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Avian Emergency Medicine

Authors: Florina S. Tseng, Gretchen Kaufman, DVM

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1. Learning Objectives

Be able to recognize the important avian emergencies presented in this section
Be familiar with the treatment for shock in birds
Be able to recognize the need for and recommend a plan for a blood transfusion in a bird

2. Initial Examination

2.1. Initial procedures

Telephone communication
Prepare for arrival
Visual evaluation
History
Triage
Pre-oxygenation if needed
Physical examination may have to be performed in stages

2.2. Preliminary Assessment Guidelines

Attitude or degree of depression
Hydration status

Nutritional status
Presence or absence of anemia
Presence of shock
Infectious disease potential
Preliminary evaluation of the body systems

3. Basic Diagnostic Tests

3.1. Essential information

Packed cell volume and total serum solids evaluation
Blood sugar determination
Blood smear - examination of cell morphology and differential distribution
Radiographs
Fecal gram stain
Microbiologic samples

Test Value vs. Stress

4. Basic Emergency Treatment and Supportive Care

4.1. Cardiopulmonary resuscitation

Establish airway - endotracheal tube, air sac cannula (upper airway obstruction)
Positive pressure ventilation
- 10-12 breaths/min
- < 15-20 mm H₂0
Set up ECG, Doppler (if possible)
Closed chest compressions, utilizing thoracic ump mechanism (rapid rate)
Monitor body temperature

Emergency Drugs for Avian CPR
Epinephrine(1:1000)	0.1 mg/kg IT, IV, IC, IO
Atropine	0.004 - 0.04 mg/kg	for vagally mediated arrest
Doxapram	5 - 10 mg/kg given once IM, IV, SQ

from Seminars in Avian and Exotic Pet Medicine, Vol 13, No 2 (July), 2004

4.2. Air sac cannulation

Air sac cannula in an African Grey

Radiograph showing placement of an air sac cannula

4.3. Treatment for shock - prepare materials before starting treatment!

Suggested set-up for incoming shocky bird

IV or IO fluids: warm lactated Ringers solution (30 ml/kg IV bolus OR 1/2 MEC in ml)
Corticosteroids NOT recommended
Broad spectrum antibiotic ( e.g. Enrofloxacin)
Thermal support: heat lamp, hot water bottles, or warm cage
24 gauge butterfly catheter or IV/IO catheter
Emergency drugs including Oxyglobin (?)
Microhematocrit tubes and clay
Glucometer
Gram scale

4.4. Fluid therapy

Fluid therapy choices are similar as recommended for mammals. Review chapter on Diagnostic and Therapeutic Techniques

4.4.1. Signs of dehydration

Mental depression
Skin fold elasticity
Filling time of basilic vein > 1 sec
Ocular hydration
Pale, tacky mm
Cool temperature of extremities
Increased heart rate
Decreased blood pressure

4.4.2. Types of fluids

Isotonic crystalloids distribute to all body fluid compartments

LRS (volume replacement)
Normosol®
0.9% saline (head trauma)

Nonisotonic crystalloids

5% Dextrose in water
Hypertonic saline

Colloids cannot pass through capillary membranes

IV volume expanders
Plasma, whole blood
Dextrans
Hetastarch®
- Expands to 1.4 x infused volume
- 10-15 ml/kg bolus up to QID
Always give with isotonic crystalloids (40-60% volume)

4.4.3. Fluid administration

Routes of administration: oral, subcutaneous, intravenous, intraosseous
Fluid volumes: Daily maintenance plus deficits and ongoing losses
Rates of administration:
- Up to 60 ml/kg IV bolus or IV, IO drip
- Replace half of total fluid deficit in first 12 - 24 hr
- Replace the remaining half over the following 48 hours

4.5. Blood Transfusions

4.5.1. Indications

PCV < 10-15%
Rapidly dropping PCV

4.5.2. Blood donor choices

Closely matched or identical species blood donors are preferable, however, studies have shown that the source of the donor blood may safely come from a different species than the recipient. The use of pigeon, chicken, or raptor blood has proven to be quite safe, and often lifesaving in psittacines as a one time emergency procedure. Interspecies transfusions will not last as long as intraspecies transfusions. Administration of blood is no more difficult than administration of intravenous fluids. A life saving transfusion should be carried out even when crossmatching is not readily available.

