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Background:
Systematic Review

High Outcome-Reporting Bias in Randomized-Controlled Trials of Acupuncture for Cancer Chemotherapy-Induced Nausea and Vomiting: A Systematic Review and Meta-Epidemiological Study

by
Rachele Penati
1,2,†,
Riccardo Vecchio
3,†,
Roberto Gatto
2,
Anna Odone
3 and
Silvia Deandrea
2,3,*
1
Villa Beretta Rehabilitation Center, Valduce Hospital, 23845 Costa Masnaga, Italy
2
Centro Studi So Wen ETS, 20146 Milano, Italy
3
Department of Public Health, Experimental and Forensic Medicine, University of Pavia, 27100 Pavia, Italy
*
Author to whom correspondence should be addressed.
These authors contributed equally to this work.
Curr. Oncol. 2025, 32(8), 462; https://doi.org/10.3390/curroncol32080462
Submission received: 11 June 2025 / Revised: 8 August 2025 / Accepted: 13 August 2025 / Published: 15 August 2025
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Simple Summary

Reporting all the results of scientific studies is important to make sure treatments are tested fairly and transparently. We looked at clinical studies that tested acupuncture to reduce nausea and vomiting caused by cancer treatments. We found that many of these studies did not describe their results completely or clearly, and some had not been registered in public databases before starting. Our study shows that more attention should be given to clear, complete, and early reporting of outcomes in clinical research, especially when treatments are based on patient-reported symptoms. Following these good practices can improve future studies and help doctors and patients make better-informed decisions.

Abstract

Selective outcome-reporting bias refers to the selective reporting of a subset of study findings. This methodological limitation may occur in cancer-related acupuncture studies, where valid empirical studies on psychometric performance are still lacking. We assessed the risk of selective outcome reporting bias in studies published in English that were included in a systematic review on acupuncture for preventing cancer chemotherapy-induced nausea and vomiting. For each study, we searched for registry availability and, if present, assessed its validity. We described each study outcome (nausea, vomiting, or both) according to the following seven items: type of outcome, domain, specific measurement, specific metric, type of data, methods of aggregation, and timepoint unit and time. Eleven studies published between 1987 and 2019 in English were evaluated. Only four (36%) had a registry, of which only two were prospective and therefore considered valid. Discrepancies were found in the specific measurement of the outcome in two studies and in the specific metric. In many other cases, discrepancies were not evaluable due to missing information. No study reported complete outcomes as planned in the published protocol. Communication about the importance of prospective trial registration, including outcome details, should be enforced to reduce the risk of selective outcome reporting bias in oncology acupuncture studies.

1. Introduction

Outcome-reporting bias is a major issue in clinical research, notably with subjective outcomes or complex interventions. It involves selectively reporting certain outcomes while omitting others based on their nature, significance, or relevance to publication [1]. This bias compromises evidence-based medicine, skews meta-analyses, and can mislead clinical decisions. There are three possible types of selective outcome reporting. Firstly, some studies may report only a selection of outcomes, omitting those that do not present data deemed significant enough to enhance the likelihood of publication. Second, there could be selective reporting of a specific outcome, which occurs when an outcome is measured and analyzed at multiple timepoints but not all results are reported. Third, there could be incomplete reporting of a specific outcome, which happens when an outcome is not fully reported as planned [2]. The presence of selective outcome reporting is assessed in current risk of bias tools such as RoB2, ROBINS-I, etc. [3].
A recent study focusing on randomized controlled trials (RCTs) of Traditional Chinese Medicine (TCM) identified discrepancies in the efficacy (29%) and safety outcome (28%) between the trials’ registrations and their subsequent publications [4]. Another study [5] found that only 19.3% of the trials had been registered before the start of the trial. In addition, inconsistencies between the planned and reported primary outcomes were identified in 45.1% of the studies (71.4% of which had a discrepancy that favored statistically significant primary outcomes).
Selective outcome reporting has also been observed in oncology clinical trials, where biases in reporting primary endpoints and toxicity, omission of pre-registered outcomes, selective reporting in later trial phases, and delayed protocol registration can lead to misinterpretation of results, raising concerns about transparency in clinical research [6,7].
These biases are particularly problematic in acupuncture studies for chemotherapy-induced nausea and vomiting (CINV), where patient-reported outcomes (PROMs) such as nausea severity or vomiting frequency are often primary endpoints. Unlike pharmacological trials, where biomarkers and laboratory measures often dominate, acupuncture trials depend on subjective outcomes that are more vulnerable to bias. Moreover, many acupuncture trials originate in settings with less stringent trial registration enforcement or a lack of familiarity with detailed reporting guidelines.
These findings indicate that selective outcome reporting in TCM trials is a significant issue, complicating evidence synthesis and interpretation in the field. The aim of this meta-epidemiological study is to evaluate the selective outcome reporting in RCTs of acupuncture for preventing CINV [8]. By evaluating trial registrations (when available) and published reports against structured outcome descriptors, we aim to clarify the consistency and completeness of reporting practices. Our goal is to inform methodological improvements in future integrative oncology research, fostering transparency, reproducibility, and clinical trust.

