancement, water diffusion restriction, or lymphadenopathy.Subsequent imaging with CT of the head, neck, and thorax performed three months post-radiotherapy did not indicate any signs of disease progression.Notably, at the fourth and sixth months following concomitant chemoradiotherapy, repeat MRI scans demonstrated stable disease without evidence of water diffusion restriction, indicating a positive response to treatment (Fig. 3).These results suggest favorable tumor control and therapeutic efficacy, highlighting the effectiveness of the multimodal approach in managing pediatric NPC.Continued surveillance and monitoring are essential to assess long-term treatment outcomes and ensure disease stability in this challenging patient population.

CONCLUSION
In the pediatric age group, NPC is an exceedingly rare clinical entity, often presenting with advanced loco-regional disease if diagnosed at a late stage. [7]10][11] Concomitant chemoradiotherapy has shown promise in managing NPC, particularly when employing advanced techniques such as VMAT to precisely target tumor sites while sparing healthy tissues and organs at risk.However, the administration of high doses of radiation poses a significant risk of toxicity, especially in pediatric patients, necessitating careful dose modulation.Strategies such as reducing radiation doses to the nasopharynx through neo-adjuvant or concomitant chemotherapy have been explored to mitigate late toxicity while maintaining effective local tumor control.This comprehensive approach underscores the importance of tailored treatment regimens in pediatric NPC to optimize outcomes while minimizing treatment-related morbidity.Continued research and clinical advancements are imperative to further refine therapeutic strategies and improve the long-term prognosis for children with NPC.

Figure 1 .
Figure 1.Radiotherapy treatment plan with VMAT technique in axial, sagittal and coronal planes. included

Folia
Medica I 2024 I Vol.66 I No. 3