Treatment for lung cancer depends on the cancer's specific cell type, how far it has
spread, and the person's health. Common treatments for early stage cancer includes
surgical removal of the tumor,
chemotherapy, and
radiation therapy. For later-stage cancer, chemotherapy and radiation therapy are combined with newer
targeted molecular therapies and
immune checkpoint inhibitors. All lung cancer treatment regimens are combined with lifestyle changes and
palliative care to improve quality of life.
Small-cell lung cancer Limited-stage SCLC is typically treated with a combination of chemotherapy and radiotherapy. For chemotherapy, the
National Comprehensive Cancer Network and
American College of Chest Physicians guidelines recommend four to six cycles of a
platinum-based chemotherapeutic –
cisplatin or
carboplatin – combined with either
etoposide or
irinotecan. This is typically combined with thoracic radiation therapy – 45
Gray (Gy) twice-daily – alongside the first two chemotherapy cycles. First-line therapy causes remission in up to 80% of those who receive it; however most people relapse with chemotherapy-resistant disease. Those who relapse are given second-line chemotherapies.
Topotecan and
lurbinectedin are approved by the US
FDA for this purpose. Irinotecan,
paclitaxel,
docetaxel,
vinorelbine, etoposide, and
gemcitabine are also sometimes used, and are similarly efficacious.
Prophylactic cranial irradiation can reduce the risk of brain metastases and improve survival in those with limited-stage disease. Extensive-stage SCLC is treated first with etoposide along with either cisplatin or carboplatin. Radiotherapy is used only to shrink tumors that are causing particularly severe symptoms. Combining standard chemotherapy with an
immune checkpoint inhibitor can improve survival for a minority of those affected, extending the average person's lifespan by around 2 months.
Non-small-cell lung cancer For stage I and stage II, NSCLC the first line of treatment is often surgical removal of the affected lobe of the lung. For those not well enough to tolerate full lobe removal, a smaller chunk of lung tissue can be removed by
wedge resection or
segmentectomy surgery. Those with centrally located tumors and otherwise-healthy respiratory systems may have more extreme surgery to remove an entire lung (
pneumonectomy). Experienced
thoracic surgeons, and a high-volume surgery clinic improve chances of survival. Those who are unable or unwilling to undergo surgery can instead receive radiation therapy.
Stereotactic body radiation therapy is best practice, typically administered several times over 1–2 weeks. Chemotherapy has little effect in those with stage I NSCLC, and may worsen disease outcomes in those with the earliest disease. In those with stage II disease, chemotherapy is usually initiated six to twelve weeks after surgery, with up to four cycles of cisplatin – or
carboplatin in those with kidney problems,
neuropathy, or
hearing impairment – combined with
vinorelbine,
pemetrexed, gemcitabine, or
docetaxel. Treatment for those with stage III NSCLC depends on the nature of their disease. Those with more limited spread may undergo surgery to have the tumor and affected lymph nodes removed, followed by chemotherapy and potentially radiotherapy. Those with particularly large tumors (T4) and those for whom surgery is impractical are treated with combination chemotherapy and radiotherapy along with the
immunotherapy durvalumab. Combined chemotherapy and radiation enhances survival compared to chemotherapy followed by radiation, though the combination therapy comes with harsher side effects. Those with stage IV disease are treated with combinations of pain medication, radiotherapy, immunotherapy, and chemotherapy. Many cases of advanced disease can be treated with targeted therapies depending on the genetic makeup of the cancerous cells. Up to 30% of tumors have mutations in the
EGFR gene that result in an overactive EGFR protein; these can be treated with EGFR inhibitors
osimertinib,
erlotinib,
gefitinib,
afatinib, or
dacomitinib – with osimertinib known to be superior to erlotinib and gefitinib, and all superior to chemotherapy alone. Up to 7% of those with NSCLC harbor mutations that result in hyperactive
ALK protein, which can be treated with
ALK inhibitors
crizotinib, or its successors
alectinib,
brigatinib, and
ceritinib. Those treated with ALK inhibitors who relapse can then be treated with the third-generation ALK inhibitor
lorlatinib. Up to 5% with NSCLC have overactive
MET, which can be inhibited with
MET inhibitors capmatinib or
tepotinib. Targeted therapies are also available for some cancers with rare mutations. Cancers with hyperactive
BRAF (around 2% of NSCLC) can be treated by
dabrafenib combined with the
MEK inhibitor trametinib; those with activated
ROS1 (around 1% of NSCLC) can be inhibited by crizotinib, lorlatinib, or
entrectinib; overactive
NTRK (<1% of NSCLC) by entrectinib or
larotrectinib; active
RET (around 1% of NSCLC) by
selpercatinib. People whose NSCLC is not targetable by current molecular therapies instead can be treated with combination chemotherapy plus immune checkpoint inhibitors, which prevent cancer cells from inactivating immune
T cells. The chemotherapeutic agent of choice depends on the NSCLC subtype: cisplatin plus gemcitabine for squamous cell carcinoma, cisplatin plus pemetrexed for non-squamous cell carcinoma. Immune checkpoint inhibitors are most effective against tumors that express the protein
PD-L1, but are sometimes effective in those that do not. Treatment with
pembrolizumab,
atezolizumab, or combination
nivolumab plus
ipilimumab are all superior to chemotherapy alone against tumors expressing PD-L1. Those who relapse on the above are treated with second-line chemotherapeutics
docetaxel and
ramucirumab.