2. Materials and Methods

We assessed selective outcome reporting in the RCTs published in English that were included in a systematic review of the effects of acupuncture in preventing CINV (Open Science Framework registration https://doi.org/10.17605/OSF.IO/AHCWK, accessed on 16 May 2025) [8]. This systematic review and meta-analysis evaluated the efficacy and safety of acupuncture in preventing chemotherapy-induced nausea and vomiting (CINV) among cancer patients. Researchers conducted comprehensive searches across eight databases, including MEDLINE, EMBASE, Cochrane CENTRAL, CINAHL, and several Chinese databases (Chinese Biomedical Literature Database, VIP, CNKI, Wanfang), to identify randomized controlled trials (RCTs) comparing acupuncture with sham acupuncture or usual care. A combination of relevant controlled vocabulary (MeSH—Medical Subject Headings in PubMed) and text/free word was used (Supplementary File). All studies from inception until June 2020 were identified. No date restrictions were applied. We included only studies in English language.
The primary outcome assessed was the complete control of CINV, defined as no vomiting episodes and/or no more than mild nausea. The certainty of evidence was appraised using the GRADE approach according to risk of bias, consistency, indirectness, and imprecision. Sources of bias assessed were as follows: random sequence allocation, allocation concealment, performance bias, detection bias, attrition bias, and selective outcome reporting [8]. The latter source of bias is the focus of the analysis we performed.
Therefore, to assess RCTs selective outcome reporting, we created a template based on the five-item definition of outcomes by Saldanha et al. [9]: (1) domain; (2) specific measurement; (3) specific metric; (4) method of aggregation; and (5) timepoint. We piloted the data extraction template on four studies. For the remaining studies, one person (RP) performed the assessments, and another one (SD) crosschecked the extracted data.
Firstly, we identified the original source to compare the reported outcomes in the study results, and we searched for the trial registration. We looked for the registry number in the article itself, and if it was not present, we searched on specific registry websites, including the following: “clinicaltrials.gov,” “anzctr.org.au,” “chictr.org.cn,” and “thaiclinicaltrials.org”. If we found registration, we defined its validity as follows: the registration was defined as Prospective-Valid if the date of registry submission preceded the trial start date; otherwise, the registration was defined as Retrospective-Invalid. If we did not retrieve a registration, we contacted the corresponding authors to check for registry availability. If we did not receive a response within one month of the initial contact, we assessed the reporting against the published article methods section. This process is described in Figure 1.
Secondly, we assessed how each of the outcomes (nausea, vomiting. or both) was described in both the study registry and article, using the factors proposed by Saldanha et al. for a “well-reported outcome”: (1) Type of outcome: Primary Outcome (PO) or Secondary Outcome (SO); (2) Domain: CIN (Chemotherapy-Induced Nausea), CIV (Chemotherapy-Induced Vomiting), or CINV; (3) Specific measurement: the technique or instrument used for outcome measurement; (4) Specific metric: the format of outcome data used for analysis, such as endpoint value or change from baseline. If not stated, we judged as “unclear/not reported”; (5) Type of data: dichotomous, continuous, discrete, rate, or ordinal; (6) Methods of aggregation: how data were summarized, such as mean, percentage, or proportion; (7) Timepoint unit and time: time unit of evaluation and measurement timepoint used for analysis.
Finally, we checked for discrepancies between the registry and article for each of the seven domains. When a registration was not found, outcomes were assessed by comparing the results and methods sections in the paper. If the description was unclear or absent, we defined the domain as “incomplete” and judged the discrepancy as “unclear”.
These review results are reported according to the PRISMA reporting checklist [10].

