Bites, Animal Multimedia Presentation (Catastrophic Pit Bull Injury) - Massachusetts General Hospital (Bites, Animal)

Bites, Animal: [Print] - eMedicine Emergency Med... http://emedicine.medscape.
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eMedicine Specialties > Emergency Medicine > Environmental
Bites, Animal
Alisha Perkins Garth, MD, Staff Physician, Harvard Affiliated Emergency Medicine Residency, Brigham and Women's Hospital, Massachusetts General
Hospital
N Stuart Harris, MD, FACEP, Assistant Professor in Surgery, Harvard Medical School, Massachusetts General Hospital; Attending Physician,
Massachusetts General Hospital
Updated: Jun 25, 2009
Introduction
Background
Because many animal bites are never reported, determining the exact incidence of animal bite wounds in the United States, let alone the world, is
difficult. An estimated 74.8 million dogs lived in the United States in 2007; these account for an estimated 5 million dog bites per year, of which 800,000
[1 ]
require medical attention . Substantially more dog bites occur than cat bites. These two species account for the majority of (nonhuman) animal bite
wounds encountered in the emergency department (ED).
Pathophysiology
Dog bites typically cause a crushing-type wound because of their rounded teeth and strong jaws. An adult dog can exert 200 pounds per square inch
[2 ]
(psi) of pressure, with some large dogs able to exert 450 psi. Such extreme pressure may damage deeper structures such as bones, vessels, tendons,
muscle, and nerves.
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Bites, Animal: [Print] - eMedicine Emergency Med... http://emedicine.medscape.com/article/768875-print
Wounds to the left arm inflicted during a pit bull attack. This young patient was also bitten once on the left side
of his face.
The sharp pointed teeth of cats usually cause puncture wounds and lacerations that may inoculate bacteria into deep tissues. Infections caused by cat
[3,4 ]
bites generally develop faster than those of dogs.
Limited literature is available on other animal bites. Monkey bites have a notorious reputation based largely on anecdotal reports. Several cases of
unprovoked attacks on young children and infants by domesticated ferrets have been documented. The bites of foxes, raccoons, skunks, bats, dogs, and
cats have been clearly linked to rabies exposure. Bites from large herbivores generally have a significant crush element because of the force involved.
Bites of the hand generally have a high risk for infection because of the relatively poor blood supply of many structures in the hand and anatomic
considerations that make adequate cleansing of the wound difficult. In general, the better the vascular supply and the easier the wound is to clean (ie,
laceration vs puncture), the lower the risk of infection.
A major concern in all bite wounds is subsequent infection. Infections can be caused by nearly any group of pathogens (bacteria, viruses, rickettsia,
2 of 27 1/1/10 8:05 PM
[5,6,7 ]
spirochetes, fungi). At least 64 species of bacteria are found in the canine mouth, causing nearly all infections to be mixed. Common bacteria
involved in bite wound infections include the following:
Dog bites
Staphylococcus species
Streptococcus species
Eikenella species
Pasteurella species
Proteus species
Klebsiella species
Haemophilus species
Enterobacter species
DF-2 or Capnocytophaga canimorsus
Bacteroides species
Moraxella species
Corynebacterium species
Neisseria species
Fusobacterium species
Prevotella species
Porphyromonas species
Cat bites
Pasteurella species
Actinomyces species
Propionibacterium species
Bacteroides species
Clostridium species
Wolinella species
Peptostreptococcus species
Herbivore bites
Actinobacillus lignieresii
Actinobacillus suis
Pasteurella multocida
Pasteurella caballi
Staphylococcus hyicus subsp hyicus
Swine bites
Pasteurella aerogenes
Pasteurella multocida
Bacteroides species
Proteus species
Actinobacillus suis
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Flavobacterium species
Mycoplasma species
Rodent bites - Rat-bite fever

Streptobacillus moniliformis
Spirillum minus
Primates
Bacteroides species
Eikenella corrodens
Enterococcus species
Enterobacteriaceae
Simian herpes virus
Large reptiles (crocodiles, alligators)

Aeromonas hydrophila
Pseudomonas pseudomallei
Pseudomonas aeruginosa
Proteus species
Enterococcus species
Clostridium species
Frequency
United States
[8 ]
Of an estimated 3-6 million animal bites per year in the United States, approximately 80-90% are from dogs, 5-15% are from cats, and 2-5% are from
rodents, with the balance from other small animals (eg, rabbits, ferrets), farm animals, monkeys, reptiles, and others. Some estimate that 1% of
[1,9 ]
emergency visits are for dog bite wounds. Approximately 1% of dog bite wounds and 6% of cat bite wounds require hospitalization.
International
The lack of standard reporting in many countries makes accurate estimates of animal bite incidence difficult to determine. Depending on locale, the
range of animals inflicting bites is wide and includes large cats (tigers, lions, leopards), wild dogs, hyenas, wolves (Eurasia), crocodiles, and other
reptiles. As in the United States, most bites, however, are from domestic dogs. In developing countries, animal bites (especially bites by dogs, cats,
foxes, skunks, and raccoons) carry a high risk of rabies infection.
Mortality/Morbidity
[8,10 ]
Dog attacks kill approximately 10-20 people annually in the United States. Most of these fatalities, unfortunately, are young children. While local
infection and cellulitis are the leading causes of morbidity, sepsis is a potential complication of bite wounds, particularly C canimorsus (DF-2) sepsis in
immunocompromised individuals. Pasteurella multocida infection (the most common pathogen contracted from cat bites) also may be complicated by
sepsis. Meningitis, osteomyelitis, tenosynovitis, abscesses, pneumonia, endocarditis, and septic arthritis are additional concerns in bite wounds. When
rabies occurs, it is almost uniformly fatal.
Sex
[11 ]
Women are more frequently bitten by cats, whereas men are more often bitten by dogs (despite being man's best friend).
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Age
[9,8,10 ]
Peak incidence of animal bites occurs among children aged 5-9 years.
Clinical
History
History for animal bites should include the following:
Time and location of event
Type of animal and its status (ie, health, rabies vaccination history, behavior, whereabouts)
Circumstances surrounding the bite (ie, provoked or defensive bite versus unprovoked bite)
Location of bites (most commonly on the upper extremities and face)
Prehospital treatment
Patient’s medical history (immunocompromise, peripheral vascular disease, diabetes, tetanus and rabies vaccination history)
Physical
Major resuscitation rarely is required. Because patients typically are children, reassurance and parental presence may facilitate examination. Where
applicable, consider the following:
Distal neurovascular status
Tendon or tendon sheath involvement
Bone injury, particularly of the skull in infants and young children
Joint space violation
Visceral injury
Foreign bodies (eg, teeth) in the wound
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The devastating damage sustained by a preadolescent male during a pit bull attack. Almost lost in this
photograph is the soft tissue damage to this victim's thigh. This patient required 2 units of O- blood and
several liters of isotonic crystalloid. Repair of these wounds required a pediatric surgeon, an experienced
orthopedic surgeon, and a plastic surgeon. Attacks such as these have caused a movement in some areas of the
country to ban pit bulls.
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Massive soft tissue damage of the right leg caused by a pit bull attack. This patient was transferred to a level
one pediatric trauma center for care. At times, staff members may need counseling after caring for savagely
mauled patients.
Causes
Bite wounds from cats and dogs can occur without provocation, but provoked bites, such as disturbing animals while they are eating, are more common.
Older animals often are less tolerant of disturbances, especially by children. Most dog bites involve a dog that belongs to the family or friend of the victim
[10 ]
and approximately half occur on the pet owner's property.
Certainly, unprovoked bites by wild or sick-appearing animals (most notably by dogs, cats, raccoons, foxes, skunks, and bats) further raise
underlying concerns about likelihood of rabies exposure.
Differential Diagnoses
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Bites, Human Neck Trauma

