Complementary and alternative therapies for post-caesarean pain

Sandra A Zimpel, Maria Regina Torloni, Gustavo Jm Porfírio, Ronald Lg Flumignan, Edina Mk da Silva, Sandra A Zimpel, Maria Regina Torloni, Gustavo Jm Porfírio, Ronald Lg Flumignan, Edina Mk da Silva

Abstract

Background: Pain after caesarean sections (CS) can affect the well-being of the mother and her ability with her newborn. Conventional pain-relieving strategies are often underused because of concerns about the adverse maternal and neonatal effects. Complementary alternative therapies (CAM) may offer an alternative for post-CS pain.

Objectives: To assess the effects of CAM for post-caesarean pain.

Search methods: We searched Cochrane Pregnancy and Childbirth's Trials Register, LILACS, PEDro, CAMbase, ClinicalTrials.gov and the WHO International Clinical Trials Registry Platform (ICTRP) (6 September 2019), and checked the reference lists of retrieved articles.

Selection criteria: Randomised controlled trials (RCTs), including quasi-RCTs and cluster-RCTs, comparing CAM, alone or associated with other forms of pain relief, versus other treatments or placebo or no treatment, for the treatment of post-CS pain.

Data collection and analysis: Two review authors independently performed study selection, extracted data, assessed risk of bias and assessed the certainty of evidence using GRADE.

Main results: We included 37 studies (3076 women) which investigated eight different CAM therapies for post-CS pain relief. There is substantial heterogeneity among the trials. We downgraded the certainty of evidence due to small numbers of women participating in the trials and to risk of bias related to lack of blinding and inadequate reporting of randomisation processes. None of the trials reported pain at six weeks after discharge. Primary outcomes were pain and adverse effects, reported per intervention below. Secondary outcomes included vital signs, rescue analgesic requirement at six weeks after discharge; all of which were poorly reported, not reported, or we are uncertain as to the effect Acupuncture or acupressure We are very uncertain if acupuncture or acupressure (versus no treatment) or acupuncture or acupressure plus analgesia (versus placebo plus analgesia) has any effect on pain because the quality of evidence is very low. Acupuncture or acupressure plus analgesia (versus analgesia) may reduce pain at 12 hours (standardised mean difference (SMD) -0.28, 95% confidence interval (CI) -0.64 to 0.07; 130 women; 2 studies; low-certainty evidence) and 24 hours (SMD -0.63, 95% CI -0.99 to -0.26; 2 studies; 130 women; low-certainty evidence). It is uncertain whether acupuncture or acupressure (versus no treatment) or acupuncture or acupressure plus analgesia (versus analgesia) has any effect on the risk of adverse effects because the quality of evidence is very low. Aromatherapy Aromatherapy plus analgesia may reduce pain when compared with placebo plus analgesia at 12 hours (mean difference (MD) -2.63 visual analogue scale (VAS), 95% CI -3.48 to -1.77; 3 studies; 360 women; low-certainty evidence) and 24 hours (MD -3.38 VAS, 95% CI -3.85 to -2.91; 1 study; 200 women; low-certainty evidence). We are uncertain if aromatherapy plus analgesia has any effect on adverse effects (anxiety) compared with placebo plus analgesia. Electromagnetic therapy Electromagnetic therapy may reduce pain compared with placebo plus analgesia at 12 hours (MD -8.00, 95% CI -11.65 to -4.35; 1 study; 72 women; low-certainty evidence) and 24 hours (MD -13.00 VAS, 95% CI -17.13 to -8.87; 1 study; 72 women; low-certainty evidence). Massage We identified six studies (651 women), five of which were quasi-RCTs, comparing massage (foot and hand) plus analgesia versus analgesia. All the evidence relating to pain, adverse effects (anxiety), vital signs and rescue analgesic requirement was very low-certainty. Music Music plus analgesia may reduce pain when compared with placebo plus analgesia at one hour (SMD -0.84, 95% CI -1.23 to -0.46; participants = 115; studies = 2; I2 = 0%; low-certainty evidence), 24 hours (MD -1.79, 95% CI -2.67 to -0.91; 1 study; 38 women; low-certainty evidence), and also when compared with analgesia at one hour (MD -2.11, 95% CI -3.11 to -1.10; 1 study; 38 women; low-certainty evidence) and at 24 hours (MD -2.69, 95% CI -3.67 to -1.70; 1 study; 38 women; low-certainty evidence). It is uncertain whether music plus analgesia has any effect on adverse effects (anxiety), when compared with placebo plus analgesia because the quality of evidence is very low. Reiki We are uncertain if Reiki plus analgesia compared with analgesia alone has any effect on pain, adverse effects, vital signs or rescue analgesic requirement because the quality of evidence is very low (one study, 90 women). Relaxation Relaxation may reduce pain compared with standard care at 24 hours (MD -0.53 VAS, 95% CI -1.05 to -0.01; 1 study; 60 women; low-certainty evidence). Transcutaneous electrical nerve stimulation TENS (versus no treatment) may reduce pain at one hour (MD -2.26, 95% CI -3.35 to -1.17; 1 study; 40 women; low-certainty evidence). TENS plus analgesia (versus placebo plus analgesia) may reduce pain compared with placebo plus analgesia at one hour (SMD -1.10 VAS, 95% CI -1.37 to -0.82; 3 studies; 238 women; low-certainty evidence) and at 24 hours (MD -0.70 VAS, 95% CI -0.87 to -0.53; 108 women; 1 study; low-certainty evidence). TENS plus analgesia (versus placebo plus analgesia) may reduce heart rate (MD -7.00 bpm, 95% CI -7.63 to -6.37; 108 women; 1 study; low-certainty evidence) and respiratory rate (MD -1.10 brpm, 95% CI -1.26 to -0.94; 108 women; 1 study; low-certainty evidence). We are uncertain if TENS plus analgesia (versus analgesia) has any effect on pain at six hours or 24 hours, or vital signs because the quality of evidence is very low (two studies, 92 women).

