Scientists suspect omega-3 fatty acids could slow acute wound healing

The omega-3 fatty acids found in fish oils are widely considered to benefit cardiovascular health and other diseases related to chronic inflammation because of their anti-inflammatory properties. But insufficient inflammation during the initial stage of wound healing may delay the advancement of later stages.

In the study, blister wounds on the arms of people taking fish oil supplements were compared to the wounds of people taking a placebo. The wounds healed in about the same amount of time – but at the local cellular level, something unexpected happened. The levels of proteins associated with initiating and sustaining inflammation were higher in the blister fluid in people who had taken the active fish oil supplements. The researchers had expected those proteins to be lowered by the increased systemic presence of omega-3 fatty acids in the blood.

"That finding was hard to explain," said Jodi McDaniel, lead author of the study and an assistant professor of nursing at Ohio State University. "These proteins may have other functions that we don't yet fully understand. And our results also suggested there could be a difference between men and women in the amount of inflammatory proteins that are produced, because on average, women had lower levels of one of the proteins."

If the polyunsaturated fatty acids in the fish oils do indeed delay acute wound healing, then they probably should be discontinued for awhile by patients scheduled for surgery, McDaniel said. They appear to have enough of an effect that patients should at least inform their doctors if they're taking a fish oil supplement, she added.

But there could still be a bright side to the supplements' ability to alter those proteins and other molecular substances that control inflammation locally. Fish oil's systemic anti-inflammatory power, which has been illustrated in previous studies, still might assist in the healing of chronic wounds at the local level. Chronic wounds are essentially stuck in an inflammatory stage that slows or prevents transition to the later stages needed for complete healing. That mechanism needs to be explored further, McDaniel said.

"There's so much information out there now about omega-3s and they clearly have lots of potential," McDaniel said. "We're just trying to figure out how to evaluate what they do and how to advise people to take these supplements. Our goal isn't to stop supplement use but to fill in the picture of what conditions they help and what they might hurt."

The research is published in a recent issue of the journal Wound Repair and Regeneration.

Study participants were divided into two groups of 15 healthy adults each. One group took a placebo, and the other took an active supplement containing 1.6 grams of eicosapentaenoic acid (EPA) and 1.1 grams of docosahexaenoic acid (DHA) daily for four weeks. EPA and DHA are the polyunsaturated fatty acids obtained primarily from fish oil that serve as the basis of most standard omega-3 supplements.

Previous research has suggested that these fatty acids affect the production of proteins called proinflammatory cytokines, which signal biological processes during the inflammatory stage of wound healing. The primary cytokines in the process are interleukin-1 beta (IL-1b), interleukin-6 (IL-6) and tumor necrosis factor-alpha (TNF-a).

But research had not yet addressed how the interaction between fatty acids and these cytokines might affect human wounds.

McDaniel and colleagues expected to find that research participants taking the fish oil supplements – and therefore being affected by their anti-inflammatory properties – would have significantly lower levels of the cytokines in their blister wounds during the initial stage of inflammation, resulting in a slower healing process.

Instead, the group taking the fish oil had significantly higher levels of IL-1b in their blister wounds than did the placebo group 24 hours after the wounds were created. The active group also had higher levels of IL-6 and TNF-a cytokines in their blisters over time than did the placebo group, but those differences in levels were not significant. The blisters took an average of 10.7 days to completely heal in the active supplement group and an average of 9.8 days in the placebo group, but the difference was not significant.

The results suggest that the function of these cytokines still isn't completely understood, McDaniel said. And the scientists were also surprised to find that gender appeared to make a difference in cytokine production. Men were more likely than women among the active supplement group to have higher levels of the IL-1b cytokine in their wounds. McDaniel said that some studies have suggested that estrogen plays a role in inhibiting the production of this particular protein during the inflammatory stage of wound healing, but more research is needed.

McDaniel and colleagues are following up with a similar study in which they are adding a low-dose aspirin to both the fish oil supplement and placebo groups. Some research has shown that aspirin can facilitate the anti-inflammatory properties of omega-3 fatty acids, and low-dose aspirin is commonly included in the medication regimen of patients with cardiovascular disease.

The researchers also will look at different biological markers in blister wounds to see if the combination of fish oil and aspirin produces compounds that function as what McDaniel called "stop and go switches" in controlling inflammation.

"If we find that the fish oil can work in an anti-inflammatory fashion at the local level of wound sites, we would consider moving on to the chronic wound population," McDaniel said. "Even if we find that there are times when omega-3 fatty acids should not be taken in advance of creating an acute wound, such as in elective surgery, we still have high hopes that fish oil might be beneficial for chronic wounds in certain situations."

Source: Ohio State University

Deadlines set for designating polar bear habitat
(AP) -- The federal government will designate "critical habitat" for polar bears off Alaska's coast, a decision that could add restrictions to future offshore petroleum exploration or drilling.
AP Investigation: Ike environmental toll apparent
(AP) -- Hurricane Ike's winds and massive waves destroyed oil platforms, tossed storage tanks and punctured pipelines. The environmental damage only now is becoming apparent: At least a half million gallons of crude oil spilled into the Gulf of Mexico and the marshes, bayous and bays of Louisiana and Texas, according to an analysis of federal data by The Associated Press.
Ocean offers hope for green energy
Five miles off the southern tip of Long Beach Island, an oversize yellow buoy floats alone, purposefully mounting the waves and occasionally phoning home.
I can't believe it's not fried: New oven fries food without oil
(PhysOrg.com) -- A new type of oven quickly produces foods that appear and taste identical to those that were fried, but, unlike traditional fryers, uses no additional oil. The "radiant fryer" could create products with 50 percent less oil, less fat and fewer calories than conventional fryers, said Purdue University food scientist and inventor Kevin Keener.
Strict Mediterranean diet can help reduce deaths from major chronic diseases
Sticking to a full Mediterranean diet provides substantial protection against major chronic diseases including heart disease, cancer and Parkinson's and Alzheimer's disease, according to a study published on bmj.com today.
Fish or fuel? Debate divides Norway's far north
The pristine Lofoten Islands off Norway's far north paint an idyllic image of tranquility, but beneath the surface is a roiling debate over the islands' resources, dividing fishermen, environmentalists and oil companies.
Whether brown or red, algae can produce plenty of green fuel
Having studied the physiology of algae for more than 30 years, Rose Ann Cattolico is convinced the plant life found in oceans and ponds can be a major source of environmentally friendly fuels for everything from cars and lawn mowers to jet airplanes.
Researcher converts biodiesel-waste glycerol into omega-3 fatty acids
The typical American diet often lacks omega-3 fatty acids despite clinical research that shows their potential human health benefits. Zhiyou Wen, assistant professor of biological systems engineering in Virginia Tech's College of Agriculture and Life Sciences, found a way to grow these compounds using a byproduct of the emerging biodiesel industry.

Scientists suspect omega-3 fatty acids could slow acute wound healing

Related stories:

News discussion: