Document 6430583
Transcription
Document 6430583
Triage and Approach to the Acute Abdomen Elisa M. Mazzaferro, MS, DVM, PhD The presentation of a patient with acute abdominal pain often is both a diagnostic and therapeutic challenge for the veterinary practitioner. Rapid physical examination and assessment of the patient’s cardiovascular status are critical to initiating appropriate and often aggressive medical management as diagnostic tests are being performed. A number of diagnostic tests can be performed, including complete blood count, serum biochemistry profile, serum amylase and lipase, abdominal radiographs, abdominal ultrasound, abdominal paracentesis or diagnostic peritoneal lavage, cytology, and fluid analysis. In some cases, surgical exploration may be indicated, depending on each patient’s clinical signs and response to therapy. Of the most important aspects of medical management of the patient with acute abdominal pain is to maintain oxygen delivery to tissues and to treat aggressively for pain or discomfort. The initial triage and approach to the patient with acute abdomen are discussed. Copyright 2003, Elsevier Science (USA). All rights reserved. . and C receptors, events leading the free nerve endings, initiates the cascade of to nociception and recognition pain.3 First order neuron stimulation, of abdominal via afferent type A- and C fibers, transmits nerve impulses to the dorsal horn of the spinal cord. Synapse occurs here, and the ascending transmitted via spinothalamic signal is further and spinoreticular tracts to the thalamus, or reticular area of the brain.4 The tracts synapse with third order neurons cortex, ultimately that transmit resulting the signal to the cerebral in the conscious perception of the painful stimulus. Visceral pain is often a dull aching pain that is poorly localized. C fibers within caudal peritoneum the abdominal organs, mesentery, and transmit this type of pain. Sensory stimula- tion of the chemoreceptor stretch receptors within nausea and vomiting trigger zone, as well as activation the abdomen, may also initiate that may accompany visceral of the pain. In many cases, the patient with visceral pain is restless and ambulatory in an attempt to relieve discomfort.4 P resentation of the patient with acute abdominal an uncommon abdomen occurrence in veterinary is defined as a sudden abdominal sites within or outside of the abdomen prompt diagnosis and immediate tion to prevent deterioration medicine. Acute pain arising from cavity, necessitating medical or surgical interven- of the patient.l Somatic pain, also known as parietal pain, is a sharp pain that pain is not Clinical signs may can be localized to a specific area.2 Type C and type A- fibers arising in the parietal peritoneum which is often immobilizing presents with clinical signs of acute abdominal pain. The source of the pain/discomfort, however, is at a site in the periphery that shares a common nociceptive gastrointestinal way. Spinal referred peritoneum, urogenital hepatobiliary system, system, spleen, mesentery, and extra-abdominal sites, common of abdominal pain is a complex process stimulus activates free nerve endings of the patient present a diagnostic the possible the tient’s signalment tissue associated with the parietal neum.2-4 The inciting stimulus may be associated of an organ capsule, subcapsular mediators hemorrhage or organ swelling. can lead to ischemia that stimulate nociceptive dominal pain. Inflammation flammatory stance stimulate nociceptive Regardless Decreased blood eicosanoids, causes of acute abdomen. etiology of acute abdomen. panleukopenia younger including serotonin, and bradykinin, insub- can also virus, or intussusception of type A- A parvoviral history.5 Older German ated with splenic neoplasia. in or nonexistent Shepard and Golden Reof hemoabdomen associ- Large to giant breed dogs such as Great Danes, Irish Wolfhounds, ards, and Doberman of the enteritis, is more common dogs and kittens with a questionable Irish Setters, German Pinchers have a higher incidence dilatation and volvulus (GDV).