3. Results

We evaluated a total of 11 RCTs [11,12,13,14,15,16,17,18,19,20,21], published in English between 1987 and 2019 (Table 1). The PRISMA flowchart of the selection procedures of the studies is reported in Figure 2. Four studies were conducted in Europe (Germany and Ireland), one in the United States (California), four in Asia (China, Indonesia, and Thailand), and two in Australia. The mean sample size was 91.1, ranging from 10 to 220 patients. We found the study registration of four studies (36.4%), of which two were prospective and valid and two were retrospective and therefore invalid.
Table 2 provides a comprehensive overview of the outcomes reported in each of the eleven randomized controlled trials included in our review. The majority of studies (n = 9) reported on both nausea and vomiting as a combined outcome (CINV), while two studies focused solely on nausea or vomiting. Most outcomes were categorized as primary, although two studies included non-primary outcomes as well. A wide range of measurement instruments were employed, including validated tools such as the Multinational Association of Supportive Care in Cancer (MASCC, Aurora, ON, Canada) antiemetic tool [23], the Functional Living Index–Emesis (FLIE) [24], and the Common Terminology Criteria for Adverse Events (CTCAE) grading system, as well as study-specific or partially defined symptom counts and grading systems. The most commonly used outcome metrics were endpoint values (n = 5), change from baseline (n = 3), and values at a specific timepoint (n = 3). All studies reported discrete data types, though the methods of aggregation varied, with some reporting total frequencies, and others using measures of central tendency such as mean, median, or interquartile ranges. Timepoints for outcome assessment were heterogeneous and ranged from hours to months, with most studies reporting data on a daily basis. However, some studies did not clearly define the time unit used for measurement.
Figure 3 and Figure 4 summarize the discrepancies between the registry and article for each of the seven domains. Only in one study could all the domains be evaluated. In the other cases, the number of assessable domains went from two (n = 1) to six (n = 1).
No studies presented discrepancies concerning the type of outcome and domain. Regarding the specific measurement factor, four studies (36.4%) had no discrepancies, while for five studies, this was unclear. The remaining two studies had discrepancies in the measurement of outcomes. Li et al. [16] defined two specific measurements: the CTCAE grade, which was consistent between the registry and the article, and the second outcome, which was set in the registry as complete control of CINV and reported in the article as the variation of CINV degree. On the other hand, McKeon et al. [17] presented discrepancies in two secondary outcomes. The registry stated that the number of vomits would be measured, but the article reported a vomiting score with the Numeric Rating Scale (NRS). The other discrepant outcome was the nausea score, planned in the registry with the Visual Analogue Scale (VAS), while reported in the article with the NRS scale.
Concerning the specific metric factor, four studies (36.4%) had no discrepancies, where endpoint values were used as planned in the registry. The presence of discrepancies was unclear in six studies, as it was not specifically defined. McKeon et al. [17] presented a discrepancy, as the specific metric was changed for two secondary outcomes, nausea and vomiting: the registry defined these outcomes as endpoints, while in the published paper, both outcomes were reported as changes from the baseline. Regarding the type of data factor, five studies (45.5%) were consistent, while the remaining six were defined as unclear, as the item was often not described in the registry or in article methods.
The methods of aggregation were consistent in only one study, while in all the remaining studies, this item was not adequately defined. Concerning the timepoint unit and time, six studies (54.5%) were consistent, while for the remaining five studies, the rating was unclear.

