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Is low-dose naltrexone effective in chronic pain management?
Evidence summary
Naltrexone is comparable to amitriptyline for diabetic neuropathy pain
A 2021 randomized, double-blind, active-comparator, crossover clinical trial conducted in India examined the efficacy of low-dose naltrexone vs standard-of-care amitriptyline in patients (N = 67) with painful diabetic neuropathy. Participants were adults (ages 18 to 75 years) with painful diabetic neuropathy who had been on a stable dose of nonopioid pain medication for at least 1 month.1
Patients were randomly assigned to start receiving naltrexone 2 mg (n = 33) or amitriptyline 10 mg (n = 34). They received their starting medication for 6 weeks (with follow-up every 2 weeks), then completed a 2-week washout period, and then switched to the other study medication for 6 weeks (same follow-up schedule). If patients reported < 20% pain reduction on the Visual Analog Scale (VAS; 0-100 scoring system with 0 = no pain and 100 = worst pain) at a follow-up visit, their medication dose was titrated up, to a maximum of 4 mg of naltrexone or 25 to 50 mg of amitriptyline.1
The primary outcome of interest was the mean change in VAS pain score following 6 weeks of treatment. There was no statistically different change from baseline VAS pain score between the amitriptyline and naltrexone groups (mean difference [MD] = 1.6; 95% CI, –0.9 to 4.2; P = 0.21). These findings were consistent across the secondary endpoints (Likert 5-point pain scale and McGill Pain Questionnaire scores). There was no statistically significant difference in Hamilton Depression Rating Scale scores (13 in the naltrexone group vs 11 in the amitriptyline group; P = .81), no reports of decreased sleep quality in either group, and no significant difference in Patients’ Global Impression of Change scores at 6-week evaluation.1
The naltrexone cohort experienced 8 adverse events (most commonly, mild diarrhea), while the amitriptyline cohort experienced 52 adverse events (most commonly, somnolence) (P < .001). The limitations of the study include the lack of a placebo arm and a relatively small sample size.1
Greater reduction in pain scores with naltrexone
A 2022 retrospective cohort study evaluated the effectiveness of naltrexone for patients treated at a single outpatient integrative pain management practice in Alaska between 2014 and 2019. The exposure group (n = 36) included patients who had completed at least a 2-month continuous regimen of oral naltrexone 4.5 mg. Controls (n = 42) were selected from the remaining practice population receiving standard care and were primarily matched by diagnosis code, followed by gender, then age +/– 5 years. Patients were divided into subgroups for inflammatory and neuropathic pain.2
The primary outcome measured was the mean change in VAS score or numeric rating score (NRS; both used a 1-10 rating system), which was assessed during a patient’s appointment from initiation of treatment to the most recent visit or at the termination of therapy (intervention interquartile range, 12-14 months). There was no statistically significant difference in VAS/NRS between the low-dose naltrexone and control groups at baseline (6.09 vs 6.38; P = .454). The low-dose naltrexone group experienced a greater reduction in VAS/NRS pain scores compared to the control group (–37.8% vs –4.3%; P < .001).2
Compared with control patients in each group, patients in the inflammatory pain subgroup and the neuropathic pain subgroup who received low-dose naltrexone reported reductions in pain scores of 32% (P < .001) and 44% (P = .048), respectively. There was no statistically significant difference in mean change in VAS/NRS scores between the inflammatory and neuropathic subgroups (P = .763). A multivariate linear regression analysis did not identify significant variables other than low-dose naltrexone that correlated with pain improvement. The number needed to treat to observe a ≥ 50% reduction in pain scores was 3.2.2
Continue to: Limitations for this study...
Limitations for this study include its small sample size and open-label design.2
Low-dose naltrexone is effective for fibromyalgia pain
A 2020 single-blind prospective dose-response study utilized the up-and-down method to identify effective naltrexone dose for patients in a Danish university hospital pain clinic. Patients were White women ages 18 to 60 years (N = 25) who had a diagnosis of fibromyalgia unresponsive to traditional pharmacologic treatment. All patients received treatment with low-dose naltrexone (ranging from 0.75 mg to 6.0 mg) but were blinded to dose.3
Patients were evaluated for improvement in fibromyalgia symptoms using the Patient Global Impression of Improvement (PGI-I) scale—which ranges from 1 (very much improved) to 7 (very much worse), with 4 being “no change”—at baseline and after 2 to 3 weeks of treatment with low-dose naltrexone. A patient was considered a responder if they scored 1 to 3 on the follow-up PGI-I scale or if they experienced a > 30% pain reduction on the VAS. If a patient did not respond to their dose, the next patient began treatment at a dose 0.75 mg higher than the previous patient’s ending dose. If a patient did respond to low-dose naltrexone treatment, the next patient’s starting dose was 0.75 mg less than the previous patient’s. Eleven of 25 patients were considered responders.3
The primary outcomes were effective dose for 50% of fibromyalgia patients (3.88 mg; 95% CI, 3.39-4.35) and effective dose for 95% of fibromyalgia patients (5.4 mg; 95% CI, 4.66-6.13). Secondary outcomes were fibromyalgia symptoms as evaluated on the Fibromyalgia Impact Questionnaire Revised. Five of the 11 responders reported a > 30% improvement in tenderness and 8 of the 11 responders reported a > 30% decrease in waking unrefreshed.3
Limitations of the study include the short time period of treatment before response was assessed and the decision to use low test doses, which may have hindered detection of effective doses > 6 mg in fibromyalgia.3
Editor’s takeaway
Low-dose naltrexone, a less-often-used form of pain management, is a welcome option. Studies show some effectiveness in a variety of pain conditions with few adverse effects. The small number of studies, the small sample sizes, and the limited follow-up duration should encourage more investigation into how to best use this intervention.
