Fruit and vegetables are important components of a healthy balanced diet, especially as sources of antioxidants and polyphenols, yet individuals fail to comply with the recommended five portions daily⁽Reference Henderson, Gregory and Irving¹⁾. The demand for ‘smoothies’ has grown from none to >£20×10⁶ over the last 5 years⁽²⁾. Smoothies are potentially a convenient and palatable way of assisting compliance with the recommended ‘5-a-day’ guideline for fruit and vegetable intake. The aim of the present study was to determine whether nutritional components present in fresh fruit are retained during the production of a fruit-based drink and to elucidate whether a home-made fruit-based drink would be a satisfactory substitute for the commercial smoothie drink.

Pear, apple and kiwifruit (Actinidia delicious), along with the corresponding smoothie (v/v; 45% pear, 29.6% apple, 25% kiwifruit) were collected from a manufacturer. The fruits were analysed individually and these values used to calculate the expected nutritional composition of the final smoothie. Additionally, the fruits were also used to make a home-made fruit-based drink following the smoothie manufacturer's recipe, without the addition of ascorbate. The nutritional composition of the home-made smoothie was then compared with the commercial equivalent. The following nutritional components were determined by established methods: vitamin C using the Boehringer Mannheim assay⁽³⁾; antioxidant capacity by the ferric-reducing antioxidant power (FRAP) assay⁽Reference Benzie and Strain⁴⁾ and the oxygen radical absorbance capacity (ORAC) assay⁽Reference Huang, Ou and Hampsch-Woodill⁵⁾; polyphenolic content by the Folin-Ciocalteau⁽Reference Forrest and Bendall⁶⁾method. β-Carotene was measured by extraction into hexane/acetone, absorbance measured and carotene quantified using ε_{450 nm}=138 730 M⁻¹·cm⁻¹. Total sugars were assessed using the d-glucose–fructose–sucrose Boehringer Mannheim assay ⁽³⁾. All assays were carried out in triplicate and statistical analysis was by SPSS (SPSS Inc., Chicago, IL, USA) using an independent t test.

The nutritional composition of pear, apple and kiwifruit extracts and home-made and commercial smoothies are shown in the Table (n 3).

TE, Trolox equivalent; GAE, gallic acid equivalent. Mean values were significantly different from those for home-made:

*** P<0.001. Mean values were significantly different from those for home-made:

††† P<0.001.

Sugars and β-carotene levels for both smoothies were as predicted. The home-made drink had the expected vitamin C content, whilst that of the commercial drink was much higher, reflecting the addition of 4 g ascorbic acid/l. The phenolic content of the commercial smoothie was much higher than expected (P<0.001), which may reflect a greater efficiency of homogenisation in the manufacturing process. The commercial smoothie also contained the highest antioxidant capacity. Thus, smoothies, both home-made and commercial, appear to be beneficial in assisting compliance with the ‘5-a-day’ recommendation.