Abstracts
BACKGROUND AND OBJECTIVES:
The use of drugs to treat renal failure has particularities due to pharmacokinetic changes present in such population. This study aimed at supplying subsidies for a rational choice of analgesics to be used in patients with renal failure.
CONTENTS:
Information is provided about pain prevalence and etiology in renal failure patients. In addition, the use of anti-inflammatory drugs, opioid analgesics and adjuvant drugs for pain management is addressed.
CONCLUSION:
Adjusting pharmacological therapy to renal function impairment may provide effective treatment with less adverse effects.
Analgesics; Pain management; Renal failure
JUSTIFICATIVA E OBJETIVOS:
O uso de fármacos para o tratamento da dor em pacientes com insuficiência renal apresenta particularidades devido às alterações farmacocinéticas presentes nessa população. O objetivo deste estudo foi fornecer subsídios para uma escolha racional dos analgésicos a serem utilizados em pacientes com função renal deficiente.
CONTEÚDO:
São fornecidas informações sobre prevalência e etiologia da dor em pacientes com insuficiência renal. Além disso, aborda-se a utilização de anti-inflamatórios, analgésicos opioides e fármacos adjuvantes para o tratamento da dor.
CONCLUSÃO:
O ajuste da terapêutica farmacológica ao comprometimento da função renal é capaz de prover um tratamento eficaz e com menos efeitos adversos.
Analgésicos; Insuficiência renal; Manuseio da dor
INTRODUCTION
Chronic renal failure (CRF) is a common clinical condition followed by several associated diseases11 Coresh J, Byrd-Holt D, Astor BC, Briggs JP, Eggers PW, Lacher DA, et al. Chronic kidney disease awareness, prevalence, and trends among U.S. adults, 1999 to 2000. J Am Soc Nephrol. 2005;16(1):180-8.. Due to increased survival with the advent of renal replacement therapy and renal transplantations, CRF patients are increasingly submitted to surgical procedures, with the need for effective analgesic therapy in the postoperative period. They are also submitted to several procedures inducing acute pain, such as frequent punctures for dialysis.
Moreover, CRF patients are subject to chronic painful syndromes of different etiologies22. Davison SN. Pain in hemodialysis patients: prevalence, cause, severity, and management. Am J Kidney Dis. 2003;42(6):1239-47.. In addition to musculoskeletal and degenerative disorders, consequence or not of the kidney disease, this is a population with increased incidence of peripheral vascular ischemic disease and peripheral neuropathies.
This study aimed at reviewing pain prevalence in patients with renal failure stressing etiologies, and at discussing aspects about drugs to its management.
RENAL FAILURE AND PAIN
In a study, authors have observed the prevalence of manifestations in patients chronically submitted to hemodialysis. Authors have emphasized that musculoskeletal pain complaints were reported by 54% of patients of that study, something which so far had never been documented33. Weisbord SD, Fried LF, Arnold RM, Fine MJ, Levenson DJ, Peterson RA, et al. Prevalence, severity, and importance of physical and emotional symptoms in chronic hemodialysis patients. J Am Soc Nephrol. 2005;16(8):2487-94.. Cramps were observed in 43%, headache in 19% and chest pain in 10%.
Pain epidemiological characteristics in chronic renal failure patients are poorly known. Most data are from studies on the quality of life or associated symptoms in patients chronically submitted to hemodialysis44. Stewart AL, Hays RD, Ware JE Jr. The MOS short-form general health survey. Reliability and validity in a patient population. Med Care. 1988;26(7):724-35.
5. Meyer KB, Espindle DM, DeGiacomo JM, Jenuleson CS, Kurtin OS, Davies AR. Monitoring dialysis patients' health status. Am J Kidney Dis. 1994;24(2):267-79.
6. Merkus MP, Jager KJ, Dekker FW, De Haan RJ, Boeschoten EW, Krediet RT. Quality of life over time in dialysis: the Netherlands Cooperative Study on the Adequacy of Dialysis. NECOSAD Study Group. Kidney Int. 1999;56(2):720-8.-77. Diaz-Buxo JA, Lowrie EG, Lew NL, Zhang H, Lazarus JM. Quality-of-life evaluation using the Short Form 36: comparison in hemodialysis and peritoneal dialysis patients. Am J Kidney Dis 2000;35(2):293-300..
In a population of chronic renal patients submitted to hemodialysis, there were pain complaints of different etiologies22. Davison SN. Pain in hemodialysis patients: prevalence, cause, severity, and management. Am J Kidney Dis. 2003;42(6):1239-47.. Musculoskeletal pain was the most common cause. A small percentage has complained of pain induced by chronic dialytic treatment, such as those triggered by cramps, headache and caused by fistula puncture. Musculoskeletal pain was observed in 63.1% of patients, being osteoarthritis in 19.4%, undiagnosed pain in 18.4%, inflammatory arthritis in 6.8%, fracture in 9.7%, renal osteodystrophy in 4.9% and discitis/ osteomyelitis in 1.9%. Dialysis-induced pain was present in 13.6% of patients, peripheral polyneuropathy in 12.6%, associated to peripheral vascular disease in 9.7% and carpal tunnel syndrome in 1.9%. Other causes of pain, corresponding to 18.4% of patients were: trauma, polycystic renal disease, cancer and calciphylaxis.
