A low protein diet, a diet in which people are required to reduce their intake of protein, is used by persons with abnormal kidney or liver function to prevent worsening of their disease.
The low protein diet was developed by dietitians and nutritionists in response to adverse effects that protein can have on persons with kidney or liver disease. Proteins are required for growth, upkeep, and repair of body tissues. They also help the body fight infections and heal wounds. Protein contains 16% nitrogen, which the body eliminates in the urine as urea. In cases where liver or kidney function is impaired, urea, ammonia or other toxic nitrogen metabolites may build up in the blood. The low protein diet is designed to reduce these nitrogen metabolites and ammonia in individuals with liver disease or kidney failure and to reduce the workload on the kidney or liver. If the kidneys, which are responsible for excretion of urea, are not functioning properly (renal failure), or if high levels of protein are continually present in the diet, urea and other toxic nitrogen compounds build up in the bloodstream, causing loss of appetite, nausea, headaches, bad taste in the mouth, and fatigue as well as possibly further adversely affecting the kidney or liver.
The low protein diet focuses on obtaining most of a person’s daily calories from complex carbohydrates rather than from proteins. There are two main sources of protein in the diet: higher levels are found in animal products, including fish, poultry, eggs, meat, and dairy products), while lower levels are found in vegetable products (breads, cereals, rice, pasta, and dried beans). Generally foods in the high protein food group contains about 8 grams of protein per serving. Cereals and grains have about 2 grams of protein in 1/2 cup or 1 slice. Vegetables have about 1 gram of protein in 1/2 cup, while fruits have only a trace amount of protein in 1/2 cup. To control protein intake, foods such as starches, sugars, grains, fruits, vegetables, fats, and oils should be eaten at levels sufficient to meet daily energy needs. If a person has diabetes, the diet must also be designed to control blood sugar.
Protein should never be completely eliminated from the diet. The amount of protein that can be
Kidney disease —Most kidney diseases cause the kidneys to lose their cleaning ability. Damage to the kidneys may happen quickly because of injury or poisoning, but most kidney diseases destroy the kidneys slowly and silently over many years. The two most common causes of kidney disease are diabetes and high blood pressure.
Liver disease —Refers to any disorder of the liver. The liver is a large organ in the upper right abdomen that aids in digestion and removes waste products from the blood. Liver disease includes the following conditions: Cirrhosis, or scarring of the liver, inflammation (hepatitis) from infectious (hepatitis B, hepatitis C) or non-infectious causes (chemical or autoimmune hepatitis), umors, benign and malignant (liver cancer), and metabolic disorders. Alcohol abuse is one leading cause of liver disease. Infections, poisons, and inherited (genetic) conditions can also cause diseases of the liver.
included in the diet depends on the degree of kidney or liver damage and the amount of protein needed for an individual to maintain good health. Laboratory tests are used to determine the amount of protein and protein waste breakdown products in the blood. A suggested acceptable level of protein in a low-protein diet is about 0.6g/kg of body weight per day, or about 40 to 50 grams per day. A person suffering from a kidney disease such as nephrotic syndrome, where large amounts of protein is lost in the urine, should ingest moderate levels of protein (0.8 kg per kg of body weight per day).
A sample menu for one day might include:
Breakfast: 1 orange, 1 egg or egg substitute, 1/2 cup rice or creamed cereal, 1 slice whole wheat bread (toasted), 1/2 tablespoon margarine or butter, 1/2 cup whole milk, hot, non-caloric beverage, 1 tablespoon sugar (optional).
Lunch: 1 ounce sliced turkey breast, 1/2 cup steamed broccoli, 1 slice whole wheat bread, 1/2 tablespoon margarine or butter, 1 apple, 1/2 cup gelatin dessert, 1 cup grape juice, hot, non-caloric beverage, 1 tablespoon sugar (optional).
Mid-Afternoon Snack: 6 squares salt-free soda crackers, 1/2 tablespoon margarine or butter, 1 to 2 tablespoons jelly, 1/2 cup apple juice.
