Abstract
Hepatocellular carcinoma (HCC) remains the most common primary liver malignancy. Pain comprises one of the most pervasive and troubling symptoms of HCC and may have severely negative effects on patient’s quality of life. Furthermore, because HCC frequently arises in the setting of cirrhosis, treating pain related to this malignancy poses a clinical challenge. This article summarizes manifestations of hepatocellular cancer pain, common obstacles to treatment, and practical HCC pain management.
Introduction
Hepatocellular carcinoma (HCC) has become an increasingly threatening malignancy with regard to both morbidity and mortality. It is responsible for the third greatest number of cancerous deaths worldwide.Citation1 Patients who are diagnosed with late-stage HCC, have co-morbid liver diseases, or receive certain loco-regional therapies (LRTs) may suffer great reduction in health-related quality of life (HRQoL).Citation2 Interviews with HCC patients revealed fatigue, diarrhea, skin toxicities, and appetite diminishment as key factors affecting the quality of life. Most notably, nine of the 10 patients queried also reported pain, assigning it an important ranking of ≥8 on a 0–10 scale. Pain has long been a significant concern for HCC patients and their clinicians; it may manifest as abdominal pain, metastatic bone pain, or in some cases, pain related to LRT.Citation3,Citation4 More than 80% of patients who develop HCC have underlying liver disease or cirrhosis,Citation5 creating special challenges for pain management. Impaired hepatic function must be taken into account when administering pain medication since most traditional analgesics are metabolized in the liver, and normal doses or dosing frequency can precipitate negative side effects such as hepatic encephalopathy and somnolence.Citation6 Procedure-based pain control, especially for patients whose HCC has metastasized beyond the liver, has also been explored.Citation7–Citation9,Citation11,Citation22–Citation24
In the current review, we attempt to summarize known types of pain associated with HCC, challenges associated with pain treatment, and established and experimental methods for pain treatment. Previous research has demonstrated that HCC patients presenting with pain experience worse outcomes than patients presenting without pain.Citation10 A more thorough understanding of the pain caused by hepatocellular cancer and appropriate methods to treat it may thus not only improve patient’s HRQoL but also improve patient’s prognoses.
Pain classifications
Right upper quadrant abdominal pain is one of the most commonly reported symptoms for patients with HCC. The pain can be parietal – due to visceral lining inflammation – or visceral.Citation4 In either case, abdominal pain is caused principally by visceral encroachment of the primary or metastatic lesion. Recent advances in the understanding of cancer pain increasingly suggest that it may be a distinct entity among other pain states.Citation12 It is now thought that the biology of pain precipitated by tumor invasion is defined by cross-talk processes between the immune system and central and peripheral nervous systems and neoplastic cells. However, the relative contribution of this pathophysiology to overall cancer pain is still unknown. Additionally, contemporary data demonstrate that adverse structural and functional changes in the peripheral and central nervous systems may cause patients experiencing chronic abdominal pain to suffer increased pain perception.Citation11 Peripheral inflammation and recurrent acute pain contribute to visceral hypersensitivity. At the level of the central nervous system, recurrent acute pain contributes to hyperexcitability in pain-associated brain areas by creating synaptic connections and strengthening existing connections.
Although rarer, ~3–20% of patients experience HCC that metastasizes to the bone.Citation7 These patients often report severe nociceptive pain. Cancer-induced bone pain (CIBP) represents an intricate pain state with nociceptive, inflammatory, and neuropathic characteristics.Citation12 Rather than degrading bone directly, cancerous cells provoke osteoclast activation. The acidic environment between osteoclast and bone activates bone sensory neurons via acid-sensing ion channels (ASICs) and transient receptor potential vanilloid receptor 1 (TRPV1), thereby producing bone pain. Cancer cell secretion of chemical mediators (such as prostaglandins and NGF) that can stimulate or sensitize bone nociceptors and compression of sensory nerve fibers by invading tumors also contributes to CIBP.
In an unusual case, a 69-year-old man reporting left pleuritic chest pain was found to have HCC.Citation13 Though uncommon, this incidence serves as a reminder that extrahepatic spread of HCC to regions such as the lungs, lymph nodes, skeletal system, and gastrointestinal system may lead to unexpected pain manifestation.
Patients also commonly experience treatment-related pain. Many HCC patients treated with transarterial chemoembolization (TACE) experience postembolization syndrome, characterized by abdominal pain, fever, nausea, and vomiting.Citation3 They may also experience pain during the procedure. Benzakoun et alCitation14 found that for patients receiving selective TACE, severe postprocedural pain was associated with an age of ≤55 years, the absence of underlying chronic liver disease, and the administration of a doxorubicin dose of >50% of the total theoretical dose during the TACE procedure. For patients whose HCC is in its early stages, radiofrequency ablation (RFA) and microwave ablation are the commonly used LRTs. Postoperative and intraoperative pains are common symptoms of ablative treatments; it has been found that patients who are given general anesthesia as opposed to local anesthesia and who experience more postoperative nausea and vomiting episodes are more susceptible to experiencing intense postoperative pain following RFA.Citation15 Furthermore, a positive association has been found between pain intensity and ablation area.
