Neutropenic diet and quality of food: a critical analysis

Garófolo, Adriana

doi:10.5581/1516-8484.20130022

SCIENTIFIC COMMENTS

Neutropenic diet and quality of food: a critical analysis

Adriana Garófolo

Escola Paulista de Medicina, Universidade Federal de São Paulo - UNIFESP, São Paulo, SP, Brazil

^{Corresponding author} Corresponding author: Adriana Garófolo, Escola Paulista de Medicina da Universidade Federal de São Paulo - UNIFESP EPM Rua Sena Madureira, 1500 - Vila Mariana 04021-001 São Paulo, SP, Brazil adrigarofolo@hotmail.com

The use of low microbial diets for immune-suppressed patients is controversial⁽¹⁾. Low microbial diets are intended to reduce the ingestion of bacterial and fungal contaminants by the exclusion of uncooked fruits and vegetables, undercooked eggs and meat, un-sterilized water, un-pasteurized dairy products⁽²⁾.

In this issue of the Revista Brasileira de Hematologia e Hemoterapia, Galati et al. report on an investigation of the microbiological profile and vitamin C content of raw and cooked foods destined for neutropenic patients⁽³⁾.

The use of a low microbial diet or neutropenic diet after hematopoietic stem cell transplantation (HSCT) was instituted more than 30 years ago as a means of preventing infection from organisms colonizing the gastrointestinal tract. Evidence supporting this practice is lacking however, and the actual efficacy of neutropenic diets remains unknown^(1,4).

Some argue that insufficient research and the high cost of these diets is enough reason not to implement them. Thus, the policy of some institutions has discontinued their use, such as in the Northwestern Memorial Hospital in Chicago, which stopped the practice of neutropenic diets in 2006⁽⁴⁾. Nevertheless, others argue that despite lack of clinical evidence, it is prudent to be cautious and continue to provide immune-suppressed patients with low microbial diets^(1,2,4), which implies, in turn, higher dietary restrictions.

A recent study followed patients admitted to a high-efficiency particulate air-filtered room (protected environment) receiving induction therapy for newly diagnosed acute myeloid leukemia (AML). They were randomly assigned to a diet containing no raw fruits or vegetables (cooked diet) or to a diet containing fresh fruit and fresh vegetables (raw diet). The rates of major infection and death, the two major end points of the study, were similar regardless of whether patients were on the cooked or raw diet⁽⁵⁾.

A retrospective study of 726 consecutive HSCT recipients studied 363 who received a neutropenic diet and 363 who received a general hospital diet in order to determine the incidence of microbiologically confirmed infections during and after transplantation. The study demonstrated a higher rate of infections in the HSCT recipients who received the neutropenic diet⁽⁶⁾.

Although there is an international trend in not maintaining severe dietary restrictions for immunosuppressed patients, including HSCT, a Brazilian study carried out recently showed that there are still differences among professionals concerning which foods are allowed, especially during the critical period of immunosuppression (CPI)⁽⁷⁾.

In the international literature several foods, such as pasteurized yogurt and cheese, thin-skinned fruits and chocolate are allowed during CPI. However, the study by Vicenski et al. demonstrated that in most Brazilian centers (88%) the consumption of these foods is not allowed⁽⁷⁾.

Some general adopted proceedings are diet served without fresh garnishes or salads, the plates are sealed with cling film, delivered to the ward, heated in a microwave oven and served still sealed. Cutlery is disinfected in boiling water before service^(1,4).

The more restricted the diet of the patient is, the greater the risk of malnutrition. Thus, there will be greater need for nutritional supplementation.

Cancer patients often have reduced food intake and, in certain circumstances, malabsorption of nutrients^(8-11); these conditions can predispose to the development of nutritional deficiencies. Among the nutrients which studies have shown reduction of body reserves, are vitamin A and retinol, vitamin E, vitamin C, beta carotene, selenium, zinc and the B vitamins^(12-16). Several of these elements are restricted when neutropenic diets are used. Moreover, the practice of the cooking processes induces important nutritional losses. The high temperatures and the amount of water used in cooking are the main factors in the inactivation of nutrients. During the cooking process, including soaking, boiling, cooking in a microwave and pressure cooking, various nutritional losses are observed; reductions in the B vitamins, potassium and vitamin C have been reported⁽¹⁷⁾. Ascorbic acid (vitamin C), with its important proprieties as an antioxidant, is one of the most impaired nutrients in cooked vegetables and fruits^(18,19).