1. Srinivasan A, Dutta P, Bansal D, et al. Efficacy and safety of low-dose naltrexone in painful diabetic neuropathy: a randomized, double-blind, active-control, crossover clinical trial. J Diabetes. 2021;13:770-778. doi: 10.1111/1753-0407.13202
2. Martin SJ, McAnally HB, Okediji P, et al. Low-dose naltrexone, an opioid-receptor antagonist, is a broad-spectrum analgesic: a retrospective cohort study. Pain Management. 2022;12:699-709. doi: 10.2217/pmt-2021-0122
3. Bruun-Plesner K, Blichfeldt-Eckhardt MR, Vaegter HB, et al. Low-dose naltrexone for the treatment of fibromyalgia: investigation of dose-response relationships. Pain Med. 2020;21:2253-2261. doi: 10.1093/pm/pnaa001
Evidence summary
Naltrexone is comparable to amitriptyline for diabetic neuropathy pain
A 2021 randomized, double-blind, active-comparator, crossover clinical trial conducted in India examined the efficacy of low-dose naltrexone vs standard-of-care amitriptyline in patients (N = 67) with painful diabetic neuropathy. Participants were adults (ages 18 to 75 years) with painful diabetic neuropathy who had been on a stable dose of nonopioid pain medication for at least 1 month.1
Patients were randomly assigned to start receiving naltrexone 2 mg (n = 33) or amitriptyline 10 mg (n = 34). They received their starting medication for 6 weeks (with follow-up every 2 weeks), then completed a 2-week washout period, and then switched to the other study medication for 6 weeks (same follow-up schedule). If patients reported < 20% pain reduction on the Visual Analog Scale (VAS; 0-100 scoring system with 0 = no pain and 100 = worst pain) at a follow-up visit, their medication dose was titrated up, to a maximum of 4 mg of naltrexone or 25 to 50 mg of amitriptyline.1
The primary outcome of interest was the mean change in VAS pain score following 6 weeks of treatment. There was no statistically different change from baseline VAS pain score between the amitriptyline and naltrexone groups (mean difference [MD] = 1.6; 95% CI, –0.9 to 4.2; P = 0.21). These findings were consistent across the secondary endpoints (Likert 5-point pain scale and McGill Pain Questionnaire scores). There was no statistically significant difference in Hamilton Depression Rating Scale scores (13 in the naltrexone group vs 11 in the amitriptyline group; P = .81), no reports of decreased sleep quality in either group, and no significant difference in Patients’ Global Impression of Change scores at 6-week evaluation.1
The naltrexone cohort experienced 8 adverse events (most commonly, mild diarrhea), while the amitriptyline cohort experienced 52 adverse events (most commonly, somnolence) (P < .001). The limitations of the study include the lack of a placebo arm and a relatively small sample size.1
Greater reduction in pain scores with naltrexone
A 2022 retrospective cohort study evaluated the effectiveness of naltrexone for patients treated at a single outpatient integrative pain management practice in Alaska between 2014 and 2019. The exposure group (n = 36) included patients who had completed at least a 2-month continuous regimen of oral naltrexone 4.5 mg. Controls (n = 42) were selected from the remaining practice population receiving standard care and were primarily matched by diagnosis code, followed by gender, then age +/– 5 years. Patients were divided into subgroups for inflammatory and neuropathic pain.2
The primary outcome measured was the mean change in VAS score or numeric rating score (NRS; both used a 1-10 rating system), which was assessed during a patient’s appointment from initiation of treatment to the most recent visit or at the termination of therapy (intervention interquartile range, 12-14 months). There was no statistically significant difference in VAS/NRS between the low-dose naltrexone and control groups at baseline (6.09 vs 6.38; P = .454). The low-dose naltrexone group experienced a greater reduction in VAS/NRS pain scores compared to the control group (–37.8% vs –4.3%; P < .001).2
Compared with control patients in each group, patients in the inflammatory pain subgroup and the neuropathic pain subgroup who received low-dose naltrexone reported reductions in pain scores of 32% (P < .001) and 44% (P = .048), respectively. There was no statistically significant difference in mean change in VAS/NRS scores between the inflammatory and neuropathic subgroups (P = .763). A multivariate linear regression analysis did not identify significant variables other than low-dose naltrexone that correlated with pain improvement. The number needed to treat to observe a ≥ 50% reduction in pain scores was 3.2.2
Continue to: Limitations for this study...
Limitations for this study include its small sample size and open-label design.2
Low-dose naltrexone is effective for fibromyalgia pain
A 2020 single-blind prospective dose-response study utilized the up-and-down method to identify effective naltrexone dose for patients in a Danish university hospital pain clinic. Patients were White women ages 18 to 60 years (N = 25) who had a diagnosis of fibromyalgia unresponsive to traditional pharmacologic treatment. All patients received treatment with low-dose naltrexone (ranging from 0.75 mg to 6.0 mg) but were blinded to dose.3
Patients were evaluated for improvement in fibromyalgia symptoms using the Patient Global Impression of Improvement (PGI-I) scale—which ranges from 1 (very much improved) to 7 (very much worse), with 4 being “no change”—at baseline and after 2 to 3 weeks of treatment with low-dose naltrexone. A patient was considered a responder if they scored 1 to 3 on the follow-up PGI-I scale or if they experienced a > 30% pain reduction on the VAS. If a patient did not respond to their dose, the next patient began treatment at a dose 0.75 mg higher than the previous patient’s ending dose. If a patient did respond to low-dose naltrexone treatment, the next patient’s starting dose was 0.75 mg less than the previous patient’s. Eleven of 25 patients were considered responders.3
The primary outcomes were effective dose for 50% of fibromyalgia patients (3.88 mg; 95% CI, 3.39-4.35) and effective dose for 95% of fibromyalgia patients (5.4 mg; 95% CI, 4.66-6.13). Secondary outcomes were fibromyalgia symptoms as evaluated on the Fibromyalgia Impact Questionnaire Revised. Five of the 11 responders reported a > 30% improvement in tenderness and 8 of the 11 responders reported a > 30% decrease in waking unrefreshed.3
Limitations of the study include the short time period of treatment before response was assessed and the decision to use low test doses, which may have hindered detection of effective doses > 6 mg in fibromyalgia.3
Editor’s takeaway
Low-dose naltrexone, a less-often-used form of pain management, is a welcome option. Studies show some effectiveness in a variety of pain conditions with few adverse effects. The small number of studies, the small sample sizes, and the limited follow-up duration should encourage more investigation into how to best use this intervention.
