Improvements in diagnosis and local management, as well as
targeted therapy, have led to improvements in quality of life and survival for people with head and neck cancer. After a histologic diagnosis has been established and tumor extent determined, such as with the use of PET-CT, the selection of appropriate treatment for a specific cancer depends on a complex array of variables, including tumor site, relative morbidity of various treatment options, concomitant health problems, social and logistic factors, previous primary tumors, and the person's preference. Treatment planning generally requires a multidisciplinary approach involving specialist surgeons, medical oncologists, and radiation oncologists. Surgical resection and radiation therapy are the mainstays of treatment for most head and neck cancers and remain the standard of care in most cases. For small primary cancers without regional metastases (stage I or II), wide surgical excision alone or curative radiation therapy alone is used. For more extensive primary tumors or those with regional metastases (stage III or IV), planned combinations of pre- or postoperative radiation and complete surgical excision are generally used. More recently, as historical survival and control rates have been recognized as less than satisfactory, there has been an emphasis on the use of various induction or concomitant chemotherapy regimens.
Surgery Surgery as a treatment is frequently used for most types of head and neck cancer. Usually, the goal is to remove the cancerous cells entirely. This can be particularly tricky if the cancer is near the
larynx and can result in the person being unable to speak. Surgery is also commonly used to resect (remove) some or all of the cervical lymph nodes to prevent further spread of the disease.
Transoral robotic surgery (TORS) is gaining popularity worldwide as the technology and training become more accessible. It now has an established role in the treatment of early stage oropharyngeal cancer. There is also a growing trend worldwide towards TORS for the surgical treatment of laryngeal and hypopharyngeal tumours.
CO2 laser surgery is also another form of treatment.
Transoral laser microsurgery allows surgeons to remove tumors from the voice box with no external incisions. It also allows access to tumors that are not reachable with robotic surgery. During the surgery, the surgeon and pathologist work together to assess the adequacy of excision ("margin status"), minimizing the amount of normal tissue removed or damaged. This technique helps give the person as much speech and swallowing function as possible after surgery.
Radiation therapy Radiation therapy is the most common form of treatment. There are different forms of radiation therapy, including 3D conformal radiation therapy, intensity-modulated radiation therapy,
particle beam therapy, and brachytherapy, which are commonly used in the treatment of cancers of the head and neck. Most people with head and neck cancer who are treated in the United States and Europe are treated with intensity-modulated radiation therapy using high-energy photons. At higher doses, head and neck radiation is associated with
thyroid dysfunction and
pituitary axis dysfunction. Radiation therapy for head and neck cancers can also cause acute skin reactions of varying severity, which can be treated and managed with topically applied creams or specialist films.
Chemotherapy Chemotherapy for throat cancer is not generally used to
cure the cancer as such. Instead, it is used to provide an inhospitable environment for metastases so that they will not establish themselves in other parts of the body. Typical chemotherapy agents are a combination of
paclitaxel and
carboplatin.
Cetuximab is also used in the treatment of throat cancer.
Docetaxel-based chemotherapy has shown a very good response in locally advanced head and neck cancer. Docetaxel is the only
taxane approved by the FDA for head and neck cancer, in combination with cisplatin and fluorouracil for the induction treatment of inoperable, locally advanced head and neck cancer. While not specifically a chemotherapy,
amifostine is often administered
intravenously by a chemotherapy clinic prior to
IMRT radiotherapy sessions. Amifostine protects the gums and
salivary glands from the effects of radiation. There is no evidence that
erythropoietin should be routinely given with radiotherapy.
Photodynamic therapy Photodynamic therapy may have promise for treating mucosal dysplasia and small head and neck tumors.
Targeted therapy Targeted therapy, according to the
National Cancer Institute, is "a type of treatment that uses drugs or other substances, such as monoclonal antibodies, to identify and attack specific cancer cells without harming normal cells." Some
targeted therapies used in head and neck cancers include
cetuximab,
bevacizumab, and
erlotinib.