4. Discussion

In our review on the quality of outcome reporting in RCTs investigating acupuncture for CINV, we found valid, prospective study registrations for only four studies (36.4%), showing how selective outcome reporting is a real issue in this research area. Additionally, none of the included studies provided complete and consistent reporting of the study outcomes of interest (chemotherapy-induced nausea or vomiting). The description of the outcomes was frequently incomplete, both in the registration and reporting phases, and we identified discrepancies between the registration and the published article. Discordant data were observed for the specific metric and specific measurement items. Moreover, the data reveal a marked heterogeneity in how outcomes were defined and reported. While most studies relied on discrete data types and reported total counts or central tendency measures (means or medians), there were notable inconsistencies in the instruments used—ranging from validated scales like the MASCC antiemetic tool to less standardized measures such as number of symptoms or severity grades. In several studies, outcome domains and metrics were partially or poorly reported. These inconsistencies highlight the lack of standardization in outcome reporting for acupuncture trials targeting chemotherapy-induced nausea and vomiting, further underscoring the risk of selective reporting bias.
Inconsistencies between registered and published primary outcomes of clinical trials have been identified in oncology clinical trials [6,7] and also in previous meta-epidemiological research. Walker et al. [25] found discrepancies in the primary outcome between registry and article in 33% of studies published in high-impact-factor journals, such as JAMA and BMJ. Chen et al. [26] concluded that 33.4% (130 of 389) of studies with clear primary outcomes prospectively described in a registry had at least one change in the primary outcome reported in the manuscript, with most of the changes (66 out of 130) either not reported or omitting the primary outcome.
A strength of our study is that we performed an assessment of outcome-reporting bias in the under-researched areas of acupuncture research and Patient-Reported Outcome Measures (PROMs), which are essential for studying the effects of Traditional Chinese Medicine (TCM) treatments. Numerous surveys on acupuncture use have shown that patients often seek it for pragmatic reasons [27,28], including relief from symptoms such as pain, anxiety, and depression; relief from side effects of medical treatments; or to improve and maintain general physical and mental health. All of these reasons can be assessed via self-report, making PROMs of primary interest in acupuncture studies [22,29]. While Western medicine studies often relegate patient-reported outcomes to a secondary status behind objective indicators, in acupuncture studies, they are typically of primary interest. Therefore, it is vital that PROMs are well-defined and reported in TCM studies. Our study, while demonstrating weaknesses in a specific area of integrative oncology research, will serve as a stimulus to improve the methodological quality of the entire field of study. From what we have observed in our study, a recommendation about a core set of PROMs to be consistently recorded and measured in acupuncture RCTs for CINV may be issued. Even if published after the last date of inception of our search, the MASCC-ESMO guidelines [30] mentioning validated tools such as the FLIE or the MASCC can be considered as a source of such recommendation. A valid, standardized, and reproducible measurement of CINV is of utmost importance in this crucial field of supportive oncology.
One way to reduce selective outcome-reporting bias is to require all investigators to register details of their trial in a publicly accessible registry before the trial starts and to adopt the World Health Organization Minimal Registration Dataset. This ensures that compulsory fields are completed when a trial is registered (WHO Trial Registration Data Set Version 1.2.1). Clinical trial registries gained increased interest from the 1970s due to the need to enhance patient enrollment in clinical trials and to reduce the possibility of bias in reporting trial results. In 2004, the International Committee of Medical Journal Editors (ICMJE) initiated a policy requiring investigators to register their trials in a clinical trial registry before participant enrollment begins as a condition of publication in one of their journals. The WHO developed the International Standards for Clinical Trial Registries (ISCTR), which lists the minimum standards that registries should adopt to ensure a basic quality of data and accessibility. Unfortunately, these standards aren’t often met, and missing information is often present.
Furthermore, registration may be omitted or post-dated, or the information provided in the trial registration may not correlate with the trial publication, leading to publication and outcome reporting bias. Both biases threaten the validity of evidence-based medicine, as clinicians only have access to the results that researchers choose to publish. Strict, comprehensive registration of trials at their outset allows the differences between what was originally planned in the study and what is eventually published to be seen, allowing critical evaluation of the trial and minimizing these two sources of bias. This is especially important in the TCM field, where recognition of effective treatments not considered by Western medicine cannot be hampered by methodological weaknesses in studies.
The main limitation of our study is the limited number of studies included; this evidence reflects a deliberate methodological choice related to registry accessibility and consistency in outcome extraction. While our study may be limited in its small sample size and inclusion of studies written only in English, excluding 21 studies from China due to the language, it can serve as a blueprint for future investigations, considering TCM treatments other than acupuncture.
The findings of our study have relevant clinical implications. Incomplete or selectively reported outcomes in acupuncture trials for CINV can mislead clinicians about the true effectiveness of these interventions, especially when outcome definitions, metrics, and timepoints are not standardized. Without reliable, transparent reporting, it may become difficult for oncologists and integrative medicine practitioners to make evidence-informed decisions or to compare interventions across studies. Changing an outcome metric or failing to register it in advance can make cherry-picking results easier, introducing bias toward positive findings and undermining the credibility of scientific research [31]. To improve the methodological transparency and clinical applicability of future acupuncture trials, we recommend the following: (i) a prospective and detailed trial registration should be mandatory, including full specification of all seven outcome components (as outlined by Saldanha et al.) at the protocol level; (ii) the adoption of reporting guidelines, such as the CONSORT for Non-Pharmacologic Treatments; and (iii) researchers should prioritize consistency between registry, protocol, and final publication and clearly justify any changes to outcome definitions. However, despite the methodological limitations we reported in the relevant literature, acupuncture for the control of CINV is anyway recommended in the MASCC-ESMO guidelines [30]: clinicians shall suggest this intervention for acute vomiting occurring the first day of the treatment course, and this TCM treatment must become standard care in supportive oncology services. To enhance methodological guidance for future research, we propose a visual framework (Figure 5) summarizing key components for designing and reporting acupuncture trials for CINV. This tool may assist researchers in aligning outcome measures, patient-reported metrics, and trial registration standards, avoiding selective reporting, and ultimately supporting evidence harmonization [32].