In a different study, authors have evaluated pain complaints of chronic renal patients admitted to nephrological units. Fifty three percent of patients have reported more than one cause for their pain88. Williams A, Manias E. Pain management in hospitalized patients with chronic kidney disease and comorbidities. Ren Soc Aust J. 2007;3(3):76-83.. Reasons were: surgical trauma (43.3%), peripheral vascular disease (32.1%), dialysis-related pain (26.4%), peripheral neuropathy (18.9%), osteoarthritis (9.4%), inflammatory arthritis (9.4%), cancer (9.4%), renal osteodystrophy (7.5%), gout (5.7%), calciphylaxis (3.8%), osteomyelitis (1.9%), osteoporotic fracture (1.9%) and poly-cystic renal disease (1.9%).
Pain management is inadequate for a significant number of renal failure patients. Several factors may be pointed as responsible for such. Pain is not recognized as a major problem for chronic renal patients. In addition, pharmacokinetic changes and pharmacological interactions are very frequent in this population, making difficult or inhibiting management.
THERAPIES
Anti-inflammatory drugs, dipyrone and paracetamol
Anti-inflammatory drugs
Non-steroid anti-inflammatory drugs (NSAIDs) are used in the general population to treat mild to moderate pain. These agents block prostaglandins synthesis through the inhibition of cyclooxygenase enzymes (COX). COX type 1 (COX-1) is called constitutive, being expressed in most tissues; COX type 2 (COX-2) is primarily induced, being mostly present in inflamed tissues99. Issy AM, Sakata RK. Anti-inflamatórios. In: Sakata RK, Issy AM, (editores). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 1-44p.,1010. Schug SA. Clinical pharmacology of non-opioid and opioid analgesics. Pain - An Updated Review: Refresher Course Syllabus. Seattle: IASP Press; 2005. 31-40p..
NSAIDs may increase the risk of bleeding in patients with uremia, for their synergistic effects on platelet aggregation inhibition1111. Kurella M, Bennett WM, Chertow GM. Analgesia in patients with ESRD: a review of available evidence. Am J Kidney Dis. 2003;42(2):217-28..
Renal prostaglandins synthesis inhibition is responsible for fluid retention, systemic hypertension and electrolytic disorders observed with the use of NSAIDs. There is edema in 3-5% of chronic anti-inflammatory users1212. Whelton A. Nephrotoxicity of nonsteroidal anti-inflammatory drugs: physiologic foundations and clinical implications. Am J Med. 1999;106(5B):13S-24S.. In hypertensive patients, it was observed increase of approximately 5mmHg in blood pressure1313. Pope JE, Anderson JJ, Felson DT. A meta-analysis of the effects of nonsteroidal anti-inflammatory drugs on blood pressure. Arch Intern Med. 1993;153(4):477-84.. Rennin release inhibition by renal prostaglandins, with less sodium supply to distal tubules is responsible for hypercalcemia and other electrolytic disorders observed with the use of NSAIDs. Hypercalcemia is pronounced especially in patients with uncompensated diabetes, heart failure, multiple myeloma, and users of angiotensin-converting enzyme, betablockers and potassium-sparing diuretics1111. Kurella M, Bennett WM, Chertow GM. Analgesia in patients with ESRD: a review of available evidence. Am J Kidney Dis. 2003;42(2):217-28.. NSAIDs also induce reversible decrease in glomerular filtration rate (GFR). Residual renal function in patients under renal replacement therapy is critical for the well-being of such patients. It is associated to longer survival, less weight gain between sessions and better solute clearance1111. Kurella M, Bennett WM, Chertow GM. Analgesia in patients with ESRD: a review of available evidence. Am J Kidney Dis. 2003;42(2):217-28..
Indomethacin is the NSAID decreasing GFR the most1414. Tan SY, Shapiro R, Kish MA. Reversible acute renal failure induced by indomethacin. JAMA. 1979;241(25):2732-3.. Naproxen, diclofenac, piroxicam and ibuprofen have intermediate effect. Aspirin is the NSAID interfering the least with GFR1515. Carmichael J, Shankel SW. Effects of nonsteroidal anti-inflammatory drugs on prostaglandins and renal function. Am J Med. 1985;78(6Pt1):992-1000.. Notwithstanding COX-2 induction being more often observed in inflammation sites, it is constitutively expressed in the kidney and has important function in the maintenance of renal hemodynamics. There is benefit with the use of selective COX-2 inhibitors in patients with increased risk of hemorrhages. However, such drugs have renal effects similar to non-selective inhibitors, being contraindicated for renal failure patients1111. Kurella M, Bennett WM, Chertow GM. Analgesia in patients with ESRD: a review of available evidence. Am J Kidney Dis. 2003;42(2):217-28..
