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    Prehabilitation

    December 15, 2022 5 min read

    Prehabilitation refers to the preoperative period and aims to enhance general health and wellbeing prior to major surgery.1 Prehabilitation is commonly applied prior to oncological treatments, including surgery, to fortify functional reserve and enhance functional capacity to prepare patients for the imminent physiological and psychological stress of treatment.2 An individual's state of health at diagnosis, including obesity, physical fitness and comorbidities, are influencing factors for the occurrence of adverse effects.3 It is well known that those patients who are malnourished have greater surgical morbidity and mortality.4

    The key elements of a prehabilitation programme include cardiovascular and strength training, nutritional optimisation and psychological support to prepare patients for the challenges of treatment and to improve post-operative recovery.5 The typical length of prehabilitation programmes are 4–8  weeks in duration. Shorter programmes may be ineffective, while compliance may be a problem with longer programmes.6


    Nutritional Prehabilitation

    The primary goals of nutritional prehabilitation are to optimise nutrition stores and metabolic reserve preoperatively and provide an adequate buffer for the catabolic response of critical illness or surgery.7

    The European Society for Clinical Nutrition and Metabolism (ESPEN) guidelines on surgery state that patients with severe nutritional risk shall receive nutritional therapy prior to major surgery even if operations including those for cancer must be delayed. A period of 7 to 14 days may be appropriate.4 A systematic review of prehabilitation in adults diagnosed with cancer found that the timing of nutritional interventions varied between 5–10 days and 3–6 weeks pre‐operatively.3

    Nutritional prehabilitation can take different forms including nutritional counselling (optimising intake of macro and micronutrients nutrients from dietary sources), oral nutritional supplements (ONS) (including high energy ONS, protein only supplements and immunonutrition) and enteral feeding.8


    Nutritional screening

    Malnutrition has been shown to be a modifiable risk factor associated with post-operative complications, increased levels of mortality, morbidity and length of hospital stay. Therefore, nutritional screening in the prehabilitation period is a key aspect of a prehabilitation programme. Commonly the Malnutrition Universal Screening Tool (MUST) is used to identify those who are malnourished or at risk of malnutrition. However, there is accumulating experience that using MUST in oncological settings does not adequately characterise risk. Therefore, several alternative screening methods are used across cancer centres in the UK. These include those that have been validated for use in people with cancer, such as the patient-generated subjective global assessment short-form (PG-SGA-SF).9 Other examples include the Royal Marsden nutrition screening tool.10 Irrespective of which tool is used, it is important that the same tool is used in all settings for any particular patient, and that it is used from the earliest opportunity to risk stratify and direct care.

    All screening tools take into account weight, Body Mass Index (BMI) and weight change. The PG-SGA-SF and Royal Marsden nutrition screening tool also take into account more specific information about symptoms, and change in appetite/food intake.9,10


    Nutritional assessment

    Those identified as at risk following screening should undergo more formal nutritional assessment. An anthropometric assessment of weight (including weight change), height, and waist circumference are vital components of the comprehensive nutrition assessment. Additionally, body composition assessment has emerged as a crucial component in the evaluation of patients’ nutritional status.11

    In the clinical setting, bioelectrical impedance can provide a useful guide for estimating muscle mass. Unfortunately, not all clinicians have access to the tool for measuring body composition. As such, more readily available techniques can be used to measure muscle strength and function. Muscle strength can be measured using handgrip strength, knee extension/flexion or peak expiratory flow. Muscle function can be measured using gait stand, timed up and go test, or the short physical performance battery.12


    Nutritional intervention

    Prehabilitation interventions can be categorised into universal, targeted and specialist and individuals may need different levels of interventions in different domains of prehabilitation.13 The intervention aims to improve or resolve the nutritional diagnosis.

    • No nutritional risk - healthy lifestyle website/app, healthy eating guidance
    • Moderate risk - personalised dietary advice correct nutritional deficiencies, food fortification plus ONS
    • High risk – One to one input, nutritional diagnoses dictates intervention, artificial nutritional support

    Energy and protein requirements in cancer are defined as 25-30kcal/kg/day and 1.0-1.5g/kg/day, respectively.14 Further consideration about timing of protein intake may need to be taken into account as evidence grows in this field. Depending on the individual’s dietary intake, meeting these increased nutritional requirements may require the use of prescribed ONS.

    In addition to preventing malnutrition and correcting nutrition-identified problems, the nutrition component of a multimodal prehabilitation program should work in synergy with the exercise intervention to support optimal gains in mass, strength, physical fitness, and recovery.11


    Nutritional monitoring

    To evaluate the effectiveness of nutritional intervention, relevant outcomes/indicators need to be measured. The selection of appropriate outcomes/indicators is based on the nutrition diagnosis. For example, intake-related indicators include nutrient adequacy, changes in dietary patterns and compliance to prescribed supplements. Biochemical indicators may also be used alongside dietary intake data.11


    Oral nutritional supplements in prehabilitation

    ONS are commonly used to address malnutrition in those individuals screened as part of the prehabilitation process. Choice of ONS largely depends on the needs of the individual and the level of malnutrition risk. Patient acceptability and subsequent compliance of ONS should also feed into the decision making process of the dietitian. ONS acceptability and compliance can be categorised into 3 domains: contextual/environmental, personal and product related factors. Acceptability of supplements prepared freshly with milk versus ready-to-use ONS has been shown to have a higher preference in patients with cancer.16