Authors' conclusions: Some CAM therapies may help reduce post-CS pain for up to 24 hours. The evidence on adverse events is too uncertain to make any judgements on safety and we have no evidence about the longer-term effects on pain. Since pain control is the most relevant outcome for post-CS women and their clinicians, it is important that future studies of CAM for post-CS pain measure pain as a primary outcome, preferably as the proportion of participants with at least moderate (30%) or substantial (50%) pain relief. Measuring pain as a dichotomous variable would improve the certainty of evidence and it is easy to understand for non-specialists. Future trials also need to be large enough to detect effects on clinical outcomes; measure other important outcomes as listed lin this review, and use validated scales.

Trial registration: ClinicalTrials.gov NCT01897311 NCT01049477 NCT03080506 NCT02129894 NCT03711994 NCT01786330 NCT02364167 NCT01383122 NCT03359798 NCT03829774 NCT02526186 NCT03604068 NCT00725569 NCT02365753.

Conflict of interest statement

Sandra Zimpel: none known.

Maria Regina Torloni: none known.

Gustavo JM Porfirio: none known.

Ronald LG Flumignan: none known.

Edina MK da Silva: none known.

Copyright © 2020 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd.

Figures

1
1
Study flow diagram.
2
2
'Risk of bias' graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.
3
3
'Risk of bias' summary: review authors' judgements about each risk of bias item for each included study.
1.1. Analysis
1.1. Analysis
Comparison 1: Acupuncture versus no treatment, Outcome 1: Abdominal pain up to 24 hours (VAS)
1.2. Analysis
1.2. Analysis
Comparison 1: Acupuncture versus no treatment, Outcome 2: Back pain up to 24 hours (VAS)
2.1. Analysis
2.1. Analysis
Comparison 2: Acupuncture plus analgesia versus placebo plus analgesia, Outcome 1: Pain
2.2. Analysis
2.2. Analysis
Comparison 2: Acupuncture plus analgesia versus placebo plus analgesia, Outcome 2: Rescue analgesic requirement (number of analgesic)
3.1. Analysis
3.1. Analysis
Comparison 3: Acupuncture plus analgesia versus analgesia, Outcome 1: Pain ‐ up to 12 and 24 hours
3.2. Analysis
3.2. Analysis
Comparison 3: Acupuncture plus analgesia versus analgesia, Outcome 2: Pain ‐ up to 48 hours
3.3. Analysis
3.3. Analysis
Comparison 3: Acupuncture plus analgesia versus analgesia, Outcome 3: Adverse effects (pruritus)
3.4. Analysis
3.4. Analysis
Comparison 3: Acupuncture plus analgesia versus analgesia, Outcome 4: Rescue analgesic requirement (cumulative dose)
3.5. Analysis
3.5. Analysis
Comparison 3: Acupuncture plus analgesia versus analgesia, Outcome 5: Rescue analgesic requirement (number of analgesic)
4.1. Analysis
4.1. Analysis
Comparison 4: Aromatherapy plus analgesia versus placebo plus analgesia, Outcome 1: Pain
4.2. Analysis
4.2. Analysis
Comparison 4: Aromatherapy plus analgesia versus placebo plus analgesia, Outcome 2: Anxiety
4.3. Analysis
4.3. Analysis
Comparison 4: Aromatherapy plus analgesia versus placebo plus analgesia, Outcome 3: Heart rate (bpm)
4.4. Analysis
4.4. Analysis
