Does honey help heal burns and scalds

Date Last Updated: 12/04/06
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Does honey help heal burns and scalds?

Abstract
A variety of dressings and topical agents (such as creams) are used for burn wounds. The most common dressings and agents used are paraffin-impregnated gauze, polyurethane film or foam, gel-forming agents known as hydrocolloids and creams containing silver. Honey has traditionally been used for wound healing, and there are biologically plausible reasons why it should be an effective treatment, such as its ability to absorb liquids (osmolarity), its acidity and its antibacterial properties (Molan 2004).

We reviewed six fair-quality randomised controlled trials of honey for dressing burns and scalds, all carried out by the same research group in India. None were blinded.

Superficial and partial thickness burns dressed with honey healed significantly faster and were less likely to be colonised with bacteria than those dressed in more conventional ways. No adverse events were reported with the use of either honey or conventional dressings.

More serious burns healed significantly better with early surgical excision and skin grafting.

Contents

1.         Type of treatment
2.         Background
3.         Objectives
4.         Criteria for including studies
5.         Search strategy
6.         Methods
7.         Description of studies
8.         Methodological quality
9.         Results
10.       Discussion of Findings
11.       Conclusions
12.       References
13.       Further Resources

1. Type of treatment: Honey
Indication: Treatment of burns and scalds

2. Background
Burns are very common. Each year about one person per hundred is burnt in New Zealand, of whom about 10 per hundred need hospital admission (National Burn Centre 2005). In New Zealand most burns occur in the home, with young children being the most vulnerable group. The commonest type of injury is scalding from hot liquids (Skinner 2002).

The severity of a burn or scald depends on the depth of the wound and the proportion of the body affected. The injury may be very superficial, involving just the top (epidermal) layer of the skin, partial thickness involving more structures within the skin such as blood vessels, nerves and hair follicles, or full thickness, involving all layers of the skin and possibly also the structures beneath, such as muscle and bone. The extent of the injury is usually described in terms of the depth of the burn, as well as the area of the total body surface area (TBSA) that is burnt, and expressed as a percentage (Campbell 2000).

Burn wounds are very prone to infection, as the warm moist site of the wound presents an ideal environment for bacteria to multiply (Edwards-Jones 2003).

A variety of dressings and topical agents (such as creams) are used for burn wounds. The most common dressings used are paraffin-impregnated gauze, polyurethane film, polyurethane foam and gel-forming agents known as hydrocolloids. Creams containing silver are also commonly used in the first few days after a burn, to reduce the risk of infection.

Honey has traditionally been used for wound healing, and there are biologically plausible reasons why it should be an effective treatment. Its high sugar content gives it the ability to absorb water from a wound (osmolarity) and this deprives bacteria of the moisture they need to thrive. The honey provides a non-adherent interface between the dressing and the wound bed, which creates a moist healing environment and prevents the dressing from tearing away newly formed tissue when removed. There is also evidence from laboratory studies to suggest that honey has antibacterial properties that are due partly to its acidity and partly to phytochemicals from the nectar of particular plants. The antibacterial properties of honey vary according to its source and are often particularly high in New Zealand's manuka (Leptospermum scoparium) honey (Molan 2004).

3. Objectives

The aim of this review is to assess the potential benefits and harms of honey for the treatment of burns and scalds

4. Criteria for including studies

Types of study: published systematic reviews or randomised controlled trials (RCTs) of honey versus placebo, no treatment or any other treatment.

Types of participants: adults or children with burns or scalds

Types of intervention: honey dressing versus any other type of dressing commonly used in New Zealand

Types of outcome measure: healing rate, measured by an objective measure such as time to complete healing, infection rate, adverse events.

Exclusions: studies that compare honey dressings with dressings not available or in common use in New Zealand

5. Search strategy

We searched the following databases in November 2005: AMED, The Cochrane Library, MEDLINE, EMBASE, and CINAHL. We also checked the reference lists of publications retrieved by the search for further relevant studies.

