Scolaris Content Display Scolaris Content Display

감기에 대한 마늘의 효과

Collapse all Expand all

배경

마늘은 감기를 완화시키는 항균 작용과 항바이러스 작용이있어 특히 유익한 작용이 있다고 알려져 있다. 마늘 보충제는 널리 사용되고 있다. 감기는 상당한 이환율 및 경제적 영향을 동반한다. 평균, 소아는 1년마다 6~8회, 성인은 2~4회 감기에 걸린다.

목적

위약, 무중재 또는 다른 치료에 비해, 마늘(마늘추출물) 이 감기의 예방 또는 치료에 유효한지의 여부를 검증한다.

검색 전략

CENTRAL(2014년 제 7호), OLDMEDLINE(1950~1965년), MEDLINE(1966년 1월~2014년 7월 제 5주), EMBASE(1974년~2014년 8월) 및 AMED(1985년~2014년 8월)를 검색했다.

선정 기준

마늘과 위약, 무치료 또는 표준 치료를 비교한 감기 예방 및 치료에 대한 무작위대조시험.

자료 수집 및 분석

2명의 검토자가 각각 검색에서 임상시험을 검토 및 선택된 임상시험의 질을 평가하고 관련 데이터를 추출했다.

주요 결과

이 업데이트된 고찰에서는 검색에서 관련이 있다고 간주된 임상시험을 8건 찾아내었다. 1건의 임상시험만 선택 기준에 부합했다. 이 시험에서는 12 주 동안 146 명의 참가자를 알리신 함유 마늘 캡슐 (용량 미지정) 또는 위약 (1 일 1 회)에 무작위로 할당했습니다. 이 시험은 위약 그룹의 65 건에 비해 마늘 중재 그룹에서 24 건의 감기가 발생했다고보고했으며 (P <0.001), 그 결과 위약 그룹에 비해 마늘 그룹의 질병 발생 일이 더 적었습니다 (111 대 366). 감기 증상에서 회복까지의 시간은 두 군에서 비슷하였다(4.63일 대 5.63일). 선택 기준에 부합한 임상시험은 1건의 임상시험만이었기 때문에 결론은 제한적이다. 본 임상시험은 감기 증상에 대해 자기보고식이었지만, 무작위 및 배정은폐의 관점에서 합리적인 수준이었다. 부작용은 발진 및 냄새였다.

연구진 결론

감기를 예방 또는 치료하는데에 있어 마늘의 효과에 대한 임상시험에서의 근거는 불충분하다. 1건의 임상시험에서 마늘이 감기 발병을 예방할 가능성이 시사되었지만, 이 결과를 입증하기 위해 추가적인 임상시험이 필요하다. 효과의 결론은 불충분한 질의 근거에 크게 의존하고 있는 것처럼 보인다.

PICOs

Population
Intervention
Comparison
Outcome

The PICO model is widely used and taught in evidence-based health care as a strategy for formulating questions and search strategies and for characterizing clinical studies or meta-analyses. PICO stands for four different potential components of a clinical question: Patient, Population or Problem; Intervention; Comparison; Outcome.

See more on using PICO in the Cochrane Handbook.

감기에 대한 마늘의 효과

배경

마늘은 감기에 유익하다고 널리 인식되고 있다. 이 개념은 전통적인 사용법이며 마늘이 항균 작용과 항바이러스 작용이 있다는 연구 근거에 기인한다. 평균 성인은 1년에 2~4번 감기에 걸린다.

연구 특성

이 근거는 2014년 8월 7일을 현재로 한 것이다. 특정한 임상시험 8건 중 1건의 임상시험만 검토 기준을 충족했다. 해당 임상시험은 3개월에 걸쳐 146명의 참가자를 평가했다. 참가자의 절반은 위약 캡슐을, 절반은 마늘 캡슐을 섭취했습니다. 참가자는 감기의 증상이 나타날 때 일지에 기록시켰다.

주요 결과

선택한 임상시험은 3개월간 매일 (위약 대신) 마늘을 섭취한 참가자에게서 감기가 걸리는 빈도가 적었다. 구체적으로는 3개월 동안 감기의 발병건수는 마늘군에서 24건, 위약군에서는 65건이었다. 참가자가 감기에 걸려 있던 기간은 두 군에서 비슷하였다 (4.63일 대 5.63일).