Comparison 4: Aromatherapy plus analgesia versus placebo plus analgesia, Outcome 4: Diastolic blood pressure (mm Hg)
4.5. Analysis
4.5. Analysis
Comparison 4: Aromatherapy plus analgesia versus placebo plus analgesia, Outcome 5: Systolic blood pressure (mm Hg)
4.6. Analysis
4.6. Analysis
Comparison 4: Aromatherapy plus analgesia versus placebo plus analgesia, Outcome 6: Rescue analgesic requirement
4.7. Analysis
4.7. Analysis
Comparison 4: Aromatherapy plus analgesia versus placebo plus analgesia, Outcome 7: Satisfaction
5.1. Analysis
5.1. Analysis
Comparison 5: Electromagnetic therapy plus analgesia versus placebo plus analgesia, Outcome 1: Pain (VAS)
5.2. Analysis
5.2. Analysis
Comparison 5: Electromagnetic therapy plus analgesia versus placebo plus analgesia, Outcome 2: Rescue analgesic requirement
5.3. Analysis
5.3. Analysis
Comparison 5: Electromagnetic therapy plus analgesia versus placebo plus analgesia, Outcome 3: Satisfaction
6.1. Analysis
6.1. Analysis
Comparison 6: Massage (foot and hand) plus analgesia versus analgesia, Outcome 1: Pain
6.2. Analysis
6.2. Analysis
Comparison 6: Massage (foot and hand) plus analgesia versus analgesia, Outcome 2: Adverse effects (anxiety)
6.3. Analysis
6.3. Analysis
Comparison 6: Massage (foot and hand) plus analgesia versus analgesia, Outcome 3: Heart rate
6.4. Analysis
6.4. Analysis
Comparison 6: Massage (foot and hand) plus analgesia versus analgesia, Outcome 4: Respiratory rate (breaths per minute)
6.5. Analysis
6.5. Analysis
Comparison 6: Massage (foot and hand) plus analgesia versus analgesia, Outcome 5: Systolic blood pressure
6.6. Analysis
6.6. Analysis
Comparison 6: Massage (foot and hand) plus analgesia versus analgesia, Outcome 6: Diastolic blood pressure
6.7. Analysis
6.7. Analysis
Comparison 6: Massage (foot and hand) plus analgesia versus analgesia, Outcome 7: Rescue analgesic requirement
6.8. Analysis
6.8. Analysis
Comparison 6: Massage (foot and hand) plus analgesia versus analgesia, Outcome 8: Breastfeeding
7.1. Analysis
7.1. Analysis
Comparison 7: Music plus analgesia versus placebo plus analgesia, Outcome 1: Pain ‐ up to 1 hour
7.2. Analysis
7.2. Analysis
Comparison 7: Music plus analgesia versus placebo plus analgesia, Outcome 2: Pain ‐ up to 24 and 48 hours
7.3. Analysis
7.3. Analysis
Comparison 7: Music plus analgesia versus placebo plus analgesia, Outcome 3: Adverse effects (anxiety)
7.4. Analysis
7.4. Analysis
Comparison 7: Music plus analgesia versus placebo plus analgesia, Outcome 4: Heart hate (bpm)
7.5. Analysis
7.5. Analysis
Comparison 7: Music plus analgesia versus placebo plus analgesia, Outcome 5: Systolic blood pressure (mm Hg)
7.6. Analysis
7.6. Analysis
Comparison 7: Music plus analgesia versus placebo plus analgesia, Outcome 6: Diastolic blood pressure (mm Hg)
7.7. Analysis
7.7. Analysis
Comparison 7: Music plus analgesia versus placebo plus analgesia, Outcome 7: Rescue analgesic requirement (dose)
8.1. Analysis
8.1. Analysis
Comparison 8: Music plus analgesia versus analgesia, Outcome 1: Pain
8.2. Analysis
8.2. Analysis
Comparison 8: Music plus analgesia versus analgesia, Outcome 2: Rescue analgesic requirement (cumulative dose)