Evidence summary
Naltrexone is comparable to amitriptyline for diabetic neuropathy pain
A 2021 randomized, double-blind, active-comparator, crossover clinical trial conducted in India examined the efficacy of low-dose naltrexone vs standard-of-care amitriptyline in patients (N = 67) with painful diabetic neuropathy. Participants were adults (ages 18 to 75 years) with painful diabetic neuropathy who had been on a stable dose of nonopioid pain medication for at least 1 month.1
Patients were randomly assigned to start receiving naltrexone 2 mg (n = 33) or amitriptyline 10 mg (n = 34). They received their starting medication for 6 weeks (with follow-up every 2 weeks), then completed a 2-week washout period, and then switched to the other study medication for 6 weeks (same follow-up schedule). If patients reported < 20% pain reduction on the Visual Analog Scale (VAS; 0-100 scoring system with 0 = no pain and 100 = worst pain) at a follow-up visit, their medication dose was titrated up, to a maximum of 4 mg of naltrexone or 25 to 50 mg of amitriptyline.1
The primary outcome of interest was the mean change in VAS pain score following 6 weeks of treatment. There was no statistically different change from baseline VAS pain score between the amitriptyline and naltrexone groups (mean difference [MD] = 1.6; 95% CI, –0.9 to 4.2; P = 0.21). These findings were consistent across the secondary endpoints (Likert 5-point pain scale and McGill Pain Questionnaire scores). There was no statistically significant difference in Hamilton Depression Rating Scale scores (13 in the naltrexone group vs 11 in the amitriptyline group; P = .81), no reports of decreased sleep quality in either group, and no significant difference in Patients’ Global Impression of Change scores at 6-week evaluation.1
The naltrexone cohort experienced 8 adverse events (most commonly, mild diarrhea), while the amitriptyline cohort experienced 52 adverse events (most commonly, somnolence) (P < .001). The limitations of the study include the lack of a placebo arm and a relatively small sample size.1
Greater reduction in pain scores with naltrexone
A 2022 retrospective cohort study evaluated the effectiveness of naltrexone for patients treated at a single outpatient integrative pain management practice in Alaska between 2014 and 2019. The exposure group (n = 36) included patients who had completed at least a 2-month continuous regimen of oral naltrexone 4.5 mg. Controls (n = 42) were selected from the remaining practice population receiving standard care and were primarily matched by diagnosis code, followed by gender, then age +/– 5 years. Patients were divided into subgroups for inflammatory and neuropathic pain.2
The primary outcome measured was the mean change in VAS score or numeric rating score (NRS; both used a 1-10 rating system), which was assessed during a patient’s appointment from initiation of treatment to the most recent visit or at the termination of therapy (intervention interquartile range, 12-14 months). There was no statistically significant difference in VAS/NRS between the low-dose naltrexone and control groups at baseline (6.09 vs 6.38; P = .454). The low-dose naltrexone group experienced a greater reduction in VAS/NRS pain scores compared to the control group (–37.8% vs –4.3%; P < .001).2
Compared with control patients in each group, patients in the inflammatory pain subgroup and the neuropathic pain subgroup who received low-dose naltrexone reported reductions in pain scores of 32% (P < .001) and 44% (P = .048), respectively. There was no statistically significant difference in mean change in VAS/NRS scores between the inflammatory and neuropathic subgroups (P = .763). A multivariate linear regression analysis did not identify significant variables other than low-dose naltrexone that correlated with pain improvement. The number needed to treat to observe a ≥ 50% reduction in pain scores was 3.2.2
Continue to: Limitations for this study...
Limitations for this study include its small sample size and open-label design.2
Low-dose naltrexone is effective for fibromyalgia pain
A 2020 single-blind prospective dose-response study utilized the up-and-down method to identify effective naltrexone dose for patients in a Danish university hospital pain clinic. Patients were White women ages 18 to 60 years (N = 25) who had a diagnosis of fibromyalgia unresponsive to traditional pharmacologic treatment. All patients received treatment with low-dose naltrexone (ranging from 0.75 mg to 6.0 mg) but were blinded to dose.3
Patients were evaluated for improvement in fibromyalgia symptoms using the Patient Global Impression of Improvement (PGI-I) scale—which ranges from 1 (very much improved) to 7 (very much worse), with 4 being “no change”—at baseline and after 2 to 3 weeks of treatment with low-dose naltrexone. A patient was considered a responder if they scored 1 to 3 on the follow-up PGI-I scale or if they experienced a > 30% pain reduction on the VAS. If a patient did not respond to their dose, the next patient began treatment at a dose 0.75 mg higher than the previous patient’s ending dose. If a patient did respond to low-dose naltrexone treatment, the next patient’s starting dose was 0.75 mg less than the previous patient’s. Eleven of 25 patients were considered responders.3
The primary outcomes were effective dose for 50% of fibromyalgia patients (3.88 mg; 95% CI, 3.39-4.35) and effective dose for 95% of fibromyalgia patients (5.4 mg; 95% CI, 4.66-6.13). Secondary outcomes were fibromyalgia symptoms as evaluated on the Fibromyalgia Impact Questionnaire Revised. Five of the 11 responders reported a > 30% improvement in tenderness and 8 of the 11 responders reported a > 30% decrease in waking unrefreshed.3
Limitations of the study include the short time period of treatment before response was assessed and the decision to use low test doses, which may have hindered detection of effective doses > 6 mg in fibromyalgia.3
Editor’s takeaway
Low-dose naltrexone, a less-often-used form of pain management, is a welcome option. Studies show some effectiveness in a variety of pain conditions with few adverse effects. The small number of studies, the small sample sizes, and the limited follow-up duration should encourage more investigation into how to best use this intervention.
