Tuesday, June 30, 2015

Babesiosis: what is it?

BABESIOSIS:

Basics
Description
  • Tick-borne, malarialike disease caused by an intracellular parasite that invades the red blood cells.
  • Protozoa pass from tick salivary glands to mammalian bloodstream.
  • Erythrocytes are penetrated and infected by parasites that mature and divide.
  • RBC membrane damage and lysis leads to hemolytic anemia and hemoglobinuria.
  • Damaged RBCs become less deformable, enhancing removal by spleen.
  • Asplenic patients are less able to clear infected RBCs, leading to more severe disease.
  • Damaged RBCs may result in microvascular stasis with secondary ischemic organ injury.
  • Subsequent complications can include renal failure secondary to acute tubular necrosis, shock, cardiac failure, hypotension, acute respiratory distress syndrome (ARDS), and disseminated intravascular coagulation (DIC)
  • Babesiosis in Europe:
    • Often a fulminate disease in immunocompromised patients
    • 40% mortality in asplenic patients
    • Bovine strain (Babesia divergens)
  • North America:
    • Usually presents as mild or subclinical disease in immunocompetent patients (5% mortality)
    • Rodent strain (Babesia microti) in the Northeastern United States
    • Canine strain (Babesia gibsoni) in the Northwestern United States
  • Incubation period:
    • 1-4 weeks after tick bite
    • 6-9 weeks after transfusion
  • Geographic distribution in the United States:
    • Coastal areas of Northeastern United States
    • Emerging clusters:
      • Midwest (Minnesota, Wisconsin, Missouri)
      • West coast (California, Washington)
      • Seasonal distribution: 80% of human cases occur between May and August when tick nymph populations and human outdoor activity are highest.
  • Risk factors for severe disease:
    • Age >40 years
    • Splenectomy
    • Depressed cellular immunity (HIV, corticosteroid use, other immunosuppressive drugs)
    • Co-infection with Lyme disease
    • In immunosuppressed patients, up to 85% of RBCs may be infected.
Etiology
  • Intraerythrocytic protozoa of the genus Babesia
  • Transmitted to humans by the Ixodes tick:
    • Ixodes ricinus in Europe
    • Ixodes scapularis in the United States
    • Animal reservoirs:
      • Cattle in Europe
      • White-footed mouse in the United States
  • I. scapularis:
    • Requires a blood meal to develop through each of it's three developmental stages.
    • Larvae:
      • Feed on white-footed mice
    • Nymphs:
      • Feed on humans
      • Nymph form is 1-2 mm in length
      • Tan color
      • Patients may not recall being bitten
    • Adult ticks:
      • Generally feed on white-tailed deer
    • Also the vector for Lyme disease and ehrlichiosis
  • Transfusion-associated infections are possible:
    • Parasitemia not always visible on donor blood smear.
    • Risk of transmission in endemic areas reported to be 0.17%.
Pregnancy Considerations
Transmission can occur in utero and during delivery; youngest reported case was a 4-week old infant.
Diagnosis
Signs and Symptoms
Clinical spectrum ranges from mild to fulminate with symptoms lasting from weeks to months.
History
  • Mild flulike illness
  • Fatigue
  • Anorexia
  • Myalgias
  • Arthralgias
  • Cough
  • Nausea
  • Vomiting
  • Headache
  • Emotional lability
Physical Exam
  • Conjunctival injection
  • High-spiking fevers
  • Shaking chills
  • Drenching sweats
  • Rash:
    • Uncommon
    • Petechial or purpuric rash caused by associated thrombocytopenia
    • Erythema migrans if concurrent Lyme disease
  • Respiratory distress
  • Dark urine
  • Jaundice
  • Hepatosplenomegaly
  • Meningismus
  • Altered sensorium
  • Hypotension
  • ARDS
  • DIC
Essential Workup
  • History of nonspecific febrile illness in any patient with recent outdoor activities or transfusion in an endemic area during warm weather should prompt consideration of diagnostic workup for babesiosis, especially if associated with hematuria, jaundice, anemia, splenomegaly, and lymphocytosis.
  • Septic presentation in patients with above history and risk factors (asplenia, immunocompromised, age >40 years) should prompt consideration of diagnostic workup and empiric treatment for babesiosis
Tests
Lab
  • Nonspecific studies:
    • CBC (anemia, thrombocytopenia, mild leukopenia, atypical lymphocytosis)
    • Liver function studies (elevated alkaline phosphatase, transaminases, lactate dehydrogenase, bilirubin)
    • Urinalysis (hemoglobinuria, proteinuria)
    • Hemolysis profile (elevated reticulocyte count, decreased serum haptoglobin, hyperbilirubinemia, elevated lactate dehydrogenase, hemoglobinuria)
    • Elevated blood urea nitrogen, creatinine suggests renal insufficiency
    • Elevated serum potassium may result from massive hemolysis
  • Specific diagnostic studies:
    • Peripheral blood smear:
      • Microscopy of Giemsa- or Wright-stained thin smears
      • Parasites within RBCs can be round, oval, or pear shaped
      • Most common appearance is round (ring forms) to oval (pyriform) rings with pale blue cytoplasm and red-staining nucleus; extracellular parasites may also be seen
      • Parasites in budding tetrad formation (Maltese cross) are a rare, but highly suggestive finding of babesiosis.
      • Level of parasitemia can range from <1->85%; higher levels more common in splenectomized patients
    • Polymerase chain reaction:
      • Available for both Babesia microti and B. divergens
      • Higher sensitivity, equal specificity to blood smear
      • Useful in cases with very low levels of parasitemia
      P.125