    Moving from prehabilitation into rehabilitation

    Prehabilitation is part of a continuum in the rehabilitation pathway. It enables people with cancer to make the most of their lives by maximising the outcomes of their treatment whilst minimising the consequences of treatment including symptoms such as fatigue, breathlessness and lymphoedema. The need for prehabilitation, as part of the rehabilitation pathway, starts at the point of diagnosis helping patients prepare for treatment and discharge home.13

    The costs of delivering prehabilitation per patient varies in each country, with the overall range in the region of £300–400 per patient in the UK. These costs support the screening, assessment and interventions which could be any combination of the following practitioners within the multidisciplinary team: anaesthesiologists, clinical psychologists, dietitians, exercise physiologists, fitness professionals, gastroenterologists, geriatricians, kinesiologists, nurses, occupational therapists, oncologists, physicians, physiotherapists, support workers and surgeons.17


    Summary

    In order to support the growing number of people living with cancer, effective prehabilitation and rehabilitation programmes can help to support improving outcomes. Providing either universal, targeted or specialist input as part of prehabilitation programmes has been shown to improve functional outcomes, improve health related quality of life and reduce length of stay and surgical complication rates. Dietitians can play an important role in multi-modal prehabilitation programmes.

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    References:
    1. Durrand J et al. Prehabilitation. Clin Med (Lond). 2019 Nov;19(6):458-464. doi: 10.7861/clinmed.2019-0257. PMID: 31732585; PMCID: PMC6899232.
    2. Carli F et al.. Surgical prehabilitation in patients with cancer: state-of-the-science and recommendations for future research from a panel of subject matter experts. Phys Med Rehabil Clin North Am. (2017) 28:49–64. 10.1016/j.pmr.2016.09.002
    3. Faithfull, S et al. Prehabilitation for adults diagnosed with cancer: A systematic review of long-term physical function, nutrition and patient-reported outcomes. Eur J Cancer Care. 2019; 28:e13023. https://doi.org/10.1111/ecc.13023.
    4. Weimann A et al. ESPEN practical guideline: Clinical nutrition in surgery. Clin Nutr. 2021 Jul;40(7):4745-4761. doi: 10.1016/j.clnu.2021.03.031. Epub 2021 Apr 19. PMID: 34242915.
    5. Carli F et al. Promoting a culture of prehabilitation for the surgical cancer patient. Acta Oncol. 2017;56(2):128–33.
    6. Pele Banugo, MBBS BSc FCAI, Derek Amoako, MBChB FRCA, Prehabilitation, BJA Education, Volume 17, Issue 12, December 2017, Pages 401–405, https://doi.org/10.1093/bjaed/mkx032.
    7. West MA et al. Prehabilitation and Nutritional Support to Improve Perioperative Outcomes. Curr Anesthesiol Rep. 2017;7(4):340-349. doi: 10.1007/s40140-017-0245-2. Epub 2017 Nov 7. PMID: 29200973; PMCID: PMC5696441.
    8. Linda A Cantwell, Emer Fahy, Emily R Walters et al. Nutritional prehabilitation in head and neck cancer: A systematic review, 17 May 2022, PREPRINT (Version 1) available at Research Square [https://doi.org/10.21203/rs.3.rs-1471154/v1]
    9. Burden, ST et al. Nutritional screening in a cancer prehabilitation programme: A cohort study. J Hum Nutr Diet. 2022; 1– 11.https://doi.org/10.1111/jhn.130572.
    10. Shaw C et al. Comparison of a novel, simple nutrition screening tool for adult oncology inpatients and the Malnutrition Screening Tool (MST) against the Patient-Generated Subjective Global Assessment (PG-SGA). Support Care Cancer. 2015 Jan;23(1):47-54. doi: 10.1007/s00520-014-2319-8. Epub 2014 Jun 20. PMID: 24947056.
    11. Gillis Cet al. (2021) Nutrition Care Process Model Approach to Surgical Prehabilitation in Oncology. Front. Nutr. 8:644706. doi: 10.3389/fnut.2021.644706
    12. Prado CM and Heymsfield SB. Lean tissue imaging: a new era for nutritional assessment and intervention. JPEN J Parenter Enteral Nutr. (2014) 38:940-53. doi: 10.1177/0148607114550189
    13. BMacmillan Cancer Support (2019) Principles and guidance for prehabilitation within the management and support of people with cancer. Available from https://cdn.macmillan.org.uk/dfsmedia/1a6f23537f7f4519bb0cf14c45b2a629/1532-10061/prehabilitation-for-people-with-cancer-tcm9-353994. Accessed November 2022.
    14. Prado CM et al. Nutrition interventions to treat low muscle mass in cancer. J Cachexia Sarcopenia Muscle. 2020 Apr;11(2):366-380. doi: 10.1002/jcsm.12525. Epub 2020 Jan 8. PMID: 31916411; PMCID: PMC7113510.
    15. Lester S et al. Factors Affecting Adherence, Intake, and Perceived Palatability of Oral Nutritional Supplements: A Literature Review. J Nutr Health Aging. 2022;26(7):663-674. doi: 10.1007/s12603-022-1819-3. PMID: 35842756.
    16. Rahemtulla Z et al. The palatability of milk-based and non-milk-based nutritional supplements in gastrointestinal cancer and the effect of chemotherapy. Clin Nutr. 2005 Dec;24(6):1029-37. doi: 10.1016/j.clnu.2005.08.003. Epub 2005 Sep 26. PMID: 16185789.
    17. Davis, J.F et al. From Theory to Practice: An International Approach to Establishing Prehabilitation Programmes. Curr Anesthesiol Rep 12, 129–137 (2022). https://doi.org/10.1007/s40140-022-00516-2