Irreversible electroporation (IRE) is an alternative nonthermal ablation therapy that has generated excitement due to its ability to surmount some challenges of thermal ablation, such as secondary thermal damage.Citation16 Informal patient and clinician accounts have also purported that IRE causes less procedure-related pain than other LRTs. IRE has been shown to be analogous to RFA in terms of both pain experienced and amount of pain medication self-administered for HCC patients. Given its comparable procedure-related pain levels and its ability to bypass some shortcomings of thermal ablation therapy, clinicians may wish to consider IRE among other LRTs for patients who are at increased risk of procedural or postprocedure pain.
The prevalence of pain symptoms in HCC patients has necessitated the development of effective protocols for pain therapy. These therapies are often either drug based or procedure based. While conventional analgesics are used as part of pharmacotherapy, it is important for clinicians to account for impaired hepatic function when administering treatment in order to avoid adverse events related to pain control.
Pain management and associated challenges
As ~70–90% of HCC patients have cirrhosis, pain management with traditional analgesics in many patients with HCC presents a clinical challenge. Cirrhosis can alter drug pharmacodynamics by affecting changes in drug absorption, distribution, bioavailability, cytochrome P450 metabolism, and hepatic and renal clearance mechanisms.Citation6 Prescription of improper drug classes or failing to closely monitor dosage and dose frequency can cause or worsen variceal hemorrhage, ascites, renal failure, and hepatic encephalopathy or even can precipitate liver failure.
Though nonhepatologists have warily regarded its use in patients with liver disease, acetaminophen is a safe and effective pain reliever as long as the patient does not consume alcohol.Citation17 The Food and Drug Administration lists 4 g of acetaminophen as the maximum daily dose, though most hepatologists advise patients consume a maximum of 2 g/ day. Previous survey data suggest a disparity between gas-troenterologists and nongastroenterologists regarding over-the-counter analgesic clinician recommendations for cirrhotic patients;Citation6 gastroenterologists were more likely to recommend acetaminophen over nonsteroidal anti-inflammatory drugs (NSAIDs), while nongastroenterologists were more likely to recommend the opposite. In practice, NSAIDs are contraindicated for all patients with cirrhosis due to risk for renal failure and gastrointestinal bleeding, even for patients with well-compensated liver disease.Citation17 NSAIDs can also precipitate the development of ascites and nephrotoxicity, particularly in patients with portal hypertension.
Opioids are effective for moderate-to-severe pain but should be used cautiously in patients suffering hepatic impairment. Some opioids must undergo biotransformation in the liver to become active metabolites, which can lead to clinical efficacy variability among those with HCC. The reduced analgesic effect exhibited by both tramadol and codeine can be attributed to these phenomena.Citation6 Conversely, meperidine bioavailability can increase up to 80% in cirrhotic patients due to a diminished first-pass effect and can cause CNS suppression and hepatic encephalopathy.Citation18 Coupled with the risks posed by its neurotoxic metabolite normeperidine, meperidine should be avoided in all patients with cirrhosis. Clinicians may prefer to use opioids metabolized by glucuronidation, such as morphine and buprenorphine, rather than those metabolized by the cytochrome P450 system. Liver failure precipitates decreased clearance of opioids metabolized by the P450 system, thereby increasing their bioavailability. Glucuronidation reactions are altered less since glucuronidases are maintained in the setting of hepatic impairment. In light of this, if physicians choose to use medications metabolized via the P450 pathway, dosage should be modified accordingly. Fentanyl, methadone, and hydromorphone are metabolized by the P450 system and may therefore be safer options for cirrhotic patients since they do not produce toxic metabolites. Codeine is also metabolized via the P450 pathway but should be avoided, as its analgesic effects are considerably diminished and accumulation of its metabolite has been known to cause respiratory depression. All opioids should be administered carefully since they can cause or worsen hepatic encephalopathy. The European Association for the Study of the Liver (EASL) notes administering naltrexone along with opioids may help overcome the increased risk of constipation and hepatic encephalopathy in HCC patients treated with opioids.Citation19 A pure opioid receptor antagonist with greater gastrointestinal rather than systemic activity, naltrexone, has been shown to alleviate these risks in populations susceptible to opioid-induced constipation.
