Recovering from Injury – Nutrition Tips

Posted 3rd August 2015 by Wendy Martinson OBE, Registered Dietitian & Performance Nutritionist

Sustaining an injury is difficult and frustrating for any athlete and for many it is tempting to overindulge in unsuitable foods that although can offer some level of comfort may not be ideal for rapid recovery. Eating well during the rehabilitation period is one of the positive things athletes can do to facilitate the healing process and enable them to get back to training as soon as possible.

This article will discuss some of the key nutrients that play essential roles in the healing process.

The healing process

The length of time taken for an injury to heal will depend on the severity and type of injury. The repair pathway is similar, regardless of the aetiology of the injury and involves the immune system orchestrating a complex network of immune cells that peak at different time during the process. This helps to distinguish the four different stages, which are haemostasis, inflammation, proliferation and remodeling.

Haemostasis and inflammation is the body’s initial response to the acute injury and during this phase the aim is to control blood loss and cellular damage, remove debris and control or eliminate invading bacteria. This phase starts from the time of injury, can last for 3-4 days and is marked by vasoconstriction to stop bleeding, platelet accumulation to form a clot, and leukocyte migration to engulf bacteria and debris to clean the wound site. The injury may appear warm, red and swollen during this phase.

During the proliferation phase new blood vessels are formed, fibroblasts produce collagen, the wound edges pull together (contracture) and the surface of the wound is covered with epithelial tissue. This phase can start around day 3 and can last for 2-3 weeks.

Finally, the remodeling phase can start 2-3 weeks after injury and last up to 2 years, during which time collagen and other proteins become more organized in structure and type III collagen is replaced with type I which is stronger. The scar tissue, which develops, is 70-80% as strong as the original tissue. (Young et al., 2011, Merryfield, 2014)

How can nutrition help?

There are many nutrients involved in the healing process and a deficiency can compromise the speed of recovery. Some of the key nutrients involved include protein, vitamin C, A, B complex, E, K, selenium, zinc, iron and copper. Calcium and vitamin D also play a significant role in the healing of bone tissue.

Sufficient energy is also required from carbohydrate and fat during injury to support the healing metabolic processes.

Energy intake

The amount of energy needed following injury depends on the extent of the injury and how much it affects normal activity levels. Acute injury including post-surgical procedures and inflammation will increase metabolic stress and so energy requirements are likely to be higher in the early phase of recovery. However this increase will not be equivalent to the decrease in energy expenditure as a result of inactivity. So overall it will mean a decrease in usual energy intake for athletes in order to prevent excessive weight gain over the period of rehabilitation.

Protein

Protein deficiency can contribute towards poor wound healing by prolonging the inflammatory process, impairing collagen synthesis and inhibiting wound remodeling. (Russell, 2001, MacKay, 2003) Immobility following injury can also lead to a degree of muscle atrophy. Athletes need to ensure they consume sufficient energy and protein post injury to help optimise healing and to limit excessive losses in muscle mass.  Requirements for protein are thought to be in the region of 1.6 – 2.5g /kg body weight (Wall et al., 2015) Protein with a high leucine content (2.5-3g) such as lean meat, fish, poultry, eggs, dairy foods and whey protein will help enhance muscle protein synthesis (Tipton, 2010, Wall et al., 2015) and consuming 0.25-0.3g protein/kg per meal every 3-4 hours will maximise the response (Witard, 2014, Areta et al., 2013) Including a bed time slow release protein such as milk or casein may also be beneficial ( Res et al., 2012). Supplements such as HMB and creatine may also wish to be considered to minimise muscle protein loss (Wall et al., 2015)

Omega 3 fats

There may be a several benefits to increasing intake of omega 3 fats during injury due to the impact of these fats on the immune and inflammatory response (Mickleborough, 2013) and also on the muscle protein synthesis pathway (Smith et al., 2011). Good food sources for athletes to include in their diet are oily fish, linseeds, walnuts and chia seeds. However an omega 3 supplement may be required as it can be difficult to obtain the desired amount from food alone.