6. Methods

We used the above search strategy to obtain titles and abstracts of studies that were potentially relevant to this review. Where studies met the criteria for inclusion, they were assessed in full text. The quality of each study was evaluated using the SIGN criteria (http://www.sign.ac.uk/methodology/checklists.html) for the evaluation of RCTs and systematic reviews. Where primary studies were included in a good quality systematic review, the systematic review was included rather than the individual primary studies.

The overall quality of the body of evidence (considering all the included studies) was graded according to the CEBM levels of evidence system (http://www.cebm.net/levels_of_evidence.asp).

Relevant data were extracted from the studies selected for inclusion.

7. Description of studies

Six studies met the criteria for inclusion. These were randomised controlled trials, all conducted by the same research group. Five compared honey dressings against various conventional dressings for superficial or partial thickness wounds. The sixth compared the use of honey dressings, with skin grafts used as necessary, versus prompt wound excision and skin grafting for partial and full thickness wounds. In all cases unprocessed honey was used. No trials mentioned the use of manuka honey.

Summary details of the included trials are as follows:

Studies of honey compared with silver sulphadiazine cream (SSD)�

Study

Participants

Intervention & Comparison

Outcomes measured

Comment

Subrahmanyam 2001

India

100 people with partial thickness burns involving <40% TBSA.

52 males, 48 females

Age range 3-65 yrs

1. 15-30 mls unprocessed honey

2. SSD impregnated gauze applied

Dressings replaced every 2 days until wounds healed

1. Wound healing time

2. Bacteria count

3. Adverse effects

Not blinded

Subrahmanyam 1998

India

50 people with partial thickness thermal burns (45 flame burns, 5 scalds) involving <40% TBSA (range 10-40%)

27 male, 23 female

Age range 3-60 yrs

1. Unprocessed honey 16-30 mls covered with dry sterile gauze & bandaged.

Redressed on alternate days

2. SSD impregnated gauze applied.

Replaced daily

1. Wound healing time

2. Bacteria count

Not blinded

Subrahmanyam 1991

India

n = 104 patients with superficial burns over <40% TBSA (range 5-40%)

82 male, 22 female

Age range 1-65 yrs

1. Unprocessed honey 15-30 mls covered with dry sterile gauze & bandaged.

Redressed daily

2. SSD impregnated gauze applied.

Replaced daily

1. Wound healing time

2. Bacteria count

3. Allergy, adverse events

Not blinded

Study of honey compared with polyurethane film �

Study

Participants

Intervention & Comparison

Outcomes measured

Comment

Subrahmanyam 1993

India

92 people with partial thickness burns <40% TBSA (mean 22.7%, range 15-35%).

Extremities and abdomen involved in 90% cases.

44 males, 48 females

Age range 3-65

1. Unprocessed honey 15-30 mls covered with dry sterile gauze & bandaged.

Redressed on alternate days (sooner if signs of infection)

2. Bio occlusive permeable polyurethane membrane applied (Opsite). removed Day 8 (sooner if signs of infection)

1. Wound healing time

2. Bacteria count

3. Adverse effects

Not blinded

Study of honey compared with range of conventional dressings �

Subrahmanyam 1996a

India

900 people with partial thickness burns <40% of TBSA

Groups "well matched at baseline"

Age range 2-65 yrs, mean 30 yrs

Burn TBSA mean 24-26% (range 5-40%)

Unprocessed honey 15-30 mls covered with dry sterile gauze & bandaged (n = 450).

Redressed on alternate days

2. Soframycin (n = 90)

3. Paraffin gauze (n = 90)

4. Opsite (n = 90)

5. Sterile gauze (n = 90)

6. Exposed, with sterile linen changed often (n = 90)

1. Wound healing time

2. Bacteria count

Not blinded

Study of honey versus excision and grafting �

Subrahmanyam 1999

50 haemodynamically stable people with moderate burns <30% TBSA, no systemic illness or smoke inhalation injury, aged 10-40 yrs.

22 males, 28 females.