근거의 질

위약군 (1명)보다 마늘군 (4명)에서 트림에 따른 냄새를 알아채는 참가자가 많았기 때문에 참가자의 눈가림이 충분하지 않았을 가능성이있다. 그러나 그 가능한 비뚤림는 충분히 제어되어 있었다. 오직 1건의 선택된 임상시험만이 이번 고찰의 목적에 직접적으로 관련되어 있었다. 해당 임상시험은 소규모 였지만 정확하고 신뢰할 수 있는 결과를 나타내기에 충분한 참가자 수를 확보하였다. 결과가 선택적으로 보고된 것을 나타내는 근거는 인정되지 않는다. 그러나 이것은 결과가 미리 결정되어 있던 것은 아니라고 생각된다. 보조금을 받는 기업들이 긍정적인 실험을 하도록 하는 재정적인 인센티브를 고려하면, 마늘의 효과를 보여 주지 않은 임상시험이 출판되지 않았을 가능성도 있다. 전반적으로 근거의 질은 적당하다.

부작용

한 소규모 시험에서 부작용으로 마늘 냄새와 피부 발진을 확인했다. 마늘 섭취 부작용에 대한 더 많은 정보가 필요하다.

Authors' conclusions

Implications for practice

There is no conclusive evidence to recommend garlic supplements as a preventative or treatment option for the common cold. A single, small trial was found suggesting garlic might reduce the incidence of the common cold if taken continuously as a daily prophylactic (preventive treatment) but the results require validation. There is currently no evidence to help decide whether treating common colds with garlic will reduce symptom severity or days of illness. Anecdotally, adverse events reported include odour and minor skin or respiratory irritation. The frequency of adverse effects could not be determined from the evidence available.

Implications for research

Further research is needed to provide conclusive evidence of the efficacy of garlic for the common cold. Large, double‐blind randomised controlled trials should be conducted. Outcomes should be measured objectively, according to pre‐defined criteria, in a format that allows comparison.

Background

Description of the condition

The common cold is a heterogenous group of diseases caused by numerous viruses that belong to several different families (Heikkinen 2003). The viruses include picornaviruses (notably, rhinoviruses and enteroviruses), coronaviruses, adenoviruses, parainfluenza viruses, influenza viruses, metapneumoviruses and respiratory syncytial viruses (Fendrick 2003). They all cause the common symptoms of nasal stuffiness and discharge, sneezing, sore throat and cough. Other symptoms may also include hoarseness, headache, malaise and lethargy (Heikkinen 2003). The transmission of these viruses occurs via contact with secretions or small‐ or large‐particle aerosols (Heikkinen 2003). On average, children have six to eight and adults two to four colds per year (Heikkinen 2003).

The total annual economic impact of the common cold is estimated to be USD 40 billion in the USA, including the financial impact of medical costs, days off work and the possibility of severe complications in at‐risk groups (Fendrick 2003).

Due to the many different virus types, all with varying pathogenetic mechanisms, it is understandable that an effective universal treatment for the common cold has not been developed (Heikkinen 2003). Current treatments aim to relieve the symptoms of the common cold but Cochrane Reviews suggest that most commonly used treatments are of limited or uncertain effectiveness (Hemilä 2013; Karsch‐Völk 2014; Singh 2013).

Description of the intervention

Garlic (Allium sativum) has been traditionally used for both culinary and medicinal purposes (Rivlin 2001). Garlic remedies include raw garlic and commercial preparations such as powders, oil and aged extracts (Ruddock 2005; Staba 2001).

The exact usage of garlic for the common cold probably varies worldwide. A cross‐sectional population study conducted in Australia in 2007 found that 10.7% of participants used garlic; 29.8% of these for cold, flu or fever (Zhang 2008). In data from the USA in 2002, 3.76% of the population used garlic supplements (Barnes 2004). However, like other usage surveys, this study did not report the indication for use (Barnes 2004; Harris 2000; MacLennan 2006). Since many manufacturers of garlic supplements claim their products boost the immune system and assist in the prevention and treatment of the common cold, it is reasonable to assume that garlic supplements are commonly used by consumers for this purpose. The prevalence of herbal medicine use seems to be relatively consistent between Western countries (Harris 2000; MacLennan 2006).