    • Serology:
      • Indirect immunofluorescent antibody assay
      • Serum antibody titer usually rises within a few weeks of infection; falls off slowly over months
      • Titers of 1:64 or higher considered positive (acute or prior infection); serology may remain positive for years
      • Titers of 1:256 or more are indicative of acute infections
  • Blood and urine cultures if presentation consistent with sepsis
  • Cerebrospinal fluid analysis if presentation suggestive of CNS infection
Imaging
  • Chest radiograph indicated for respiratory complaints or evidence of hypoxia
  • Head CT may be indicated in setting of altered mental status.
  • Abdominal CT may be indicated in setting of splenomegaly and hypotension.
  • ECG indicated for ischemic symptoms
Differential Diagnosis
  • Malaria
  • Other tickborne diseases:
    • Lyme disease
    • Ehrlichiosis
    • Rocky Mountain spotted fever
    • Colorado tick fever
    • Q fever
    • Tularemia
    • Relapsing fever
  • Typhoid fever
Treatment
Alert
Acute respiratory failure, shock, and myocardial infarction have been reported as complications of babesiosis.
Pre Hospital
  • Ensure a patent airway
  • Provide supplemental oxygen and ventilatory assistance as needed
  • If patient appears to be in shock, establish IV access and administer a fluid bolus of 0.9% normal saline 500 mL (peds: 20 mL/kg) IV
Initial Stabilization
  • Airway management, ventilatory support for patients with acute respiratory failure
  • Pulse oximetry: hypoxia may be present in patients with severe disease.
  • IV access should be established in patients with evidence or risk factors for severe disease.
  • IV fluids
  • Pressor support for patients in shock
ED Treatment
  • Start empiric antibiotic therapy with two drug regimen in patients at risk with significant symptoms and/or shock
  • Clindamycin plus quinine:
    • Adverse effects (tinnitus, abdominal complaints) or treatment failure may limit use.
  • Atovaquone plus
    • Comparable efficacy to clindamycin-quinine (65% versus 73%) with fewer adverse effects (12% versus 67%) and may be used as an alternative
  • Exchange transfusion as adjunctive therapy in patients with severe symptoms or risk factors for severe disease:
    • Immunodeficiency
    • splenia
    • Severe hemolysis
    • B. divergens infection
    • High-level parasitemia (>10%)
  • Antibiotic therapy in known mild or asymptomatic cases due to risk of transmission via blood transfusion or recrudescence, especially if risk factors for severe disease are present
  • Hemodialysis may be indicated for patients with acute renal failure
  • Treat fever with antipyretics
Medication (Drugs)
  • Acetaminophen: 325-1,000 mg (peds: 40-60 mg/kg/24h) PO/PR q4h-q6h PRN
  • Atovaquone: 750 mg (peds: 40 mg/kg/24h) PO b.i.d. × 7 days
  • Azithromycin: 500 mg (peds: 10 mg/kg up to max. 500 mg) PO on day 1, followed by 250 mg (peds: 5 mg/kg up to max. 250 mg) PO per day: 6 days
  • Clindamycin: 300-600 mg (peds: 20 mg/kg/24h in 3 div. doses) PO q8h 7-10 days
  • Ibuprofen: 200-400 mg (peds: 20-40 mg/kg/24h) PO q6h-q8h PRN
  • Quinine: 650 mg (peds: 25 mg/kg/24h) PO q8h × 7-10 days
    • Quinine is contraindicated in pregnancy
Follow-Up
Disposition
Admission Criteria
  • Patients with severe disease:
    • Severe, symptomatic anemia
    • Jaundice
    • Renal insufficiency
    • Respiratory distress
    • DIC
    • Shock
  • Patients at risk of developing severe disease:
    • Immunodeficiency, asplenia
    • Severe hemolysis
    • B. divergens infection
    • High-level parasitemia (>10%)
  • Patients requiring exchange transfusion
Discharge Criteria
  • Patients with asymptomatic or mild disease
  • Intact spleen
  • Able to tolerate oral medications