@’ Deep-chested more predisposed activation In some cases, the pa- For example, and the release of leading to ab- pain can A complete may lead to a higher index of suspicion triever dogs have a higher incidence pathways, stimulus, for the practitioner. vaccination pathways. of the inciting with acute abdominal challenge such as caused by and the release of associated mediators and cytokines, P, histamine, with stretch such as that seen with mass effects or flow to an organ or site within the mesentery, trauma or thrombosis, perito- are among the most and detailed history must be obtained from the owner regarding within the wall of hollow organs, the capsule of solid organs, or connective segment within the central path- pain and neoplasia causes of referred pain in the veterinary patient. Evaluation most notably spinal referred pain.2 The pathophysiology in which an inciting of pain, pain is known as referred pain.3 The patient with referred pain be vague and nonspecific, or may clearly point to the source of pathology. Seven major sources of abdominal pain include the tract, carry this source for the patient. The third type of Shep- of gastric breeds may be to splenic torsion. Intact male dogs may be at higher risk for the development of severe prostatitis, whereas intact female dogs may develop pyometra, uterine torsion, uterine rupture, or dystocia. IO,11Female Miniature From the Small Animal Emergency and Critical Care Clinician,Wheat Ridge Animal Hospital, Wheat Ridge, CO. Address reprint requests to: Elisa M. Mazzaferro, MS, DVM, PhD, Wheat Ridge Animal Hospital, 3695 Kipling Street, Wheat Ridge, CO 80033. E-mail: [email protected] Copyright 2003, Elsevier Science (USA). All rights reserved. 1096-2867/03/l 801-0007$35.00/O doi:l 0.1053/svms.2003.36616 Clinical Techniques in Small Animal Practice, pear to be predisposed higher incidence to pancreatitis.5 of hemorrhagic Schnauzers ap- Small breed dogs have a gastroenteritis. Animals of any age can be exposed to garbage, foreign bodies, or toxins, all of which can cause clinical signs of acute abdomen. important history questions complete list of differential Vol 18, No 1 (February), 2003: An important pp l-6 to ask is noted A list of in Table 1.l A diagnoses is listed in Table 2. detailed history should be performed to deter- 1 TABLE 1. General and Specific Questions to Ask Clients of Patients Presenting with Acute Abdomen General questions What are When did Have the Has your Has your the most important signs that made you bring your pet here? these signs first start? signs been getting worse, staying the same, or improving? animal ever had any other medical problems prior to this? animal ever demonstrated any signs similar to those now? Toxin Does your animal have access to any toxins? Does your animal run loose unattended? What is the physical status of other animals in the household? Has your animal ingested garbage recently? Are they sick? Foreign body Does your animal play with or chew on toys? Underwear? Cloths? Have you noticed anything missing? Do you sew? Does your animal play with string, thread, or yarn? Vaccination Other material? status? Is your animal vaccinated? How many vaccinations has the puppy/kitten received since you first obtained Does your animal come in contact with other animals? When was your animal last vaccinated? him/her? Appetite Has there been any change in your animal’s appetite? Have you noticed any weight loss or weight gain? Has there been any increase or decrease in water consumption? Do you feed table scraps? If so, what kind and when did your animal last get some? Do you allow your animal to chew on bones? Trauma Is there a possibility that your animal has been hit by a car? Does your animal run loose unattended or have access to the street? Does your animal play rough with other animals? Has your animal been in a fight recently to your knowledge? Urination/Defecation Have you noticed any change in urination or defecation Have you noticed any diarrhea? Have you noticed any straining to defecate? What is the color of the feces? Is there blood in the feces? Does the feces appear black in color? habits? Vomiting When did you first notice