5. Conclusions

In conclusion, our study has shown the difficulties in finding complete outcome descriptions and reporting in studies evaluating the effects of acupuncture on chemotherapy-induced nausea and vomiting (CINV). It is fundamental for researchers to determine these outcomes before proceeding with their research and to register them properly in order to produce solid evidence. Improving the transparency of outcome reporting in acupuncture research will not only strengthen the credibility of published results but will also foster trust among clinicians and patients exploring integrative oncology options.

Supplementary Materials

The following supporting information can be downloaded at https://www.mdpi.com/article/10.3390/curroncol32080462/s1, Supplementary File. Search Strategy.

Author Contributions

S.D.: data curation, formal analysis, methodology, project administration, and supervision; R.P.: investigation and writing—original draft; R.G.: investigation and methodology; R.V.: validation and writing—review and editing; A.O.: supervision and validation. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Data Availability Statement

The data underlying this article will be shared by the corresponding author upon reasonable request.

Acknowledgments

The Authors wish to thank Yuqian Yan for sharing the RCTs published in English included in her systematic review and Jesús López-Alcalde, University Hospital Zurich, for his support and guidance throughout the development of Rachele Penati’s master’s thesis, which formed the basis of this study.

Conflicts of Interest

The authors declare no conflicts of interest.

Abbreviations

The following abbreviations are used in this manuscript:
RCTsRandomized Controlled Trials
TCMTraditional Chinese Medicine
CINVChemotherapy-Induced Nausea and Vomiting
CINChemotherapy-Induced Nausea
CIVChemotherapy-Induced Vomiting
VASVisual Analogue Scale
PROMsPatient-Reported Outcome Measures
IS-CTRInternational Standards for Clinical Trial Registries
MASCCMultinational Association of Supportive Care in Cancer