4.5.3. Procedure

Suggested set-up

Healthy donor bird
Isoflurane anesthesia (mask)
ACD or CPDA solution
22 ga. butterfly catheter (collection)
24 ga. indwelling catheter (administration)
Blood component infusion set
Warm lactated ringers solution
B-Complex
Iron dextran

Blood Donor - Blood may be collected from the donor bird from either the jugular or brachial veins. Isoflurane anesthesia of the donor may make the procedure easier to perform, although it is not always required. Ten ml of blood per kilogram of body weight may safely be taken without harm to a healthy donor bird. Blood should be collected in some form of anticoagulant. A syringe coated with heparin, EDTA, or containing a citrate solution (9 parts blood to 1 part ACD solution) will suffice. Heparin anticoagulant is preferred over EDTA for smaller recipients in order to avoid adverse effects (hypocalcemia) in the recipient. Following blood collection, the donor bird should receive an equivalent 10 ml/kg intravenous fluid replacement, as well as intramuscular administration of B vitamins and iron dextran. This supportive therapy is especially important if the donor is used repeatedly. Donated blood is best if used within hours after collection. Storage of avian blood results in an increasing potassium concentration that will become dangerous to the recipient over time (days).

ACD solution	9 parts blood to 1 part ACD solution
CPDA solution	1 ml blood to 0.14 ml CPDA solution

Recipient - The recipient may be given blood through any available vein (cutaneous ulnar, jugular, or tibiotarsal vein). The use of an indwelling catheter or a butterfly catheter is prudent. A small blood administration set which includes an in-line filter is commercially available (Blood component infusion set, 4C2223, Fenwal Laboratories, Deerfield, IL). Care must be taken to minimize stress in the severely anemic patient. Pre-oxygenation and/or oxygen administration during the procedure may be required. Anesthesia of the recipient is usually not necessary, and may be risky. The recipient should also receive intramuscular iron dextran and B vitamins as supportive therapy.

4.5.4. Repeat transfusions

Studies have shown an increased mortality associated with repeated transfusions given to a patient from the same donor within 10 days of the first transfusion. Reasons for this observation are not understood. It is recommended that repeated transfusions should not be given to a patient from the same donor within 10 days and preferably 3 weeks of the first transfusion without crossmatching. If this is unavoidable, the recipient should be given dexamethasone sodium phosphate before repeating the transfusion. Crossmatching with unwashed red cells is apparently not valid . Crossmatching with washed and incubated red cells may be valid, showing either hemolysis or agglutination reactions.

4.5.5. Use of Oxyglobin

There are very good anecdotal reports on the use of oxyglobin in birds. No scientific papers or official recommendations for its use in birds are currently available. Since it has become available in 60 ml containers, it is now more practical to use.

Studies in chickens and some psittacine species have used 15 ml/kg slow IV or IO route.
Used in hemorrhagic shock, hemodilution, chronic anemia to increase oxygen to tissues
No cross matching required
No observable side effects seen
Increased PCV for short periods of time only (~ 3 days)

4.6. Nutritional support

Nutritional support is very important and should be considered soon in the therapy plan. Birds will tend to deteriorate and lose body energy and protein stores more rapidly than mammals, due to their relatively high metabolic rate. Blood glucose measurements can assist in determining the immediate need for supplementation, but should not be the only criteria. Enteral nutrition is preferred, but oral supplements should not be given to recumbent patients because of the risk of regurgitation and aspiration. The type of enteral supplementation should be chosen to match the species appropriately. Supplements are available from the major avian diet manufacturers: Roudybush, Harrison, Lafeber, etc.

Gavage feeding

Proper restraint essential for safe administration and to avoid regurgitation
Choose a warm enteral product appropriate for the species
Maximum stomach capacity 50 ml/kg
Consider parenteral support in addition
Monitor weight and blood glucose levels

4.6.1. Refeeding syndrome

Always rehydrate animal first
Give B vitamins
Give oral electrolytes first
Tubefeed formula low in carbohydrates, high in fat with adequate protein
If the patient is digesting the formula, move gradually on to easily digestible solid food

4.7. Thermal and oxygen support

40% O2 saturation recommended.

Heat sources may include:

Incubator
Heating pad
Heat lamp
Circulating warm air devices
Heated room

4.8. Pain Management Protocols

For all birds with mild to moderate pain
Carprofen SQ	MEC dose 0.06 mg/kcal
Carprofen PO	MEC dose 0.07 mg/kcal Frequency coefficient 0.06
Meloxicam PO	0.1 - 0.2 mg/kg SID
Butorphanol	IM 1-4 mg/kg q 2-4 hours

5. Common Emergencies

The following common emergencies may be discussed in class :

Trauma - Thermal burns, cagemate or predator aggression, flying into objects, owner induced trauma, gunshot, entanglement, fractures, lacerations, wounds, bleeding
Respiratory emergencies - dyspnea from upper or lower respiratory disease or extra-respiratory causes (neoplasia, hepatomegaly, egg binding, ascites, thyroid dysplasia)
GI emergencies - diarrhea, vomiting, toxin ingestion
Neurologic emergencies - seizures
Reproductive emergencies - egg binding, prolapse
Renal emergencies
Toxicities - ingested, inhaled, skin contact
Other; bloody droppings