How the intervention might work

Garlic is alleged to have antimicrobial, antifungal and antiviral properties (Ankri 1999; Ruddock 2005; Weber 1992). It is purported to lower cholesterol and triglyceride levels, reduce blood pressure, slow the development of atherosclerosis and act as an anticoagulant (Kyo 2001; NCCAM 2006; Tapsell 2006). Other studies have reported anti‐carcinogenic and immunomodulatory effects (Kyo 2001).

The mechanism of action of garlic as an antimicrobial and antiviral agent is unknown. However, its sulphur‐containing derivatives may exert an effect (Naganawa 1996; Weber 1992). Alternatively, the effects of garlic may be due to ajoene, a derivative of allicin which displays antiplatelet and antimicrobial activities in vitro (Naganawa 1996; Ruddock 2005; Weber 1992). When raw garlic is crushed, allicin is produced (Naganawa 1996; Weber 1992). Allicin has demonstrated antibacterial properties in vitro (Cavallito 1944), but some studies suggest it is an unstable compound that is not detected in the circulation after ingestion (Naganawa 1996). Fresh garlic is estimated to contain approximately 4.38 to 4.65 mg of allicin per gram of garlic; thus for one fresh clove of garlic, weighing approximately 4 g, there is approximately 17.52 to 18.60 mg of allicin (Ruddock 2005; Staba 2001; WHO 1999). It is important to recognise that commercial garlic preparations may contain different garlic‐derived compounds according to the process used to formulate the product (Miller 2000; Ruddock 2005; Staba 2001; Weber 1992), and that there may be substantial differences in the release of allicin from different preparations (Lawson 2001). There may, therefore, be differences in the effects between preparations and this should be taken into account when evaluating studies of effectiveness. In vitro studies do not indicate clinical efficacy.

Why it is important to do this review

Systematic reviews of garlic for lowering cholesterol and minimising hypertension have been conducted (AHRQ 2000; Silagy 1994; Tapsell 2006). However, prior to this Cochrane Review, no systematic review of garlic for the common cold had been conducted.

Objectives

To determine whether garlic (Allium sativum) is effective for the prevention or treatment of the common cold, when compared to placebo, no treatment or other treatments.

Methods

Criteria for considering studies for this review

Types of studies

Randomised controlled trials (RCTs) comparing garlic with placebo, no treatment or standard treatment for the common cold.

Types of participants

Trials eligible for inclusion were those involving adults or children (0 to 17 years) who had no other acute illnesses or severe chronic condition. In terms of common cold prevention, 'cases' were those who developed a common cold during the course of the study. For treatment trials, participants were required to have a common cold or non‐specific viral upper respiratory tract infection (URTI). Symptoms that were used to identify the common cold could include coryza, sore throat, rhinitis, headache and general malaise. We excluded studies of influenza or those in which the illness definition included myalgia and fever greater than 38 °C, as these are common distinguishing features of influenza.

Types of interventions

Trials of garlic in any medicinal formulation were included. However, we only assessed trials where garlic was the single active ingredient. Garlic extracts were acceptable but not trials where raw, unprocessed garlic was the intervention.

Types of outcome measures

Primary outcomes

For prevention trials, the outcome of interest was the number of occurrences of the common cold.

For treatment trials, the primary outcome of interest was the duration of symptoms of the common cold.

Secondary outcomes

Secondary outcomes included the duration of symptoms of the common cold (number of days), the number of days 'challenged' (where participants reported an occasional sneeze or felt that a cold was coming on) and the number of days to recovery.

We considered reported adverse effects.

Search methods for identification of studies

Electronic searches

For this 2014 update we searched the Cochrane Central Register of Controlled Trials (CENTRAL) (2014, Issue 7) (accessed 7 August 2014), which includes the Cochrane Acute Respiratory Infections Group Specialised Register, MEDLINE (October 2011 to July week 5, 2014), MEDLINE in‐process and other non‐indexed citations (searched 6 July 2014), EMBASE (December 2011 to August 2014) and AMED (2011 to 2014). Details of the previous search are in Appendix 1.