Cellulitis Osteomyelitis
Fractures, Cervical Spine Rabies
Hand Infections Tetanus
Workup
Laboratory Studies
Fresh bite wounds without signs of infection do not need to be cultured. Infected bite wounds should be cultured to help guide future antibiotic
therapy.
Other laboratory tests are indicated as the patient's condition dictates (eg, CBC and blood cultures for patients with sepsis).
If C canimorsus sepsis is suspected, examine the peripheral smear for the organism, a bacillus.
Imaging Studies
Radiography is indicated if any concerns exist that deep structures are at risk (eg, hand wounds; deep punctures; crushing bites, especially over
joints).
Occult fractures or osteomyelitis may be discovered.
Radiographs may find foreign bodies in the wound (eg, teeth).
Children who have been bitten in the head should be examined for bony penetration with plain films or CT scan. If the child was shaken,
consider cervical spine evaluation.
Other Tests
Treatment
Prehospital Care
Obtaining the history of the bite event is of major importance, including home treatment of wounds, body parts involved, and other symptoms
(see History).
[12 ]
Rinse bite wounds, if possible, and cover with a sterile dressing. Tap water has been shown to be as effective for irrigation as sterile saline.
Encourage patients to seek prompt care.
Emergency Department Care
Most bite wounds can be treated in the ED. Essentials of treatment are necessary inspection, debridement, irrigation, and closure, if indicated.
Complete trauma evaluation occasionally is indicated.
Carefully inspect bite wounds to identify deep injury and devitalized tissue. Obtaining an adequate inspection of a bite wound without it
first being anesthetized is nearly impossible. Care should be taken to visualize the bottom of the wound and, if applicable, to examine the
wound through a range of motion.
Debridement is an effective means of preventing infection. Removing devitalized tissue, particulate matter, and clots prevents these from
becoming a source of infection, much like any foreign body. Clean surgical wound edges result in smaller scars and promote faster
healing.
Irrigation is another important means of infection prevention. A 19-gauge blunt needle and a 35-mL syringe provide adequate pressure (7
[12 ]
psi) and volume to clean most bite wounds. In general, 100-200 mL of irrigation solution per inch of wound is required. Heavily
contaminated bite wounds require more irrigation. Large dirty wounds may require irrigation in the operating room. Isotonic sodium
chloride solution is a safe, available, effective, and inexpensive irrigating solution. Few of the numerous other solutions and mixtures of
saline and antibiotics have any advantages over saline. If a shieldlike device is used, take care to prevent the irrigating solution from
returning to the wound, which decreases the effectiveness of the irrigation.
Primary closure may be considered in limited bite wounds that can be cleansed effectively (this excludes puncture wounds, ie, cat
bites). Other wounds are best treated by delayed primary closure. Facial wounds, because of the excellent blood supply, are at low risk
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for infection, even if closed primarily, but the risk of superinfection must be discussed with the patient prior to closure. Bite wounds to the
[7 ]
hands and lower extremities, with a delay in presentation, or in immunocompromised hosts, generally should be left open.
If a bite wound involves the hand, consider immobilizing in a bulky dressing or splint to limit use and promote elevation.
Consider tetanus and rabies prophylaxis for all wounds. Antirabies treatment may be indicated for bites by dogs and cats whose rabies status
can not be obtained, or in foxes, bats, raccoons, or skunks in the Americas (see Rabies for treatment and dosing information).
Oehler et al have established a wound management strategy following animal bites to prevent severe complications that include the following
[13 ]
steps:
Culture for aerobes and anaerobes if abscess, severe cellulitis, devitalized tissue, or sepsis is present.
Use saline solution for wound irrigation.
Debride necrotic tissue and remove any foreign bodies.
If fracture or bone penetration, radiography is indicated (MRI or CT may also be indicated).
Initiate prophylactic antibiotics in selected cases (based on type and specific animal involved).
If methicillin-resistant Staphylococcus aureus (MRSA) is suspected, first-line antibiotics include trimethoprim-sulfamethoxazole,