vomiting? How many times has your animal vomited? When was the last episode of vomiting? What does the vomitus look like? Is there blood or coffee ground material in the vomitus? What color is the vomitus? Does the vomiting episode have an active abdominal component and retching, Is the vomitus digested or undigested food? Does the animal vomit food and water, or just food? Does the animal vomit soon after eating or at times not related to meals? Does the vomitus smell malodorous, or like feces? mine whether there is a possibility of toxin or foreign body exposure. This author often asks the same question in multiple formats to be very specific. Questions regarding vaccination status and exposure to other animals can lend insight to the possibility of viral enteritis. If a patient is vomiting, the owner should be carefully questioned as to when the vomiting first started, how many times the animal has vomited, and when the last episode of vomiting was. What is the nature of the vomitus? Is it digested or undigested food? Is it only food or does the animal vomit water, as well? Is there blood in the vomitus? How soon after eating does the vomiting occur? What is the color of the vomitus? Does it smell like feces? Projectile vomiting or vomiting soon after eating is often associated with a high GI obstruction. Hematemesis or vomitus with coffee ground appearance is suggestive of gastric ulceration. Obstruction in the lower intestinal tract may be malodorous and smell like feces. Physical examination of the patient should begin by a rapid primary survey of the severity of the clinical condition.i-3J2 First, briefly observe the patient from a distance. Is the patient restless or recumbent? Do you notice any attempts to vomit? Is 2 or is it passive in nature? the vomiting or retching episode(s) productive or nonproductive? Does the abdomen appear distended? Is the animal displaying any abnormal postures? Some animals with abdominal pain will adopt a characteristic “prayer” position in which the front end and forelimbs are bowed toward the ground or in sternal recumbancy, while the hind end remains elevated in a standing position. Other animals may adopt a stretched posture in lateral recumbancy. Animals with abdominal pain may have an abnormal gait with short choppy steps or a stiff stilted gait. Others may have excessive salivation due to nausea. Careful observation from afar can lead to a clinical impression of severity of disease and perhaps increase the index of suspicion toward a definitive diagnosis. Physical Examination Animals presenting with acute abdomen can be initially classified into one of three categories. Nonsurgical patients do not require surgery and can be managed medically. Critically ill animals require immediate surgery following rapid stabilizaELISA M. MAZZAFERRO TABLE 2. Differential Abdomen Abdominal Diagnoses for Cause of Acute wall Trauma Abscess Bruise/Hematoma Body wall hernia Gastrointestinal Gastric dilatation Gastric dilatation-volvulus (GDV) Gastrointestinal perforation Gastric ulceration Gastrointestinal obstruction Luminal foreign body Linear foreign body Mesenteric volvulus /eysplasia lntussusception Gastroenteritis Bacterial Herrrhagic gastroententrs Parasitic Toxin ingestion Obstipation Colonic ulceration Colonic perforation/rupture Dehiscence of stomach, small intestine, or colon Hepatobiliary Hepatic inflammation (toxin, infectious) Hepatic abscess Hepatic neoplasia Liver lobe torsion Cholecystitis Cholelithiasis Gall bladder mucocele Rupture of biliary tree Cholangiohepatitis Pancreatic Pancreatitis Pancreatic abscess Pancreatic neoplasia Splenic Traumatic splenic laceration Splenic neoplasia (benign or malignant) Splenic nodular hyperplasia Hemangiosarcoma Hemangioma Splenic abscess Extramedullary hematopoiesis Lymphoma Splenic torsion Urogenital Toxicosis (nephrosis) Pyelonephritis Renolithiasis Ureterolithiasis Cystic calculi Urethral obstruction Renal trauma Avulsion Rupture Neoplasia Adenocarcinoma Lymphoma Transitional cell carcinoma Renal thromboembolism Prostatitis Prostatic neoplasia Prostatic cyst Testicular torsion Testicular abscess