We used the search terms described in Appendix 1 to search MEDLINE and CENTRAL. We did not use a filter to identify randomised trials in MEDLINE as there were too few results. We adapted the search terms to search EMBASE (Appendix 2) and AMED (Appendix 3). There were no language or publication restrictions.

Searching other resources

We searched the following trials registries: World Health Organization (WHO) International Clinical Trials Registry Platform (ICTRP) and ClinicalTrials.gov (searched 8 August 2014). We handsearched the references of all identified studies. Sarah Thorning (ARI Group Trials Search Co‐ordinator) and two review authors (AB, EL) carried out the search. We also contacted the manufacturers of garlic supplements, experts in the field and the Cochrane Complementary Medicines Field.

Data collection and analysis

Selection of studies

Two review authors (AB, EL) independently reviewed and selected trials from searches, assessed and rated study quality and extracted relevant data. We resolved disagreements through discussion and consensus. We contacted trial authors to request missing data or to clarify methods whenever possible.

Data extraction and management

We extracted data using a standardised form. Information included:

  • age and gender of participant;

  • number of participants;

  • whether analysis was by intention‐to‐treat (ITT);

  • randomisation method;

  • method of blinding;

  • blinding of outcome assessment;

  • smoking or non‐smoking status;

  • pre‐existing chronic conditions;

  • exclusion criteria;

  • diagnostic criteria;

  • treatment setting;

  • duration of treatment;

  • outcomes;

  • duration of illness;

  • functioning (for example, time to return to normal activity);

  • severity of illness;

  • occurrence of illness (prevention trials);

  • adverse effects; and

  • other medicines being used, including those with potential drug interactions.

Assessment of risk of bias in included studies

As with any systematic review, trials of poor quality may overestimate the treatment effect. We assessed the following aspects of trial quality:

  • quality of randomisation;

  • quality of blinding;

  • quality of allocation concealment;

  • presence of selective reporting;

  • presence of incomplete outcome data; and

  • analysis by intention‐to‐treat (ITT).

Specification of the dose and standardisation of the garlic extract are important in order to generalise but should not affect quality. We did not conduct a sensitivity analysis as only one study met our inclusion criteria.

The authors independently assessed 'Risk of bias' using the tool available in Review Manager 5.3 (RevMan 2014), recommended by Cochrane Handbook for Systematic Reviews of Interventions (Higgins 2011). There were no disagreements in assessments.

Measures of treatment effect

We reported the results as continuous data in days of common cold experienced. We did not conduct a meta‐analysis as there was only one trial.

Unit of analysis issues

There were no included studies that utilised non‐standard designs.

Dealing with missing data

There were no missing data to deal with.

Assessment of heterogeneity

Heterogeneity was not an issue as only one study was included.

Assessment of reporting biases

Reporting bias is possible. It was not possible to use a funnel plot to investigate this as there was only one included study.

Data synthesis

We did not conduct a meta‐analysis as only one study met our inclusion criteria. There were insufficient data to conduct a meta‐analysis of adverse effects and these were collected using different methods. We considered adverse effects reported in both included and excluded trials.

Subgroup analysis and investigation of heterogeneity

We did not conduct subgroup analyses as there was only one included study.

Sensitivity analysis

The exclusion of studies from the review was clearly objective and non‐contentious. In addition, only one trial was included. Therefore, a sensitivity analysis was not required.

Summary of findings and assessment of the certainty of the evidence

Results

Description of studies

Results of the search

In our first publication of this review, Lissiman 2009, we searched the following electronic databases: the Cochrane Central Register of Controlled Trials (CENTRAL) (2009, Issue 1), which includes the Cochrane Acute Respiratory Infections Group Specialised Register: 0 search results; OLDMEDLINE (1950 to 1965) and MEDLINE (January 1966 to March Week 3, 2009): 27 search results; EMBASE (1974 to March 2009): 10 search results; and AMED (1985 to March 2009): two search results.

In the 2012 update, Lissiman 2012, we searched the following electronic databases: CENTRAL (2011, Issue 4): one result; MEDLINE (Ovid) (1 February 2009 to November week 3 2011): six results; EMBASE (1 March 2009 to December 2011): 31 results; AMED from 2009 to December 2011: 0 results. We excluded one new trial in this update (Yakoot 2011).

