Thermal resistance of certain oncogenic viruses suspended in milk and milk products.
- 1 September 1971
- journal article
- Vol. 22 (3) , 315-20
Abstract
Thermal destruction rate curves were determined for adenovirus 12, reovirus 1, and herpes simplex virus in sterile milk, raw milk, raw chocolate milk, and raw ice cream mix. At 40 to 60 C, the curves were asymptotic to the base line. At 65 C, which is near the pasteurization standard, the curves approached a first-order reaction. Thermal resistance studies, by means of in vivo assays, of Moloney and Rauscher leukemia viruses and Moloney and Rous sarcoma viruses indicated that Rous sarcoma was the most resistant. A comparison of the 12D processes of Rous sarcoma virus, reovirus 1, adenovirus 12, and herpes simplex virus in ice cream mix (the most protective of the suspending menstrua studied) with the U.S. Public Health Service pasteurization standard indicated an adequate safety factor in current pasteurization practices.This publication has 18 references indexed in Scilit:
- Feline Leukemia Virus: Purification From Tissue Culture Fluids2JNCI Journal of the National Cancer Institute, 1970
- Recovery of Rauscher leukemia virus from large volumes of seeded cow's milk and from infected murine spleens.1970
- Virus-Like Particles in Phytohemagglutinin-Stimulated Lymphocyte Cultures With Reference to Bovine Lymphosarcoma2JNCI Journal of the National Cancer Institute, 1969
- Two-phase slug flow heat exchanger for microbial thermal inactivation research.1969
- Studies on bovine lymphosarcoma: Formation of syncytia and detection of virus particles in mixed-cell culturesInternational Journal of Cancer, 1969
- Isolation, immunodiffusion, immunofluorescence, and electron microscopy of a syncytial virus of lymphosarcomatous and apparently normal cattle.1969
- Aberrant characteristics and virus-like particles of bovine mammary cell cultures.1969
- Method for Recovery of Viruses from Milk and Milk ProductsJournal of Dairy Science, 1968
- Differences between the thermal inactivation of picornaviruses at “high” and “low” temperaturesVirology, 1967
- Heat inactivation of Rous sarcoma virusVirology, 1961