Uterine torsion Pyometra Uterine rupture Dystocia Ovarian cyst Metritis Uterine neoplasia Peritonitis Bacterial peritonitis Chemical peritonitis (pancreatitis, biliary tree rupture, uroabdomen) Viral (FIP) Blunt abdominal trauma Penetrating abdominal trauma Lymphadenitis Mesenteric avulsion Mesenteric arterial thrombosis Sclerosing peritonitis Extra-abdominal sources of pain Intervertebral disk disease Discospondylitis Meningitis Polymyositis Steatitis Toxicities Heavy metals Envenomation Black widow spider Brown recluse spider TRIAGE AND APPROACH TO THE ACUTE ABDOMEN tion. Mesenteric volvulus, GDV, splenic torsion, splenic hemorrhage, and pyometra are examples of animals in this category. Urgent patients require surgery, but have the added benefit of buying time with medical stabilization.2 After initial assessment of the patient from a distance, the physical examination should be performed, paying particular attention to the “ABCs,” that is, the airway, breathing, and cardiovascular status of the patient. A complete physical examination of all body systems should eventually be performed; however, priority should be placed first on systems that apply to the immediate clinical condition at hand.1 Many authors agree that examination of the patient abdomen should occur last, to avoid inadvertently missing important findings that may be present in other organ systems.l Additionally, examination of the abdomen may elicit pain and discomfort that may prevent further evaluation of the patient. Careful observation of the patient’s cardiovascular perfusion parameters such as mucous membrane color, capillary refill time, heart rate, heart rhythm, pulse quality, and character should carefully be evaluated. 2~12Dehydration parameters including skin tenting, mucous membrane tachyness, and sunken appearance of the eyes should also be noted to subjectively estimate percent dehydration. Neurologic status including patient’s mental status and a perfunctory neurologic examination including posture, reflexes, and spinal palpation should be performed to help rule out spinal referred pain. A rectal examination should be performed, evaluating the pelvic urethra, colon, sublumbar lymph nodes, and color and consistency of fecal material, including whether hematochezia or melena is present. The prostate should be palpated in male dogs. The vulva should be examined in female dogs for the presence of abnormal discharge or malodorous material. Rectal temperature may be normal, hyperthermic, or hypothermic, depending on the nature and stage of the disease process. Finally, abdominal examination can proceed. Visual inspection of the external abdomen should first occur. Is the abdomen distended? Is there an obvious mass effect associated with neoplasia or hernia? Is there any external blood on the fur? Are there any obvious penetrating wounds or swelling? Is there skin bruising associated with trauma or coagulopathy? Careful observation of the periumbilical area for evidence of reddening or hemorrhage may lead to a diagnosis of hemoabdomen. It may be necessary to clip abdominal fur to fully evaluate the skin and underlying structures. After visual inspection of the abdomen is performed, the clinician should next auscult the abdomen for borborygmi to characterize gastrointestinal sounds. Ingestion of toxins, acute intestinal obstruction, and gastroenteritis may cause an increased frequency and character of gut sounds. Conditions such as ileus, anorexia, chronic intestinal obstruction, and abdominal effusions (including peritonitis) can cause decreased frequency and character of gut sounds. The clinician should auscult the abdomen carefully for 2 to 3 minutes to determine whether gut sounds are actually absent.l Abnormal gut sounds are not pathognomonic for any disease process. Additionally, early in the course of illnesses such as posttrauma or early peritonitis, gut sounds may remain normal. Following auscultation, the clinician should next proceed with percussion and ballottement of the abdomen. Hyperresonant areas of the abdomen may indicate the presence of intraabdominal air, usually within, but