Dipyrone and paracetamol
These are drugs with analgesic and antipyretic action and little or no anti-inflammatory activity. They have weak inhibitory activity on COX-1 and COX-21616. Diener H. Leczenie bólu. Zespoly bólowe - metody postepowania. Urban & Partner, Wroclaw, 2005. 294-6p.,1717. Rezende RM, Franca DS, Menezes GB, dos Reis WG, Bakhle YS, Francischi JN. Different mechanisms underlie the analgesic actions of paracetamol and dipyrone in a rat model of inflammatory pain. Br J Pharmacol. 2008;153(4):760-8..
Dipyrone action mechanism is still controversial. Experimental trials have shown inhibition of adenylate cyclase activation by hyperalgesic substances and direct blockade of calcium entrance in nociceptors1818. Lorenzetti BB, Ferreira SH. Mode of analgesic action of dipyrone: direct antagonism of inflammatory hyperalgesia. Eur J Pharmacol. 1985;114(3):375-81. Other authors have reported analgesic properties from the action of dipyrone metabolites on prostaglandins synthesis in the central nervous system (bulbus and periaqueductal gray matter)1919. Hinz B, Cheremina O, Buchmakov J, Renner B, Zolk O, Fromm MF, et al. Dipyrone elicits substantial inhibition of peripheral cyclooxygenanses in humans: new insights into the pharmacology of an old analgesic; FASEB J. 2007;21(10):2343-51..
Dipyrone has high clinical efficacy, low cost, broad availability and safety margin, especially for renal patients99. Issy AM, Sakata RK. Anti-inflamatórios. In: Sakata RK, Issy AM, (editores). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 1-44p..
Antipyretic action mechanism proposed for paracetamol associates the drug to the inhibition of prostaglandins synthesis in the hypothalamus99. Issy AM, Sakata RK. Anti-inflamatórios. In: Sakata RK, Issy AM, (editores). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 1-44p.. As analgesic, the drug has to be able to activate inhibitory serotoninergic antinociceptive pathways2020. Graham GG, Scott KF. Mechanism of action of paracetamol. Am J Ther. 2005;12(1):46-55.. Paracetamol is effective in doses up to 90mg.kg-1 or 4g.day-1. There is hepatotoxic activity when administered in high doses (150mg.kg-1, or 5-30g). Liver injury occurs by depletion of glutathione stocks, leading to the building up of toxic metabolites in the hepatocyte, and to histopathological findings of centrolobular necrosis2121. Chun LJ, Tong MJ, Busuttil RW, Hiatt JR. Acetaminophen hepatotoxicity and acute liver failure. J Clin Gastroenterol. 2009;43(4):342-9.. There are reports of kidney toxicity after administration of glutathione to treat liver toxicity. Glutathione may provide the formation of nephrotoxic compounds which culminate with the activation of caspases and liposomal enzymes, starting apoptosis and renal dysfunction2222. Mazer M, Perrone J. Acetaminophen-induced nephrotoxicity: pathophysiology, clinical manifestations and management. J Med Toxicol. 2008;4(1):2-6..
Paracetamol is the analgesic of choice for elderly patients or those with impaired renal function2323. Henrich WL, Agodoa LE, Barrett B, Bennett WM, Blantz RC, Buckalew VM Jr, et al. Analgesics and the kidney: summary and recommendations to the Scientific Advisory Board of the National Kidney Foundation from an Ad Hoc Committee of the National Kidney Foundation. Am J Kidney Dis. 1996;27(1):162-5.. In therapeutic doses, renal toxicity is rare1010. Schug SA. Clinical pharmacology of non-opioid and opioid analgesics. Pain - An Updated Review: Refresher Course Syllabus. Seattle: IASP Press; 2005. 31-40p.. There is no need for dose adjustment in renal failure, but some authors recommend increasing dose intervals from 6 to 8 hours when GFR is below 10 mL.min-12222. Mazer M, Perrone J. Acetaminophen-induced nephrotoxicity: pathophysiology, clinical manifestations and management. J Med Toxicol. 2008;4(1):2-6..
Opioid analgesics
Tramadol
This is a drug with agonist activity on opioid receptors (μ), and inhibitory action on serotonin and norepinephrine reuptake, increasing such inhibitory neurotransmitters in the medullary synapse. It is metabolized in the liver, being 30% of the drug and 60% as active metabolites, excreted by the urine2525. Lee CR, McTavish D, Sorkin EM. Tramadol. A preliminary review of its pharmacodynamic and pharmacokinetic properties, and therapeutic potential in acute and chronic pain states. Drugs. 1993;46(2):313-40.. Although forming active metabolites, the risk of toxicity is low2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52..