5.1. Table of Common Emergencies

Condition	Clinical signs	Diagnostics	Treatment	Comments
Fluffed bird (nonspecific)	Anorexia Depression Fluffed feathers	History/PE PCV/TP Blood glucose	Supportive care - fluids and heat Closely monitor for specific symptoms	The "emergency" fluffed birds may be an acute presentation of a chronic disease, usually evident from PE and/or history.
Trauma	Bleeding Lameness Wing droop Wounds	History/PE Radiography	Control bleeding Treat for shock Stabilize fractures Treat soft tissue wounds aggressively Supportive care as required	Trauma is the most common cause of wild bird emergencies.
Lead poisoning	Anorexia Regurgitation Diarrhea GI stasis Paralysis Seizures Hematuria	History/PE Radiography Blood lead CBC Serum chemistry	Diazepam (seizures) Remove lead source - Cathartics/oral chelators, endoscopy, proventriculotomy CaEDTA: 35 mg/kg IM bid x 5d. Supportive care	Consult references for details on various therapy choices. Begin therapy with any serious suspect before blood results are available.
Egg-binding	Anorexia +/- Straining Abdominal distention	History/PE Radiography	Warm, moist heat Lubrication If egg in distal position Oxytocin 0.2-2.0 IU IM Calcium 50-100 mg/kg IM Treat for shock if needed If egg in proximal position - laparotomy	There are many variations of egg-binding. Consult references for details in handling these cases. By far the majority of cases respond to moist heat and medical therapy.
Hemochromatosis (Mynahs & toucans)	Respiratory distress Ascities Weakness Anorexia	History/PE Radiography Abdominocentesis CBC Serum chemistry Liver biopsy	Abdominocentesis Furosemide: 0.15 mg.kg IM tid Oxygen therapy may help Desferoxamine therapy long-term Phlebotomy	Poor prognosis. May need to repeat treatment. Diet management recommended.
Hypocalcemia (African Grey parrot)	Lethargy Severe weakness Tetany/Seizures Fainting/coma	History/PE CBC Serum chemistry Serum calcium	Calcium: 50-100 mg/kg diluted IV or IM Followed by oral calcium supplementation with Neocalglucon 5 ml/30ml water x 7 days 1 ml/30ml water indefinately	Give calcium slowly.
Polytetra- Fluoroethylene toxicity (burnt Teflon)	Respiratory distress Rapid death	History	Oxygen therapy Supportive care	Therapy is usually not successful. Bird most often DOA.
Oil contamination	Hypothermia Anorexia Diarrhea Respiratory distress Dehydration	History/PE PCV/Tsp	Stabilize with supportive care, incl. heat and fluid therapy Remove oil 1st with towel , dawn dishwashing liquid, rinse thoroughly Dry completely Treat with antifungals (selected species)	Wash/rinsing should be repeated until water beads up on the feathers. Use water temp. of 103-104 F. Consult references.

5.2. Table of Respiratory Emergencies

Source

Clinical signs

Differential diagnosis

Diagnostic tests

Initial Treatment

Upper Respiratory

Anorexia +/-

Inspiratory dyspnea

Oculonasal discharge

Obstructed nares

Coughing +/-

Sneezing

Choking

Upper respiratory infection

Foreign body obstruction

Inhaled toxins

Thyroid dysplasia

Choanal culture

Sinus flush/culture

Transilluminte the neck

CBC

Radiographs

Staged PE

Oxygen prn

Nebulization?

Air sac cannulation prn

Lower Respiratory

Anorexia/weight loss

Expiratory dyspnea

Coughing +/-

Severe depression

Voice change

Open mouth breathing

Cyanosis

Pneumonia

Air sacculitis

Asthma

Air sac mites

Toxic inhalation (Teflon)

Heart disease

Choanal culture

Radiographs

CBC

Serum chemistry

Laparoscopy/biopsy

Oxygen

nebulization

Surgical intervention?

Supportive care

Abdominal Compression

Anorexia

Dyspnea

Abdominal distention

Lack of droppings +/-

Neoplasia

Hepatomegaly

Egg binding

Ascites/peritonitis

Radiographs

Physical examination

Abdominocentesis

Surgical intervention?