sometimes outside of a hollow organ. Decreased hyporesonance is indicative of ascites, intra-abdominal fluid. Ballottement can be performed by press- 3 ing gently on the side of the abdomen for a fluid wave effect. Additionally, in intra-abdominal and watching abdominal fluid may rebound carefully viscera floating against the examiner’s hand. Various stages of abdominal and other structures palpation abnormalities. Palpation is helpful in detecting may react vigorously splinting are used to detect mass effects, plication of the superficial and localizing and become their abdomen of the intes- tense, in response pain. Animals thus guarding to superficial or palpation. in fecal white blood cells may be associated After blood, urine, and fecal samples diagnostic pain, organ enlargement, tines, growth. Elevations with Salmonella spp. infection. diagnostic tests and monitoring associated with evaluating that should be performed and electrocardiogram. synchrony. Blood pressure can be evaluated using noninvasive yelping, or attempting the palpa- metric method size and consistency caudal abdomen. of structures Performing manner can potentially agnoses or a presumptive within the cranial, mid-, and the physical examination in this lead to a revised list of differential diagnosis. di- During cardiac auscul- tation, the femoral pulses should be palpated for character and means such as Doppler method next to evaluate the are and respiratory status of the patient. Heart rate and rhythm should be evaluated by auscultation groaning, tion. Deep palpation should be performed further The first and foremost the cardiovascular Other more violent reactions may include vocalizing, to bite the person performing are obtained, testing should be performed. described should (dogs). elsewhere (dogs and cats) or by oscillo- Details of these techniques in detail. 13,14 Auscultation be performed, listening carefully have been of the thorax for the presence of pulmonary crackles that can be associated with aspiration pneumonitis secondary to vomiting. Mucous membrane cyano- Cranial abdominal pain sis may be present can be associated with hepatobiliary disease, pancreatitis, troduodenal ulceration, or perforation. Caudal abdominal gaspain can occur due to hypoxemia, or can be associated with pain. An arterial blood gas is useful in distinguishing between the two. may be associated with diseases of the urogenital tatitis, pyometra, stipation. Diffuse pain often is associated may also be observed obstruction. system (pros- uterine rupture, urethral obstruction) with peritonitis, with gastrointestinal In many cases, sequential or obbut foreign bodies or arterial blood gas with electrolytes in determining the patient’s acid-base Tachypnea can be useful status. Severe hypoper- fusion with resultant lactic acidosis can occur in the hypovolemic or septic patient. If lactic acidosis is suspected, a serum High pyloric obstructions domen as described allows the clinician to accurately assess the be associated alkalosis patient’s clinical status and help determine the prioritized order loss of chloride and hydrogen ions in the vomitus. A decrease in of diagnostic ionized calcium has been demonstrated measures of the ab- patients. lactate should be measured.l5J6 tests and therapeutic examination Additionally, in severe hypoxemic that must be per- formed. nostic with a metabolic indicator oximetry Diagnostic Testing Blood and urine samples ing intravenous evaluation should fluid therapy, if possible, of organ function. cell volume (PCV), trolytes, azostick, before initiat- to establish baseline In unstable patients, stat packed total protein, urine-specific serum glucose, venous elecgravity, and activated clotting time are useful to evaluate for the presence of anemia, intravascular volume contraction/dehydration, hypoglycemia, sufficiency, and coagulation electrolyte Remember abnormalities, that splenic contraction for a complete panel, including pancreatic suspected. hemorrhage. diagnostic is trypsin- like immunoreactivity for definitive diagnosis in dogs, if later indicated. A complete blood count, including platelet and