doxycycline, minocycline, and clindamycin.
Hospitalization is indicated if fever, sepsis, spreading cellulitis, severe edema, crush injury, or loss of function is present. Also consider
hospitalization for patients who are immunocompromised or are likely to be noncompliant.
Administer tetanus booster (if none given in past year) or initiate primary series in nonvaccinated individuals.
Assess the need for rabies vaccine and immunoglobulin.
For additional information, see Medscape’s Wound Management Resource Center.
Consultations
Extensive wounds, those involving tissue loss, or those involving complex structures may require plastic surgery consultation.
If the skull is penetrated, neurosurgery consultation is indicated.
Local public health authorities should be notified of all bites and may help with recommendations for rabies prophylaxis.
Medication
This is one of most controversial subjects in wound care. Remember that proper wound care (inspection, debridement, irrigation, closure, if indicated)
reduces infection more than antibiotics. In general, low-risk wounds do not require prophylactic antibiotics. However, therapy is recommended for
[14 ]
high-risk wounds (eg, cat bites that are a true puncture, bites to the hand, massive crush injury, late presentation, poor general health).
The goal of initial therapy is to cover staphylococci, streptococci, anaerobes, and Pasteurella species. Prophylactic antibiotics may be given for a 3- to
5-day course. The first-line oral therapy is amoxicillin-clavulanate. For higher risk infections, a first dose of intravenous antibiotic may by given (ie,
ampicillin-sulbactam, cefuroxime, ticarcillin-clavulanate, piperacillin-tazobactam, or a carbapenem). Other combinations of oral therapy include amoxicillin
plus cephalexin (possible poor compliance due to complicated regimen), clindamycin plus a fluoroquinolone (adults), clindamycin plus sulfamethoxazole
[15,6,7 ]
and trimethoprim (Bactrim) (children), and less effective azithromycin or doxycycline. If the wound is infected on presentation, a course of 10 days
or longer is recommended.
For monkey bites, postexposure prophylaxis valacyclovir or acyclovir should be given for 14 days.
Antibiotics
Empiric antimicrobial therapy must be comprehensive and should cover all likely pathogens in the context of the clinical setting.
Ampicillin and sulbactam (Unasyn)
Drug combination of beta-lactamase inhibitor with ampicillin. Interferes with bacterial cell wall synthesis during active replication, causing bactericidal
activity against susceptible organisms.
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Dosing
Adult
1.5 (1 g ampicillin + 0.5 g sulbactam) to 3 g (2 g ampicillin + 1 g sulbactam) IV/IM q6-8h; not to exceed 4 g/d sulbactam or 8 g/d ampicillin
Pediatric
<3 months: Not established

3 months to 12 years: 100-200 mg ampicillin/kg/d (150-300 mg Unasyn) IV divided q6h
>12 years: Administer as in adults; not to exceed 4 g/d sulbactam or 8 g/d ampicillin
Interactions
Probenecid and disulfiram elevate ampicillin levels; allopurinol decreases ampicillin effects and has additive effects on ampicillin rash; may decrease
effects of oral contraceptives
Contraindications
Documented hypersensitivity
Precautions
Pregnancy
B - Fetal risk not confirmed in studies in humans but has been shown in some studies in animals
Precautions
Adjust dose in renal failure; evaluate rash and differentiate from hypersensitivity reaction
Imipenem and cilastatin (Primaxin)
For treatment of multiple organism infections in which other agents do not have wide-spectrum coverage or are contraindicated due to potential for
toxicity.
Dosing
Adult
Base initial dose on severity of infection, and administer in equally divided doses; dose may range from 250-500 mg q6h IV for a maximum of 3-4 g/d
Alternatively, 500-750 mg q12h IM or intra-abdominally
Pediatric
Infants >3 months and children

<12 years: 15-25 mg/kg/dose IV q6h
Fully susceptible organisms: Not to exceed 2 g/d
Infections with moderately susceptible organisms: Not to exceed 4 g/d
>12 years: Administer as in adults
Interactions
Coadministration with cyclosporine may increase CNS side effects of both agents; coadministration with ganciclovir may result in generalized seizures
Contraindications
Documented hypersensitivity; known hypersensitivity to amide local anesthetics; children with CNS infections (increased seizure risk); children <30 kg
with renal impairment (lack of data)
Precautions
Pregnancy
C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus
Precautions
Adjust dose in renal insufficiency (adult adjustments)
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CrCl (mL/min) 80-50: 0.5 g q6-8h

CrCl 50-10: 0.5 g q8-12h
Hemodialysis (HD): 0.25-0.5 g after HD, then q12h
Adjust dose in renal insufficiency; avoid use in children <12 y with CNS infections
Caution with history of seizures, hypersensitivity to penicillins, cephalosporins, or other beta-lactam antibiotics
Ertapenem (Invanz)
Bactericidal activity results from inhibition of cell wall synthesis and is mediated through ertapenem binding to penicillin-binding proteins. Stable against
hydrolysis by a variety of beta-lactamases including penicillinases, cephalosporinases, and extended-spectrum beta-lactamases. Hydrolyzed by metallo-
beta-lactamases.
Dosing
Adult
1 g IV qd infused over 30 min

2
CrCl <30 mL/min/1.73 m : 500 mg IV qd
Pediatric

3 months to 12 years: 15 mg/kg IV q12h; not to exceed 1 g/d
Interactions
Probenecid may reduce renal clearance of ertapenem and increase half-life but benefit is minimum and does not justify coadministration
Contraindications
Documented hypersensitivity to drug or amide-type anesthetics
Precautions
Pregnancy
Precautions
Pseudomembranous colitis may occur; seizures and CNS adverse reactions may occur; when using with lidocaine to administer intramuscularly, avoid
inadvertent injection into blood vessel; decrease dose in renal failure; serious and occasionally fatal hypersensitivity reactions may occur with
beta-lactams, caution with previous hypersensitivity reactions to penicillin, cephalosporins, other beta-lactams, or other allergens; do not mix or co-infuse
in same IV line as other medications; do not mix with dextrose-containing diluents
Piperacillin and tazobactam sodium (Zosyn)
Antipseudomonal penicillin plus beta-lactamase inhibitor. Inhibits biosynthesis of cell wall mucopeptide and is effective during stage of active
multiplication.
Dosing
Adult
3.75 g IV q6h
Pediatric
<12 years: Not established