8.3. Analysis
8.3. Analysis
Comparison 8: Music plus analgesia versus analgesia, Outcome 3: Satisfaction
9.1. Analysis
9.1. Analysis
Comparison 9: Reiki plus analgesia versus analgesia, Outcome 1: Pain
9.2. Analysis
9.2. Analysis
Comparison 9: Reiki plus analgesia versus analgesia, Outcome 2: Adverse effects (anxiety)
9.3. Analysis
9.3. Analysis
Comparison 9: Reiki plus analgesia versus analgesia, Outcome 3: Heart rate
9.4. Analysis
9.4. Analysis
Comparison 9: Reiki plus analgesia versus analgesia, Outcome 4: Respiratory rate
9.5. Analysis
9.5. Analysis
Comparison 9: Reiki plus analgesia versus analgesia, Outcome 5: Systolic blood pressure (mm Hg)
9.6. Analysis
9.6. Analysis
Comparison 9: Reiki plus analgesia versus analgesia, Outcome 6: Diastolic blood pressure (mm Hg)
10.1. Analysis
10.1. Analysis
Comparison 10: Relaxation versus standard care, Outcome 1: Pain
11.1. Analysis
11.1. Analysis
Comparison 11: TENS versus no treatment, Outcome 1: Pain (NAS)
11.2. Analysis
11.2. Analysis
Comparison 11: TENS versus no treatment, Outcome 2: Pain (measured with McGill pain questionnaire: higher score = more pain)
12.1. Analysis
12.1. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 1: Pain ‐ up to one hour (VAS)
12.2. Analysis
12.2. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 2: Pain ‐ 6, 12, 24 hours
12.3. Analysis
12.3. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 3: Pain (NRS)
12.4. Analysis
12.4. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 4: Heart rate
12.5. Analysis
12.5. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 5: Respiratory rate
12.6. Analysis
12.6. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 6: Systolic blood pressure [mm Hg]
12.7. Analysis
12.7. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 7: Diastolic blood pressure
12.8. Analysis
12.8. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 8: Rescue analgesic requirement (cumulative dose)
12.9. Analysis
12.9. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 9: Rescue analgesic requirement (patients after 8 hours)
12.10. Analysis
12.10. Analysis
Comparison 12: TENS plus analgesia versus placebo plus analgesia, Outcome 10: Rescue analgesic requirement (number of analgesic)
13.1. Analysis
13.1. Analysis
Comparison 13: TENS plus analgesia versus analgesia, Outcome 1: Pain (VAS) ‐ up to six hours
13.2. Analysis
13.2. Analysis
Comparison 13: TENS plus analgesia versus analgesia, Outcome 2: Pain (VAS)
13.3. Analysis
13.3. Analysis
Comparison 13: TENS plus analgesia versus analgesia, Outcome 3: Heart rate (bpm)
13.4. Analysis
13.4. Analysis
Comparison 13: TENS plus analgesia versus analgesia, Outcome 4: Respiratory rate
13.5. Analysis
13.5. Analysis
Comparison 13: TENS plus analgesia versus analgesia, Outcome 5: Systolic blood pressure [mm Hg]
13.6. Analysis
13.6. Analysis
Comparison 13: TENS plus analgesia versus analgesia, Outcome 6: Diastolic blood pressure
13.7. Analysis
13.7. Analysis
Comparison 13: TENS plus analgesia versus analgesia, Outcome 7: Rescue analgesic requirement (cumulative dose)

Source: PubMed

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