re- ticulocyte count, is also helpful in aiding a diagnosis of anemia. and white blood cell mor- phology are useful in cases in which inflammation is suspected. thrombin A complete time, activated degradation products, ruling out the presence coagulation profile, and D-dimers, A complete urinalysis pro- time, fibrin is potentially of disseminated useful in intravascular tion. Urine should be obtained via cystocentesis tra is suspected. or infection including partial thromboplastin venous catheters (jugular useful for fluid delivery, and measurement of the patient’s cardiovascatheter should be crystalloid fluids. or medial saphenous) ease of subsequent dehydration volumes are blood sampling, of central venous pressure First, estimated (CVP) .iQ should be calculated using the following formula: Body weight in kg X estimated Se- amylase and lipase, if pancreatitis White blood cell count, differential, evaluation status, an intravenous placed and the patient started on intravenous x 1000 laboratory Serum can later be evaluated for pancreatic of pulse status. can occur, causing an arti- factually normal PCV in the face of ongoing rum should be submitted renal in- cular and pulmonary Central In lieu of the less invasive method can also be utilized to evaluate the patient’s oxygen- ation status.18 Following be obtained to be a negative prog- in cats with acute pancreatitis.ir arterial blood gas sampling, may caused by excessive coagula- unless pyome- should be analyzed for Calculated dehydration percent dehydration = mls fluid deficit estimated should be replenished over a period of 12 to 24 hours. Shock volumes situations: of crystalloid when dehydration fluids are indicated in several is severe enough to cause intra- vascular hypovolemia or hypotension, orrhage is suspected, if GDV is present, if intra-abdominal hem- or if a patient is inap- propriately vasodilated and has a decreased effective circulating intravascular volume, as observed in sepsis. Appropriate crystalloid fluids for volume replacement include Plasmalyte-A (Baxter Scientific, oratories, Laboratories), Deerfield, McGaw Park, IL), Normosol-R (Abbott Lab- Abbott Park, IL), Lactated Ringers solution and 0.9% sodium IL). Calculated (Abbott chloride (Baxter Healthcare, shock volumes of fluid administra- bactiuria, pyuria, glucosuria, crystalluria, proteinuria, and renal casts. A sterile aliquot of the urine sample should be saved tion for the dog and cat are 90 ml/kg/h and 44 ml/kg/h, respec- for bacterial culture and susceptibility, shock fluid volume, if indicated. Fecal sam- tively.20 This author prefers to start with l/4 of the calculated and reassess the patient’s parameters present. pressure, blood pressure, and urine output after each incremen- intestinal presence 4 The feces should parasite be evaluated ova, and observed for the presence microscopically of for the of white blood cells and Clostridial spp. spore over- of heart rate, capillary cardiovascular ples should be saved for possible bacterial culture, if diarrhea is tal fluid bolus. If perfusion necessary to provide refill time, central venous parameters an entire improve, it may not be calculated shock ELBA volume for ’ M. MAZZAFERRO resuscitation. Conversely, ongoing fluid losses or severe vaso- dilation may require an entire shock volume, with or without an added colloid for intravascular fluid support. Large volumes of crystalloid fluids can potentially be detrimental by diluting out clotting factors21 red blood cells, and serum proteins. The net effect is to diminish oxygen-carrying colloid oncotic pressure. or packed red blood cells can be administered if ongoing hem- orrhage or anemia is present. Plasma can be administered Synthetic albumin colloids such as Hetastarch maceuticals, Wilmington, Baxter Healthcare) and clotting (Hespan; can be administered ml/kg/d.20 Stroma-free purified hemoglobin rate infusion Pharbo- patients, rate infusion of 20 (Oxyglobin; MA) can also be administered boluses or as a constant Bio- in 3 to 7 mUkg of 20 to 30 mYkg for its colloidal effects and as an oxygen carrier in the anemic patient. Definitive following diagnostic