ᰔ Bizzini et al. described the use of a commercial matrixassisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) system as a reliable, fast, and efficient method for the identification (ID) of bacteria and yeasts (1). Among 1,371 isolates identified by conventional methods, 1,037 (75.6%) isolates were identified by MALDI-TOF to either the species or genus level by direct analysis of a colony. A small amount of colony was smeared onto a gridded steel plate, allowed to dry briefly, and overlaid with 1 l of HCCA (␣-cyano-4-hydroxycinnamic acid) matrix before analysis in a Bruker Microflex MS system. For isolates which are not identified by this direct method, Bizzini et al. used an extraction method in which colonies were suspended in water and alcohol and centrifuged and bacterial proteins in the deposit were extracted with formic acid and acetonitrile before analysis (1).We have been using a similar approach in the diagnostic laboratory at the Royal London Hospital, a tertiary referral hospital which serves a population of 2 million people in East London. Here we show that by a minor modification of the direct analysis method, it is possible to increase the number of successfully identified isolates without recourse to the alcohol extraction protocol, which, although simple, significantly increases the processing time.We analyzed 2,020 isolates drawn from a routine diagnostic microbiology laboratory by the recommended direct smear method on a Bruker Microflex MS with the Biotyper software (version 2.0, database 3,740) and automation control. Approximately 42% of these isolates were Gram-negative bacilli, 35% staphylococci, 16% streptococci, 2% Gram-positive bacilli, 2% Gram-negative cocci, and 3% yeasts. Of the 2,020 isolates analyzed directly, 1,784 (88.3%) were acceptably identified to at least the genus level by the direct smear method. We accepted all scores of Ͼ1.7 as a valid identification to the genus level, based on the manufacturer's recommendations and our experience during the initial validation of this technology. The 236 isolates which did not give an acceptable ID (with scores of Ͻ1.7), mainly Gram-positive bacilli, coagulase-negative staphylococci, yeasts, and anaerobes, were then retested, with the additional step of adding 1 l of neat formic acid to the air-dried bacterial spot. This was then allowed to air dry before the addition of the matrix and analyzed in the usual way. This approach yielded a further 220 (10.9%) reliable identifications, leaving only 16 (0.8%) without a reliable ID, and these were then analyzed by alcohol extraction. Seven isolates did not give a satisfactory identification by alcohol extraction; two of these were regarded as being of little clinical significance, and no attempt was made to identify them further. The remaining five isolates were identified as Fusobacterium nucleatum, Prevotella oris, Paenibacillus barengoltzii, Actinomyces lignae, Actinomyces odontolyticus, and Pseudomonas aeruginosa by sequencing 1,250-to 1,300-bp fragments of ...