In this 2014 update, we searched the following electronic databases: CENTRAL (2014, Issue 7): three results; MEDLINE (Ovid) (October 2011 to July week 5, 2014): three results; MEDLINE in‐process and other non‐indexed citations (searched 6 July 2014): one result; EMBASE (December 2011 to August 2014): two results; AMED (2011 to 2014): 0 results; clinical trials registries WHO ICTRP and Clinicaltrials.gov (searched 8 August 2014): 0 results. We excluded two new trials in this updates (Nantz 2012; Polanco‐Rojas 2013).

Included studies

Of the eight trials identified as potentially relevant from our searches, we eventually excluded seven. However, we included information about adverse effects described in these studies as additional anecdotal reports.

Josling 2001 randomly assigned 146 participants to either garlic (one allicin‐containing garlic capsule (dose unspecified) per day with the main meal) or a placebo, for 12 weeks. Participants kept a diary and the primary outcome measure was the number of occurrences of the common cold measured by participants' self rating. Other outcomes included the cold duration (number of days), the number of days 'challenged' (where participants reported an occasional sneeze or felt that a cold was coming on) and the number of days to recovery.

Excluded studies

Andrianova 2003 (Russian) was a randomised controlled trial (RCT) comparing Allicor (slow‐release garlic tablets) to benzimidazole or placebo for treating acute respiratory disease (ARD) in children. The definition of ARD included influenza, thus excluding it from our review. The trial was conducted in two stages; the first stage was a five‐month, open non‐RCT, which investigated the tolerability of Allicor and its effects on ARD morbidity; the second stage was a five‐month, double‐blind RCT, which assessed effects on morbidity. In the first stage, 172 children aged 7 to 16 years were given Allicor and were compared to 468 controls; there was no difference in the prevalence of gastrointestinal side effects between the groups. In the second stage, 42 children aged 10 to 12 years were treated with Allicor, compared to 41 placebo‐treated children. Allicor reduced ARD morbidity 1.7‐fold compared to placebo.

Rafinski 1974 (Polish) assessed the clinical course of recurrent upper respiratory tract infections (URTI) in 49 children aged 2 to 15 years, following treatment with Alliofil, a coated garlic tablet. We excluded this study because there was no comparison group and it was a non‐randomised controlled trial. Before treatment, swabs were taken from the patients and sensitivity tests were conducted for Alliofil and several major antibiotics (penicillin, streptomycin, terramycin, erythromycin, aureomycin, tetracycline, neomycin and sulphonamides). From the 49 cases of recurrent URTI, bacteria were sensitive to the tested antibiotics in only nine children. The authors report that the bacterial species isolated from the remaining 40 children were sensitive to Alliofil.

Ushirotake 2004 (Japanese) was not a RCT and was thus excluded. The study assessed the number of occurrences of the common cold and the severity of symptoms in 272 volunteer participants at drugstores. One hundred and thirteen had been taking Kyoleopin (containing aged garlic extract) for more than one year, 41 had been taking Leopin‐5 (containing aged garlic extract) and 118 had not been taking either. As the study was not randomised or blinded, there is a high risk of bias. Of interest, this study has been used to support claims by a nutritional supplement company that garlic is effective in preventing the common cold and decreasing the severity of symptoms. This emphasises the need for careful consideration before accepting claims of scientific evidence.

Hiltunen 2007 compared a cellulose nasal spray with a combination cellulose and garlic extract nasal spray to prevent airborne respiratory infections, including cold‐like symptoms. We excluded the study because the study outcome did not meet the definition of the common cold defined in our protocol. Our protocol required that studies include either a placebo control group or a standard treatment group for comparison. This study did not meet this criterion as the cellulose could not be considered a standard treatment or a placebo.

Yakoot 2011 assessed the efficacy of a multiherbal formula (including garlic) in the treatment of the common cold. We excluded this RCT for two reasons. Firstly, garlic was combined with several other active ingredients. Secondly, the trial included participants with myalgia and fever, which did not meet our inclusion criteria.