Interactions
Tetracyclines may decrease effects of piperacillin; high concentrations of piperacillin may physically inactivate aminoglycosides if administered in same
IV line; effects when administered concurrently with aminoglycosides are synergistic; probenecid may increase penicillin levels; high-dose parenteral
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penicillins may result in increased risk of bleeding
Contraindications
Documented hypersensitivity; severe pneumonia, bacteremia, pericarditis, emphysema, meningitis, and purulent or septic arthritis should not be treated
with an oral penicillin during the acute stage
Precautions
Pregnancy
Precautions
Perform CBCs prior to initiation of therapy and at least weekly during therapy; monitor for liver function abnormalities by measuring AST and ALT levels
during therapy; exercise caution in patients with hepatic insufficiencies; perform urinalysis, and BUN and creatinine determinations during therapy and
adjust dose if values become elevated; monitor blood levels to avoid possible neurotoxic reactions
Meropenem (Merrem IV)
Bactericidal broad-spectrum carbapenem antibiotic that inhibits cell-wall synthesis. Effective against most gram-positive and gram-negative bacteria.
Has slightly increased activity against gram-negatives and slightly decreased activity against staphylococci and streptococci compared to imipenem.
Dosing
Adult
1 g IV q8h
Pediatric
40 mg/kg IV q8h
Interactions
Probenecid may inhibit renal excretion of meropenem, increasing meropenem levels
Contraindications
Precautions
Pregnancy
Precautions
Dosage adjustments (adult adjustments)

CrCl (mL/min) 10-50: 0.5-1 g q12h
CrCl <10: 0.5 g/d
HD: As for CrCl <10, with an extra 0.5 g after HD
Pseudomembranous colitis and thrombocytopenia may occur, requiring immediate discontinuation of medication
Amoxicillin and clavulanate (Augmentin)
Drug combination that extends antibiotic spectrum of penicillin to include bacteria normally resistant to beta-lactam antibiotics. Indicated for skin and skin
structure infections caused by beta-lactamase–producing strains of Staphylococcus aureus.
Dosing
Adult
500/125 mg PO tid or 875/125 mg PO bid
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Pediatric
10-15 mg/kg PO tid (based on amoxicillin component)
Interactions
Coadministration with warfarin or heparin increases risk of bleeding
Contraindications
Precautions
Pregnancy
Precautions
Give for a minimum of 10 d to eliminate organism and prevent sequelae (endocarditis, rheumatic fever); following treatment, perform cultures to confirm
eradication of streptococci
Amoxicillin (Trimox, Biomox, Amoxil)
Alone, this drug is effective against Pasteurella species. However, not indicated for skin and skin structure infections caused by beta-lactamase–
producing strains of Staphylococcus aureus. A second antibiotic such as cephalexin is needed for Staphylococcus infections.
Dosing
Adult
250-500 mg PO tid
Pediatric
30-50 mg/kg/d PO divided tid; not to exceed 500 mg/dose
Interactions
Reduces the efficacy of oral contraceptives
Contraindications
Precautions
Pregnancy
Precautions
Adjust dose in renal impairment; may enhance chance of candidiasis
Ticarcillin and clavulanate potassium (Timentin)
Inhibits biosynthesis of cell wall mucopeptide and is effective during stage of active growth. Antipseudomonal penicillin plus beta-lactamase inhibitor that
provides coverage against most gram-positive organisms, most gram-negative organisms, and most anaerobes.
Dosing
Adult
3.1 g IV q4-6h
Pediatric
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>3 months
<60 kg: 200-300 mg/kg/d IV divided q4-6h
>60 kg: 3.1 g IV q4-6h
Interactions
Tetracyclines may decrease effects of ticarcillin; high concentrations of ticarcillin may physically inactivate aminoglycosides if administered in same IV
line; effects when administered concurrently with aminoglycosides are synergistic; probenecid may increase penicillin levels
Contraindications
Documented hypersensitivity; severe pneumonia, bacteremia, pericarditis, emphysema, meningitis, and purulent or septic arthritis should not be treated
with oral penicillin during acute stage
Precautions
Pregnancy
Precautions
Perform CBCs prior to initiation of therapy and at least weekly during therapy; monitor for liver function abnormalities by measuring AST and ALT levels
during therapy; exercise caution in patients with hepatic insufficiencies; perform urinalysis, and BUN and creatinine determinations during therapy and
adjust dose if values become elevated; monitor blood levels to avoid possible neurotoxic reactions
Cephalexin (Keflex, Biocef, Keftab)
First-generation cephalosporin that arrests bacterial growth by inhibiting bacterial cell wall synthesis. Bactericidal activity against rapidly growing
organisms. Primary activity against skin flora.
Dosing
Adult
250-500 mg PO qid
Pediatric
25-50 mg/kg/d PO divided qid; not to exceed 500 mg/dose
Interactions
Coadministration with aminoglycosides increases nephrotoxic potential
Contraindications
Precautions
Pregnancy
Precautions
Adjust dose in severe renal insufficiency (high doses may cause CNS toxicity); superinfections and promotion of nonsusceptible organisms may occur
with prolonged use or repeated therapy
Sulfamethoxazole/trimethoprim (Bactrim, Bactrim DS, Septra, Septra DS)
Inhibits bacterial growth by inhibiting synthesis of dihydrofolic acid.
Dosing
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Adult
400-800 mg SMX PO bid
Pediatric
30-60 mg/kg/d SMX PO divided bid; not to exceed 800 mg/dose
Interactions
May increase PT when used with warfarin (perform coagulation tests and adjust dose accordingly); coadministration with dapsone may increase blood
levels of both drugs; coadministration of diuretics increases incidence of thrombocytopenia purpura in elderly persons; phenytoin levels may increase
with coadministration; may potentiate effects of methotrexate in bone marrow depression; hypoglycemic response to sulfonylureas may increase with
coadministration; may increase levels of zidovudine
Contraindications
Documented hypersensitivity; megaloblastic anemia due to folate deficiency
Precautions
Pregnancy
Precautions
Discontinue at first appearance of skin rash or sign of adverse reaction; obtain CBCs frequently; discontinue therapy if significant hematologic changes
occur; goiter, diuresis, and hypoglycemia may occur with sulfonamides; prolonged IV infusions or high doses may cause bone marrow depression (if
signs occur, give 5-15 mg/d leucovorin); caution in folate deficiency (eg, chronic alcoholism, advanced age, anticonvulsant therapy, malabsorption
syndrome); hemolysis may occur in G-6-PD deficiency; patients with AIDS may not tolerate or respond to TMP-SMZ; caution in renal or hepatic
impairment (perform urinalyses and renal function tests during therapy); give fluids to prevent crystalluria and stone formation
Clindamycin (Cleocin)
Lincosamide for treatment of serious skin and soft tissue staphylococcal infections. Also effective against aerobic and anaerobic streptococci (except
enterococci). Inhibits bacterial growth, possibly by blocking dissociation of peptidyl tRNA from ribosomes, causing RNA-dependent protein synthesis to
arrest.
Dosing
Adult
300 mg PO qid
Pediatric
10-25 mg/kg/d PO divided qid; not to exceed 600 mg/dose
Interactions
Increases duration of neuromuscular blockade induced by tubocurarine and pancuronium; erythromycin may antagonize effects of clindamycin;
antidiarrheals may delay absorption of clindamycin
Contraindications
Documented hypersensitivity; regional enteritis; ulcerative colitis; hepatic impairment; antibiotic-associated colitis
Precautions
Pregnancy
Precautions
Adjust dose in severe hepatic dysfunction; no adjustment necessary in renal insufficiency; associated with severe and possibly fatal colitis by allowing
overgrowth of Clostridium difficile
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Ciprofloxacin (Cipro)
Fluoroquinolone with activity against pseudomonads, streptococci, MRSA, S epidermidis, and most gram-negative organisms, but no activity against
anaerobes. Inhibits bacterial DNA synthesis and, consequently, growth.
Dosing
Adult
500 mg PO bid
Pediatric
Not recommended
Interactions
Antacids, iron salts, and zinc salts may reduce serum levels; administer antacids 2-4 h before or after taking fluoroquinolones; cimetidine may interfere
with metabolism of fluoroquinolones; ciprofloxacin reduces therapeutic effects of phenytoin; probenecid may increase ciprofloxacin serum concentrations;
may increase toxicity of theophylline, caffeine, cyclosporine, and digoxin (monitor digoxin levels); may increase effects of anticoagulants (monitor PT)
Contraindications
Precautions
Pregnancy
Precautions
In prolonged therapy, perform periodic evaluations of organ system functions (eg, renal, hepatic, hematopoietic); adjust dose in renal function
impairment; superinfections may occur with prolonged or repeated antibiotic therapy
Azithromycin (Zithromax)
Inhibits bacterial growth, possibly by blocking dissociation of peptidyl tRNA from ribosomes, causing RNA-dependent protein synthesis to arrest. Treats
mild-to-moderate microbial infections
Dosing
Adult
500 mg PO on day 1, then 250 mg PO qd for 4 d
Pediatric
10 mg/kg PO d 1; not to exceed 500 mg/dose, then 5 mg/kg PO qd for 4 d; not to exceed 250 mg/dose
Interactions
May increase toxicity of theophylline, warfarin, and digoxin; effects are reduced with coadministration of aluminum and/or magnesium antacids;
nephrotoxicity and neurotoxicity may occur when coadministered with cyclosporine
Contraindications
Documented hypersensitivity; hepatic impairment; do not administer with pimozide
Precautions
Pregnancy
Precautions
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Site reactions can occur with IV route; bacterial or fungal overgrowth may result from prolonged antibiotic use; may increase hepatic enzymes and
cholestatic jaundice; caution in patients with impaired hepatic function, prolonged QT intervals, or pneumonia; caution in hospitalized, geriatric, or
debilitated patients
Doxycycline (Doryx, Vibramycin, Bio-Tab)
Inhibits protein synthesis and thus bacterial growth by binding to 30S and possibly 50S ribosomal subunits of susceptible bacteria.
Dosing
Adult
100 mg PO bid
Pediatric
<8 years: Not recommended

