The seahorse receives mild sedation prior to receiving treatment.
Louie the seahorse is back home in his 45-gallon saltwater tank and doing swimmingly, thanks to innovative treatment at the UF College of Veterinary Medicine for a potentially fatal illness.
Carol Benge brought Louie — a captive-bred Hippocampus erectus, or lined seahorse — to Gainesville from her home in Chiefland in October after noticing he was swimming abnormally and had small, pearl-like bubbles on his tail.
“He likes to hitch on the protein skimmer that is near the top of his tank,” she said. But Louie swam horizontally or floated upside down when he wasn’t hitched.
“I realized that I had not seen him swimming for two or three weeks,’’ she said. “When I agitated him to get him to move, I saw the small bubbles on his tail. I felt that I had failed him. That began the journey to UF.”
Louie received a full physical examination from a team of veterinary specialists at UF’s Small Animal Hospital, who noticed that he had several prominent bulges along his tail tip.
Louie was briefly sedated, enabling veterinarians to weigh him and obtain a skin scrape to look for parasites, bacteria of fungus. The team aspirated the tail bumps with a small needle to confirm that they contained air and not something else like fluid, tissue or infectious material and to decrease the large number of air bubbles present.
“This was both diagnostic and therapeutic, as it helped Louie maintain a better body position in the water afterward,” said Tatiana Weisbrod, D.V.M., a first-year resident with the hospital’s aquatic animal medicine program.
The UF Small Animal Hospital’s hyperbaric chamber, in which Louie the seahorse was treated.
The team diagnosed Louie with gas bubble disease, which is similar to the bends in human scuba divers. While still under sedation, he received two injections of medication and was then moved into a glass vessel with clean water that Benge brought from his home tank to recover.
Louie was about to become a pioneer at UF.
The glass vessel was placed inside the hospital’s oxygen-based hyperbaric chamber, the first time UF has used it to treat an aquatic species. The door was secured shut, and veterinary team members watched Louie throughout his treatment through porthole windows in the chamber, which was slowly pressurized until the target pressure was reached.
The treatment lasted about three and a half hours, and Louie came through it like a champ.
“He tolerated his treatment very well,” Weisbrod said proudly.
Although Weisbrod has used aquatic hyperbaric systems to treat gas bubble disease in other species of fish, UF did not have such a system. What it did have was the oxygen-based chamber used routinely by the hospital’s integrative medicine service for wound care and other conditions in small animals.
“Hyperbaric treatment has mostly been used in aquatic medicine for treating barotrauma in fish brought up from deep waters during events like collection dives rather than explicitly for treatment of gas bubble disease in privately owned fishes,” Weisbrod said. “Based on my discussions with other aquatic vets, our integrative team and a lot of research, I felt comfortable offering this as a treatment option to Louie’s owner.”
Louie the seahorse at home in his tank.
The theory behind using hyperbaric treatment for this disease is based on the literature for treating decompression sickness in humans. The team used a protocol devised from U.S. Navy hyperbaric treatment tables aimed at maximizing bubble size reduction while minimizing treatment duration and other risks.
“Pressure and time are used to shrink the volume and diameter of gas bubbles in the tissue and allow them to resorb into the animal,” Weisbrod said. “Then, the pressure is released in a slow, controlled manner to allow sufficient time for degassing without bubble re-formation.”
Gas bubble disease is common in aquariums. Syngnathids, the family of fish that seahorses belong to, are particularly vulnerable to the illness, although veterinarians don’t know why and a definitive cause of the disease has not been determined.
The UF veterinary team hopes their successful experience treating Louie could benefit aquariums that might not have access to aquatic hyperbaric chambers, as oxygen-based chambers are more widely available.
“Very little is published on successful treatment for this important disease, so every small success could lead to improved outcomes,” Weisbrod said. “Hyperbaric treatment is an emerging medical modality within the field of aquatic animal medicine and certainly deserves further consideration and refinement to optimize its use for the treatment of gas bubble disease.”