Nantz 2012 is a RCT that compared aged garlic extract (AGE) powder (four capsules: 2.56 g per day) to placebo capsules for cold and influenza symptoms. As documented symptoms included myalgia and fever we excluded this trial from our review. We contacted the authors to assess whether we could sub‐analyse the data by excluding the participants with influenza. However, unfortunately this was not possible. The primary outcome of the trial focused on measurement of immune cell proliferation. On analysis of the secondary outcomes of cold and flu symptoms, the incidence of people who experienced at least one episode of a cold or influenza during the time period was not statistically different (28 of 56 people in the placebo group, and 26 of 56 in the AGE group) (P = 0.848). However, the group consuming the AGE powder appeared to have reduced severity of symptoms.

The total number of symptoms reported during the study was lower in the AGE group (584 versus 737, or 21% fewer) (P < 0.001). Per episode of illness, this finding was not significant (11.9 in the AGE group versus 14.0 in the placebo group) (P = 0.536).

Participants were asked to report whether or not they had a decrease in desire or ability to carry out their normal routine (decrease in activity or DIA). The total number of days of DIA during the study was significantly different between groups: 53 in the AGE group versus 126 in the placebo group, or 58% fewer (P < 0.001). A significant difference was also noted per episode of illness (61% fewer days of DIA in the AGE group, P < 0.001).

Polanco‐Rojas 2013 evaluated the effect of garlic drops on children with an acute respiratory illness. We excluded the study as it was not a RCT. That is, participants were selected for the treatment or placebo group based on their clinical symptoms. Symptom scores were compared within the same group from day three to five, not between the control and treatment groups.

Risk of bias in included studies

We conducted the assessment of study quality according to the Cochrane Handbook for Systematic Reviews of Interventions (Higgins 2011). The included trial was of reasonable quality (Josling 2001). The trial author reported (in correspondence) that the study was analysed by intention‐to‐treat (ITT); that is, participant results were analysed according to the treatment group to which they were randomised, regardless of whether they completed the study or changed treatment. Not analysing by ITT can affect the validity of results.

The overall risk of bias is presented graphically in Figure 1 and summarised in Figure 2.


'Risk of bias' graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.

'Risk of bias' graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.


'Risk of bias' summary: review authors' judgements about each risk of bias item for each included study.

'Risk of bias' summary: review authors' judgements about each risk of bias item for each included study.

Allocation

Participants were matched for age, sex and previous use of garlic, then randomised to the active or placebo group with the use of a random number generator. Adequate methods of allocation concealment were used; the trial author reported that the research co‐ordinator was given plain white bottles marked A or B and these were provided to the patient according to the randomisation codes.

Blinding

The research co‐ordinator was blinded for the duration of the trial. As the outcomes were self reported and participants were recruited through advertising, poor blinding of participants may have biased outcome reporting. Reasonable measures were taken to blind participants to the intervention; the investigators reported using foil wrapping to prevent the active treatment from being identified by its smell. However, four of the participants in the active group and one in placebo group noticed a 'smell' when burping. The trial author was responsible for breaking the randomisation codes at the end of the trial after all diaries had been returned.

Incomplete outcome data

Four participants withdrew from the study; three from the active group and one from the placebo group. Criteria for participant inclusion and exclusion were not reported.

Selective reporting

There was no evidence of selective reporting of outcomes. However, the statistical analysis and primary outcomes do not appear to have been decided in advance. The analysis used may therefore have been chosen post‐hoc to maximise the chances of finding a statistically significant result.

Other potential sources of bias

The trial author reported he had no conflict of interest at the time of the study.

Effects of interventions

The included trial reported 24 occurrences of the common cold in the garlic intervention group compared with 65 in the placebo group (P < 0.001). There were fewer days of illness in the garlic group compared with the placebo group (111 versus 366). A cold could be defined as 'feeling low and beginning to exhibit symptoms' or 'full cold symptoms' (headache, sneezing, runny nose, tiredness). Statistical significance was not reported for the number of days to recovery from an occurrence of the common cold (4.63 versus 5.63) but these appear similar. The trial authors reported that 16 participants taking placebo had more than one full‐blown cold compared to two participants taking garlic, but no statistical analysis was reported. Adverse effects included rash and odour.

Discussion

Evidence

Garlic may prevent occurrences of the common cold. The published evidence for this is positive but limited, as it comes from one relatively small trial with subjective outcome measures.