TBSA and depth of burns: Honey group 24% (SD 4), of which 13% full thickness

Excision group 23% (SD 4), of which 12% full thickness

1. Wash with NaCl then apply unprocessed honey 15-30 mls & cover with dry sterile gauze & bandage.

Place autologous skin grafts as necessary.

2. Tangential excision (TE) and grafting on day 3-6 post burn. Dressing assessed at 5 days post op.

Swabs taken for culture if infection suspected

1. Success of grafting

2. Mortality

Not blinded

Three potentially relevant studies were excluded � a systematic review and two RCTs. These studies were excluded because they included comparisons of honey with dressings not commonly used in New Zealand, such as potato peelings and amniotic membrane (Subrahmanyam 1994, Subrahmanyam 1996b, Moore 2001). The systematic review did not contain any additional RCTs that were eligible for inclusion.

8. Methodological quality

The included studies were evaluated using the SIGN criteria. They were of fair quality only, the main weakness being that they were unblinded. Outcomes were reported in differing ways, in some cases with a p value only.

9. Results

Effectiveness for healing burns and scalds

In five of the studies, superficial and partial thickness burns dressed with honey healed significantly faster than those dressed in more conventional ways. In these studies honey was compared with silver sulphadiazine (SSD) impregnated gauze (3 studies), polyurethane film (1 study) and a range of dressing techniques including soframycin ointment, paraffin gauze, polyurethane film, sterile gauze and wound exposure (in 1 study). Wound healing time was measured by the proportion healed by 21 days and/or the average number of days that wounds took to heal.

The sixth study, which compared honey dressings with prompt surgical excision and grafting for partial and full thickness burns, reported that healing was significantly better in the surgical group. Healing rates were measured by the length of hospital stay, the success of skin grafting in those from each group who underwent this procedure and wound appearance at three months.

Summary of results for the outcome Time to healing

Subrahmanyam 1998	50	Honey vs SSD	% healed by 21 days: Honey: 100% SSD: 84%	<0.001
Subrahmanyam 1991	104	Honey vs SSD	Mean healing time in days: figures not reported	0.001
Subrahmanyam 1996a	900	Honey vs others	Mean healing time: figures not clearly reported	<0.001
Subrahmanyam 1993	92	Honey vs polyurethane film (Opsite)	Mean healing time: Honey: 10.8 days Opsite: 15.3 days	<0.001

Infection rate

In five of the studies, superficial and partial thickness burns dressed with honey had significantly lower rates of infection than wounds dressed in other ways. Infection rates were measured by the number of bacteria that grew on wound swabs (bacterial colonisation).

In the sixth study, which compared honey dressings with prompt surgical excision and grafting for partial and full thickness burns, bacterial colonisation rates were not reported but there were 3 deaths in the honey group from septicaemia (infection of the bloodstream).

� Adverse events

Only one of the studies of superficial and partial thickness burns reported on adverse events. When honey with gauze was compared with SSD cream with gauze there were no adverse events such as allergic reactions or inflammation in either group.

In the study, which compared honey dressings with prompt surgical excision and grafting for partial and full thickness burns, the only adverse events reported were deaths. As mentioned above, there were 3 deaths in the honey group from septicaemia (infection of the bloodstream). There was also a death in the surgical group, from asthma.

10. Discussion of Findings

These studies found that honey healed superficial and partial thickness burns and scalds significantly faster than the other dressings tested, with a lower rate of infection. For more serious burns and scalds, early surgical excision and skin grafting was significantly more successful and safer.

The results need to be regarded with caution because the researchers were not blinded (ie, they knew which type of dressing each person had received) and there was thus considerable room for bias in their assessment of whether wounds were healed. Moreover, all the studies were carried out by the same research group, which could increase the effect of any bias worse. Infection rates were measured by rates of bacterial colonisation, a measure which is less relevant than rates of clinical infection (ie, with signs and symptoms of disease)

Honey is a natural product and the characteristics associated with wound healing may be affected by species of bee, geographical location and botanical origin, as well as processing and storage conditions (Moore 2001). Raw honey is not sterile and commercially available honey dressings with standardised anti-bacterial properties may prove more suitable for wound dressing.