Vitamin C

Vitamin C is essential for wound healing, as it is a co factor in the hydroxylation of proline and lysine during the formation of collagen. It also enhances leukocyte function and acts as an antioxidant (Chow et al., 2012). Deficiency of vitamin C can cause delayed wound healing due to the capillaries and connective tissue at the wound site being too fragile and so new scar tissue cannot adequately be formed.

At intakes of approximately 200mg per day tissue saturation is reached and to achieve this vitamin C rich foods should consumed each day. Vitamin C is found in virtually all fruit and vegetables but especially good sources are sweet peppers, brussels sprouts, broccoli, watercress, tomatoes, guava, blackcurrants, kiwi, citrus fruits, strawberries, lychees and mango. Fresh fruit and vegetables need to be eaten within a few days of buying as the vitamin C content gradually diminishes. A supplement of vitamin C may be beneficial if dietary intake is not optimal.

Zinc

Zinc plays a role in all stages of wound healing and deficiency is associated with reduced epithelialization, decreased scar strength and collagen production. If zinc status is good, supplementing with additional zinc does not accelerate wound healing. However, in those that are deficient, supplementing with zinc may enhance the wound healing process. (Merryfield, 2014) Athletes recovering from injury should include rich sources of zinc in their diet including lean meat, fish, shellfish, pulses, seeds, nuts and wholegrains.

Conclusion

It is clear that nutrition has a key role to play in the recovery from acute and chronic injury. It is important that athletes receive nutrition support during this stressful and difficult time to help them back to training as soon as possible.

References

Areta, J., L., Burke, L., M., Ross, M., L., Camera, D., M., West, D., W., D., Broad, E., M., Jeacocke, N., A., Moore, D., R., Stellingwerf, T., Phillips, S., Hawley, J., Coffey, V., G. (2013) Timing and distribution of protein ingestion during prolonged recovery from resistance exercise alters myofibrillar protein synthesis. The Journal of Physiology, 591 (9), 2319-2331

Chow, O., Barbul, A. (2012) Immunonutrition: Role in wound healing and tissue regeneration. Advances in wound care, 3(1)

Mackay, D., Miller, A., L. (2003) Nutritional support for wound healing. Alternative Medicine review, 8 (4)

Merryfield, C. (2014) Wound healing, tissue viability and pressure sores. In J. Gandy (Ed.), Manual of Dietetic Practice. (pp.914-919). UK: Wiley Blackwell

Mickleborough, T., D. (2013). Omega 3 polyunsaturated fatty acids in physical performance optimization. International journal of Sport Nutrition and Exercise Metabolism, 23,83-96

Res, P., T., Groen, B., Pennings, B., Beelen, M., Wallis, G., A., Gijsen, A., P., Senden, J., M., G., & Van Loon, L., J., C. (2012) Protein ingestion before sleep improves postexercise overnight recovery. Medicine and Science in Sports and Exercise, 44(8), 1560-1569.

Russell, L. (2001) The importance of patients nutritional status in wound healing. British Journal of Nursing, 10 (6)

Smith, G., I., Atherton, P., Reeds, D., N., Mohammed, B., S., Rankin, D., Rennie, M., J., Mittendorfer, B. (2011) Omega-3 polyunsaturated fatty acids augment the muscle protein anabolic response to hyperinsulinaemia-hyperaminoacidaemia in healthy young and middle-aged men and women, Clin. Sci. (Lond.) 121 (2011) 267-278.

Tipton, K., D. (2010) Nutrition for acute exercise-induced injuries. Annals of Nutrition and metabolism, 57 (2), 43-53.

Wall, B., T., Morton, J., P., Van Loon, L., J., C. (2015) Strategies to maintain skeletal muscle mass in the injured athlete: Nutritional considerations. European Journal of Sport Science, 15 (1)

Witard, O., C., Jackman, S., R., Breen, L., Smith, K., Selby, A., & Tipton, K., D. (2014) Myofibrillar muscle protein synthesis rates subsequent to a meal in response to increasing doses of whey protein at rest and after resistance exercise. American Journal of Clinical Nutrition, 99(1), 86-95.

Young, A., Mc Naught, C., E. (2011) The physiology of wound healing. Surgery, 29 (10), 475-479.

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