Cetuximab is used for treating people with advanced-stage cancer who cannot be treated with conventional chemotherapy (
cisplatin). However, cetuximab's efficacy is still under investigation by researchers.
Gendicine is a
gene therapy that employs an
adenovirus to deliver the
tumor suppressor gene p53 to cells. It was approved in China in 2003 for the treatment of head and neck cancer. The mutational profiles of
HPV+ and HPV- head and neck cancer have been reported, further demonstrating that they are fundamentally distinct diseases.
Immunotherapy Immunotherapy is a type of treatment that activates the immune system to fight cancer. One type of immunotherapy, immune checkpoint blockade, binds to and blocks inhibitory signals on immune cells to release their anti-cancer activities. In 2016, the FDA granted accelerated approval to
pembrolizumab for the treatment of people with recurrent or metastatic head and neck cancer with disease progression on or after platinum-containing chemotherapy. Later that year, the FDA approved
nivolumab for the treatment of recurrent or metastatic head and neck cancer with disease progression on or after platinum-based chemotherapy. In 2019, the FDA approved
pembrolizumab for the first-line treatment of metastatic or unresectable recurrent head and neck cancer.
Treatment side effects Depending on the treatment used, people with head and neck cancer may experience various symptoms and treatment side effects depending on the type and site of the treatment used. and these may be among the early presenting symptoms. This might lead to feelings of food sticking in the throat, food and drink going down the wrong way (
aspiration), taking a long time to chew and swallow food, a change in taste or appetite, and overall changes in enjoyment of eating and drinking. Surgery results in changes to anatomy, altering the function and coordination of key structures involved in eating and drinking. Surgery can also result in damage or bruising to nerves needed to move and provide sensation to the muscles involved in swallowing. Following surgery, a person may experience difficulties with chewing, swallowing and jaw opening. Pain, and
oedema can be present after surgery, particularly in the early postoperative period. The severity of swallowing issues after surgery depends on the location of the tumour and the volume of tissue removed. Factors such as age, other pre-existing illnesses (
comorbidity) and having any earlier problems with swallowing will also impact swallow outcomes. Transoral surgical techniques remove tumours with minimal disruption to normal tissue. This is an established technique in the management of oropharyngeal cancer, with the aim to improve long-term swallow outcomes. However, difficulties with swallowing are common in the early period following the surgery. Radiotherapy can lead to inflammation of the mouth or throat (
mucositis), dry mouth (
xerostomia),
osteoradionecrosis,
atrophy. Recent advancements in the way radiotherapy is planned and delivered aim to reduce some of these side effects.
Communication Speech may become slurred, hard to understand, or the voice may become hoarse or weak. The impact on communication depends on the site and size of the tumour and the treatments used. The tumour itself may result in changes to the voice, which may be among the presenting signs and symptoms. Surgery may result in changes to anatomy or neurology such as removal of a structure or damage to nerves. For example, removal of the
larynx (voice box) in a
total laryngectomy or damage to the
vagus nerve during tumour removal leading to
vocal fold paresis or palsy. If surgery affects the
upper jaw bone, then this can also affect the development and resonance of speech sounds, resulting in
hypernasal speech and difficulty in making certain sounds that are dependent on the
velopharyngeal competence.
Dental and
speech prosthetics can sometimes be provided to compensate for these changes, however there is no effective means to restore normal (pre-surgical) speech sounds. Head and neck cancer treatments can lead to changes in the sound of the voice. The impact of surgery on the voice can depend on the size of the resection and subsequent amount of scarring on the vocal folds. Radiotherapy treatment may improve the voice or worsen it, depending on pre-treatment voice function, and the site and dose treatment. This may be short- or long-term depending on the treatment plan.
Upper airway People may experience changes to their breathing from the tumour itself or from side-effects of head and neck cancer treatments. Both surgery and radiotherapy can cause changes in breathing in either the short- or long-term e.g. through a
tracheostomy tube or stoma in the neck (
laryngectomy). The extent of these changes is often dependent on a range of factors including type of surgery, position of the tumour and the individual's tissue response to radiotherapy.
Shoulder dysfunction Surgical neck dissection is the most common component of treatment in both new cancers and in cancers previously treated but with residual neck disease. Shoulder dysfunction is by far the most common side effect after neck dissection. Its symptoms can include shoulder pain, decreased range of motion, and muscle loss. The prevalence of shoulder dysfunction varies based on the type of neck dissection and the diagnostic tools used, but it can occur in as many as 50 to 100% of cases. Problems with shoulder and neck movement can reduce people's abilities to return to work, and nearly half of people with shoulder disability cease working. Some people might be recommended to have
enteral feeding, a method that adds nutrients directly into a person's stomach using a
nasogastric feeding tube or a
gastrostomy tube. The type of tube used and when it is placed is decided on a case-by-case basis with guidance from the treating team. However, for people undergoing radiotherapy or chemotherapy, it is not yet known what the most effective method and timing of enteral feeding is for staying nourished during treatment. Chemotherapy can lead to taste changes,
nausea and vomiting. It can deprive the body of vital fluids (although these may be obtained intravenously if necessary). Chemotherapy-induced nausea and vomiting can lead to impaired kidney function,
electrolyte disturbances,
dehydration, malnutrition and
gastrointestinal trauma. It also causes significant psychological distress.
Rehabilitation and long-term care Oral rehabilitation Oral health, dental pain, chewing and swallowing ability remain common long-term concerns of people who have undergone treatment for head and neck cancer, particularly those who have received radiotherapy to the salivary glands and oral structures. People are at increased risk of long-term xerostomia (dry mouth), thicker saliva, dental pain, dental diseases, and
osteoradionecrosis following head and neck cancer treatment involving radiotherapy. Long-term care necessitates
adherence to preventative
oral hygiene protocols including
high fluoride toothpastes,
fluoride varnish, and more frequent dental examinations. The oral rehabilitation process can vary significantly. In some cases it is possible to provide individuals with dental prostheses within weeks, however this can also take several years. It is important that all people with head and neck cancer receive a specialist dental assessment (
restorative dentistry) prior to the start of treatment, particularly if radiotherapy is planned. The purpose of this assessment is to facilitate an improvement in oral health prior to the start of cancer therapies and thus minimise the risk of long-term side effects such as osteoradionecrosis.
Speech, voice and swallow function Rehabilitation targeting changes to speech, voice and swallowing aims to optimise function and help manage long-term effects. Rehabilitation can consist of therapy exercises and compensation strategies. Therapy exercises may involve muscle strengthening exercises e.g. for the tongue or
larynx (voice box), while compensation strategies can involve texture modification or changes to head postures when swallowing. Swallowing rehabilitation may integrate several therapies using training devices, proactive therapies and intensive bootcamp programmes. Early intervention promoting mobilisation of the swallowing muscles is likely to improve effectiveness.
Radiation-induced side effects Radiotherapy can cause delayed
tissue fibrosis, lower cranial neuropathy and osteoradionecrosis of bones included in the fields of radiation. These late changes affect the functions of swallowing, speech, voice, breathing and mouth-opening (
trismus) often necessitating placement of a feeding tube and/or
tracheostomy. Symptoms usually present gradually, years after treatment though there is no agreed definition. Several risk factors have been identified (e.g. tumour site, gender, tumour stage), but the evidence base is conflicting. Reducing the radiotherapy dose to structures critical to swallowing function may improve function in the longer-term. Treatment options for late radiation-associated
dysphagia are limited. Some, more severely affected patients, choose to undergo a functional
laryngectomy which can improve how they feel about swallowing and communication and can facilitate
tracheosophageal speech and removal of feeding tubes though outcomes are variable.
Psychosocial Programs to support the emotional and social well-being of people who have been diagnosed with head and neck cancer may be offered. There is no clear evidence on the effectiveness of these interventions or any particular type of psychosocial program or length of time that is most helpful for those with head and neck cancer. ==Prognosis==