The laryngeal functions are to regulate airflow, voice production, and prevent inhalation of food.
The laryngeal functions are to regulate airflow, voice production, and prevent inhalation of food. If the intrinsic muscles and/or the nerve supply of the larynx are not normal laryngeal functions are compromised.
The dorsal cricoarytenoide muscle abducts the arytenoid cartilages at each inspiration. The laryngeal recurrent nerve innervates this muscle. Central lesions or lesions to the laryngeal recurrent nerve or to the dorsal cricoarytenoide muscle result in laryngeal paralysis in dogs and cats. Laryngeal paralysis can be unilateral or bilateral.
Congenital and acquired forms of laryngeal paralysis have been recognized in dogs and cats.
Congenital laryngeal paralysis
Congenital laryngeal paralysis has been reported in Bouvier des Flandres, bull terrier, Dalmatian, Rottweiller and Huskies. Bouvier des Flandres and bull terrier have mostly been reported from Europe while the Dalmatian and Huskies from United States. Laryngeal paralysis has a hereditary transmission in Bouvier des Flandres with an autosomal dominant trait. Dogs with congenital laryngeal paralysis are clinical at an early age (before one year old) than dogs with acquired laryngeal paralysis. Usually dogs with congenital laryngeal paralysis have several neurological deficits like ataxia.
Acquired laryngeal paralysis
Acquired laryngeal paralysis is most commonly reported in Labrador retriever, Golden retriever, St Bernard and Irish Setter at an age of 9 years old. It has been reported in cats. Acquired laryngeal paralysis is more frequently idiopathic; however, other causes should be ruled out. Several diseases and conditions may contribute to laryngeal paralysis. A cranial mediastinal or neck mass stretching or compressing the laryngeal recurrent nerves can induce a laryngeal paralysis. Trauma to the laryngeal recurrent nerve during dogfights or during surgery in the neck can cause of laryngeal paralysis. Laryngeal paralysis in the cat has been diagnosed after bilateral thyroidectomy. Finally, a ployneuropathy involving the laryngeal recurrent nerve is the most common cause of laryngeal paralysis. The polyneuropathy can be due to an endocrine insufficiency (hypthyroidism) . However most of the time a diagnosis of idiopathic polyneuropathy is made because no causes can be identified. A myopathy involving the intrinsic muscle of the larynx.
The presenting signs are similar for the congenital and acquired forms. Progression of signs is often slow; months to years may pass before an animal develops severe respiratory distress. Early signs include change in voice, followed by gagging and coughing, especially during eating or drinking. Endurance decreases and laryngeal stridor (especially inspiratory) increases as the airway occlusion worsens. Episodes of severe difficulty breathing, cyanosis, or syncope occur in severely affected patients. Male dogs are approximately three times more affected than female. Laryngeal paralysis can be accompanied with various degrees of dysphagia, which significantly enhances the probability of aspiration pneumonia after surgical correction of the laryngeal paralysis.
The physical examination of dogs with laryngeal paralysis is fairly unremarkable. Dogs have a difficulty breathing on inspiration that is not alleviated with open mouth breathing. Mild lateral compression of the larynx significantly increases inspiratory effort. Referred upper airway sounds are present during auscultation of the thoracic cavity. Auscultation of the thoracic cavity and the lung field may reveal the presence of pneumonia in the cranial lung lobe due to aspiration. Palpation of the muscle mass may reveal skeletal muscle atrophy in cases of polyneuropathy. The tibial cranial muscle is very commonly atrophied in dogs with endocrine polyneuropathy. A complete neurological examination is required to evaluate the animal for a polyneuropathy.
Complete blood count and chemistry profile are usually within normal limits. Hypercholesterolemia, hyperlipidemia, and augmentation of liver enzymes activity are present on the chemistry profile for dogs with hypothyroidism. A thyroid profile with endogenous TSH and free T4 is then required to further define the diagnosis. Laryngeal paralysis has inconsistent correlation with hypothyroidism.