Only one trial that met the selection criteria could be identified (Josling 2001), limiting the conclusions that can be drawn. The trial reported significant differences in effect between the placebo and intervention groups. Adverse effects reported were relatively minor (smell and skin rash). It is not certain whether the single case of gout reported could be reasonably attributed to the garlic.

While the results suggest that garlic may have an effect on preventing the common cold, the subjective nature of the outcome measure means that this result is somewhat uncertain. The outcome of having a cold was not confirmed by any objective observation and may be unreliable. Further, a five‐point categorical scale was collapsed for analysis; hence a cold was defined as a score of either 2 ‐ 'feeling low and beginning to exhibit symptoms' or 1 ‐ 'full cold symptoms' (headache, sneezing, runny nose, tiredness). The trial authors do not state whether this analysis was defined in advance and it is possible this was done to increase the likelihood of achieving a statistically significant result, since 'full cold symptoms' would seem to be the clearest definition of a cold. Inclusion and exclusion criteria were not reported, nor were differences in co‐morbidity or concurrent illnesses. These factors reduce the ability to generalise from this trial to other situations and may have introduced bias into the results.

No trial was identified that looked at whether treating symptoms of the cold with garlic reduces their severity or duration. However, in the included study the number of days to recover from a cold was similar in both groups.

Adverse effects

Josling 2001 reported that one participant allocated to receive the garlic capsule withdrew due to development of gout and another due to pruritic rash below the knees, which faded after the garlic capsule was discontinued. Four participants in the intervention group and one in the placebo group noticed a 'smell' when burping. Adverse effects reported in excluded studies were also considered, acknowledging that any adverse events reported could not be attributed to garlic, because of weaknesses in randomisation or the lack of a control group. In the Andrianova 2003 trial, there were no gastrointestinal side effects observed but it is unknown whether there were any other adverse effects. Rafinski 1974 reported that no side effects were observed and Yakoot 2011 reported that the frequency of side effects did not differ significantly between intervention and placebo groups (no data reported). In Nantz 2012, there was no difference in the incidence of reported adverse effects (one person reported gastrointestinal side effects in each group). It is not known whether Ushirotake 2004 or Polanco‐Rojas 2013 reported adverse effects.

The safety of consuming small quantities of raw garlic is evident in its worldwide use as a culinary spice (WHO 1999). Adverse events associated with garlic have been reported in non‐randomised studies, randomised trials in other conditions and in case reports. A review of other adverse effects reported in the literature included bad breath and body odour and allergic reactions, manifesting in minor respiratory or skin symptoms (AHRQ 2000; WHO 1999). There is a potential for high‐dose garlic to interact with antithrombotic drugs (for example, warfarin), increasing the risk of bleeding, but the few reported case studies are inconclusive (AHRQ 2000; Fugh‐Berman 2000; WHO 1999).

Summary of main results

The trial reported fewer occurrences of the common cold in people who took the garlic for 12 weeks (24) compared with the placebo group (65) (P < 0.001). Statistical significance was not reported for the number of days to recovery from an occurrence of the common cold (4.63 versus 5.63).

While this single small trial had a positive finding, there was insufficient evidence to confirm an effect of garlic on the common cold. No significant harms were reported.

Overall completeness and applicability of evidence

The one included trial addressed the objectives of the review. However, the small size of the trial limits the ability of this review to address the review question adequately. We identified no treatment trials.

Quality of the evidence

We included only one small trial. This trial also had several methodological limitations, including in blinding (high risk) and selective reporting (unclear risk). Therefore, the available evidence does not allow any robust conclusions to be drawn.

Potential biases in the review process

We conducted thorough searches of the literature, including of several large databases and the references of relevant studies. As few results were obtained, the searches were not limited to randomised controlled trials (RCTs). However, it is possible that not all relevant data were obtained, if published only in abstract format or in another language. The decisions to include and exclude studies were clearly objective and non‐contentious.

Agreements and disagreements with other studies or reviews

There are no other systematic reviews assessing the efficacy of garlic for the common cold.

'Risk of bias' graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.

Figures and Tables -
Figure 1

'Risk of bias' graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.

'Risk of bias' summary: review authors' judgements about each risk of bias item for each included study.

Figures and Tables -
Figure 2

'Risk of bias' summary: review authors' judgements about each risk of bias item for each included study.