>8 years: 2-5 mg/kg/d PO in 1-2 divided doses; not to exceed 200 mg/d
Interactions
Bioavailability decreases with antacids containing aluminum, calcium, magnesium, iron, or bismuth subsalicylate; tetracyclines can increase
hypoprothrombinemic effects of anticoagulants; tetracyclines can decrease effects of oral contraceptives, causing breakthrough bleeding and increased
risk of pregnancy
Contraindications
Documented hypersensitivity; severe hepatic dysfunction
Precautions
Pregnancy
D - Fetal risk shown in humans; use only if benefits outweigh risk to fetus
Precautions
Photosensitivity may occur with prolonged exposure to sunlight or tanning equipment; reduce dose in renal impairment; consider drug serum level
determinations in prolonged therapy; tetracycline use during tooth development (last one half of pregnancy through age 8 y) can cause permanent
discoloration of teeth; Fanconilike syndrome may occur with outdated tetracyclines
Cefuroxime (Ceftin, Kefurox, Zinacef)
Second-generation cephalosporin maintains gram-positive activity that first-generation cephalosporins have; adds activity against P mirabilis, H
influenzae, E coli, K pneumoniae, and M catarrhalis. Condition of patient, severity of infection, and susceptibility of microorganism determine proper dose
and route of administration.
Dosing
Adult
500 mg PO bid
Pediatric
15-30 mg/kg/d PO divided bid; not to exceed 500 mg/dose
Interactions
Disulfiramlike reactions may occur when alcohol is consumed within 72 h after taking cefuroxime; may increase hypoprothrombinemic effects of
anticoagulants; may increase nephrotoxicity in patients receiving potent diuretics such as loop diuretics; coadministration with aminoglycosides increases
nephrotoxic potential
Contraindications
17 of 27 1/1/10 8:05 PM
Precautions
Pregnancy
Precautions
Reduce dosage by half if creatinine clearance is 10-30 mL/min, and by 3/4 if <10 mL/min (high doses may cause CNS toxicity); bacterial or fungal
overgrowth of nonsusceptible organisms may occur with prolonged or repeated therapy
Antiviral agents
These agents inhibit viral replication.
Acyclovir (Zovirax)
Prodrug activated by phosphorylation by virus-specific thymidine kinase that inhibits viral replication. Herpes virus thymidine kinase (TK), but not host
cells' TK, uses acyclovir as a purine nucleoside, converting it into acyclovir monophosphate, a nucleotide analogue. Guanylate kinase converts the
monophosphate form into diphosphate and triphosphate analogues that inhibit viral DNA replication.
Has affinity for viral thymidine kinase and, once phosphorylated, causes DNA chain termination when acted on by DNA polymerase. Has activity against
a number of herpesviruses, including herpes virus B. Primarily available in preparations for PO and IV use. Patients experience less pain and faster
resolution of cutaneous lesions when used within 48 h from rash onset. May prevent recurrent outbreaks. Early initiation of therapy is imperative.
Dosing
Adult
800 mg 5 times/d for 14 d
Pediatric
Not established
Interactions
Concomitant use of probenecid or zidovudine prolongs half-life and increases CNS toxicity of acyclovir
Contraindications
Precautions
Pregnancy
Precautions
Caution in renal failure or when using nephrotoxic drugs
Valacyclovir (Valtrex)
Hydrochloride salt of the L-valyl ester of acyclovir. Rapidly converted into acyclovir after prompt absorption from the gut via first-pass intestinal or hepatic
metabolism. An alternative to acyclovir for prophylaxis (or possibly treatment).
Dosing
Adult
1000 mg PO q8 h for 14 d
Pediatric
Not established
Interactions
18 of 27 1/1/10 8:05 PM
Probenecid, zidovudine, or cimetidine coadministration prolongs half-life and increases CNS toxicity of valacyclovir
Contraindications
Precautions
Pregnancy
Precautions
Caution in renal failure (decrease dose) and coadministration of nephrotoxic drugs; associated with onset of hemolytic uremic syndrome
Follow-up
Further Inpatient Care
Patients with infected animal bites may need inpatient care. This depends on the general health of the patient, the extent and nature of the
infection, and the patient's compliance.
Consider admitting patients with hand bites that become infected (generally involving deep structures). Consider consultation with hand surgery
service if deep infection, such as involving the tendon sheath or other structures, is suspected as surgical irrigation may be indicated.
Further Outpatient Care
Close follow-up care is essential in animal bite wounds. Reevaluate a low-risk bite for signs of infection within 48 hours and a high-risk bite within
24 hours.
In some centers that have an observation unit, admission to that area for direct clinical observation and repeat doses of parenteral antibiotics can
be considered on a case-by-case basis.
Transfer
Patients who require extensive repair or prolonged inpatient care may need transfer to a tertiary care facility.
Complications
Complications of animal bite wounds may include the following:
Wound infection
Sepsis
Cosmetic deformity
Loss of limb
Loss of function
Prognosis
The prognosis of animal bite wounds is generally excellent.
Patient Education
Educating patients about the risk of infection despite proper wound care, antibiotics (if indicated), and close follow-up care is very important.
Even bite wounds that have received the best care may become infected. Teach patients the signs of infection and the need for prompt attention
if the wound should become infected.
For excellent patient education resources, visit eMedicine's Bites and Stings Center and Bacterial and Viral Infections Center. Also, see
eMedicine's patient education articles Animal Bites and Rabies.
19 of 27 1/1/10 8:05 PM
Miscellaneous
Medicolegal Pitfalls
Meticulous documentation of both the history of the bite and of treatment is important to prevent questions about the appropriateness of care.
Documentation should include a thorough assessment of neurovascular and functional status, evidence that retained foreign bodies were
carefully ruled out, decisions about antibiotic use, decisions of primary versus delayed closure, rabies risk assessment, and other aspects of
care.
In many locations, animal bites must be reported to local authorities.
Special Concerns
Pediatric patients
