Rapid and sensitive diagnosis of human adenovirus infections by a generic polymerase chain reaction.

A new adenovirus specific nested polymerase chain reaction (PCR) method is described. It was designed inside the hexon protein gene of the adenovirus genome, and was able to detect DNA of all 47 human adenovirus types in a wide range of clinical samples. A sensitive internal control system able to assure proper analytical conditions for the amplification of as few as 100 molecules of a heterologous DNA was included to avoid false negative results. Sensitivity was estimated at about 10 molecules per tube of a plasmid containing an insert of the first amplification product. The method was able to detect adenovirus infection in 31/43 conjunctival scrapings from patients with acute kerato conjunctivitis 10/40 nasopharyngeal aspirates from patients admitted to hospital with acute respiratory disease and 2/26 urine samples from patients with haemorrhagic cystitis with better sensitivity than cell culture or rapid diagnosis by antigen detection by immunofluorescence (IF) in the case of respiratory specimens. Only two of 17 stools positive for a group F adenovirus specific latex immunoassay were PCR negative. The internal control system avoided a false negative result on another two stool samples. In conclusion, the method described below was shown to be useful for rapid diagnosis of adenovirus infections with higher sensitivity than antigen detection by IF.