1. Srinivasan A, Dutta P, Bansal D, et al. Efficacy and safety of low-dose naltrexone in painful diabetic neuropathy: a randomized, double-blind, active-control, crossover clinical trial. J Diabetes. 2021;13:770-778. doi: 10.1111/1753-0407.13202
2. Martin SJ, McAnally HB, Okediji P, et al. Low-dose naltrexone, an opioid-receptor antagonist, is a broad-spectrum analgesic: a retrospective cohort study. Pain Management. 2022;12:699-709. doi: 10.2217/pmt-2021-0122
3. Bruun-Plesner K, Blichfeldt-Eckhardt MR, Vaegter HB, et al. Low-dose naltrexone for the treatment of fibromyalgia: investigation of dose-response relationships. Pain Med. 2020;21:2253-2261. doi: 10.1093/pm/pnaa001
1. Srinivasan A, Dutta P, Bansal D, et al. Efficacy and safety of low-dose naltrexone in painful diabetic neuropathy: a randomized, double-blind, active-control, crossover clinical trial. J Diabetes. 2021;13:770-778. doi: 10.1111/1753-0407.13202
2. Martin SJ, McAnally HB, Okediji P, et al. Low-dose naltrexone, an opioid-receptor antagonist, is a broad-spectrum analgesic: a retrospective cohort study. Pain Management. 2022;12:699-709. doi: 10.2217/pmt-2021-0122
3. Bruun-Plesner K, Blichfeldt-Eckhardt MR, Vaegter HB, et al. Low-dose naltrexone for the treatment of fibromyalgia: investigation of dose-response relationships. Pain Med. 2020;21:2253-2261. doi: 10.1093/pm/pnaa001
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Low-dose naltrexone is as effective as amitriptyline in the treatment of painful diabetic neuropathy and has a superior safety profile (strength of recomme</metaDescription> <articlePDF>297421</articlePDF> <teaserImage/> <title>Q Is low-dose naltrexone effective in chronic pain management?</title> <deck/> <disclaimer/> <AuthorList/> <articleURL/> <doi/> <pubMedID/> <publishXMLStatus/> <publishXMLVersion>1</publishXMLVersion> <useEISSN>0</useEISSN> <urgency/> <pubPubdateYear>2023</pubPubdateYear> <pubPubdateMonth>September</pubPubdateMonth> <pubPubdateDay/> <pubVolume>72</pubVolume> <pubNumber>7</pubNumber> <wireChannels/> <primaryCMSID/> <CMSIDs> <CMSID>3171</CMSID> </CMSIDs> <keywords> <keyword>pain</keyword> <keyword> diabetes</keyword> <keyword> chronic pain</keyword> </keywords> <seeAlsos/> <publications_g> <publicationData> <publicationCode>jfp</publicationCode> <pubIssueName>September 2023</pubIssueName> <pubArticleType>Clinical Inquiries | 3171</pubArticleType> <pubTopics/> <pubCategories/> <pubSections/> </publicationData> <publicationData> <publicationCode>mdfam</publicationCode> <pubIssueName/> <pubArticleType/> <pubTopics/> <pubCategories/> <pubSections/> <journalTitle/> <journalFullTitle/> <copyrightStatement/> </publicationData> </publications_g> <publications> <term canonical="true">30</term> <term>51948</term> </publications> <sections> <term canonical="true">27414</term> </sections> <topics> <term>205</term> <term canonical="true">68340</term> <term>27442</term> </topics> <links> <link> <itemClass qcode="ninat:composite"/> <altRep contenttype="application/pdf">images/1800257a.pdf</altRep> <description role="drol:caption"/> <description role="drol:credit"/> </link> </links> </header> <itemSet> <newsItem> <itemMeta> <itemRole>Main</itemRole> <itemClass>text</itemClass> <title>Q Is low-dose naltrexone effective in chronic pain management?</title> <deck/> </itemMeta> <itemContent> <p><b> </b><b>YES.</b> Low-dose naltrexone is as effective as amitriptyline in the treatment of painful diabetic neuropathy and has a superior safety profile (strength of recommendation [SOR], <b>B</b>; single randomized controlled trial [RCT]). </p> <p>Low-dose naltrexone significantly reduced pain by 32% in inflammatory conditions and 44% in neuropathic conditions (SOR, <b>B</b>; single retrospective cohort study). <br/><br/>Doses as low as 5.4 mg were found to reduce pain in 95% of patients with fibromyalgia (SOR, <b>B</b>; single prospective dose-response study).</p> <h3>Evidence summary</h3> <p class="sub1">Naltrexone is comparable to amitriptyline for diabetic neuropathy pain</p> <p>A 2021 randomized, double-blind, active-comparator, crossover clinical trial conducted in India examined the efficacy of low-dose naltrexone vs standard-of-care amitriptyline in patients (N = 67) with painful diabetic neuropathy. Participants were adults (ages 18 to 75 years) with painful diabetic neuropathy who had been on a stable dose of nonopioid pain medication for at least 1 month.<sup>1</sup> </p> <p>Patients were randomly assigned to start receiving naltrexone 2 mg (n = 33) or amitriptyline 10 mg (n = 34). They received their starting medication for 6 weeks (with follow-up every 2 weeks), then completed a 2-week washout period, and then switched to the other study medication for 6 weeks (same follow-up schedule). If patients reported < 20% pain reduction on the Visual Analog Scale (VAS; 0-100 scoring system with 0 = no pain and 100 = worst pain) at a follow-up visit, their medication dose was titrated up, to a maximum of 4 mg of naltrexone or 25 to 50 mg of amitriptyline.<sup>1</sup> <br/><br/>The primary outcome of interest was the mean change in VAS pain score following 6 weeks of treatment. There was no statistically different change from baseline VAS pain score between the amitriptyline and naltrexone groups (mean difference [MD] = 1.6; 95% CI, –0.9 to 4.2; <i>P</i> = 0.21). These findings were consistent across the secondary endpoints (Likert 5-point pain scale and McGill Pain Questionnaire scores). There was no statistically significant difference in Hamilton Depression Rating Scale scores (13 in the naltrexone group vs 11 in the amitriptyline group; <i>P</i> = .81), no reports of decreased sleep quality in either group, and no significant difference in Patients’ Global Impression of Change scores at 6-week evaluation.<sup>1</sup> <br/><br/>The naltrexone cohort experienced 8 adverse events (most commonly, mild diarrhea), while the amitriptyline cohort experienced 52 adverse events (most commonly, somnolence) (<i>P</i> < .001). The limitations of the study include the lack of a placebo arm and a relatively small sample size.