It is necessary to perform a radiographic examination of the thoracic cavity for the evaluation of the lung parenchyma and the esophagus. Aspiration pneumonia is common finding pre-operatively in dogs with laryngeal paralysis. If aspiration pneumonia is present the surgical intervention should be delayed until the aspiration pneumonia resolved. Pulmonary edema is not uncommon in dogs with an acute exacerbation of their clinical signs. Pulmonary edema needs to be treated aggressively and the surgery for the laryngeal paralysis does not need to be delayed. Megaesophagus might be present in dogs with laryngeal paralysis especially if the paralysis is due to polyneuropathy or polymyopathy. Megaesophagus places the animal at more risk for aspiration pneumonia after surgery. Radiographic examination of the larynx is unremarkable.
A laryngeal examination under general anesthesia is required for the diagnosis of laryngeal paralysis. A light plane of anesthesia is required to be able to evaluate the laryngeal function during each inspiration. Thiopental or propofol is used intravenously as needed for the anesthesia. The animal should be anesthetized to the point at which the mouth can be opened easily and a laryngeal reflex is still present. If the animal is too deeply anesthetized the larynx looks paralyzed even in the normal animal. If the plane is too deep it is important to let the animal approach consciousness and examine the laryngeal function during this time. During the laryngeal examination, motion of the arytenoid cartilage is observed during inspiration. Dopram intravenously can be used to stimulate the central respiratory center and have a better laryngeal examination. The animal should be placed in sternal recumbency and the head elevated to the level that it is normally carried. In the normal animal the vocal fold and the arytenoids should abduct during inspiration and passively relax during expiration. The arytenoid cartilages and the vocal cords are immobile and drawn toward midline during inspiration if the animal has laryngeal paralysis. If the paralysis is unilateral only one cartilage is not moving. Edema and erythema of the mucosa of the arytenoid cartilages is present on the dorsal part of the larynx and appear to be due to repeat trauma of the arytenoid touching each other at each inspiration. Paradoxical motion of the arytenoid can be present and makes the diagnosis more difficult. With paradoxical motion the arytenoid cartilages are sucked in the airway during inspiration and are moving back to a normal position during expiration. This gives the impression the patient does not have laryngeal paralysis.
Medical treatment is reserved for the emergency treatment while the surgical treatment is for the long term treatment of the condition. Surgery will improve the quality of life of the patient.
Medical treatment: emergency treatment
Animals are usually presented with acute cyanosis or collapse as a result of upper airway obstruction. Most animals in a cyanotic crisis precipitated by upper airway obstruction recover initially with medical therapy. Excitement or increase in the ambient temperature can trigger an acute onset of inspiratory dyspnea. Excitement or increase in the ambient temperature increases the respiratory rate, which results in trauma to the mucosa of the arytenoid cartilage. Inflammation and acute swelling of the mucosa of the arytenoid cartilages can exacerbate the chronic airway obstruction and induce an acute onset of inspiratory dyspnea. A vicious circle is then initiated.
Corticosteroids are given intravenously (dexamethasone, 0.2 to 1.0 mg/kg BID) to reduce laryngeal inflammation and edema. At the same time, oxygen is administered by mask or oxygen cage to alleviate hypoxia. Hyperventilating hyperthermic animals (temperature > 1050 F) must be cooled. Sedation with acepromazine intravenously is indicated (0.1 mg/kg with a maximum dose of 3 mg) if the animal is still stressed. Fluid therapy is administered with caution, because some animals with severe upper respiratory tract obstruction develop pulmonary edema. Diuretics are indicated in these patients. If the patient condition is deteriorating, an emergency tracheostomy is recommended to bypass the upper airway. Temporary tracheostotomy increases the risk of complication nine time in the post-operative period.
Laryngeal surgery is directed at removing or repositioning laryngeal cartilages that obstruct the rima glottidis. The surgical procedures commonly used to correct laryngeal paralysis are a unilateral arytenoid cartilage lateralization, aventricular cordectomy and partial arytenoidectomy via the oral or ventral laryngotomy approach, and a permanent tracheostomy. Arytenoid cartilage lateralization is getting the gold standard technique.