stabilization Ancillary diagnostic dominal radiographs, evaluation Abdominal diagnostic ultrasound, diagnostic fluid, when present, and bacterial peritonitis. findings will allow the clinician versus surgical intervention include ab- or four- lavage, tho- contrast studies. should be evaluated uroperitoneum, tests in combination status. single peritoneal and possibly radiographic dence of hemorrhage, perforation, cardiovascular tests that may be performed quadrant abdominocentesis, racic radiographs, of the patient can proceed of the patient’s abdominal pancreatitis, for evi- biliary tree In many cases, results of with physical to determine examination where medical is appropriate. One of the most important therapies in the patient with acute abdominal pain is the administration of analgesic agents. Analgesic agents should be administered surgical management in all cases of medical or in which immediate pain cannot be accomplished. relief of abdominal A wide armamentarium gesic agents is available to the veterinary of anal- practitioner. A list of analgesic agents and doses is shown in Table 3. Other important treatment priorities include preventing vomiting and hypotension. Opioid agents such as morphine, ers, may induce vomiting may be less appropriate quilizers should in the ambulatory not be used. Although they have no analgesic properties, sion thorough while potent pain relievpatient, and thus than other agents. Phenothiazine pounds such as chlorpromazine Ondansetron 0.1-l .O mg/kg IV slowly ql2-24 hours (dogs) 0.1-i .O mg/kg q8-12 hours (cats) 0.3 mg/kg (dogs) l-2 mg/kg/d IV CRI (dogs and cats) 0.1-0.5 mg/kg SQ, PO TID (dogs and cats) Dolasetron Metoclopramide IV = intravenously; CRI = constant rate infusion; SQ = subcutaneously; q = every; TID = three times daily. (Gentran-70; in 5 to 10 mVkg should be followed by a constant pure, Cambridge, Dose at a factors. DuPont DE) and Dextran-70 luses to provide oncotic support. In hypoproteinemic boluses Drug capacity and effective Natural colloids such as whole blood dose of 20 mL/kg for providing TABLE 4. Antiemetic Agents for Use in the Veterinary Patient with Acute Abdomen phenothiazine are potent antiemetic and may potentiate their or-adrenergic blocking vasodilatory trancomagents, hypoteneffects. Additional therapeutics use of antiemetic as metoclopramide, dolasetron Dose Morphine 0.5-l .O mg/kg SQ IM (dogs) 0.1 mg/kg/h IV CRI (dogs) 0.05 mg/kg/h IV CRI (cats) 0.1 mg/kg IV (dogs and cats) 0.2-0.4 mg/kg SQ (dogs) 0.005-0.02 mg/kg IM, IV, SQ q6-12 hours (dogs) 0.005-0.01 mg/kg IM, IV, SQ q6-12 hours (cats) 2 mcg/kg IV bolus, followed by l-5 mcg/kg/h IV CRI (dogs and cats) 0.1-0.2 mg/kg IM, IV, SQ (dogs and cats) Butorphanol Buprenorphine Fentanyl Hydromorphone SQ = subcutaneously; infusion; q = every. TRIAGE AND APPROACH IM = intramuscularly; CRI = constant rate TO THE ACUTE ABDOMEN A list of dosages is provided in also acts as a promotility if gastrointestinal Positive inotropes pg/kg/min IV constant such such as obstruction such as dobutamine rate infusion [CRI]) is (3 to 10 and vasopressors such as dopamine (5 to 10 pg/kg/min IV CRI) may be necessary in cases of refractory starting hypotension. broad spectrum Gram-negative, Combination Many antibiotics, aerobic, authors covering and anaerobic advocate Gram-positive, bacterial therapy such as Ampicillin times per day) and Enrofloxacin spectrum. (22 mg/kg IV three (2.5 to 5 mg/kg IV twice per day) is an appropriate choice. Another choice is a second gen- eration such as Cefoxitin cephalosporin times per day). Metronidazole (22 mg/kg IV three (10 to 15 mg/kg IV three times per day) may also be added to the antibiotic tional anaerobic Triage and assessment apeutic challenge tive diagnosis regimen for addi- coverage. pain and associated of the patient with acute abdominal clinical signs remain a diagnostic to the veterinary and ultimate clinical stabilization practitioner. treatment and ther- While defini- are the primary of the patient’s cardiovascular goals, and respira- tory status is of utmost importance, often taking priority over invasive and noninvasive testing until