Dinner: 1/2 cup tomato juice, 1 ounce beef, 1 baked potato, 1 teaspoon margarine or butter (optional), 1/2 cup steamed spinach, 1 slice whole wheat bread, 1/3 cup sherbet, 4 apricot halves, hot, non-caloric beverage.
Evening Snack: 1 banana.
This sample menu contains about 1850 calories, with a protein content of 8%.
Special, low protein products, especially breads and pastas, are available from various food manufacturers for persons who need to follow a low protein diet. Specific information on the protein content of foods can be found on food labels. Books that list protein contents of various foods as well as low protein cookbooks are also available.
In addition, it is recommended that fat calories be obtained from monounsaturated and polyunsaturated fats. In order to be effective, some persons may also be required to reduce their sodium and potassium ingestion in foods. Sodium restriction improves the ability to control blood pressure and body fluid build-up as well as to avoid congestive heart failure. Foods with high sodium contents, such as processed, convenience and fast foods, salty snacks, and salty seasonings, should be avoided. Potassium is necessary for nerve and muscle health. Dietary potassium restriction is required if potassium is not excreted and builds to high levels in the blood, which may result in dangerous heart rhythms. At very high levels, potassium can even cause the heart to stop beating.
As kidney function decreases, the kidneys may reduce their production of urine, and the body can become overloaded with fluids. This fluid accumulation can result in swelling of legs, hands and face, high blood pressure, and shortness of breath. To relieve these symptoms, restriction of fluids, including water, soup, juice, milk, popsicles, and gelatin, should be incorporated into the low protein diet. Liver disease may also require dietary fluid restrictions.
Tyrosinemia is a rare but serious inherited disease that may also require the use of a low-protein diet. Tyrosinemia is an inborn error of metabolism in which the body can not effectively break down the amino acid tyrosine.
The purpose of a low protein diet is to prevent worsening of kidney or liver disease. The diet is effective because it decreases the stress on the kidney or liver.
Protein restriction lessens the protein load on the kidney or liver, which slows down the continued development of disease.
A person requiring a low protein diet should consult a dietitian familiar with liver or kidney diseases to provide guidance on developing an appropriate diet as well as to learn how to follow the diet effectively. The diet must meet the person’s nutritional needs, cut down the work load on the kidneys or liver, help maintain the kidney or liver function that is left, control the build-up of waste products, and reduce symptoms of the kidney or liver disease. Strict adherence to the diet can be difficult, especially for children. Small amounts of protein-containing food combined with larger amounts of low or no-protein foods can be used to make the diet more acceptable. Some persons eliminate meat, eggs, and cheese from their diets rather than measure the amounts of protein from these foods. However, care must be taken to make sure that adequate protein is included in a vegetarian diet to provide for growth and development, including building muscles and repairing wounds. Another approach, since it is difficult to manage portion sizes of foods other than milk, is to omit meats, fish, and chicken from the diet and use milk as the primary source of protein.
A person with both kidney disease and diabetes must be careful to eat only low-to-moderate amounts of carbohydrates along with monounsaturated and polyunsaturated fats.
The human body reacts to protein deficiency by taking amino acids (the building blocks of proteins) away from muscle tissue and other areas of the body. The process, in which the body basically metabolizes itself, is called catabolism and leads to muscle loss and weakness. The use of exercise and strength training is recommended to counter the effects of muscle loss.
The levels of calcium and phosphorus must be monitored closely, for in persons with kidney disease, phosphorus levels can become too high, while levels of calcium can become too low. Monitoring of these two minerals may require an adjustment in dietary intakes of these minerals. Phosphorus is a mineral that helps to keep bones strong. Too much phosphorus, however, may cause itchy skin or painful joints. Calcium is required to maintain bone density and vitamin D is
QUESTIONS TO ASK YOUR DOCTOR
- Where do I find out about this diet?
- What types of medical monitoring and oversight do I need?
- Where can I find support and information?
- What types of side effects should I watch out for?
necessary to control the balance of calcium and phosphorus. If changes to add these nutrients to the diet are not adequate, then supplements and medications may be required. If phosphorus levels are too high, a person may have to take phosphorus binders that reduce the amount of phosphorus that enters the blood stream from the intestine. Dairy products as well as seeds, nuts, dried peas, beans, and processed bran cereals, are high in phosphorus, so the use of these food sources may need to be limited.