Due to its action mechanisms, it is an effective drug to treat nociceptive and neuropathic pain, with the advantage of promoting less sedation and ventilatory depression as compared to agonist opioids. Nausea is a common adverse effect. In patients under drugs decreasing convulsive threshold, such as selective serotonin reuptake inhibitor antidepressants, it may trigger epileptic crises, in addition to serotoninergic syndrome2727. Boyer EW, Shannon M. The serotonin syndrome. N Engl J Med. 2005;352(11):112-20..
In advanced CRF, elimination half-life may double, being necessary to decrease the dose - 200mg.day-1 if GFR is below 30mL.min-1, and 100mg.day-1 if GFR is below 10mL.min-1 (25). It is dialyzable and safe for patients with dialytic CRF2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52.. Since it is easily removed by hemodialysis, it should be administered after the sessions2828. Izzedine H, Launay-Vacher V, Abbara C, Aymard G, Bassilios N, Deray G. Pharmacokinetics of tramadol in a hemodialysis patient. Nephron. 2002;92(3):755-6..
Codeine
This is a morphine derivative with moderate analgesic activity. Its liver metabolizing gives origin to codein-6-glucoronide (80%), and 5% is demethylated to morphine, which forms active metabolites which depend on renal excretion2929. Verwey-van Wissen CP, Koopman-Kimenai PM, Vree TB. Direct determination of codeine, norcodeine, morphine and normorphine with their corresponding O-glucuronide conjugates by high performance liquid chromatography with electrochemical detection. J Chromatogr 1991;570(2):309-20.,3030. Vree TB, van Dongen RT, Koopman-Kimenai PM. Codeine analgesia is due to codeine-6-glucuronide, not morphine. Int J Clin Pract. 2000;54(6):395-8..
Analgesic activity of this drug comes from the action of its metabolites on μ opioid receptors3030. Vree TB, van Dongen RT, Koopman-Kimenai PM. Codeine analgesia is due to codeine-6-glucuronide, not morphine. Int J Clin Pract. 2000;54(6):395-8.,3131. Murtagh FE, Chai MO, Donohoe P, Edmonds PM, Higginson IJ. The use of opioid analgesia in end-stage renal disease patients managed without dialysis: recommendations for practice. J Pain Palliat Care Pharmacother. 2007;21(2):5-16..
In patients with CRF, renal clearance of codeine and its metabolites is significantly decreased, with higher risk of severe adverse effects, such as sedation, ventilatory depression and hypotension3232. Benyamin R, Trescot AM, Datta S, Buenaventura R, Adlaka R, Sehgal N, et al. Opioid complications and side effects. Pain Physician, 2008;11(2 Suppl):S105-20.. This way, care is needed when prescribing codeine to patients with renal failure3131. Murtagh FE, Chai MO, Donohoe P, Edmonds PM, Higginson IJ. The use of opioid analgesia in end-stage renal disease patients managed without dialysis: recommendations for practice. J Pain Palliat Care Pharmacother. 2007;21(2):5-16.. Due to its high distribution volume and molecular weight, it is not easily removed by hemodialysis and should be avoided in patients needing renal replacement therapy3131. Murtagh FE, Chai MO, Donohoe P, Edmonds PM, Higginson IJ. The use of opioid analgesia in end-stage renal disease patients managed without dialysis: recommendations for practice. J Pain Palliat Care Pharmacother. 2007;21(2):5-16.
32. Benyamin R, Trescot AM, Datta S, Buenaventura R, Adlaka R, Sehgal N, et al. Opioid complications and side effects. Pain Physician, 2008;11(2 Suppl):S105-20.-3333. Guay DR, Awni WM, Findlay JW, Halstenson CE, Abraham PA, Opsahl JA, et al. Pharmacokinetics and pharmacodynamics of codeine in end-stage renal disease. Clin Pharmacol Ther. 1988;43(1):63-71.. Risk of toxicity is uncertain. It is dialyzable, but should be avoided, if possible, for patients with dialytic CRF2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52..
Oxicodone
This is a semi-synthetic opioid with twice the analgesic potency of morphine. Its onset of action is one hour after oral administration and duration is 12h for the scheduled release formulation3434. Niscola P, Scaramucci L, Vischini G, Giovannini M, Ferrannini M, Massa P, et al. The use of major analgesics in patients with renal dysfunction. Curr Drug Targets. 2010;11(6):752-8..