the patient’s condition diagnostic is more stable. Many diagnostic nor sensitive for.one particular problem, use a combination of history, and results of diagnostic therapy. Prognosis physical tests are not specific so the clinician must examination findings, testing to guide specific and definitive and definitive treatment ultimately depend on each individual patient’s primary problem and the presence of secondary complicating nostic and therapeutic dominal Drug uptake inhibitors metoclopramide agent, its use is contraindicated a possibility. include the dopamine antagonists and serotonin and ondansetron. Table 4. Because sis, diagnostic TABLE 3. Analgesic Agents for Use in the Veterinary Patient with Acute Abdomen that should be considered agents, including anesthesia, abdomen, factors. Further modalities, peritoneal lavage, cytologic fluid, radiographic and surgical is mentioned interpretation, approach discussion including of diag- abdominocenteevaluation of ab- ultrasonography, to the patient with acute elsewhere in this issue. References 1. Mann, FA: Acute abdomen: Evaluation and emergency treatment, in Bonagura JD (ed): Kirk’s Current Veterinary Therapy XIII. Philadelphia, PA, WB Saunders, 2002, pp 160-164 2. Macintire DK: The acute abdomen-differential diagnosis and management. Semin Vet Med Surg (Small Anim) 3:302-310, 1988 3. Dillon AR, Spano JS: The acute abdomen. Vet Clin North Am Small Anim Pratt 13:461-475, 1983 4. Saxon WD: The acute abdomen. Vet Clin North Am Small Anim Pratt 24:1207-l 224, 1994 5. Leveille CR: The acute abdomen, in Bonagura JD, Kirk RW (eds): 5 Current Veterinary Therapy Xl. Philadelphia, pp 125-131 Hosgood G: Gastric dilatation-volvulus 204:1742-l 747, 1994 Glickman LT, Glickman for gastric dilatation 1992, in dogs. J Am Vet Med Assoc NW, Perez CM, et al: Analysis and dilatation-volvulus Assoc 204:1465-l 471, 1994 Glickman LT, Glickman NW, Schellenberg breed-related PA, WB Saunders, of risk factors DB, et al: Incidence risk factors for gastric dilatation-volvulus syndrome in a veterinary and 1995 11. Biddle critical care unit: 295 cases (1986manage- disease in the dog. Semin Vet Med Surg 10:35-42, D, Macintire DK: Obstetrical emergencies. Anim Pratt 1588-93, 2000 12. Walters PC: Approach to the acute abdomen. 6 RL, Rapoport GS: Clinical comparison 18. 19. Clin Tech Small 20. Clin Tech Small Anim 21. Pratt 15:63-69, 2000 13. Kittleson MD, Olivier NB: Measurement of systemic arterial blood pressure. Vet Clin North Am Small Anim Pratt 13:321-335, 1983 14. Stepien 17. in dogs. J Am 1992). J Am Vet Med Assoc 207:460-465, 1995 10. Peter AT, Steiner JM, Adams LG: Diagnosis and medical ment of prostatic 16. in dogs. J Am Vet Med Vet Med Assoc 216:40-45, 2000 Brockman DJ, Washabau RJ, Drobatz KJ: Canine gastric dilatation/ volvulus 15. of three methods to measure blood pressure in nonsedated dogs. J Am Vet Med Assoc 215:1623-1628, 1999 Lagutchik MS, Ogilvie GK, Wingfield WE, et al: Lactate kinetics in veterinary critical care: a review. J Vet Emerg Crit Care 6:81-95,1996 Lagutchik MS, Ogilvie GK, Hackett TB, et al: Increased lactate concentrations in ill and injured dogs. J Vet Emerg Crit Care 8:117127, 1998 Kimmel SE, Washabau RJ, Drobatz KJ: Incidence and prognostic value of low plasma ionized calcium concentration in cats with acute pancreatitis: 46 cases (1996-1998). J Am Vet Med Assoc 19:110511 09,200l Machon RG, Raffe MR, Robinson EP: Central venous pressure measurements in the caudal vena cava of sedated cats. J Vet Emerg Crit Care 5:121-l 29, 1995 Proulx J: Respiratory monitoring: arterial blood gas analysis, pulse oximetry, and end-tidal carbon dioxide analysis. Clin Tech Small Anim Pratt 14:227-230, 1999 Kirby R, Rudloff E: The critical need for colloids: maintaining fluid balance. Comp Contin Educ Pratt Vet 19:705-718, 1997 Chan DL, Rozanski EA, Freeman LM, et al: Dilutional effects of saline, hetastarch, and fresh frozen plasma on clotting times, in: Scientific Proceedings, Eighth International Veterinary Emergency and Critical Care Symposium. San Antonio, TX, Veterinary Emergency and Critical Care Society, 2002, p 783 ELISA M. MAZZAFERRO