For pain management in opioid-naïve cancer patients in general, the National Comprehensive Cancer Network (NCCN) recommends different routes of treatment based on pain intensity.Citation20 Patients presenting with severe pain (7–10 on a 1–10 scale) should be given rapid titration of short-acting opioids while those presenting with moderate pain (4–6) should be provided slower titration of short-acting opioids. The NCCN recommends morphine as the starting drug of choice, although other pure agonists such as oxycodone, fentanyl, and hydromorphone are also commonly used and equianalgesic doses may be substituted. In addition to achieve quick analgesic effect, these medications are preferable because their short half-lives allow easier titration than long half-life analgesics such as methadone. Mild cancer pain should be treated first with acetaminophen and adjuvant analgesics such as anticonvulsants and antidepressants. If the pain persists, short-acting opioids may be considered. Anticonvulsants such as gabapentin and pregabalin are commonly used to treat neuropathic cancer-related pain; they may be especially helpful in patients with cirrhosis since these patients frequently experience neuropathies caused by factors such as alcoholism, diabetes, and nutritional deficiencies.Citation20,Citation21 Neither gabapentin nor pregabalin is metabolized by the liver, making them the preferred anticonvulsants in the setting of cirrhosis. Antidepressants are also regularly used to treat neuropathic cancer pain. Clinicians wishing to use tricyclic antidepressants (TCAs) should start HCC patients at low doses because of TCAs’ sedative effects and because patients may be more affected by anticholinergic adverse effects due to the altered metabolism precipitated by liver disease. Furthermore, clinicians should be vigilant about intestinal stasis as an adverse effect of TCA use since it can cause hepatic encephalopathy. Serotonergic antidepressants should be prescribed carefully since drug interactions pose the risk of serotonin syndrome. Tramadol and tapentadol should not be administered to any patients receiving selective serotonin reuptake inhibitors (SSRIs), serotonin-norepinephrine reuptake inhibitors (SNRIs), or TCAs for this reason.
For pain management in opioid-tolerant patients reporting breakthrough pain ≥4, the NCCN advises administration of a “rescue” dose in addition to the patient’s chronic dose. This should be equivalent to 10–20% of the opioid amount taken by the patient in the preceding 24 hours. Patients should be continually monitored following rescue dose administration to determine efficacy and adverse effects; if the patient’s pain score remains unchanged, additional rescue doses at 50–100% the amount of the previous dose may be administered. Adjuvant analgesic therapies may also be considered for opioid-tolerant patients who are only partially responsive to their current medications. provides an overview of clinical practice for common analgesics with regard to cancer patients and dosing modifications in the setting of cirrhosis. Given the complexity of treating chronic pain in cancer patients, it would be beneficial to consider consultation with a palliative care specialist to aid in pain management for patients with chronic or difficult-to-control pain.
Table 1 NCCN clinical guidelines for various analgesics and suggested modifications in the setting of cirrhosis
Pain relief may also be achieved with procedure-based therapy, especially in the setting of metastatic HCC. Radiotherapy has been widely shown to mitigate pain due to bone and lymph node metastases and should be regarded as safe and effective palliation for metastatic HCC symptoms.Citation7,Citation22 Current EASL clinical practice guidelines similarly suggest palliative radiotherapy for patients suffering from pain caused by an unambiguous bone metastasis.Citation19 However, given its ability to relieve pain more quickly, RFA may be more effective for treating cancer-induced bone pain.Citation23 Moreover, Kashima et al achieved pain reduction in 96.6% of patients with metastatic HCC through RFA compared to studies reporting relief in 50–90% of patients through radiotherapy. TACE has also been shown to relieve CIBP and may be preferable to radiotherapy since it also achieves palliation more quickly.Citation8
Less conventional procedure-based therapies for HCC pain relief have also been explored. Hokotate et alCitation9 successfully treated a Japanese patient’s metastatic HCC pain with bone cement therapy, suggesting this as a clinical avenue warranting further research. Electroacupuncture has been shown to alleviate pain in advanced HCC patients as well; however, the onset of significant pain relief was slow, which calls for supplementation with traditional analgesics for this method to be effective.Citation24 Transcranial direct current stimulation (tDCS) may prove an effective therapy to alleviate visceral HCC pain.Citation11 Multiple sessions of tDCS over the primary motor cortex generated analgesic responses in HCC patients experiencing visceral pain, where relief appeared by the fifth session and persisted for a month. This method may be especially promising because it carries negligible risk and device application is simple. While the analgesic mechanisms of tDCS are not fully understood, resting membrane potential modulation beneath the active electrode and its effects in other parts of the pain-processing network generated by motor cortex-directed inhibition of somatosensation is thought to play a role.