Oxygen may or may not help

5.3. Table of Gastrointestinal Emergencies

Source

Clinical signs

Differential diagnosis

Diagnostic tests

Initial Treatment

Upper Gastrointestinal

Anorexia +/-

Dehydration

Regurgitation

Emaciation

Weight loss

Palpable crop abnormality

Oral/pharyngeal lesion

Crop infection

Crop motility disorder

Thermal burns and fistulas

Foreign body obstruction

Proventricular dilatation

Lead poisoning

Behavioral regurgitation

Lower intestinal disease (nausea)

Crop swab/flush (culture and cytology)

Radiographs

CBC

Fecal examination

Supportive care

Withold food?

Fluid therapy for dehydration

surgical Intervention

Treat underlying cause

Lower Gastrointestinal

Anorexia +/-

Dehydration

Diarrhea

Emaciation

Weight loss

Feces color change

Lack of feces

Enteritis

Hepatitis

Pancreatitis

Peritonitis

Psittacosis

Toxicity (Lead poisoning)

Obstruction

Parasitic infestation

Fecal examination

Cloacal culture

Radiographs

CBC

Serum chemistry (incl. bile acids)

Psittacosis titer

Abdominocentesis

Laparotomy/laparoscopy/biopsy

Supportive care

Withold food?

Fluid therapy for dehydration

surgical Intervention

Treat underlying cause

5.4. Table of Neurologic/Reproductive and Renal Emergencies

Clinical signs

Differential diagnosis

Diagnostic tests

Initial Treatment

Neurologic Emergencies

Seizures

Severe depression/coma

Head tilt, nystagmus

Ataxia

Blindness

Anisocoria

Paralysis

Trauma

Lead poisoning

Meningitis/encephalitis

Hypoglycemia

Hypocalcemia

Hepatoencephalopathy

Toxicity

Epilepsy

Thiamine deficiency

Ophthalmologic exam

Blood lead level

CBC

Serum chemistry

Serology

Radiographs

Tx. depending on cause

Head Trauma

NO corticosteroids
IV Mannitol?
Fluids (no dextrose)
Pain medidcation
Oxygen
Cool environment

Reproductive Emergencies

Abdominal distention +/-

Straining +/-

Cloacal prolapse

Depression

History of egg laying +/-

Egg binding

Chronic egg laying

Follicular cysts

Egg peritonitis

Urogenital tumor

Radiographs

Abdominocentesis

Ultrasound

Surgical exploration

Fluids

Heat

Calcium

Oxytocin

Vitamin A and D

Prostaglandins

Surgical intervention?

Renal Emergencies

Depression

Dehydration

Weight loss

Polyuria

Polydipsia

Hematuria

Change in urate color

Renal failure (e.g. gout, aminoglycosides, toxins, ureteral obstruction, Hypervitaminosis D, neoplasia)

Hepatitis (e.g. Psittacosis)

Lead poisoning

Diabetes Mellitus

Stress

Radiographs, IVP?

CBC

Serum chemistry

Urinalysis (glucose, blood)

Laparoscopy/biopsy

Supportive care

Fluids and electrolytes

Antibiotics as needed

Treat underlying cause

6. Ancillary Material

6.1. Readings

6.1.1. Texts and Articles

Altman, Robert B., et al. Avian Medicine and Surgery. Philadelphia. W.B. Saunders Co., 1997. Chapter 48

Altman, RB. Heterologous blood transfusion in avian species. Proceedings of the Annual Meeting of the Association of Avian Veterinarians, San Diego, CA, 1983: 28-32.

Critical care. Agnes E. Rupley, ed. The Veterinary Clinics of North America, Exotic Animal Practice. W.B. Saunders Co., 1998.

Degernes, Laurel A., et al. A preliminary report on intraosseous total parenteral nutrition in birds. Proceedings of the Annual Conference of the Association of Avian Veterinarians, 1995., pp.25-26.

Degernes, Laurel A., ed al. Autologous, homologous, and heterologous red blood cell transfusions in cockatiels (Nymphicus hollandicus). Journal of Avian Medicine and Surgery, v.13 (1) : 2-9, 1999.

Jenkins, Jeffrey. Critical care. Seminars in Avian and Exotic Pet Medicine, Vol. 3 (4), October 1994.

Morrisey, James K., et al. Comparison of three media for the storage of avian whole blood. Proceedings of the Association of Avian Veteirnarians, 1997: pp.279-280.

Quesenberry, KE, and Hillyer, E. Hospital management of the critical avian patient. Proceedings of the AAV Basic Avian Medicine Symposium, Seattle, WA, 1989: 365-369.

Ritchie, Branson W., et al. Avian Medicine: Principles and Application. Lake Worth, Fla., c1994: Chapter 15.

Stone, E.G. and P.T. Redig. Preliminary evaluation of hetastarch for the management of hypoproteinemia and hypovolemia. Proceedings of the Annual Conference of the Association for Avian Veterinarians, 1994.

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