The available evidence does not support the widespread use of neutropenic diets. Moreover, neutropenic diets are not standardized. Several studies have emphasized the importance of food in patients' quality of life. Patients receiving chemotherapy have many problems, including appetite disorders, malnutrition, body image changes and fear. Many patients identify appetite and weight as variables within their control and food is seen as a nurturing and comforting area of life⁽¹⁶⁾. Furthermore, greater dietary restrictions lead to higher nutritional risk and increase the need of nutritional support, thereby increasing the costs and the risk for the patient.

Based on the current evidence, we are not able to give definitive recommendations in the clinical practice, until high quality research has been conducted. Therefore, guidelines should be cautious as the conduct is empirical and there is a high risk of nutritional deficiencies in these patients. Food can also be a source of pleasure and certain restrictions may exacerbate fragile emotional states.

Some safety practices that can be adopted for patients submitted to conventional cancer treatment are the adequate sanitation of vegetables and fruits, the withdrawal of raw or undercooked meat, fish and eggs, and restricting the consumption of un-pasteurized suspicious dairy foods and food prepared using questionable hygienic care. Organically produced foods should be carefully acquired and consumed because they are at risk of containing higher amounts of microorganisms, since they are free of pesticides. Recommendations in this area are scarce.

The care of patients submitted to hematopoietic stem cells transplantation may be more rigid than for conventional anticancer treatment, with, in addition to other precautions, the avoidance of raw plant foods that are more difficult to sanitize, but the need to fully constrain this group to consume only cooked food is not fully proven.

Submitted: 1/20/2013

Accepted: 1/27/2013

Conflict-of-interest disclosure: The author declares no competing financial interest

