Brachycephalic obstructive airway syndrome (BOAS), also known as brachycephalic airway obstructive syndrome (BAOS), brachycephalic airway syndrome (BAS), and brachycephalic syndrome (BS),[1] is a
pathological condition affecting
short noseddogs and
cats which can lead to severe
respiratory distress. There are four different anatomical abnormalities that contribute to the disease, all of which occur more commonly in brachycephalic breeds: an elongated
soft palate,
stenotic nares, a hypoplastic
trachea, and everted
laryngeal saccules (a condition which occurs secondary to the other abnormalities). Because all of these components make it more difficult to breathe in situations of exercise, stress, or heat, an animal with these abnormalities may be unable to take deep or fast enough breaths to blow off
carbon dioxide. This leads to distress and further increases respiratory rate and heart rate, creating a vicious cycle that can quickly lead to a life-threatening situation.
Brachycephalic dogs have a higher risk of dying during air travel and many
commercial airlines refuse to transport them.[2][3]
Dogs experiencing a crisis situation due to brachycephalic syndrome typically benefit from oxygen, cool temperatures,
sedatives, and in some cases more advanced medical intervention, including
intubation.
Causes and risk factors
This diagram illustrates what the airway structure looks like in a brachycephalic dog; in this case, a Boxer.1. Nasal cavity 2. Oral cavity 3. Soft palate 4. Pharynx 5. Larynx 6. Trachea 7. Esophagus 8. Nasopharynx 9. Hard palateThe brachycephalic dog has a shorter snout which causes the airway to be shorter, that means all the parts that make up the airway get pushed closer together. Due to this phenomenon, a brachycephalic dog has an elongated soft palate which can cause most of the problems with the dog's breathing. They can also have problems getting enough air in because of their elongated soft palate and shorter airway.
Other risk factors for BOAS include a lower craniofacial ratio (shorter muzzle in comparison to the overall head length), a higher neck girth, a higher body condition score, and neuter status.[4]
Recent studies led by the Roslin Institute at the University of Edinburgh's Royal School of Veterinary Studies has found that a DNA mutation in a gene called ADAMTS3 that is not dependent on skull shape is linked to upper airway syndrome in Norwich Terriers and is also common in French and English bulldogs. This is yet another indication that at least some of what is being called brachycephalic airway syndrome is not linked to skull shape and has previously been found to cause fluid retention and swelling [5]
Signs and symptoms
Breeds with less extreme brachycephalia, such as the
Boxer, have less compromised thermoregulation and thus are more tolerant of vigorous exercise and heat.
Symptoms progress with age and typically become severe by 12 months.[6]
Despite observing clinical signs of airway obstructions, some owners of brachycephalic breeds may perceive them as normal for the breed, and may not seek veterinary intervention until a particularly severe attack happens.[7][8]
After waking from surgery, most dogs that are
intubated will try to claw out their
tracheal tube. In contrast, brachycephalic dogs often seem quite happy to leave it in place as it opens the airway, making it easier to breathe.[9]
Secondary conditions
Other conditions may be observed concurrently. These include swollen/everted
laryngeal saccules, which further reduce the airway, collapsed larynx, and
chronic obstructive pulmonary disease caused by the increased lung workload.
Diagnosis
Treatment
Stenotic nares in a Boxer before (left) and after (right) surgery.
Treatment consists of surgery for widening the nostrils, removing the excess tissue of an elongated soft palate, or removing everted laryngeal saccules. Early treatment prevents secondary conditions from developing.
Potential complications include hemorrhages, pain, and inflammation during and after surgery. Some
veterinarians are hesitant to perform soft palate correction surgery. With CO2 surgical lasers, these complications are greatly diminished.[10]
Prevention
Avoiding stress, high temperatures, and overfeeding can reduce the risk. Using harnesses instead of collars can avoid pressure on the
trachea.
The risk of brachycephalic syndrome increases as the muzzle becomes shorter.[4] To avoid producing affected dogs, breeders may choose to breed for more moderate features rather than for extremely short or flat faces. Dogs with breathing difficulties, or at least those serious enough to require surgery, should not be used for breeding.[11] Removing all affected animals from the breeding pool may cause some breeds to be unsustainable and outcrossing to non-brachycephalic breeds might be necessary.[12]
Although
outcrossing can attempt to lengthen the average snout length within a breed over time and reduce BOAS, it is not popular with established
breed registries who record pedigrees of purebred dogs. In 2014, the
Dutch government passed the Animals Act and the Animal Keepers Act, and subsequent enforcement caused the
Dutch Kennel Club (Raad van Beheer) in 2020 to announce they were restricting registrations within 12 dog breeds based on snout length, and encouraging outcrosses to other breeds, while promising that future generations may be eligible for registration as purebreds. This caused concern with the
Fédération Cynologique Internationale (FCI), of which RvB is a member, and with the
American Kennel Club, both of which expressed concerns about governments legislating such matters.[13][14][15]
Other health problems
Exophthalmos in a pug
Non-airway problems associated with brachycephalia may include:
^Poncet CM, Dupre GP, Freiche VG, Estrada MM, Poubanne YA, Bouvy BM (June 2005). "Prevalence of gastrointestinal tract lesions in 73 brachycephalic dogs with upper respiratory syndrome". The Journal of Small Animal Practice. 46 (6): 273–279.
doi:
10.1111/j.1748-5827.2005.tb00320.x.
PMID15971897.