Palliative care (internal radiotherapy) for lung cancer given via the airway Integrating palliative care (medical care focused on improving symptoms and lessening discomfort) into lung cancer treatment from the time of diagnosis improves the survival time and quality of life of those with lung cancer. Particularly common symptoms of lung cancer are shortness of breath and pain. Supplemental oxygen, improved airflow, re-orienting an affected person in bed, and low-dose
morphine can all improve shortness of breath. In around 20 to 30% of those with lung cancer – particularly those with late-stage disease – growth of the tumor can
narrow or block the airway, causing coughing and difficulty breathing. Obstructing tumors can be surgically removed where possible, though typically those with airway obstruction are not well enough for surgery. In such cases the American College of Chest Physicians recommends opening the airway by inserting a
stent, attempting to shrink the tumor with localized radiation (
brachytherapy), or physically removing the blocking tissue by bronchoscopy, sometimes aided by thermal or
laser ablation. Other causes of lung cancer-associated shortness of breath can be treated directly, such as
antibiotics for a lung infection,
diuretics for
pulmonary edema,
benzodiazepines for anxiety, and
steroids for airway obstruction. Up to 92% of those with lung cancer report pain, either from tissue damage at the tumor site(s) or nerve damage. The
World Health Organization (WHO) has developed a three-tiered system for managing cancer pain. For those with mild pain (tier one), the WHO recommends
acetominophen or a
nonsteroidal anti-inflammatory drug. Around a third of people experience moderate (tier two) or severe (tier three) pain, for which the WHO recommends opioid painkillers. Opioids are typically effective at easing
nociceptive pain (pain caused by damage to various body tissues). Opioids are occasionally effective at easing
neuropathic pain (pain caused by nerve damage). Neuropathic agents such as
anticonvulsants,
tricyclic antidepressants, and
serotonin–norepinephrine reuptake inhibitors, are often used to ease neuropathic pain, either alone or in combination with opioids. In many cases, targeted radiotherapy can be used to shrink tumors, reducing pain and other symptoms caused by tumor growth. Individuals who have advanced disease and are approaching end-of-life can benefit from dedicated
end-of-life care to manage symptoms and ease suffering. As in earlier disease, pain and difficulty breathing are common, and can be managed with opioid pain medications, transitioning from oral medication to injected medication if the affected individual loses the ability to swallow. Coughing is also common, and can be managed with opioids or
cough suppressants. Some experience terminal delirium – confused behavior, unexplained movements, or a reversal of the sleep-wake cycle – which can be managed by antipsychotic drugs, low-dose sedatives, and investigating other causes of discomfort such as
low blood sugar,
constipation, and
sepsis. In the last few days of life, many develop
terminal secretions – pooled fluid in the airways that can cause a rattling sound while breathing. This is thought not to cause respiratory problems, but can distress family members and caregivers. Terminal secretions can be reduced by
anticholinergic medications. Even those who are non-communicative or have reduced consciousness may be able to experience cancer-related pain, so pain medications are typically continued until the time of death. ==Prognosis==