Sunday, June 28, 2015

Abruptio Placentae

Abruptio Placentae

Basics
Description
  • Rupture of vessels in the decidua basalis leading to premature separation of the normally implanted placenta occurring after 20 weeks gestation but prior to delivery of the infant
  • Incidence/prevalence:
    • Approximately 1% of all pregnancies
    • 30% of bleeding episodes in the second half of pregnancy
    • 15% of all fetal deaths
    • 6% of all maternal morality. Risk of recurrence 10–20%
  • Risk factors:
    • Maternal hypertension (>140/90)
    • Trauma
    • Increased parity
    • Previous abruption
    • Tobacco use
    • Cocaine abuse
    • Preterm premature rupture of membranes, especially if associated with intrauterine infection or oligohydramnios
    • Polyhydramnios with rapid decompression on membrane rupture
    • Precipitous first twin delivery endangers second twin.
    • Fibroids or other uterine or placental abnormalities
Genetics
Inherited thrombophilias also increase the risk of abruption (factor V Leiden

Abdominal Trauma, Blunt

Abdominal Trauma, Blunt

Basics
Description
  • Injury results from a sudden increase of pressure to abdomen.
  • Solid organ injury usually manifests as hemorrhage.
  • Hollow viscous injuries result in bleeding and peritonitis from contamination with bowel contents.
Etiology
  • Sixty percent result from motor vehicle collisions.
  • Solid organs are injured more frequently than hollow viscous organs.
  • The spleen is the most frequently injured organ (25%), followed by the liver (15%), intestines (15%), retroperitoneal structures (13%), and kidney (12%).
  • Less frequently injured are the mesentery, pancreas, diaphragm, urinary bladder, urethra, and vascular structures.
Pediatric Considerations
  • Children tend to tolerate trauma better because of the more elastic nature of their tissues.
  • Owing to the smaller size of the intrathoracic abdomen, the spleen and liver are more exposed to injury because they lie partially outside the bony rib cage.
Diagnosis

Wednesday, November 2, 2011

ABDOMINAL PAIN-causes, symptoms, management

Abdominal Pain

Description
  • Parietal pain:
    • Irritating material causing peritoneal inflammation
    • Pain transmitted by somatic nerves
    • Exacerbated by changes in tension of the peritoneum
    • Pain characteristics:
      • Sharp
      • Well localized
      • Abdominal tenderness
      • Involuntary guarding
      • Rebound tenderness
      • Exacerbated by movement and coughing
  • Visceral pain:
    • Distention of a viscous or organ capsule or spasm of intestinal muscularis fibers:
      • Pain is generally poorly localized.
      • Colicky with intestinal distention
      • Constant with a distended gallbladder or kidney
    • Inflammation:
      • Initially, the pain is poorly localized.
      • Focal tenderness develops as the inflammation extends to the peritoneum or localizers.
    • Ischemia from vascular disturbances:
      • Pain is severe and diffuse with catastrophic vascular emergencies
      • Pain is disproportional to the abdominal examination
  • Referred pain:
    • Felt at distant location from diseased organ
    • Due to an overlapping supply by the affected neurosegment to the perceived location of pain
  • Abdominal wall pain:
    • Constant
    • Aching
    • Muscle spasm
    • Involvement of other muscle groups
Etiology
  • Peritoneal irritants:
    • Gastric juice
    • Fecal material
    • Pus
    • Blood
    • Bile
    • Pancreatic enzymes
  • Visceral obstruction:
    • Small intestines
    • Large intestines
    • Gallbladder
    • Ureters and kidneys
    • Visceral ischemia
    • Intestinal
    • Renal
    • Splenic
  • Visceral inflammation:
    • Appendicitis
    • Inflammatory bowel disorders
    • Cholecystitis
    • Hepatitis
    • Peptic ulcer disease
    • Pancreatitis
    • Pelvic inflammatory disease
    • Pyelonephritis
  • Abdominal wall pain
  • Referred pain:
    • The possibility of intrathoracic disease must be considered in every patient with abdominal pain.
Diagnosis
Signs and Symptoms
  • General:
    • Anorexia
    • Malaise
    • Tachycardia
    • Hypotension
    • Fever
    • Nausea
    • Vomiting:
      • Etiology requiring surgical intervention is less likely when vomiting precedes the onset of pain
  • Abdominal:
    • Diarrhea
    • Constipation
    • Distended abdomen
    • Abnormal bowel sounds:
      • High-pitched rushes with bowel obstruction
      • Absence of sound with ileus or peritonitis
      • Often unreliable
    • Pulsatile abdominal mass
    • Rovsing sign:
Related Posts Plugin for WordPress, Blogger...