However, these positive findings for honey are supported by laboratory studies showing that honey inhibits bacterial growth (Karayil 1998, Cooper 1999a and b).

Larger well-designed studies with blinded assessment methods are needed to provide stronger evidence of the role of honey in healing burns (Moore 2001). Studies of manuka honey would be especially useful, since this type of honey proved most promising in laboratory studies (Molan 2004).

However, whatever type of dressing is used for burns and scalds, there is very good evidence that the first aid treatment of the burn or scald is crucial. The best form of first aid is the immediate immersion of the injured body part under cold running tap water for at least 20 minutes (unless the victim is attached to a live electrical device). Milk or soft drink is effective if cold water is unavailable. Care must be taken to avoid over-cooling, especially in children: Ice should never be used. No creams, lotions or home remedies such as butter should be applied (Skinner 2002)

11. Conclusions

There is level two evidence from the five RCTs included in this evidence review that honey heals minor burns and scalds effectively and reduces bacterial colonisation of the wounds. No adverse effects were reported in these trials.

It is unclear what type of honey product is best for burns. All the RCTs were conducted in India using raw honey and gauze dressings.

There is level 2 evidence that honey is not safe or effective as a dressing for more serious burns.

12. References

Campbell F, Seers K. Dressing and topical agents for burns. (Protocol) The

Cochrane Database of Systematic Reviews 2000, Issue 2).

Cooper R, Molan P. The use of honey as an antiseptic in managing Pseudomonas infection. J Wound Care 1999a, 8:161-4;

Cooper R, Molan P, Harding KG. Antibacterial activity of honey against strains of Staphylococcus aureus from infected wounds. J Roy Soc Med 1999, 92:283-5

Edwards-Jones V, Greenwood JE. What's new in burn microbiology? James Laing Memorial Prize Essay 2000. Burns 2003; 29: 15-24)

Karayil S, Deshpande SD, Koppikar GV. Effect of honey on multidrug resistant organisms and its synergistic action with three common antibiotics. J Postgrad Med 1998, 44:93-6)

Molan PC, Betts JA. Clinical usage of honey as a wound dressing: an update. Journal of Wound Care 2004; 13(9): 353-6)

Moore OA, Smith LA et al. Systematic review of the use of honey as a wound dressing. BMC Complementary & Alternative Medicine 2001;1(2).

National Burn Centre 2005 available at: www.burn.org.nz

Skinner A, Peat B. Burns treatment for children and adults: a study of initial burns first aid and hospital care. The New Zealand Medical Journal 2002; 115(1163): 199-207.

Subrahmanyam M. Topical application of honey in treatment of burns. British Journal of Surgery 1991; 78(4): 497-8.

Subrahmanyam M. Honey impregnated gauze versus polyurethane film (OpSite) in the treatment of burns--a prospective randomised study. British Journal of Plastic Surgery 1993; 46(4): 322-3.

Subrahmanyam M. Honey-impregnated gauze versus amniotic membrane in the treatment of burns. Burns 1994; 20(4): 331-3.

Subrahmanyam M. Honey dressing for burns � an appraisal. Annals of Burns and fire disasters 1996a IX 33-5.

Subrahmanyam M. Honey dressing versus boiled potato peel in the treatment of burns: a prospective randomized study. Burns 1996b; 22(6): 491-3.

Subrahmanyam M. A prospective randomised clinical and histological study of superficial burn wound healing with honey and silver sulfadiazine. Burns 1998; 24(2): 157-61.

Subrahmanyam M. Early tangential excision and skin grafting of moderate burns is superior to honey dressing: a prospective randomised trial. Burns 1999; 25(8): 729-31.

Subrahmanyam M. Effect of topical application of honey on burn wound healing. Annals of Burns and Fire Disaster 2001; XIV: 143-5.

13. Further Resources

National Burn Centre www.burn.org.nz
Waikato Honey Research Unit http://bio.waikato.ac.nz/honey/

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