Previously bitten patients remain at risk if the dog, cat, or other animal that bit them continues to be aggressive or is located where
another bite could occur.
Move the animal to another location.
Multimedia
20 of 27 1/1/10 8:05 PM
Media file 1: The devastating damage sustained by a preadolescent male during a pit bull attack. Almost lost in
this photograph is the soft tissue damage to this victim's thigh. This patient required 2 units of O- blood and
several liters of isotonic crystalloid. Repair of these wounds required a pediatric surgeon, an experienced
orthopedic surgeon, and a plastic surgeon. Attacks such as these have caused a movement in some areas of the
country to ban pit bulls.
21 of 27 1/1/10 8:05 PM
Media file 2: Massive soft tissue damage of the right leg caused by a pit bull attack. This patient was
transferred to a level one pediatric trauma center for care. At times, staff members may need counseling after
caring for savagely mauled patients.
22 of 27 1/1/10 8:05 PM
Media file 3: Massive soft tissue damage of the lower left leg caused by a pit bull attack. Most of the fatalities
from dog bites are children. Rottweilers and pit bulls are responsible for about 60% of fatalities.
23 of 27 1/1/10 8:05 PM
Media file 4: A different angle of the patient in Image 3 showing the massive soft tissue damage to this child's
left lower leg. Pit bull attacks are not rare.
24 of 27 1/1/10 8:05 PM
Media file 5: Wounds to the left arm inflicted during a pit bull attack. This young patient was also bitten once
on the left side of his face.
References
1. Centers for Disease Control and Prevention. Nonfatal dog bite-related injuries treated in hospital emergency departments--United States,
2001. MMWR Morb Mortal Wkly Rep. Jul 4 2003;52(26):605-10. [Medline].
2. Chambers GH, Payne JF. Treatment of dog bite wounds. Minn Med. 1969;52:427-430. [Medline].
th
3. Freer L. Bites and injuries inflicted by wild and domestic animals. In: Auerbach PS, ed. Wilderness Medicine. 5 ed. Mosby; 2007:1133-55.
4. Dire DJ. Cat bite wounds: risk factors for infection. Ann Emerg Med. Sep 1991;20(9):973-9. [Medline].
5. Talan DA, Citron DM, Abrahamian FM, et al. Bacteriologic analysis of infected dog and cat bites. N Engl J Med. Jan
14 1999;340(2):85-92. [Medline].
6. Abrahamian FM. Dog Bites: Bacteriology, Management, and Prevention. Curr Infect Dis Rep. Oct 2000;2(5):446-453. [Medline].
25 of 27 1/1/10 8:05 PM
7. Stevens DL, Bisno AL, Chambers HF, et al. Practice guidelines for the diagnosis and management of skin and soft-tissue infections. Clin Infect
Dis. Nov 15 2005;41(10):1373-406. [Medline].
8. Gilchrist J, Sacks JJ, White D, Kresnow MJ. Dog bites: still a problem?. Inj Prev. Oct 2008;14(5):296-301. [Medline].
9. Weiss HB, Friedman DI, Coben JH. Incidence of dog bite injuries treated in emergency departments. JAMA. Jan
7 1998;279(1):51-3. [Medline]. [Full Text].
10. Sacks JJ, Lockwood R, Hornreich J, Sattin RW. Fatal dog attacks, 1989-1994. Pediatrics. Jun 1996;97(6 Pt 1):891-895. [Medline].
11. Palacio J, Leon-Artozqui M, Pastor-Villalba E, Carrera-Martin F, Garcia-Belenguer S. Incidence of and risk factors for cat bites: a first step in
prevention and treatment of feline aggression. J Feline Med Surg. Jun 2007;9(3):188-95. [Medline].
12. Moscati RM, Mayrose J, Reardon RF, Janicke DM, Jehle DV. A multicenter comparison of tap water versus sterile saline for wound
irrigation. Academic Emergency Medicine. May 2007;14 (5):404-9. [Medline].
13. Oehler RL, Velez AP, Mizrachi M, Lamarche J, Gompf S. Bite-related and septic syndromes caused by cats and dogs. Lancet Infect
Dis. Jul 2009;9(7):439-47.
14. Cummings P. Antibiotics to prevent infection in patients with dog bite wounds: a meta-analysis of randomized trials. Ann Emerg
Med. Mar 1994;23(3):535-40. [Medline].
th
15. Gilbert DN, Moellering RC, Eliopoulos FM, Sande MA, eds. Bites. In: The Sanford Guide to Antimicrobial Therapy. 37 ed. 2007:46,47,140.
16. Guy RJ, Zook EG. Successful treatment of acute head and neck dog bite wounds without antibiotics. Ann Plast
Surg. Jul 1986;17(1):45-8. [Medline].
nd
17. Trott A. Bite wounds. In: Wounds and Lacerations Emergency Care and Closure. 2 ed. St Louis, Mo: Mosby-Year Book Inc; 1997:265-84.
th
18. Weber EJ. Mammalian bites. In: Marx JA, Hockberger RS, Walls RM, eds. Rosen's Emergency Medicine: Concepts and Clinical Practice. 6
ed. Mosby; 2006:906-21.
Keywords
animal bites, animal bite management, wound management, animal bite treatment, animal bite infection, bite wound, animal bite wound, dog bite, cat
bite, pet bite, wild animal bite, bite wound infection, bite-related infection, mammal bites, rodent bites, ferret bites, rabbit bites, pit bull bite, cellulitis,
rabies, septic arthritis, Staphylococcus, Streptococcus, Pasteurella, Bacteroides, Capnocytophaga canimorsus, Eikenella, Enterobacter, Proteus,
Haemophilus, Klebsiella, Actinomyces, Fusobacterium, Peptostreptococcus, Clostridium, Wolinella, Propionibacterium, osteomyelitis
Contributor Information and Disclosures
Author
Alisha Perkins Garth, MD, Staff Physician, Harvard Affiliated Emergency Medicine Residency, Brigham and Women's Hospital, Massachusetts General
Hospital
Alisha Perkins Garth, MD is a member of the following medical societies: Alpha Omega Alpha, American College of Emergency Physicians, Emergency
Medicine Residents Association, Phi Beta Kappa, Sigma Xi, and Society for Academic Emergency Medicine
Disclosure: Nothing to disclose.
Coauthor(s)
N Stuart Harris, MD, FACEP, Assistant Professor in Surgery, Harvard Medical School, Massachusetts General Hospital; Attending Physician,
Massachusetts General Hospital
N Stuart Harris, MD, FACEP is a member of the following medical societies: American Academy of Emergency Medicine, American College of
Emergency Physicians, International Society for Mountain Medicine, and Massachusetts Medical Society
Medical Editor
Robert M McNamara, MD, FAAEM, Chair and Professor, Department of Emergency Medicine, Temple University School of Medicine
Robert M McNamara, MD, FAAEM is a member of the following medical societies: American Academy of Emergency Medicine, American Medical
Association, Pennsylvania Medical Society, and Society for Academic Emergency Medicine
26 of 27 1/1/10 8:05 PM
Pharmacy Editor
Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine

Disclosure: eMedicine Salary Employment
Managing Editor
James Steven Walker, DO, MS, Clinical Professor of Surgery, Department of Surgery, University of Oklahoma Health Sciences Center
James Steven Walker, DO, MS is a member of the following medical societies: American Academy of Emergency Medicine, American College of
Emergency Physicians, American College of Osteopathic Emergency Physicians, and American Osteopathic Association
CME Editor
John D Halamka, MD, MS, Associate Professor of Medicine, Harvard Medical School, Beth Israel Deaconess Medical Center; Chief Information Officer,
CareGroup Healthcare System and Harvard Medical School; Attending Physician, Division of Emergency Medicine, Beth Israel Deaconess Medical
Center
John D Halamka, MD, MS is a member of the following medical societies: American College of Emergency Physicians, American Medical Informatics
Association, Phi Beta Kappa, and Society for Academic Emergency Medicine
Chief Editor
Jonathan Adler, MD, Attending Physician, Department of Emergency Medicine, Massachusetts General Hospital; Division of Emergency Medicine,
Harvard Medical School
Jonathan Adler, MD is a member of the following medical societies: American Academy of Emergency Medicine and Society for Academic Emergency
Medicine
Acknowledgments
The authors and editors of eMedicine gratefully acknowledge the contributions of previous author, Jack L Stump, MD, to the development and writing of this article.
Further Reading
© 1994-2010 by Medscape.
All Rights Reserved
(http://www.medscape.com/public/copyright)
27 of 27 1/1/10 8:05 PM
Contributor Information and Disclosures
Author
Alisha Perkins Garth, MD, Staff Physician, Harvard Affiliated Emergency Medicine Residency, Brigham and
Women's Hospital, Massachusetts General Hospital
Alisha Perkins Garth, MD is a member of the following medical societies: Alpha Omega Alpha, American College
of Emergency Physicians, Emergency Medicine Residents Association, Phi Beta Kappa, Sigma Xi, and Society for
Academic Emergency Medicine
Coauthor(s)
N Stuart Harris, MD, FACEP, Assistant Professor in Surgery, Harvard Medical School, Massachusetts General
Hospital; Attending Physician, Massachusetts General Hospital
N Stuart Harris, MD, FACEP is a member of the following medical societies: American Academy of Emergency
Medicine, American College of Emergency Physicians, International Society for Mountain Medicine, and
Massachusetts Medical Society
Medical Editor
Robert M McNamara, MD, FAAEM, Chair and Professor, Department of Emergency Medicine, Temple
University School of Medicine
Robert M McNamara, MD, FAAEM is a member of the following medical societies: American Academy of
Emergency Medicine, American Medical Association, Pennsylvania Medical Society, and Society for Academic
Emergency Medicine
Pharmacy Editor
Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine
Disclosure: eMedicine Salary Employment
Managing Editor
James Steven Walker, DO, MS, Clinical Professor of Surgery, Department of Surgery, University of Oklahoma
Health Sciences Center
James Steven Walker, DO, MS is a member of the following medical societies: American Academy of Emergency
Medicine, American College of Emergency Physicians, American College of Osteopathic Emergency Physicians,
and American Osteopathic Association
CME Editor
John D Halamka, MD, MS, Associate Professor of Medicine, Harvard Medical School, Beth Israel Deaconess
Medical Center; Chief Information Officer, CareGroup Healthcare System and Harvard Medical School; Attending
Physician, Division of Emergency Medicine, Beth Israel Deaconess Medical Center
John D Halamka, MD, MS is a member of the following medical societies: American College of Emergency
Physicians, American Medical Informatics Association, Phi Beta Kappa, and Society for Academic Emergency
Medicine
Chief Editor
Jonathan Adler, MD, Attending Physician, Department of Emergency Medicine, Massachusetts General Hospital;
Division of Emergency Medicine, Harvard Medical School
Jonathan Adler, MD is a member of the following medical societies: American Academy of Emergency Medicine
and Society for Academic Emergency Medicine
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eMedicine Specialties > Emergency Medicine > Environmental

