Complications in Canine Cranial Cruciate Ligament Surgery. Ron Ben-Amotz

Complications in Canine Cranial Cruciate Ligament Surgery - Ron Ben-Amotz


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of them I am nothing. My hope is that as my daughter grows older, she understands the work ethic I have tried to instill in her and recognizes the commitment that I have put forth in the veterinary industry. I hope she takes these things to become a successful woman who is able to critically think for herself and is always striving to make the world a better place. For Brooke, who has been with me since day one; she is my rock, best friend, and partner. There is no way I would have survived veterinary school, internship, residency, private practice, performing research, and teaching without her. She has “held the fort” for all the years of me working late at night, traveling, and working through the weekends. For this I owe her a debt of gratitude. In addition, a special thank you to my parents, Don and Vickie, who instilled in me to be the best I can be in whatever I do. While hard at times, I was taught the value of hard work and a strong worth ethic. The principles, values, and morals they taught me set me up to succeed not only as a veterinarian but also as a human.

      Finally, no veterinarian would be able to do what we do without our patients and their owners. Recognizing the bond that animals bring to our lives helps inspire all veterinary professionals to do our best. Animals bring out the best in all of us and we certainly don't deserve them, so being able to help them in a time of need is one of the most humbling and wonderful experiences.

       David L. Dycus

      Disclosures

       Matthew D. Barnhart is a paid lecturer for Securos and Everost (Steris) and receives royalties from the sales of some of their products.

       Matt Corse is a paid consultant for Arthrex Vet Systems.

       David L. Dycus is a paid lecturer for Veterinary Orthopedic Implants.

       Ian G. Holsworth is a paid consultant and receives royalties from IMEX Veterinary Inc., Veterinary Instrumentation~Covetrus, Sontec Instruments, VetSurg Surgical instrumentation, and Arthrex Vet Systems.

Section I Introduction

      David L. Dycus, Jeffery Biskup, Michael G. Conzemius and Ron Ben‐Amotz

      The cranial cruciate ligament (CCL) is a robust intraarticular, yet extrasynovial structure responsible for preventing stifle hyperextension, excessive internal rotation, and cranial subluxation of the tibia in relation to the femur. It originates from the caudomedial aspect of the lateral femoral condyle, and travels in a craniomedial direction to insert on the cranial intercondyloid region of the tibia [1]. It is composed of two distinct bands: the craniomedial and caudolateral portions. During stifle extension, both the craniomedial and caudolateral bands are taut, while during flexion the craniomedial band remains taut while the caudolateral band becomes lax [2].

      Cranial cruciate ligament disease is considered to be the most common cause of pelvic limb lameness in the canine, affecting approximately 2.55% of the population [3, 4]. It is a broad term that encompasses a variety of different pathological disorders that may affect the ligament. For example, in skeletally immature canines, avulsion of the CCL may occur secondary to a traumatic event. In the skeletally mature canine, traumatic rupture occurs less commonly, although it may still be induced by forced hyperextension with internal tibial rotation [5]. The most likely etiology for rupture of the CCL in mature dogs is progressive degeneration of the ligament. This degenerative process likely explains the high incidence of bilateral and contralateral CCL pathology. Contralateral CCL pathology has been documented in over 50% of canines [6]. Complicating the matter is the fact that the exact cause of degeneration is poorly understood. Various factors have been investigated in the etiology and pathogenesis of CCL degeneration. Tibial plateau angle [7], genetics, age, bony confirmation, body weight, gait, and vascularity of the ligament [8–10] have all been identified as risk factors for CCL rupture. To date, none of these factors has proved definitive and as such, the degeneration of the CCL is considered multifactorial.

      Along with altered weight bearing and joint flexion/extension, there is also evidence to suggest that the CCL‐deficient stifle exhibits increased cranial subluxation of the tibia in relation to the femur. Up to 8–12 mm of subluxation has been noted during the stance phase of the gait [14].

      Long‐term changes have been evaluated in the canine following CCL transection. Following initial transection of the CCL, there was 10 mm more tibial subluxation compared to patients with an intact CCL. Two months following transection, tibial subluxation was noted only during the stance phase and not during the late swing/early stance phase (paw strike). Two years following transection, 5 mm of tibial thrust was noted at the end of the swing phase. It was suggested that the reason for these changes was the presence of an intact medial meniscus. It was theorized that in the CCL‐deficient stifle, the meniscus minimizes tibial subluxation by elastically deforming during tibial subluxation and aiding in reduction of the subluxation once the swing phase begins (alternatively, as the load from the stance phase is removed) [15]. Interestingly, tibial subluxation as the result of instability has been called into question as it demonstrated that instability following CCL rupture is actually a caudal slippage of the femur at the beginning of the stance phase. As such, documented continuation of instability in some stifles exists following common osteotomy procedures such as the tibial plateau leveling osteotomy (TPLO) and tibial tuberosity advancement (TTA) [16].


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