It is metabolized in the liver and the drug depends on the kidney for the excretion of active metabolites and part of the original compound3535. Lalovic B, Kharasch E, Hoffer C, Risler L, Liu-Chen LY, Shen DD. Pharmacokinetics and pharmacodynamics of oral oxycodone in healthy human subjects: role of circulating active metabolites. Clin Pharmacol Ther. 2006;79(5):461-79.. In the presence of renal failure there may be drugs build up and adverse effects as a consequence of the action of metabolites on the central nervous system3131. Murtagh FE, Chai MO, Donohoe P, Edmonds PM, Higginson IJ. The use of opioid analgesia in end-stage renal disease patients managed without dialysis: recommendations for practice. J Pain Palliat Care Pharmacother. 2007;21(2):5-16.. Oxycodone should be avoided if GFL is below 60mL.min-1 3434. Niscola P, Scaramucci L, Vischini G, Giovannini M, Ferrannini M, Massa P, et al. The use of major analgesics in patients with renal dysfunction. Curr Drug Targets. 2010;11(6):752-8.. For being hydrosoluble, it is dialyzable. There are, however reports of lethargy and ventilatory depression in dialytic patients under multiple oxycodone doses per day3636. Foral PA, Ineck JR, Nystrom KK. Oxycodone accumulation in a hemodialysis patient. South Med J. 2007;100(2):212-4..
Toxicity risk is uncertain. It is not known whether it is dialyzable and whether it is safe for dialytic CRF patients2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52..
Morphine
This is the most widely studied opioid for renal failure. It is metabolized in the liver into morphine-3-glucoronide (M3G) and morphine-6-glucoronide (M6G), in addition to the formation of diamorphine and normorphine. M6G is approximately 10 times more potent than its original compound. All metabolites and 10% of the original drug depend on renal excretion3737. Gong QL, Hedner T, Hedner J, Björkman R, Nordberg G. Antinociceptive and ventilatory effects of the morphine metabolites: morphine-6-glucuronide and morphine-3-glucuronide. Eur J Pharmacol. 1991;193(1):47-56..
There is M6G build up in renal failure, causing ventilatory and CNS depression. Since its blood-brain barrier crossing is slow, adverse effects of M6G may be long-lasting, persisting even after drug withdrawal or dialytic treatment, in spite of good drug and its metabolites clearance by dialysis3838. Angst MS, Buhrer M, Lotsch J. Insidious intoxication after morphine treatment in renal failure: delayed onset of morphine-6-glucuronide action. Anesthesiology. 2000;92(5):1473-6..
Analgesic and adverse effects of this drug are correlated to morphine and M6G plasma concentrations. This way, there is the need for decreasing the dose in 25%, 50% and 75% when there is CRF in stages 3, 4 and 5, respectively3737. Gong QL, Hedner T, Hedner J, Björkman R, Nordberg G. Antinociceptive and ventilatory effects of the morphine metabolites: morphine-6-glucuronide and morphine-3-glucuronide. Eur J Pharmacol. 1991;193(1):47-56.. When safer opioids are available, morphine should be avoided in patients with renal failure3939. Mercadante S, Arcuri E. Opioids and renal function. J Pain. 2004;5(1):2-19..
Recommended dose for patients with GFR above 50mL/min is 100%; for GFR 10-50mL/min it is 75% and for GFR below 10mL/min it is 50%4040. Aronoff GR, Bennett WM, Berns JS, et al. Drug prescribing in renal failure: dosing guidelines for adults and children. 5th ed. Philadelphia, PA: American College of Physicians; 2007. 18-9p..
Toxicity risk is uncertain. It is dialyzable, but should be avoided, if possible, for patients with dialytic CRF2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52..
Meperidine
This is a synthetic opioid with shorter duration analgesia as compared to remaining commonly used drugs. It has approximately 1/10 of morphine potency. Its active metabolite, normeperidine, has long elimination half-life (15-40h) and depends on renal excretion. There may be build up of this metabolite in renal failure patients with adverse effects such as shivering, myoclonus, seizure and delirium. So, it should not be used in patients with renal failure4141. O'Connor AB, Lang VJ, Quill TE. Eliminating analgesic meperidine use with a supported formulary restriction. Am J Med. 2005;118(8):885-9.. Remember that this opioid should not be used not only in patients with renal failure, but also in those with normal renal function and acute or chronic pain. In addition to having no advantage over other opioids, it easily induces addiction. Toxicity risk is high. Meperidine is dialyzable, but it is unsafe for dialytic CRF patients2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52..
Fentanyl
This is a synthetic liposoluble opioid, approximately 80 times more potent than morphine. In addition to solution for intravenous or neuraxial use, it became popular due to its transdermal presentation, which reaches balance with plasma in approximately 12h after its application, with continuous release of the drug for 72h. It is adequate to treat pain in patients with stable opioid doses3434. Niscola P, Scaramucci L, Vischini G, Giovannini M, Ferrannini M, Massa P, et al. The use of major analgesics in patients with renal dysfunction. Curr Drug Targets. 2010;11(6):752-8..