<sup>1</sup> </p> <p class="sub1">Greater reduction in pain scoreswith naltrexone</p> <p>A 2022 retrospective cohort study evaluated the effectiveness of naltrexone for patients treated at a single outpatient integrative pain management practice in Alaska between 2014 and 2019. The exposure group (n = 36) included patients who had completed at least a 2-month continuous regimen of oral naltrexone 4.5 mg. Controls (n = 42) were selected from the remaining practice population receiving standard care and were primarily matched by diagnosis code, followed by gender, then age +/– 5 years. Patients were divided into subgroups for inflammatory and neuropathic pain.<sup>2</sup> </p> <p>The primary outcome measured was the mean change in VAS score or numeric rating score (NRS; both used a 1-10 rating system), which was assessed during a patient’s appointment from initiation of treatment to the most recent visit or at the termination of therapy (intervention interquartile range, 12-14 months). There was no statistically significant difference in VAS/NRS between the low-dose naltrexone and control groups at baseline (6.09 vs 6.38; <i>P</i> = .454). The low-dose naltrexone group experienced a greater reduction in VAS/NRS pain scores compared to the control group (–37.8% vs –4.3%; <i>P</i> < .001).<sup>2</sup> <br/><br/>Compared with control patients in each group, patients in the inflammatory pain subgroup and the neuropathic pain subgroup who received low-dose naltrexone reported reductions in pain scores of 32% (<i>P</i> < .001) and 44% (<i>P</i> = .048), respectively. There was no statistically significant difference in mean change in VAS/NRS scores between the inflammatory and neuropathic subgroups (<i>P</i> = .763). A multivariate linear regression analysis did not identify significant variables other than low-dose naltrexone that correlated with pain improvement. The number needed to treat to observe a ≥ 50% reduction in pain scores was 3.2.<sup>2</sup> <br/><br/>Limitations for this study include its small sample size and open-label design.<sup>2</sup></p> <p class="sub1">Low-dose naltrexone is effective for fibromyalgia pain</p> <p>A 2020 single-blind prospective dose-response study utilized the up-and-down method to identify effective naltrexone dose for patients in a Danish university hospital pain clinic. Patients were White women ages 18 to 60 years (N = 25) who had a diagnosis of fibromyalgia unresponsive to traditional pharmacologic treatment. All patients received treatment with low-dose naltrexone (ranging from 0.75 mg to 6.0 mg) but were blinded to dose.<sup>3</sup> </p> <p>Patients were evaluated for improvement in fibromyalgia symptoms using the Patient Global Impression of Improvement (PGI-I) scale—which ranges from 1 (very much improved) to 7 (very much worse), with 4 being “no change”—at baseline and after 2 to 3 weeks of treatment with low-dose naltrexone. A patient was considered a responder if they scored 1 to 3 on the follow-up PGI-I scale or if they experienced a > 30% pain reduction on the VAS. If a patient did not respond to their dose, the next patient began treatment at a dose 0.75 mg higher than the previous patient’s ending dose. If a patient did respond to low-dose naltrexone treatment, the next patient’s starting dose was 0.75 mg less than the previous patient’s. Eleven of 25 patients were considered responders.<sup>3</sup> <br/><br/>The primary outcomes were effective dose for 50% of fibromyalgia patients (3.88 mg; 95% CI, 3.39-4.35) and effective dose for 95% of fibromyalgia patients (5.4 mg; 95% CI, 4.66-6.13). Secondary outcomes were fibromyalgia symptoms as evaluated on the Fibromyalgia Impact Questionnaire Revised. Five of the 11 responders reported a > 30% improvement in tenderness and 8 of the 11 responders reported a > 30% decrease in waking unrefreshed.<sup>3<br/><br/></sup>Limitations of the study include the short time period of treatment before response was assessed and the decision to use low test doses, which may have hindered detection of effective doses > 6 mg in fibromyalgia.<sup>3</sup> </p> <h3>Editor’s takeaway</h3> <p>Low-dose naltrexone, a less-often-used form of pain management, is a welcome option. Studies show some effectiveness in a variety of pain conditions with few adverse effects. The small number of studies, the small sample sizes, and the limited follow-up duration should encourage more investigation into how to best use this intervention. <span class="end">JFP</span></p> <p class="reference"> 1. Srinivasan A, Dutta P, Bansal D, et al. Efficacy and safety of low-dose naltrexone in painful diabetic neuropathy: a randomized, double-blind, active-control, crossover clinical trial. <i>J Diabetes</i>. 2021;13:770-778. doi: 10.1111/1753-0407.13202<br/><br/> 2. Martin SJ, McAnally HB, Okediji P, et al. Low-dose naltrexone, an opioid-receptor antagonist, is a broad-spectrum analgesic: a retrospective cohort study. <i>Pain Management. </i>2022;12:699-709. doi: 10.2217/pmt-2021-0122 <br/><br/> 3. Bruun-Plesner K, Blichfeldt-Eckhardt MR, Vaegter HB, et al. Low-dose naltrexone for the treatment of fibromyalgia: investigation of dose-response relationships<i>. Pain Med</i>. 2020;21:2253-2261. doi: 10.1093/pm/pnaa001 </p> </itemContent> </newsItem> </itemSet></root>
EVIDENCE-BASED ANSWER:
YES. Low-dose naltrexone is as effective as amitriptyline in the treatment of painful diabetic neuropathy and has a superior safety profile (strength of recommendation [SOR], B; single randomized controlled trial [RCT]).
Low-dose naltrexone significantly reduced pain by 32% in inflammatory conditions and 44% in neuropathic conditions (SOR, B; single retrospective cohort study).
Doses as low as 5.4 mg were found to reduce pain in 95% of patients with fibromyalgia (SOR, B; single prospective dose-response study).
Does hormone replacement therapy prevent cognitive decline in postmenopausal women?