1. Jubelirer SJ. The Benefit of the neutropenic diet: fact or fiction? The Oncologist. 2011;16(5):704-7.
2. Hanekom SM, Vermeulen EE, W Oldewage-Theron. Food safety risk factors in a hospital food service unit serving low microbial diets to immune-compromised patients. Afr J Food Agric Nutr Dev. 2010;10(9):4000-15.
3. Galati PC, Lataro RC, Souza VM, Martinis EC, Chiarello PG. Microbiological profile and nutritional quality of raw foods for neutropenic patients under hospital care. Rev Bras Hematol Hemoter. 2013;35(2):94-8.
4. Zitella LJ, Friese CR, Hauser J, Gobel BH, Woolery M, O'Leary C, et al. Putting evidence into practice: prevention of infection. Clin J Oncol Nurs. 2006;10(6):739-50. Comment in: Clin J Oncol Nurs. 2007;11(2):185-6.
5. Gardner A, Mattiuzzi G, Faderl S, Borthakur G, Garcia-Manero G, Pierce S, et al. Randomized comparison of cooked and noncooked diets in patients undergoing remission induction therapy for acute myeloid leukemia. J Clin Oncol. 2008;26(35):5684-8.
6. Trifilio S, Helenowski I, Giel M, Gobel B, Pi J, Greenberg D, et al. Questioning the role of a neutropenic diet following hematopoetic stem cell transplantation. Biol Blood Marrow Transplant. 2012;18(9):1385-90. Comment in: Biol Blood Marrow Transplant. 2012;18(9):1318-9.
7. Vicenski PP, P Alberti, Amaral DJ. Dietary recommendations for immunosuppressed patients of 17 hematopoietic stem cell transplantation centers in Brazil. Rev Bras Hematol Hemoter. 2012;34(2):86-93.
8. Halton J, Atkinson AS, Bradley C, Dawson S, Barr RD. Acute lymphoid leukemia. No evidence of consistent chemotherapy-induced intestinal malabsorption. Am J Pediatr Hematol Oncol. 1993;15(3):271-6.
9. Pettoello-Mantovani M, Guandalini S, di Martino L, Corvino C, Indolfi P, Casale F, et al. Prospective study of lactose absorption during cancer chemotherapy: feasibility of a yogurt-supplemented diet in lactose malabsorbers. J Pediatr Gastroenterol Nutr. 1995;20(2):189-95.
10. Bow EJ, Loewen R, Cheang MS, Shore TB, Rubinger M, Schacter B. Cytotoxic therapy-induced D-xylose malabsorption and invasive infection during remission induction therapy for acute myeloid leukemia in adults. J Clin Oncol. 1997;15(6):2254-61.
11. Keefe DM, Cummins AG, Dale BM, Kotasek D, Robb TA, Sage E. Effect of high-dose chemotherapy on intestinal permeability in humans. Clin Sci (Lond). 1997;92(4):385-9.
12. Fukuzawa K, Ikebata W, Sohmi K. Location, antioxidant and recycling dynamics of tocoferol in liposome membranes. J Nutr Sci Vitaminol (Tokyo). 1993;39(Suppl):S9-22.
13. Olson JA. Vitamin A and carotenoids as antioxidants in a physiological context. J Nutr Sci Vitaminol. 1993;39 Suppl:S57-65.
14. Lima de Araújo L, Maciel Barbosa J, Gomes Ribeiro AP, Oliveira dos Santos AC, Pedrosa F. Nutritional status, dietary intake and serum levels of vitamin C upon diagnosis of cancer in children and adolescents. Nutr Hosp. 2012;27(2):496-503.
15. Vollbracht C, Schneider B, Leendert V, Weiss G, Auerbach L, Beuth J. Intravenous vitamin C administration improves quality of life in breast cancer patients during chemo-/radiotherapy and aftercare: results of a retrospective, multicentre, epidemiological cohort study in Germany. In vivo. 2011;25(6):983-90.
16. Melichar B, Krcmová L, Kalábová H, Holecková B, Kasparová M, Plisek J, et al. Serum retinol, alpha tocoferol and systemic inflammatory response in metastatic colorectal carcinoma patients treated with combination chemotherapy and cetuximab. J Nutr Sci Vitaminol. 2010;56(4);222-6.
17. Copetti C, Oliveira VR, Kirinus P. Avaliação da redução de potássio em hortaliças submetidas a diferentes métodos de cocção para possível utilização na dietoterapia renal. Rev Nutr. 2010;23(5):831-8.
18. Linseisen J, Rohrmann S, Miller AB, Bueno-de-Mesquita HB, Buchner FL, Vineis P, et al. Fruit and vegetable consumption and lung cancer risk: Updated information from the European Prospective Investigation into Cancer and Nutrition (EPIC). Int J Cancer. 2007;121(5):1103-14.
19. Byers T, Nestle M, McTiernan A, Doyle C, Currie-Williams A, Gansler T, Thun M; American Cancer Society 2001 Nutrition and Physical Activity Guidelines Advisory Committee. American Cancer Society guidelines on nutrition and physical activity for cancer prevention: reducing the risk of cancer with healthy food choices and physical activity. CA Cancer J Clin. 2002;52(2):92-119.

Corresponding author:

Adriana Garófolo, Escola Paulista de Medicina da Universidade Federal de São Paulo - UNIFESP EPM

Rua Sena Madureira, 1500 - Vila Mariana

04021-001 São Paulo, SP, Brazil

adrigarofolo@hotmail.com

Publication Dates

Publication in this collection
05 June 2013
Date of issue
2013

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Jubelirer SJ. The Benefit of the neutropenic diet: fact or fiction? The Oncologist. 2011;16(5):704-7.

[2] 2. Hanekom SM, Vermeulen EE, W Oldewage-Theron. Food safety risk factors in a hospital food service unit serving low microbial diets to immune-compromised patients. Afr J Food Agric Nutr Dev. 2010;10(9):4000-15.

[3] 3. Galati PC, Lataro RC, Souza VM, Martinis EC, Chiarello PG. Microbiological profile and nutritional quality of raw foods for neutropenic patients under hospital care. Rev Bras Hematol Hemoter. 2013;35(2):94-8.

[4] 4. Zitella LJ, Friese CR, Hauser J, Gobel BH, Woolery M, O'Leary C, et al. Putting evidence into practice: prevention of infection. Clin J Oncol Nurs. 2006;10(6):739-50. Comment in: Clin J Oncol Nurs. 2007;11(2):185-6.

[5] 5. Gardner A, Mattiuzzi G, Faderl S, Borthakur G, Garcia-Manero G, Pierce S, et al. Randomized comparison of cooked and noncooked diets in patients undergoing remission induction therapy for acute myeloid leukemia. J Clin Oncol. 2008;26(35):5684-8.