Some countries have the oral transmucosal solution which provides fast absorption and is useful to treat incidental pain3434. Niscola P, Scaramucci L, Vischini G, Giovannini M, Ferrannini M, Massa P, et al. The use of major analgesics in patients with renal dysfunction. Curr Drug Targets. 2010;11(6):752-8..
Fentanyl is metabolized in the liver, with formation of inactive metabolites3131. Murtagh FE, Chai MO, Donohoe P, Edmonds PM, Higginson IJ. The use of opioid analgesia in end-stage renal disease patients managed without dialysis: recommendations for practice. J Pain Palliat Care Pharmacother. 2007;21(2):5-16.. It does not form active metabolites2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52.. Since a minor percentage of the drug is excreted unaltered by the urine, this is a safe drug for renal failure patients4242. Cockcroft DW, Gault MH. Prediction of creatinine clearance from serum creatinine. Nephron. 1976;16(1):31-41.. Due to its high molecular weight, high protein binding, low hydro-solubility and high distribution volume, the drug is not easily dialyzable4343. Dean M. Opioids in renal failure and dialysis patients. J Pain Symptom Manage. 2004;28(5):497-504.. It is not dialyzable but is safe for dialytic CRF patients2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52..
Recommended dose for patients with GFR above 50mL/min is 100%; for GFR between 10 and 50mL/min is 75% and for GFR below 10mL/min it is 50%4040. Aronoff GR, Bennett WM, Berns JS, et al. Drug prescribing in renal failure: dosing guidelines for adults and children. 5th ed. Philadelphia, PA: American College of Physicians; 2007. 18-9p..
Methadone
This is a synthetic opioid 5-10 times more potent than morphine. In addition to action on opioid receptors, it has antagonist effects on N-methyl-D-aspartate (NMDA) receptors3434. Niscola P, Scaramucci L, Vischini G, Giovannini M, Ferrannini M, Massa P, et al. The use of major analgesics in patients with renal dysfunction. Curr Drug Targets. 2010;11(6):752-8.. It is sold as racemic mixture where the isomer L-methadone acts on μ opioid receptors, while D-methadone acts on NMDA receptors. Due to its pharmacodynamics, it is useful to treat nociceptive and neuropathic pains4444. Lugo RA, Satterfield KL, Kern SE. Pharmacokinetics of methadone. J Pain Palliat Care Pharmacother 2005;19(4):13-24..
In spite of its liposolubility, it has high bioavailability after oral administration. It is extensively bound to acid alpha-1-glucoprotein, with broad tissue distribution, responsible for build up and long elimination half-life during chronic treatment with this opioid3434. Niscola P, Scaramucci L, Vischini G, Giovannini M, Ferrannini M, Massa P, et al. The use of major analgesics in patients with renal dysfunction. Curr Drug Targets. 2010;11(6):752-8..
It is metabolized in the liver and intestines, resulting in inactive metabolites, being most part eliminated by the bile. It does not form active metabolites2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52.. So, even not being cleared by hemodialysis, it is safe for renal failure patients4545. Furlan V, Hafi A, Dessalles MC, Bouchez J, Charpentier B, Taburet AM. Methadone is poorly removed by haemodialysis. Nephrol Dial Transplant. 1999;14(1):254-5.. However, there is the need for frequent evaluation with dose and interval adjustments because it is a long-lasting drug.
Recommended dose for patients with GFR above 50mL/min is 100%; for GFR between 10 and 50mL/min it is 100% and for GFR below 10mL/min it is 50-75%4040. Aronoff GR, Bennett WM, Berns JS, et al. Drug prescribing in renal failure: dosing guidelines for adults and children. 5th ed. Philadelphia, PA: American College of Physicians; 2007. 18-9p.. It is not dialyzable but is safe for dialytic CRF patients2626. King S, Forbes K, Hanks GW, Ferro CJ, Chambers EJ. A systematic review of the use of opioid medication for those with moderate to severe cancer pain and renal impairment: a European Palliative Care Research Collaborative opioid guidelines project. Palliat Med. 2011;25(5):525-52..
ANTICONVULSANTS
Gabapentine
This is an anticonvulsant primarily used to treat neuropathic pain, with well tolerated adverse effects. It was synthesized as analog of gamma-aminobutyric acid (GABA), but does not significantly interact with this or other neurotransmitters. Its action mechanism is through the binding to alpha-2-delta subunits of voltage-dependent calcium channels, decreasing calcium entrance in nervous terminations and the release of excitatory neurotransmitters4646. Menezes MS, Sakata RK, Issy AM. Anticonvulsivantes. In: Sakata RK, Issy AM. (etiroes). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 111-38p..