Evidence summary
Multiple analyses suggest HRT worsens rather than improves cognition
A 2017 Cochrane review of 22 randomized, double-blind studies compared use of HRT (estrogen only or combination estrogen + progesterone therapies) with placebo in postmenopausal women (N = 43,637). Age ranges varied, but the average age in most studies was > 60 years. Treatment duration was at least 1 year. Various outcomes were assessed across these 22 studies, including cardiovascular disease, bone health, and cognition.1
Cognitive outcomes were assessed with the Mini-Mental Status Exam in 5 of the trials (N = 12,789). Data were not combined due to heterogeneity. The authors found no significant difference in cognitive scores between the treatment and control groups in any of these 5 studies.1
In the largest included study, the Women’s Health Initiative (WHI) Memory Study (N = 10,739), participants were older than 65 years. Among those receiving estrogen-only HRT, there were no statistically significant differences compared to those receiving placebo. However, healthy postmenopausal women taking combination HRT had an increased risk for “probable dementia” compared to those taking placebo (relative risk [RR] = 1.97; 95% CI, 1.16-3.33). When researchers looked exclusively at women taking HRT, the risk for dementia increased from 9 in 1000 to 18 in 1000 (95% CI, 11-30) after 4 years of HRT use. This results in a number needed to harm of 4 to 50 patients.1
Two notable limitations of this evidence are that the average age of this population was > 60 years and 80% of the participants were White.1
A 2021 meta-analysis of 23 RCTs (N = 13,683) studied the effect of HRT on global cognitive function as well as specific cognitive domains including memory, executive function, attention, and language. Mean patient age in the studies varied from 48 to 81 years. Nine of these studies were also included in the previously discussed Cochrane review.2
There was a statistically significant but small decrease in overall global cognition (10 trials; N = 12,115; standardized mean difference [SMD] = –0.04; 95% CI, –0.08 to –0.01) in those receiving HRT compared to placebo. This effect was slightly more pronounced among those who initiated HRT at age > 60 years (8 trials; N = 11,914; SMD = –0.05; 95% CI, –0.08 to –0.01) and among patients with HRT duration > 6 months (7 trials; N = 11,828; SMD = –0.05; 95% CI, –0.08 to –0.01). There were no significant differences in specific cognitive domains.2
In a 2017 follow-up to the WHI trial, researchers analyzed data on long-term cognitive effects in women previously treated with HRT. There were 2 cohorts: participants who initiated HRT at a younger age (50-54; N = 1376) and those who initiated HRT later in life (age 65-79; N = 2880). Cognitive outcomes were assessed using the Telephone Interview for Cognitive Status-modified, with interviews conducted annually beginning 6 to 7 years after HRT was stopped.3
The investigators found no significant change in composite cognitive function in the younger HRT-treated group compared to placebo (estrogen alone: mean deviation [MD] = 0.014; 95% CI, –0.097 to 0.126; estrogen + progesterone: MD = –0.047; 95% CI, –0.134 to 0.04), or in the group who initiated HRT at an older age (estrogen alone: MD = –0.099; 95% CI, –0.202 to 0.004; estrogen + progesterone: MD = –0.022; 95% CI, –0.099 to 0.055). The authors state that although the data did not reach significance, this study also found a trend toward decreases in global cognitive function in the older age group.3
Editor’s takeaway
Abundant, consistent evidence with long-term follow-up shows postmenopausal HRT does not reduce cognitive decline. In fact, it appears to increase cognitive decline slightly. Renewed interest in postmenopausal HRT to alleviate menopausal symptoms should balance the risks and benefits to the individual patient.
1. Marjoribanks J, Farquhar C, Roberts H, et al. Long-term hormone therapy for perimenopausal and postmenopausal women. Cochrane Database Syst Rev. 2017;1:CD004143. doi: 10.1002/14651858.CD004143.pub5
2. Zhou HH, Yu Z, Luo L, et al. The effect of hormone replacement therapy on cognitive function in healthy postmenopausal women: a meta-analysis of 23 randomized controlled trials. Psychogeriatrics. 2021;21:926-938. doi: 10.1111/psyg.12768
3. Espeland MA, Rapp SR, Manson JE, et al. Long-term effects on cognitive trajectories of postmenopausal hormone therapy in two age groups. J Gerontol A Biol Sci Med Sci. 2017;72:838-845. doi: 10.1093/gerona/glw156
Evidence summary
Multiple analyses suggest HRT worsens rather than improves cognition
A 2017 Cochrane review of 22 randomized, double-blind studies compared use of HRT (estrogen only or combination estrogen + progesterone therapies) with placebo in postmenopausal women (N = 43,637). Age ranges varied, but the average age in most studies was > 60 years. Treatment duration was at least 1 year. Various outcomes were assessed across these 22 studies, including cardiovascular disease, bone health, and cognition.1
Cognitive outcomes were assessed with the Mini-Mental Status Exam in 5 of the trials (N = 12,789). Data were not combined due to heterogeneity. The authors found no significant difference in cognitive scores between the treatment and control groups in any of these 5 studies.1
In the largest included study, the Women’s Health Initiative (WHI) Memory Study (N = 10,739), participants were older than 65 years. Among those receiving estrogen-only HRT, there were no statistically significant differences compared to those receiving placebo. However, healthy postmenopausal women taking combination HRT had an increased risk for “probable dementia” compared to those taking placebo (relative risk [RR] = 1.97; 95% CI, 1.16-3.33). When researchers looked exclusively at women taking HRT, the risk for dementia increased from 9 in 1000 to 18 in 1000 (95% CI, 11-30) after 4 years of HRT use. This results in a number needed to harm of 4 to 50 patients.1
Two notable limitations of this evidence are that the average age of this population was > 60 years and 80% of the participants were White.1
A 2021 meta-analysis of 23 RCTs (N = 13,683) studied the effect of HRT on global cognitive function as well as specific cognitive domains including memory, executive function, attention, and language. Mean patient age in the studies varied from 48 to 81 years. Nine of these studies were also included in the previously discussed Cochrane review.2
There was a statistically significant but small decrease in overall global cognition (10 trials; N = 12,115; standardized mean difference [SMD] = –0.04; 95% CI, –0.08 to –0.01) in those receiving HRT compared to placebo. This effect was slightly more pronounced among those who initiated HRT at age > 60 years (8 trials; N = 11,914; SMD = –0.05; 95% CI, –0.08 to –0.01) and among patients with HRT duration > 6 months (7 trials; N = 11,828; SMD = –0.05; 95% CI, –0.08 to –0.01). There were no significant differences in specific cognitive domains.2
In a 2017 follow-up to the WHI trial, researchers analyzed data on long-term cognitive effects in women previously treated with HRT. There were 2 cohorts: participants who initiated HRT at a younger age (50-54; N = 1376) and those who initiated HRT later in life (age 65-79; N = 2880). Cognitive outcomes were assessed using the Telephone Interview for Cognitive Status-modified, with interviews conducted annually beginning 6 to 7 years after HRT was stopped.3
The investigators found no significant change in composite cognitive function in the younger HRT-treated group compared to placebo (estrogen alone: mean deviation [MD] = 0.014; 95% CI, –0.097 to 0.126; estrogen + progesterone: MD = –0.047; 95% CI, –0.134 to 0.04), or in the group who initiated HRT at an older age (estrogen alone: MD = –0.099; 95% CI, –0.202 to 0.004; estrogen + progesterone: MD = –0.022; 95% CI, –0.099 to 0.055). The authors state that although the data did not reach significance, this study also found a trend toward decreases in global cognitive function in the older age group.3
Editor’s takeaway
Abundant, consistent evidence with long-term follow-up shows postmenopausal HRT does not reduce cognitive decline. In fact, it appears to increase cognitive decline slightly. Renewed interest in postmenopausal HRT to alleviate menopausal symptoms should balance the risks and benefits to the individual patient.
