This paper explores the efficacy of Mel Frequency Cepstral Coefficients (MFCCs) in detecting abnormal phonocardiograms using two classification strategies: a single-classifier and an ensemble-classifier approach. Phonocardiograms were segmented into S1, systole, S2, and diastole intervals, with thirteen MFCCs estimated from each segment, yielding 52 MFCCs per beat. In the single-classifier strategy, the MFCCs from nine consecutive beats were averaged to classify phonocardiograms. Conversely, the ensemble-classifier strategy employed nine classifiers to individually assess beats as normal or abnormal, with the overall classification based on the majority vote. Both methods were tested on a publicly available phonocardiogram database. Results demonstrated that the ensemble-classifier strategy achieved higher accuracy compared to the single-classifier approach, establishing MFCCs as more effective than other features, including time, time-frequency, and statistical features, evaluated in similar studies.