Recent studies have shown that neutering can have an adverse effect on the health of a dog. To further delve into this new information, a team of researchers at UC Davis recently examined the veterinary records of 759 Golden Retrievers for hip dysplasia, cranial cruciate ligament tear, lymphosarcoma, hemangiosarcoma and mast cell tumor. The dogs were grouped as intact, neutered before 12 months of age or neutered after 12 months of age.
The study, which is to be published today, revealed that the disease rates were significantly higher in both males and females that were neutered both before and after 12 months of age. Early neutering was associated with an increased incidence of hip dysplasia, cranial cruciate ligament tear and lymphosarcoma in males and of cranial cruciate ligament tear in females. Neutering after 12 months of age was associated with an increased risk of mast cell tumors and hemangiosarcoma in females.
The most notable results from this study include a doubled risk of hip dysplasia among males neutered before 12 months of age and the increased risk of mast cell tumors and hemangiosarcoma in dogs neutered after 12 months. Previous studies reported only a 17% increase in risk of hip dysplasia in neutered dogs and this is the first study to report an increased risk of cancer in dogs neutered late.
Of the five diseases measured, the study reported that:
- There were no cases of cranial cruciate ligament rupture diagnosed in intact males or females, but in early-neutered males and females the occurrences were 5% and 8%, respectively
- Almost 10% of early-neutered males were diagnosed with lymphosarcoma, 3 times more than intact males
- The percentage of hemangiosarcoma cases in late-neutered females (about 8%) was 4 times more than intact and early-neutered females
- There were no cases of mast cell timor in intact females, but the occurrence was nearly 6% in late-neutered females
- Of early-neutered males, 10% were diagnosed with hip dysplasia, double the occurrence in intact males.
The study was released today in PLOS ONE