DF-2 or Capnocytophaga canimorsus

Staphylococcus hyicus subsp hyicus

Rodent bites - Rat-bite fever

Simian herpes virus

Large reptiles (crocodiles, alligators)

Time and location of event

Location of bites (most commonly on the upper extremities and face)

Distal neurovascular status

Tendon or tendon sheath involvement

Bone injury, particularly of the skull in infants and young children

Joint space violation

Foreign bodies (eg, teeth) in the wound

Bites, Human Neck Trauma

Radiographs may find foreign bodies in the wound (eg, teeth).

Encourage patients to seek prompt care.

Emergency Department Care

Use saline solution for wound irrigation.

Debride necrotic tissue and remove any foreign bodies.

If fracture or bone penetration, radiography is indicated (MRI or CT may also be indicated).

If methicillin-resistant Staphylococcus aureus (MRSA) is suspected, first-line antibiotics include trimethoprim-sulfamethoxazole,

Assess the need for rabies vaccine and immunoglobulin.

For additional information, see Medscape’s Wound Management Resource Center.

If the skull is penetrated, neurosurgery consultation is indicated.

Ampicillin and sulbactam (Unasyn)

<3 months: Not established

Imipenem and cilastatin (Primaxin)

Infants >3 months and children

Adjust dose in renal insufficiency (adult adjustments)

CrCl (mL/min) 80-50: 0.5 g q6-8h

1 g IV qd infused over 30 min

<3 months: Not established

Documented hypersensitivity to drug or amide-type anesthetics

Piperacillin and tazobactam sodium (Zosyn)

<12 years: Not established

penicillins may result in increased risk of bleeding

Meropenem (Merrem IV)

Probenecid may inhibit renal excretion of meropenem, increasing meropenem levels

Dosage adjustments (adult adjustments)

Amoxicillin and clavulanate (Augmentin)

500/125 mg PO tid or 875/125 mg PO bid

10-15 mg/kg PO tid (based on amoxicillin component)

Coadministration with warfarin or heparin increases risk of bleeding

Amoxicillin (Trimox, Biomox, Amoxil)

30-50 mg/kg/d PO divided tid; not to exceed 500 mg/dose

Reduces the efficacy of oral contraceptives

Adjust dose in renal impairment; may enhance chance of candidiasis

Ticarcillin and clavulanate potassium (Timentin)

<3 months: Not established

Cephalexin (Keflex, Biocef, Keftab)

25-50 mg/kg/d PO divided qid; not to exceed 500 mg/dose

Coadministration with aminoglycosides increases nephrotoxic potential

Sulfamethoxazole/trimethoprim (Bactrim, Bactrim DS, Septra, Septra DS)

Inhibits bacterial growth by inhibiting synthesis of dihydrofolic acid.

400-800 mg SMX PO bid

30-60 mg/kg/d SMX PO divided bid; not to exceed 800 mg/dose

Documented hypersensitivity; megaloblastic anemia due to folate deficiency

10-25 mg/kg/d PO divided qid; not to exceed 600 mg/dose

500 mg PO on day 1, then 250 mg PO qd for 4 d

Documented hypersensitivity; hepatic impairment; do not administer with pimozide

Doxycycline (Doryx, Vibramycin, Bio-Tab)

<8 years: Not recommended

Documented hypersensitivity; severe hepatic dysfunction