Epidemiology of Cruciate Ligament Rupture 111Table 14.1 Potential risk factors for cruciate ligament rupture in dogs based on current evidence.Category Potential risk factorsAge 4–8 years
Reproductive status Neutered (before 1 year may increase further)
Breed Newfoundland
Rottweiler
Labrador Retriever
Bulldog
Boxer
Chow Chow
American Staffordshire Terrier
Weight >22 kg
Body condition Overweight or obese
Intended function Unknown
Stifle anatomy Narrow intercondylar notch
Excessive tibial plateau angle (degree varies among
reports,> 28 ◦,> 32 ◦,> 35 ◦)
Relatively small proximal tibial craniocaudal width
Cranial angulation of the proximal tibia
Distal femoral torsionSchwandtet al. 2006; Guerreroet al. 2007; Cabr-
eraet al. 2008; Inauenet al. 2009; Ragetlyet al.
2011; Fulleret al. 2014b; Hayneset al. 2015).
Anatomic factors that are associated with a pre-
disposition to CR include a narrow intercondy-
lar notch, excessive or pathologic (i.e., outside
the 95% confidence intervals for the population)
tibial plateau angle, a relatively small proxi-
mal tibial width, cranial angulation of the proxi-
mal tibia, and distal femoral torsion (Table 14.1).
While a great number of studies have focused
on the effects of tibial plateau angle and patellar
tendon angle, no study has definitively shown
either of these as significant risk factors for CR
in dogs. Theories andex vivoresearch have
suggested that increased CrCL strain and an
increased shear component of total joint force
when each of these angles is considered high
based on reference ranges in dogs (Warzee
et al. 2001; Reif & Probst 2003; Kowaleskiet al.
2005; Shahar & Milgram 2006; Apeltet al. 2007;
Duerret al. 2007; Kimet al. 2008; Kipferet al.
2008; Hayneset al. 2015). One study reported
that a multiple logistic regression model using
the combination of tibial plateau angle and
femoral anteversion angle was able to discrim-
inate between case and control limbs with an
area under the ROC curve of 96% (Ragetly
et al. 2011). This suggested that a multivariate
approach may provide further insight into the
effect of tibial morphology as a risk factor. Other
studies have reported no significant effect of
proximal tibial morphology on the risk of CrCL
rupture (Wilkeet al. 2002; Reif & Probst 2003;
Guastellaet al. 2008; Fulleret al. 2014a). The
wide spectrum of results supporting or negat-
ing the effect of conformational variables on
the risk of CR provides further support for the
overall complexity of the condition. While bony
conformation may contribute to CR in some
way, there remains no definitive evidence that
it is a primary causal factor.Bilateral CrCL rupture
Perhaps one of the greatest risk factors for
developing a CR is having already been diag-
nosed with the condition. The incidence of
bilateral ruptures diagnosed on initial clinical
presentation is in the range of 11% to 17% (de
Bruinet al. 2007; Cabreraet al. 2008; Buoteet al.
2009). The incidence of contralateral rupture
after initial diagnosis is between 22% and
54% (de Bruinet al. 2007; Cabreraet al. 2008;
Buoteet al. 2009; Griersonet al. 2011; Fuller