Evidence summary
Multiple analyses suggest HRT worsens rather than improves cognition
A 2017 Cochrane review of 22 randomized, double-blind studies compared use of HRT (estrogen only or combination estrogen + progesterone therapies) with placebo in postmenopausal women (N = 43,637). Age ranges varied, but the average age in most studies was > 60 years. Treatment duration was at least 1 year. Various outcomes were assessed across these 22 studies, including cardiovascular disease, bone health, and cognition.1
Cognitive outcomes were assessed with the Mini-Mental Status Exam in 5 of the trials (N = 12,789). Data were not combined due to heterogeneity. The authors found no significant difference in cognitive scores between the treatment and control groups in any of these 5 studies.1
In the largest included study, the Women’s Health Initiative (WHI) Memory Study (N = 10,739), participants were older than 65 years. Among those receiving estrogen-only HRT, there were no statistically significant differences compared to those receiving placebo. However, healthy postmenopausal women taking combination HRT had an increased risk for “probable dementia” compared to those taking placebo (relative risk [RR] = 1.97; 95% CI, 1.16-3.33). When researchers looked exclusively at women taking HRT, the risk for dementia increased from 9 in 1000 to 18 in 1000 (95% CI, 11-30) after 4 years of HRT use. This results in a number needed to harm of 4 to 50 patients.1
Two notable limitations of this evidence are that the average age of this population was > 60 years and 80% of the participants were White.1
A 2021 meta-analysis of 23 RCTs (N = 13,683) studied the effect of HRT on global cognitive function as well as specific cognitive domains including memory, executive function, attention, and language. Mean patient age in the studies varied from 48 to 81 years. Nine of these studies were also included in the previously discussed Cochrane review.2
There was a statistically significant but small decrease in overall global cognition (10 trials; N = 12,115; standardized mean difference [SMD] = –0.04; 95% CI, –0.08 to –0.01) in those receiving HRT compared to placebo. This effect was slightly more pronounced among those who initiated HRT at age > 60 years (8 trials; N = 11,914; SMD = –0.05; 95% CI, –0.08 to –0.01) and among patients with HRT duration > 6 months (7 trials; N = 11,828; SMD = –0.05; 95% CI, –0.08 to –0.01). There were no significant differences in specific cognitive domains.2
In a 2017 follow-up to the WHI trial, researchers analyzed data on long-term cognitive effects in women previously treated with HRT. There were 2 cohorts: participants who initiated HRT at a younger age (50-54; N = 1376) and those who initiated HRT later in life (age 65-79; N = 2880). Cognitive outcomes were assessed using the Telephone Interview for Cognitive Status-modified, with interviews conducted annually beginning 6 to 7 years after HRT was stopped.3
The investigators found no significant change in composite cognitive function in the younger HRT-treated group compared to placebo (estrogen alone: mean deviation [MD] = 0.014; 95% CI, –0.097 to 0.126; estrogen + progesterone: MD = –0.047; 95% CI, –0.134 to 0.04), or in the group who initiated HRT at an older age (estrogen alone: MD = –0.099; 95% CI, –0.202 to 0.004; estrogen + progesterone: MD = –0.022; 95% CI, –0.099 to 0.055). The authors state that although the data did not reach significance, this study also found a trend toward decreases in global cognitive function in the older age group.3
Editor’s takeaway
Abundant, consistent evidence with long-term follow-up shows postmenopausal HRT does not reduce cognitive decline. In fact, it appears to increase cognitive decline slightly. Renewed interest in postmenopausal HRT to alleviate menopausal symptoms should balance the risks and benefits to the individual patient.
1. Marjoribanks J, Farquhar C, Roberts H, et al. Long-term hormone therapy for perimenopausal and postmenopausal women. Cochrane Database Syst Rev. 2017;1:CD004143. doi: 10.1002/14651858.CD004143.pub5
2. Zhou HH, Yu Z, Luo L, et al. The effect of hormone replacement therapy on cognitive function in healthy postmenopausal women: a meta-analysis of 23 randomized controlled trials. Psychogeriatrics. 2021;21:926-938. doi: 10.1111/psyg.12768
3. Espeland MA, Rapp SR, Manson JE, et al. Long-term effects on cognitive trajectories of postmenopausal hormone therapy in two age groups. J Gerontol A Biol Sci Med Sci. 2017;72:838-845. doi: 10.1093/gerona/glw156
1. Marjoribanks J, Farquhar C, Roberts H, et al. Long-term hormone therapy for perimenopausal and postmenopausal women. Cochrane Database Syst Rev. 2017;1:CD004143. doi: 10.1002/14651858.CD004143.pub5
2. Zhou HH, Yu Z, Luo L, et al. The effect of hormone replacement therapy on cognitive function in healthy postmenopausal women: a meta-analysis of 23 randomized controlled trials. Psychogeriatrics. 2021;21:926-938. doi: 10.1111/psyg.12768
3. Espeland MA, Rapp SR, Manson JE, et al. Long-term effects on cognitive trajectories of postmenopausal hormone therapy in two age groups. J Gerontol A Biol Sci Med Sci. 2017;72:838-845. doi: 10.1093/gerona/glw156
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Hormone replacement therapy (HRT) does not prevent cognitive decline in postmenopausal women—and in fact, it may slightly increase risk (strength of recomme</metaDescription> <articlePDF>294971</articlePDF> <teaserImage/> <title>Q Does hormone replacement therapy prevent cognitive decline in postmenopausal women?</title> <deck/> <disclaimer/> <AuthorList/> <articleURL/> <doi/> <pubMedID/> <publishXMLStatus/> <publishXMLVersion>1</publishXMLVersion> <useEISSN>0</useEISSN> <urgency/> <pubPubdateYear>2023</pubPubdateYear> <pubPubdateMonth>May</pubPubdateMonth> <pubPubdateDay/> <pubVolume>72</pubVolume> <pubNumber>4</pubNumber> <wireChannels/> <primaryCMSID/> <CMSIDs> <CMSID>3171</CMSID> </CMSIDs> <keywords> <keyword>women's health</keyword> <keyword> hormone replacement therapy</keyword> <keyword> HRT</keyword> <keyword> postmenopausal</keyword> <keyword> cognitive decline</keyword> </keywords> <seeAlsos/> <publications_g> <publicationData> <publicationCode>jfp</publicationCode> <pubIssueName>May 2023</pubIssueName> <pubArticleType>Clinical Inquiries | 3171</pubArticleType> <pubTopics/> <pubCategories/> <pubSections/> </publicationData> <publicationData> <publicationCode>mdfam</publicationCode> <pubIssueName/> <pubArticleType/> <pubTopics/> <pubCategories/> <pubSections/> <journalTitle/> <journalFullTitle/> <copyrightStatement/> </publicationData> </publications_g> <publications> <term canonical="true">30</term> <term>51948</term> </publications> <sections> <term canonical="true">27414</term> </sections> <topics> <term canonical="true">322</term> </topics> <links> <link> <itemClass qcode="ninat:composite"/> <altRep contenttype="application/pdf">images/1800245f.pdf</altRep> <description role="drol:caption"/> <description role="drol:credit"/> </link> </links> </header> <itemSet> <newsItem> <itemMeta> <itemRole>Main</itemRole> <itemClass>text</itemClass> <title>Q Does hormone replacement therapy prevent cognitive decline in postmenopausal women?