Conclusion
HCC pain constitutes a serious concern for both patients and providers. It can markedly and negatively impact HRQoL and may result from the spread of HCC itself or LRT. While treating HCC pain can be clinically challenging due to underlying hepatic impairment, hepatologists have developed analgesic treatment recommendations to bypass the risks of toxic metabolite accumulation and to avoid aggravating hepatic decompensation. Moreover, procedure-based pain therapies such as TACE, radiotherapy, and RFA have been shown to alleviate pain caused by extrahepatic HCC spread. Less studied therapies such as electroacupuncture and tDCS have demonstrated promise and should be explored further. In light of these developments and the disparity between hepatologists and nonhepatologists regarding analgesic preference for cirrhotic patients, coordinated multidisciplinary care between providers may be the optimal route for effective pain management. When used in conjunction with methodical pain assessment, up-to-date clinician knowledge of various forms of HCC pain presentation, and proper analgesic therapy, we hope improved pain management in HCC patients may be achieved.
Disclosure
The authors report no conflicts of interest in this work.
References
- WallerLPDeshpandeVPyrsopoulosNHepatocellular carcinoma: a comprehensive reviewWorld J Hepatol20157262648266326609342
- KaiserKMallickRButtZMulcahyMFBensonABCellaDImportant and relevant symptoms including pain concerns in hepatocellular carcinoma (HCC): a patient interview studySupport Care Cancer201422491992624258355
- SunVCSarnaLSymptom management in hepatocellular carcinomaClin J Oncol Nurs200812575976618842532
- KumarMPandaDRole of supportive care for terminal stage hepatocellular carcinomaJ Clin Exp Hepatol20144suppl 3S130S13925755605
- MittalSEl-seragHBEpidemiology of hepatocellular carcinoma: consider the populationJ Clin Gastroenterol201347supplS2S623632345
- LewisJHStineJGReview article: prescribing medications in patients with cirrhosis – a practical guideAliment Pharmacol Ther201337121132115623638982
- SeongJKoomWSParkHCRadiotherapy for painful bone metastases from hepatocellular carcinomaLiver Int200525226126515780048
- NagataYNakanoYAbeMTakahashiMKohnoSOsseous metastases from hepatocellular carcinoma: embolization for pain controlCardiovasc Intervent Radiol19891231491532477152
- HokotateHBabaYChureiHNakajoMOhkuboKHamadaKPain palliation by percutaneous acetabular osteoplasty for metastatic hepatocellular carcinomaCardiovasc Intervent Radiol200124534634811815843
- CarrBIPujolLPain at presentation and survival in hepatocellular carcinomaJ Pain2010111098899320418170
- IbrahimNMAbdelhameedKMKamalSMMKhedrEMHKotbHIMEffect of transcranial direct current stimulation of the motor cortex on visceral pain in patients with hepatocellular carcinomaPain Med201819355056028605527
- ChwistekMRecent advances in understanding and managing cancer painF1000Res2017694528690839
- DeutschMVasiliouKPapatheodoridisGVHepatocellular carcinoma presenting with pleuritic painEur J Intern Med200617322216618464
- BenzakounJRonotMLagadecMRisks factors for severe pain after selective liver transarterial chemoembolizationLiver Int201737458359127529160
- HsiehYCYapYSHungCHChenCHLuSNWangJHFactors related to postoperative pain among patients who underwent radiofrequency ablation of hepatocellular carcinomaClin Radiol201368660060723352765
- NarayananGFroudTLoKBarberyKJPerez-rojasEYrizarryJPain analysis in patients with hepatocellular carcinoma: irreversible electroporation versus radiofrequency ablation-initial observationsCardiovasc Intervent Radiol201336117618222752100
- GePSRunyonBATreatment of patients with cirrhosisN Engl J Med2016375212104210528121086
- SoleimanpourHSafariSShahsavari NiaKSanaieSAlavianSMOpioid drugs in patients with liver disease: a systematic reviewHepat Mon2016164e3263627257423
- European Association for the Study of the LiverEASL Clinical Practice Guidelines: management of hepatocellular carcinomaJ Hepatol Epub20184510.1016/j.jhep.2018.03.019.
- National Comprehensive Cancer NetworkAdult Cancer Pain (2.2017)2018 Available from: http://www.nccn.org/professionals/physician_gls/pdf/pain.pdfAccessed January 15, 2018
- ChandokNWattKDPain management in the cirrhotic patient: the clinical challengeMayo Clin Proc201085545145820357277
- KalogeridiMAZygogianniAKyrgiasGRole of radiotherapy in the management of hepatocellular carcinoma: a systematic reviewWorld J Hepatol20157110111225625001
- KashimaMYamakadoKTakakiHRadiofrequency ablation for the treatment of bone metastases from hepatocellular carcinomaAJR Am J Roentgenol2010194253654120093621
- XuLWanYHuangJXuFClinical analysis of electroacupuncture and multiple acupoint stimulation in relieving cancer pain in patients with advanced hepatocellular carcinomaJ Cancer Res Ther20181419910229516968