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Figure 1. Process of definition and selection of sources for outcome reporting bias assessment.
Figure 1. Process of definition and selection of sources for outcome reporting bias assessment.
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Figure 2. Flow diagram in accordance with the PRISMA guidelines. Identification and screening criteria were reported by Yan et al. [8].
Figure 2. Flow diagram in accordance with the PRISMA guidelines. Identification and screening criteria were reported by Yan et al. [8].
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Figure 3. Discrepancies between the plan and the observed outcomes [11,12,13,14,15,17,18,19,20,21,22]. Green = no discrepancies between registered and reported outcomes; Yellow = domain unclear or not assessable due to missing or incomplete information; Red = discrepancy between registered and reported outcomes.
Figure 3. Discrepancies between the plan and the observed outcomes [11,12,13,14,15,17,18,19,20,21,22]. Green = no discrepancies between registered and reported outcomes; Yellow = domain unclear or not assessable due to missing or incomplete information; Red = discrepancy between registered and reported outcomes.
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Figure 4. Discrepancies distribution. Green = no discrepancies between registered and reported outcomes; Yellow = domain unclear or not assessable due to missing or incomplete information; Red = discrepancy between registered and reported outcomes.
Figure 4. Discrepancies distribution. Green = no discrepancies between registered and reported outcomes; Yellow = domain unclear or not assessable due to missing or incomplete information; Red = discrepancy between registered and reported outcomes.
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Figure 5. Visual reporting framework summarizing the key components to enhance methodological guidance for future research, we propose a visual framework.
Figure 5. Visual reporting framework summarizing the key components to enhance methodological guidance for future research, we propose a visual framework.
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Table 1. Study characteristics and registration details.
Table 1. Study characteristics and registration details.
First AuthorYearCountryStudy DesignSample SizeStudy IDStudy Registration1st Recruitment Date
Dundee [15]1987IrelandRandomized trial10Not foundNot foundNot found
Dundee [14]1988IrelandRandomized trial20Not foundNot foundNot found
Shen [19]2000CaliforniaThree-arm, parallel-group, randomized controlled trial104Not foundUnclearNot applicable
Streitberger [20]2003GermanyRandomized placebo-controlled single-blind trial220Not foundUnclearNot applicable
Beith [11]2012AustraliaRandomized controlled pilot trial32Not foundUnclearNot applicable
McKeon [17]2015AustraliaSingle-centre, pilot, randomised trial153ACTRN 12609001055420209/12/09April 2009
Rithirangsriroj [13]2015ThailandRandomized trial, crossover study70TCTR 2012110500116/05/13May 2013
Zhou [21]2017ChinaRandomized controlled trial56Not foundUnclearNot applicable
Brinkhaus [12]2019GermanyRandomized pragmatic trial150NCT 0172736216/11/12October 2012
Saraswati [18]2019IndonesiaRandomized, experimental clinical study53Not foundUnclearNot applicable
Li [22]2020ChinaMulti-center, single-blind, randomized, sham-controlled clinical trial134NCT 0236910723/02/15March 2015
Table 2. Study outcomes.
Table 2. Study outcomes.
First Author, YearOutcomeTypeDomainMeasurementSpecific MetricType of DataMethod of
Aggregation		Timepoints Unit
Dundee, 1987 [15]Nausea and
vomit		POCINVFour grades of
sickness		Not reportedDiscreteGrade of
severity		Not reported
Dundee, 1988 [14]Nausea and vomitPOCINVNumber of subjects with symptomsEndpointDiscreteTotal number of patientsHours
Shen, 2000 [19]VomitPOCINTotal number of emesis episodesValue at a timepointDiscreteTotal, median, range, mean, percentilesDays
Streitberger, 2003 [20]Nausea and vomitPO
and non
-PO		CINVNumber of patients, frequency of vomit, duration of nauseaValue at a timepointDiscreteTotal number of patientsDays
Beit, 2012 [11]Nausea and vomitPOCINVMultinational Association of Supportive Care in Cancer (MASCC) antiemetic toolEndpointDiscreteTotal number of patients and percent ageDays
McKeon, 2015 [17]Nausea and vomitPOCINVFunction Living Index—Emesis,
Vomit and Nausea NRS		Change from baseline and EndpointDiscreteMedian and IQRDays
Rithirangs riroj, 2015 [13]Nausea and vomitPOCINVNumber of emesis and nausea degreeEndpointDiscreteMedian and rangeNot reported
Zhou, 2017 [21]Nausea and vomitPOCINVFrequency of vomit, duration of nauseaValue at a timepointValue at a timepointMeanDays
Brinkhaus, 2019 [12]NauseaNon
-PO		CINSingle item FACT BChange from the baselineDiscreteMean and 95% CIMonths
Saraswati, 2019 [18]Nausea and vomitNon
-PO		CINVModified Rhodes Index of Nausea and VomitingNot reportedNot reportedNot reportedNot reported
Li, 2020 [22]Nausea
and vomit		POCINVCTCAE
grade		Change
from baseline		DiscreteMean + SDDays
PO, primary outcome; non-PO, non-primary outcome; CINV, chemotherapy-induced nausea and vomit; CI, confidence interval; SD, standard deviation; IQR, interquartile range.
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MDPI and ACS Style

Penati, R.; Vecchio, R.; Gatto, R.; Odone, A.; Deandrea, S. High Outcome-Reporting Bias in Randomized-Controlled Trials of Acupuncture for Cancer Chemotherapy-Induced Nausea and Vomiting: A Systematic Review and Meta-Epidemiological Study. Curr. Oncol. 2025, 32, 462. https://doi.org/10.3390/curroncol32080462

AMA Style

Penati R, Vecchio R, Gatto R, Odone A, Deandrea S. High Outcome-Reporting Bias in Randomized-Controlled Trials of Acupuncture for Cancer Chemotherapy-Induced Nausea and Vomiting: A Systematic Review and Meta-Epidemiological Study. Current Oncology. 2025; 32(8):462. https://doi.org/10.3390/curroncol32080462

Chicago/Turabian Style

Penati, Rachele, Riccardo Vecchio, Roberto Gatto, Anna Odone, and Silvia Deandrea. 2025. "High Outcome-Reporting Bias in Randomized-Controlled Trials of Acupuncture for Cancer Chemotherapy-Induced Nausea and Vomiting: A Systematic Review and Meta-Epidemiological Study" Current Oncology 32, no. 8: 462. https://doi.org/10.3390/curroncol32080462

APA Style

Penati, R., Vecchio, R., Gatto, R., Odone, A., & Deandrea, S. (2025). High Outcome-Reporting Bias in Randomized-Controlled Trials of Acupuncture for Cancer Chemotherapy-Induced Nausea and Vomiting: A Systematic Review and Meta-Epidemiological Study. Current Oncology, 32(8), 462. https://doi.org/10.3390/curroncol32080462

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