A low protein diet may also be deficient in some of essential amino acids (which are the building blocks of protein), the vitamins niacin, thiamine, and riboflavin, and the mineral iron (most people with advanced kidney disease have severe anemia). Vitamin supplementation is dependent on the amount of protein restriction, the extent of kidney damage, and the vitamin content of food that is eaten. A person with kidney failure may have decreased urine output. The amount of fluids a person needs to drink is based on the amount of urine produced daily, the amount of fluid being retained, the amount of sodium in the diet, the use of diuretics, and whether the person has congestive heart failure.
In persons with advanced kidney disease, a low protein diet may lead to malnutrition. The person may lose muscle and weight, lack energy, and have difficulty fighting infections. Daily calorie intake is dependent on the amount needed to prevent breakdown of body tissues. Body weight and protein status should be monitored periodically, which in some cases may be daily. Extra calories can be added to the diet by increasing the use of heart-healthy fats, eating candy and other sweet foods, such as canned or frozen fruits in heavy syrup.
Very low protein diets coupled with amino acid supplements have been shown to slow down the progression of and even cure certain types of kidney disease in persons in early stages of the disease. In adults with moderate-to-severe chronic renal failure, reduced protein intake has also been shown to decrease the risk of end-stage renal disease, based on a systematic review of eight randomized trials with 1,524 patients who were followed for at least one year. Renal death was defined as initiation of dialysis, kidney transplant, or patient death. The incidence of renal death was 13.5% in patients following the low-protein diet compared with 19.4% in patients receiving the higher-protein diet. However, there was insufficient evidence to determine the optimal level of protein intake.
However, it is known that although the low-protein diet may help those with chronic kidney or liver disease, the diet is also known to lead to muscle loss. In 2004 researchers in the Nutrition, Exercise Physiology, and Sarcopenia Laboratory of the Jean Mayer USDA Human Nutrition Research Center on Aging at Tufts University (HNRCA) in Boston, Massachusetts, reported on a study involving a group of volunteers with chronic kidney disease who consumed a low protein diet. About half the group engaged in resistance training, while the other half served as a control group. Among the strength-trained participants who exercised for 45 minutes (including warm-up and cool-down) three times per week for 12 weeks, measurements showed that, on average, total muscle fiber increased by 32 percent, and muscle strength increased by 30 percent. Those who did not exercise lost on average about 3% of their body weight, or about 9 pounds.
Researchers studying a group of vegetarians who had maintained a diet relatively low in protein and calories found that they had lower blood levels of several hormones and other substances that have been tied to certain cancers. Additionally it has been shown that a low protein diet protects against gout, which is caused by too much uric acid in the blood. The excess uric acid forms crystal deposits in joints, particularly in the big toe, feet and ankles, resulting in episodes of pain.
A low protein diet has also been shown to help persons with Parkinson’s disease. In this disease, dop-amine-secreting neurons in the brain die-off, leading to tremors, slowness, and rigidity. The most common treatment is a dopamine precursor called levodopa. However, the effects of this drug can decrease over time, resulting in ‘on’ periods when the person exhibits few symptoms and other ‘off’ periods when the person suffers from high and often debilitating symptoms. A research team in Italy showed that lowering the protein content of the diet can improve levodopa therapy and reduce the number and length of the “off periods.” Additional studies are needed to confirm these results.
Harum, Peggy. Marina Del Ray, CA: R & D Laboratories, Inc., 1999. .
The Cleveland Clinic Foundation Creative Cooking for Renal Diets Willoughby, OH: Senay Publishing, Inc., 2006. .
Walser, Mackenzie. Coping with Kidney Disease: A 12-Step Treatment Program to Help You Avoid Dialysis Hoboken, NJ: John Wiley and Sons, Inc., 2004.
National Kidney Foundation, 30 East 33rd Street New York, NY 10016. Telephone: 800-622-9010. Website: kidney.org
Tish Davidson, A.M.