It is a commonly held belief that drug residues may affect the integrity of DNA and/or interfere with DNA analysis, and therefore DNA on drug paraphernalia and the associated drugs may be overlooked as a source of evidence. This study investigated whether DNA could be isolated from a drug residue-bearing surface to ascertain whether a forensically useful DNA profile could be obtained. Human blood and pre-extracted “naked” DNA were deposited on samples of acetaminophen, codeine, morphine, oxycodone, ketamine, and synthetic cannabinoids and left for an hour before DNA extraction using DNA-IQ™. To investigate DNA integrity, the absolute amount of DNA recovered, degradation index, and number of PCR cycles required for the IPC to reach threshold (Ct), number of reportable alleles and average peak height (APH) in the DNA profile, were examined. The samples were also qualitatively analysed using LC:MS to determine if any residual drugs were present in the samples post-DNA extraction. Overall, the drugs had no to minimal degradation or inhibitory effects on the DNA with sufficient DNA recovered to generate a partial or full DNA profile in 80% of naked DNA samples and 100 % of blood samples. The amount of DNA collected was sufficient for further analysis in 86% of naked DNA samples, and 100% of blood samples, with all median APH values being over the 175 RFU standard. Chemical analysis showed that traces of the drug were still present in the samples after DNA extraction was performed. Therefore, this study demonstrates forensically useful DNA can be recovered from surfaces bearing drug residues, even when sampling directly from the samples of drugs.