</title> <deck/> </itemMeta> <itemContent> <p> <b>NO.</b> Hormone replacement therapy (HRT) does not prevent cognitive decline in postmenopausal women—and in fact, it may slightly increase risk (strength of recommendation, <b>A</b>; systematic review, meta-analysis of randomized controlled trials [RCTs], and individual RCT).</p> <h3>Evidence summary</h3> <p class="sub1">Multiple analyses suggest HRTworsens rather than improves cognition</p> <p>A 2017 Cochrane review of 22 randomized, double-blind studies compared use of HRT (estrogen only or combination estrogen + progesterone therapies) with placebo in postmenopausal women (N = 43,637). Age ranges varied, but the average age in most studies was > 60 years. Treatment duration was at least 1 year. Various outcomes were assessed across these 22 studies, including cardiovascular disease, bone health, and cognition.<sup>1</sup> </p> <p>Cognitive outcomes were assessed with the Mini-Mental Status Exam in 5 of the trials (N = 12,789). Data were not combined due to heterogeneity. The authors found no significant difference in cognitive scores between the treatment and control groups in any of these 5 studies.<sup>1</sup> <br/><br/>In the largest included study, the Women’s Health Initiative (WHI) Memory Study (N = 10,739), participants were older than 65 years. Among those receiving estrogen-only HRT, there were no statistically significant differences compared to those receiving placebo. However, healthy postmenopausal women taking combination HRT had an increased risk for “probable dementia” compared to those taking placebo (relative risk [RR] = 1.97; 95% CI, 1.16-3.33). When researchers looked exclusively at women taking HRT, the risk for dementia increased from 9 in 1000 to 18 in 1000 (95% CI, 11-30) after 4 years of HRT use. This results in a number needed to harm of 4 to 50 patients.<sup>1</sup> <br/><br/>Two notable limitations of this evidence are that the average age of this population was > 60 years and 80% of the participants were White.<sup>1<br/><br/></sup>A 2021 meta-analysis of 23 RCTs (N = 13,683) studied the effect of HRT on global cognitive function as well as specific cognitive domains including memory, executive function, attention, and language. Mean patient age in the studies varied from 48 to 81 years. Nine of these studies were also included in the previously discussed Cochrane review.<sup>2</sup> <br/><br/>There was a statistically significant but small decrease in overall global cognition (10 trials; N = 12,115; standardized mean difference [SMD] = –0.04; 95% CI, –0.08 to –0.01) in those receiving HRT compared to placebo. This effect was slightly more pronounced among those who initiated HRT at age > 60 years (8 trials; N = 11,914; SMD = –0.05; 95% CI, –0.08 to –0.01) and among patients with HRT duration > 6 months (7 trials; N = 11,828; SMD = –0.05; 95% CI, –0.08 to –0.01). There were no significant differences in specific cognitive domains.<sup>2<br/><br/></sup>In a 2017 follow-up to the WHI trial, researchers analyzed data on long-term cognitive effects in women previously treated with HRT. There were 2 cohorts: participants who initiated HRT at a younger age (50-54; N = 1376) and those who initiated HRT later in life (age 65-79; N = 2880). Cognitive outcomes were assessed using the Telephone Interview for Cognitive Status-modified, with interviews conducted annually beginning 6 to 7 years after HRT was stopped.<sup>3</sup> <br/><br/>The investigators found no significant change in composite cognitive function in the younger HRT-treated group compared to placebo (estrogen alone: mean deviation [MD] = 0.014; 95% CI, –0.097 to 0.126; estrogen + progesterone: MD = –0.047; 95% CI, –0.134 to 0.04), or in the group who initiated HRT at an older age (estrogen alone: MD = –0.099; 95% CI, –0.202 to 0.004; estrogen + progesterone: MD = –0.022; 95% CI, –0.099 to 0.055). The authors state that although the data did not reach significance, this study also found a trend toward decreases in global cognitive function in the older age group.<sup>3</sup></p> <h3>Editor’s takeaway</h3> <p>Abundant, consistent evidence with long-term follow-up shows postmenopausal HRT does not reduce cognitive decline. In fact, it appears to increase cognitive decline slightly. Renewed interest in postmenopausal HRT to alleviate menopausal symptoms should balance the risks and benefits to the individual patient. <span class="end">JFP</span></p> <p class="reference"> 1. Marjoribanks J, Farquhar C, Roberts H, et al. Long-term hormone therapy for perimenopausal and postmenopausal women. <i>Cochrane Database Syst Rev</i>. 2017;1:CD004143. doi: 10.1002/14651858.CD004143.pub5 <br/><br/> 2. Zhou HH, Yu Z, Luo L, et al. The effect of hormone replacement therapy on cognitive function in healthy postmenopausal women: a meta-analysis of 23 randomized controlled trials. <i>Psychogeriatrics</i>. 2021;21:926-938. doi: 10.1111/psyg.12768 <br/><br/> 3. Espeland MA, Rapp SR, Manson JE, et al. Long-term effects on cognitive trajectories of postmenopausal hormone therapy in two age groups. <i>J Gerontol A Biol Sci Med Sci</i>. 2017;72:838-845. doi: 10.1093/gerona/glw156 </p> </itemContent> </newsItem> <newsItem> <itemMeta> <itemRole>bio</itemRole> <itemClass>text</itemClass> <title/> <deck/> </itemMeta> <itemContent> <p class="DOI">doi: 10.12788/jfp.0594<hl name="299"/></p> </itemContent> </newsItem> </itemSet></root>
EVIDENCE-BASED REVIEW:
NO. Hormone replacement therapy (HRT) does not prevent cognitive decline in postmenopausal women—and in fact, it may slightly increase risk (strength of recommendation, A; systematic review, meta-analysis of randomized controlled trials [RCTs], and individual RCT).