[6] 6. Trifilio S, Helenowski I, Giel M, Gobel B, Pi J, Greenberg D, et al. Questioning the role of a neutropenic diet following hematopoetic stem cell transplantation. Biol Blood Marrow Transplant. 2012;18(9):1385-90. Comment in: Biol Blood Marrow Transplant. 2012;18(9):1318-9.

[7] 7. Vicenski PP, P Alberti, Amaral DJ. Dietary recommendations for immunosuppressed patients of 17 hematopoietic stem cell transplantation centers in Brazil. Rev Bras Hematol Hemoter. 2012;34(2):86-93.

[8] 8. Halton J, Atkinson AS, Bradley C, Dawson S, Barr RD. Acute lymphoid leukemia. No evidence of consistent chemotherapy-induced intestinal malabsorption. Am J Pediatr Hematol Oncol. 1993;15(3):271-6.

[9] 9. Pettoello-Mantovani M, Guandalini S, di Martino L, Corvino C, Indolfi P, Casale F, et al. Prospective study of lactose absorption during cancer chemotherapy: feasibility of a yogurt-supplemented diet in lactose malabsorbers. J Pediatr Gastroenterol Nutr. 1995;20(2):189-95.

[10] 10. Bow EJ, Loewen R, Cheang MS, Shore TB, Rubinger M, Schacter B. Cytotoxic therapy-induced D-xylose malabsorption and invasive infection during remission induction therapy for acute myeloid leukemia in adults. J Clin Oncol. 1997;15(6):2254-61.

[11] 11. Keefe DM, Cummins AG, Dale BM, Kotasek D, Robb TA, Sage E. Effect of high-dose chemotherapy on intestinal permeability in humans. Clin Sci (Lond). 1997;92(4):385-9.

[12] 12. Fukuzawa K, Ikebata W, Sohmi K. Location, antioxidant and recycling dynamics of tocoferol in liposome membranes. J Nutr Sci Vitaminol (Tokyo). 1993;39(Suppl):S9-22.

[13] 13. Olson JA. Vitamin A and carotenoids as antioxidants in a physiological context. J Nutr Sci Vitaminol. 1993;39 Suppl:S57-65.

[14] 14. Lima de Araújo L, Maciel Barbosa J, Gomes Ribeiro AP, Oliveira dos Santos AC, Pedrosa F. Nutritional status, dietary intake and serum levels of vitamin C upon diagnosis of cancer in children and adolescents. Nutr Hosp. 2012;27(2):496-503.

[15] 15. Vollbracht C, Schneider B, Leendert V, Weiss G, Auerbach L, Beuth J. Intravenous vitamin C administration improves quality of life in breast cancer patients during chemo-/radiotherapy and aftercare: results of a retrospective, multicentre, epidemiological cohort study in Germany. In vivo. 2011;25(6):983-90.

[16] 16. Melichar B, Krcmová L, Kalábová H, Holecková B, Kasparová M, Plisek J, et al. Serum retinol, alpha tocoferol and systemic inflammatory response in metastatic colorectal carcinoma patients treated with combination chemotherapy and cetuximab. J Nutr Sci Vitaminol. 2010;56(4);222-6.

[17] 17. Copetti C, Oliveira VR, Kirinus P. Avaliação da redução de potássio em hortaliças submetidas a diferentes métodos de cocção para possível utilização na dietoterapia renal. Rev Nutr. 2010;23(5):831-8.

[18] 18. Linseisen J, Rohrmann S, Miller AB, Bueno-de-Mesquita HB, Buchner FL, Vineis P, et al. Fruit and vegetable consumption and lung cancer risk: Updated information from the European Prospective Investigation into Cancer and Nutrition (EPIC). Int J Cancer. 2007;121(5):1103-14.

[19] 19. Byers T, Nestle M, McTiernan A, Doyle C, Currie-Williams A, Gansler T, Thun M; American Cancer Society 2001 Nutrition and Physical Activity Guidelines Advisory Committee. American Cancer Society guidelines on nutrition and physical activity for cancer prevention: reducing the risk of cancer with healthy food choices and physical activity. CA Cancer J Clin. 2002;52(2):92-119.