It is excreted unaltered by the urine being the elimination dependent on GFR. Approximately 35% of the drug are cleared during hemodialysis. This drug needs dose adjustment according to GFR estimates when administered to patients with renal failure4747. Blum RA, Comstock TJ, Sica DA, Schultz RW, Keller E, Reetze P, et al. Pharmacokinetics of gabapentin in subjects with various degrees of renal function. Clin Pharmacol Ther. 1994;56(2):154-9..
If GFR is equal to or above 80mL/min-1 maximum daily dose may be 900 to 3600mg; if GFR 50 to 79, from 600 to 1800mg; if GFR between 30 and 49, 300-900mg; if GFR between 15 and 29, 150 to 600mg and if GFR below 15, 150 to 300mg4848. Israni RK, Kasbekar N, Haynes K, Berns JS. Use of antiepileptic drugs in patients with kidney disease. Semin Dial. 2006;19(5):408-16..
Pregabalin
As gabapentin, pregabalin is a structural GABA analog without GABAergic activity and acts on calcium channels alpha-2-delta receptors. It is rapidly absorbed after oral administration, with bioavailability above 90%, and maximum plasma concentration reached one hour after its ingestion4949. Ben-Menachem E. Pregabalin pharmacology and its relevance to clinical practice. Epilepsia. 2004;45(Suppl 6):13-8..
It suffers little metabolism in humans (less than 2%), being excreted unaltered by the urine. So, it does not interact with liver enzymatic system, having little pharmacological interaction. However, there is the need for dose adjustment for patients with GFR below 60mL/min-1 (50).
If GFR is equal to or above 60mL.min-1 maximum daily dose may be 600 mg; if GFR between 30 and 59, of 300mg; if GFR between 15 and 29, 150mg; and if GFR below 15, 75mg5151. Diaz A, Deliz B, Benbadis SR. The use of newer antiepileptic drugs in patients with renal failure. Expert Rev Neurother. 2012;12(1):99-105..
Carbamazepine
This is an anticonvulsant with anticholinergic, antidepressant, antiarrhythmic actions, in addition to inhibiting neuromuscular transmission. It induces increase of antidiuretic hormone release. Its action mechanism is through the inhibition of sodium channels, suppressing spontaneous activity of A-delta and C fibers and decreasing glutamate release in nervous terminations4646. Menezes MS, Sakata RK, Issy AM. Anticonvulsivantes. In: Sakata RK, Issy AM. (etiroes). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 111-38p..
Used since the 1960s, it is still considered a first line drug to treat trigeminal neuralgia5252. Killian JM, Fromm GH. Carbamazepine in the treatment of neuralgia. Use of side effects. Arch Neurol. 1968;19(2):129-36.. However, its clinical use requires attention, due to pharmacological interactions and adverse effects on the central nervous system5353. Markman JD, Dworkin RH. Ion channel targets and treatment efficacy in neuropathic pain. J Pain. 2006;7(1):538-47. It has high bioavailability after oral administration. There is 72% renal excretion, being 3% unaltered. Since a small portion of the original compound is excreted by the urine, there will be no pharmacokinetic alteration in patients with impaired renal function4646. Menezes MS, Sakata RK, Issy AM. Anticonvulsivantes. In: Sakata RK, Issy AM. (etiroes). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 111-38p..
Oxcarbazepine
In spite of structural similarities with carbamazepine and of same clinical indications, oxcarbazepine has major pharmacokinetic differences4646. Menezes MS, Sakata RK, Issy AM. Anticonvulsivantes. In: Sakata RK, Issy AM. (etiroes). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 111-38p.. As opposed to carbamazepine, it does not induce cytochrome P450, which significantly decreases its interaction with other substances5454. Grant SM, Faulds D. Oxcarbazepine: A review of its pharmacology and therapeutic potencial in epilepsy, trigeminal neuralgia and affective disorders. Drugs. 1992;43(6):873-88..
Its clinical effect is due to voltage-dependent sodium channels block, in addition to modulating calcium channels types N and P4646. Menezes MS, Sakata RK, Issy AM. Anticonvulsivantes. In: Sakata RK, Issy AM. (etiroes). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 111-38p..
There is 95% absorption of the dose by the gastrointestinal tract. Less than 1% of the dose is eliminated unaltered by the urine99. Issy AM, Sakata RK. Anti-inflamatórios. In: Sakata RK, Issy AM, (editores). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 1-44p.. However, in patients with renal failure, dose should be cut in half, due to significant plasma level increase of its derivative mono-hydroxi, its primary metabolite5454. Grant SM, Faulds D. Oxcarbazepine: A review of its pharmacology and therapeutic potencial in epilepsy, trigeminal neuralgia and affective disorders. Drugs. 1992;43(6):873-88..
Similarly to carbamazepine, there is possibility, higher with oxcarbazepine, of dermatological reactions and hyponatremia during treatment with this anticonvulsant4646. Menezes MS, Sakata RK, Issy AM. Anticonvulsivantes. In: Sakata RK, Issy AM. (etiroes). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 111-38p..