Arytenoid cartilage lateralization
This procedure has been used successfully to treat laryngeal paralysis in cats and dogs. Arytenoid lateralization has been performed bilaterally or unilaterally. Unilateral arytenoid lateralization is sufficient to reduce clinical signs of laryngeal paralysis. A unilateral lateralization can be performed through a ventral or a lateral incision. It is our preference to perform lateralization through a lateral incision.
The animal is positioned in lateral recumbency for a unilateral lateralization, and a skin incision is made over the larynx just ventral to the jugular groove. The sternohyoid muscle is retracted ventrally to expose the lateral aspect of the thyroid and cricoid cartilages. The larynx is rotated to expose the thyropharyngeal muscle, which is transected at the dorsocaudal edge of the thyroid cartilage. The wing of the thyroid cartilage is retracted laterally. The dorsal cricoarytenoide muscle or the fibrous tissue left is dissected and transected. The joint capsule of cricoarytenoid articulation is partially opened with Metzembaum scissors. The opening oft joint capsule should be minimal to prevent excessive abduction while tightening the suture. The sesamoid band connecting the arytenoid cartilages dorsally is left intact.
The arytenoid cartilage is sutured to the caudo-dorsal part of the cricoid cartilage. This provides an adequate laryngeal airway with only a unilateral tieback. Placement of the suture on the caudo-dorsal part of the cricoid provides a physiologic position of the suture. One 2-0 non-absorbable suture is placed in a simple interrupted suture pattern from the muscular process of the arytenoid cartilage to the caudo-dorsal edge of the cricoid cartilage and tightened to maintain the arytenoid in position. The amount of tension on the suture should be limited to avoid to over abduct the arytenoids cartilage. In cats, it is recommended to use small suture material 3-0 or 4-0 mounted on a pledget to prevent tearing through the cartilage. The arytenoid cartilage does not need to be displaced caudally. It is the authors' impression that the arytenoid cartilage needs only to be maintained in position and stabilized at inspiration. The wound is closed by suturing the thyropharyngeal muscle and routinely closing the subcutaneous tissue and skin.
At the time of extubation it is important to observe per os the size of the laryngeal opening achieved to ensure that adequate abduction of the laryngeal cartilages has been obtained. Excessive abduction may lead to aspiration of food or fluid.
Complications associated with laryngeal lateralization include aspiration pneumonia, persistent cough exacerbated after drinking, seroma, and breaking of the suture and fragmentation of the arytenoid cartilage. Breaking of the suture and fragmentation of the cartilage induce recurrence of the clinical signs of laryngeal paralysis. Laryngeal lateralization should then be performed on the other side. If the procedure has been performed bilaterally a partial laryngectomy needs to be performed. Seroma formation is very common and is self-limited. Aspiration pneumonia is present in 10 to 20% of the cases. Dogs are at risk for aspiration pneumonia during the rest of their life. The incidence of aspiration pneumonia is more common in bilateral laryngeal lateralization compared to unilateral. In a study, 42% of the dogs with bilateral lateralization experienced an episode of aspiration pneumonia. Metoclopramide peri-operatively can be used to try to reduce the incidence of regurgitation and aspiration pneumonia in the peri-operative period. Limited utilization of opiod is also recommended to allow sternal recumbency as soon as possible after surgery. A local skin block with bupivacaine might be valuable to control pain post-operatively and minimize the utilization of opioids. Water and food should be completely withdrawn after surgery for 24 hours. Two or three meatballs should be delivered 24 hours after surgery under constant direct supervision. If the animal can handle meatballs with aspirating, ice cube and then water can be delivered. The animal should be closely watched for the next 2 weeks. The animal is at risk for aspiration pneumonia for its entire life after surgery. The quality of life of the dogs is significantly improved in the long term.
Permanent tracheostomy is a surgical option for the treatment of dogs with laryngeal paralysis. The permanent tracheostomy bypasses the upper airway obstruction without inducing any modification in the size of the rima glottidis. This surgical technique is therefore more valuable for dogs at high risk of aspiration pneumonia (myopathy, megaesophagus, hiatal hernia, gastrointestinal disorder). Animals responded well to the treatment and owners were satisfied. Permanent tracheostomy requires attention and maintenance from the owners.