ANTIDEPRESSANTS
Tricyclic antidepressants
Tricyclics are considered first line drugs to treat neuropathic pain5555. Gazi MC, Sakata RK, Issy AM. Antidepressivos. In: Sakata RK, Issy AM, (editores). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 81-110p.. Tertiary amines, such as amitriptyline, are potent norepinephrine and serotonin reuptake inhibitors, whereas secondary amines, such as nortriptyline, act predominantly on norepinephrine reuptake5656. Baldessarini RJ. Drug therapy of depression and anxiety disorders. In: Brunton LL, Lazo JS, Parker KL, (editors). Goodman and Gilman's the pharmacological basis of therapeutics, New York: McGraw Hill; 2006. 452-4p..
Amitriptyline bioavailability is low after oral administration. Its elimination is primarily renal, during several days, and the drug is not dialyzable due to its strong binding to plasma proteins5555. Gazi MC, Sakata RK, Issy AM. Antidepressivos. In: Sakata RK, Issy AM, (editores). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 81-110p.. However, there is no need for dose adjustment in renal failure5757. Nagler EV, Webster AC, Vanholder R, Zoccali C. Antidepressants for depression in stage 3-5 chronic kidney disease: a systematic review of pharmacokinetics, efficacy and safety with recommendations by European Renal Best Practice (ERBP). Nephrol Dial Transplant. 2012;27(10):3736-45.. Common amitriptyline adverse effects are poorly tolerated by renal failure patients. Among them, there are dry mouth, cardiac conduction abnormalities, weight gain, sedation and orthostatic hypotension.
Nortriptyline is an active amitriptyline metabolite. It suffers extensive first liver passage effect, with formation of active metabolites. It causes less anticholinergic and cardiovascular effects than its original compound, being better tolerated5555. Gazi MC, Sakata RK, Issy AM. Antidepressivos. In: Sakata RK, Issy AM, (editores). Fármacos para tratamento da dor. 1ª ed. Barueri, SP: Manole; 2008. 81-110p.. There is no need for dose adjustment in renal failure5757. Nagler EV, Webster AC, Vanholder R, Zoccali C. Antidepressants for depression in stage 3-5 chronic kidney disease: a systematic review of pharmacokinetics, efficacy and safety with recommendations by European Renal Best Practice (ERBP). Nephrol Dial Transplant. 2012;27(10):3736-45..
Venlafaxine forms an active metabolite (O-demethylvenlafaxine)5858. Morton WA, Sonne SC, Verga MA. Venlafaxine: a structurally unique and novel antidepressant. Ann Pharmacother. 1995;29(4):387-95.,5959. Kalso E. Pharmacological Management of Pain: Anticonvulsants, Antidepressants, and Adjuvants Analgesics. Pain - An Updated Review: Refresher Course Syllabus, IASP Press, Seatle; 2005. 19-29p. and approximately 87% of the administered dose are excreted by the urine in the first 48h, being 5% as venlafaxine, 26% as O-demethylvenlafaxine and 27% as inactive metabolites. Its elimination half-life is similar to fluoxetine (3 to 5 days), but in renal failure there is 50-180% increase6060. Troy SM, Parker VD, Fruncillo RJ, Chiang ST. The pharmacokinetics of venlafaxine when given in a twice-daily regimen. J Clin Pharmacol. 1995;35(4):404-9.,6161. Troy SM, Parker VP, Hicks DR, Pollack GM, Chiang ST. Pharmacokinetics and effect of food on the bioavailability of orally administered venlafaxine. J Clin Pharmacol. 1997;37(10):954-61.. Duloxetine forms active metabolites which are mostly excreted unaltered by the urine and in less quantity by feces6262. Westanmo AD, Gayken J, Haight R. Duloxetine: a balanced and selective norepinephrine- and serotonin-reuptake inhibitor. Am J Health Syst Pharm. 2005;62(23):2481-90. ,63.) Duloxetine should be avoided in patients with creatinine clearance below 30mL/min6262. Westanmo AD, Gayken J, Haight R. Duloxetine: a balanced and selective norepinephrine- and serotonin-reuptake inhibitor. Am J Health Syst Pharm. 2005;62(23):2481-90..
CONCLUSION
The use of analgesics in patients with renal failure is a challenge. Adequate treatment should take into consideration pain intensity and duration and pharmacokinetic changes caused by renal disease. Matching drugs to patients' clinical conditions may provide satisfactory analgesia with minor adverse effects and without deterioration of underlying clinical conditions.
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*
Received from Federal University of São Paulo, São Paulo, SP, Brazil.
Publication Dates
-
Publication in this collection
Jul-Sep 2014
History
-
Received
08 Apr 2014 -
Accepted
15 Aug 2014