Infectious Disease – Bell’s Palsy
BASICS DESCRIPTION • Bell’s palsy is characterized by acute, idiopathic, unilateral paralysis of the facial nerve. • Approximately fifty percent of facial nerve palsy cases are classified as “Bell’s palsy.” Bilateral illness constitutes a rare subtype, accounting for 0.3%. ETIOLOGY • Herpes simplex virus • Herpes zoster virus, including herpes zoster oticus • Negative occurrence after to vaccination Epidemiology Incidence • Rates range from 13 to 34 instances per 100,000 in the United States. • Incidence peaks among individuals aged 20–35 years and those over 70 years. • The distribution of boys and females is equal. • Bell's palsy is the predominant etiology of VII nerve palsy in pediatric patients. RISK FACTORS • Gestation • Diabetes mellitus • Hypertension in individuals over 40 years GENERAL PREVENTION Currently, there is no method to avert Bell's palsy. DIAGNOSIS • Sudden onset within one to two days, fast advancement of partial or complete unilateral facial nerve paralysis • Reduced tear and saliva secretion on the affected side • Hyperacusis • Dysgeusia • Retroauricular pain DIFFERENTIAL DIAGNOSIS The differential diagnoses list is extensive and includes, among others: • Echovirus and enterovirus infections • Lyme disease • HIV infection, onset during seroconversion • Otitis media and mastoiditis • Mycobacterium tuberculosis • Syphilis • Infectious meningitis • Rubella • Tetanus • Mycoplasma • Cholesteatoma • Sarcoidosis • Sjögren’s syndrome • Systemic lupus erythematosus • Melkersson–Rosenthal syndrome • Cerebral aneurysm • Tumor of the parotid gland • Melanoma of the head and neck • Meningioma • Carcinomatous meningitis • Granulomatous meningitis of unknown cause • Guillain-Barré syndrome • Pseudobulbar palsy • Birth trauma • Petrous bone fractures • Iatrogenic/surgical complications • Paget's disease • Consider bilateral facial nerve paralysis in the context of: – Lyme disease – Sarcoidosis DIAGNOSTIC TESTS & INTERPRETATION Laboratory • Electrodiagnostic examinations: Patients with an incomplete, typical lesion who recover do not require additional investigation. - Electromyography (EMG) Electroneurography (also known as evoked electromyography) Imaging Imaging is required if the clinical presentation is abnormal, development is gradual, or there is no improvement after six months. A CT or MRI scan may be necessary to exclude intracerebral pathology or middle ear disease in complex cases. Recent studies indicate that the ultrasonography diameter of the distal VII nerve is a reliable prognostic indicator for Bell's palsy at three months post-onset. THERAPY Early administration of prednisolone markedly enhances the likelihood of full recovery at 3 and 9 months (Recommendation Grade 1A). Treatment must commence within three days. The advised dosage is 60–80 mg each day for one week. • Antivirals are designated for severe facial palsy (Recommendation Grade 2C). • Safeguarding the ipsilateral eye with artificial tears and lubricating ointments throughout nocturnal hours. The topic of surgical decompression remains contentious. CONTINUOUS CARE • Crucial for ocular health and mental well-being. COMPLICATIONS • Incomplete healing in one-third of patients • Keratitis and corneal abrasions Recurrence has been noted in 7–15% of instances.
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Infectious Disease -Bartonellosis (Oroya Fever/Verruga Peruana)
A disease caused by Bartonella bacilliformis, transmitted by the Phlebotomus sandfly, occurring in endemic regions in two distinct manifestations: • Nonimmune individuals exhibit an acute febrile sickness accompanied by severe anemia (Oroya fever). • Following a variable duration post-resolution, a persistent, benign cutaneous manifestation may arise, marked by angioproliferative skin lesions (verruga peruana). The former exhibit a notable resemblance to lesions of bacillary angiomatosis, induced by Bartonella henselae and Bartonella quintana. EPIDEMIOLOGY Frequency The disease is only confined to the valleys of the Andes River at elevations ranging from 600 to 2,500 meters in Peru, Ecuador, and Colombia. • The majority of Oroya fever cases arise in tourists or visitors who are immunologically inexperienced. The majority of verruga peruana cases occur within the indigenous community, with infrequent instances identified in the United States. RISK FACTORS Life in endemic regions and exposure to the sandfly vector GENERAL PREVENTION Prevention necessitates the regulation of the sandfly vector: Application of dichlorodiphenyltrichloroethane (DDT) on both the interiors and exteriors of residences, utilization of insect repellents, and implementation of bed netting. PATHOPHYSIOLOGY • Bartonella spp. infiltrate erythrocytes and endothelial cells. • They proliferate within intracellular vacuoles in the erythrocytes. The latter are subsequently engulfed and eliminated by the reticuloendothelial system. ETIOLOGY • B. bacilliformis is a diminutive, gram-negative bacillus belonging to the class Proteobacteria, closely associated with B. quintana. • It is spread through an arthropod vector, specifically the sandfly (Phlebotomus). DIAGNOSTIC HISTORY The incubation period for Oroya fever is approximately 3 weeks, with a maximum duration of 100 days. The development of symptoms, primarily due to elevated temperature and severe anemia, may be either acute or subacute. • Infectious problems arise from temporary immunosuppression. The acute phase is followed by the convalescent period. • Verruca skin lesions (nodules) manifest in clusters during a period of 1 to 2 months, after a variable interval after the remission of Oroya fever. Acute manifestation (Oroya Fever) • Subacute presentation (mild fever, malaise, cephalalgia, anorexia). • Abrupt onset (elevated temperature, chills, sweating, cephalalgia, and alterations in cognitive function, succeeded by the rapid emergence of severe anemia). • Myalgia and arthralgia. • Dyspnea and angina; the patient may get the sensation that The heart pulse is conveyed to the head and ears. • Anasarca serves as an indicator of unfavorable prognosis. • Insomnia, delirium, diminished awareness, coma. • In the ensuing convalescent (critical) phase, fever abates and anemia symptoms ameliorate. PHYSICAL EXAMINATION Oroya Fever • Elevated temperature • Indicators of severe anemia • Generalized, nontender lymphadenopathy • Splenomegaly is uncommon; if observed, it may suggest an additional concomitant infection • Thrombocytopenic purpura Peruvian Wart Miliary lesions comprise many papular, erythematous, round lesions measuring 1–4 mm, often accompanied by pruritus (1). Nodular lesions, typically located on the skin and subcutaneous tissues of exposed body areas, may also involve mucous membranes and interior organs. Mular lesions generally exceed 5 mm in diameter. Characterized by erythema and a propensity to hemorrhage quickly. • Lesions at different stages of development may be simultaneously present. • Local tenderness is absent unless the patient has a secondary infection. DIAGNOSTIC TESTS AND INTERPRETATION Laboratory In the acute phase, diagnosis is established through a positive culture (blood or bone marrow) or the identification of many organisms attached to red blood cells in peripheral thin-film blood smears (utilizing Giemsa or Wright stain). The bacterial count decreases sharply during convalescence. Peripheral blood smears may reveal macrocytosis, poikilocytosis, Howell–Jolly bodies, nucleated red blood cells, and immature myeloid cells. The leukocyte differential exhibits a leftward shift, but the total count may remain within normal limits. • Severe anemia; negative Coombs' test In the subacute form, initial peripheral blood smears may yield negative results; diagnosis can be established through positive blood cultures. Diagnosis of the chronic type can be achieved through the identification of the causal agent in culture. Samples from cutaneous lesions and bone marrow cultures. • Blood cultures may yield positive results in asymptomatic patients. • Serological assays (ELISA, indirect fluorescent antibody, western immunoblot) can assist in diagnosis (2,3). Pathological Findings: Skin biopsy, bone marrow aspiration, and biopsy specimens from further afflicted organs are utilized. Enhanced angiogenesis, Rocha-Lima inclusions within endothelial cells The polymerase chain reaction (PCR) for the detection of B. bacilliformis is currently in development. DIFFERENTIAL DIAGNOSIS • The acute phase can be readily distinguished from other endemic febrile conditions (e.g., malaria, typhoid fever, leptospirosis) through the analysis of peripheral blood smears and bacterial cultures. • Verruga peruana lesions bear resemblance to those of bacillary angiomatosis, Kaposi’s sarcoma, lymphoproliferative disorders, and other neoplasms. The primary diagnostic indicator is epidemiology. THERAPEUTIC PHARMACEUTICAL Oroya fever: Administer chloramphenicol (500 mg orally or intravenously every 6 hours) in conjunction with a secondary antibiotic, preferably a beta-lactam (such as penicillin), for a duration of 14 days (AII) (4). Chloramphenicol is effective against salmonellosis, the prevalent secondary infection. The suggestion to incorporate a beta-lactam stems from the understanding that chloramphenicol alone is not dependable. • Verruga peruana: – Administer Rifampin at a dosage of 10 mg/kg daily, not exceeding 600 mg daily, for a duration of 10–14 days (AII) orally (4). Second Line • Oroya fever: – Administer Doxycycline 100 mg orally twice daily for 14 days The bacteria exhibits a prevalent resistance to ciprofloxacin. Consequently, quinolones are not advised. • Verruga peruana: – Administer streptomycin at a dosage of 15–20 mg/kg intramuscularly on a daily basis for a duration of 10 days (AII) SUPPLEMENTARY THERAPY Comprehensive Strategies Supportive and symptomatic treatment is essential in the acute form; employ blood transfusion to ameliorate anemia. OPERATIVE INTERVENTIONS/ADDITIONAL PROCEDURES Extensive and secondarily infected cutaneous nodules may require surgical removal. INPATIENT CONSIDERATIONS Criteria for Admission The suitable health care environment is inpatient for acute conditions and outpatient for chronic conditions. CONTINUING MANAGEMENT POST-TREATMENT GUIDELINES • Assess hydration levels and perform a complete blood count during the acute phase. Monitor indicators of further infections: Splenomegaly, recurrent fever accompanied by leukocytosis throughout the convalescent phase, and diarrhea. Observe verruca lesions for indications of subsequent infections. PROGNOSIS • Untreated Oroya fever may result in mortality rates of 50–88%. • Fever resolves within 24 hours following suitable antibiotic therapy, however bacteremia may endure for extended durations. COMPLICATIONS • Verruca lesions exhibit a varied response to antimicrobial therapy. • Secondary bacterial infections, such as salmonellosis and other intestinal infections, malaria, and tuberculosis, are prevalent (45%) during the convalescent phase of Oroya fever. • Verruga lesions may become secondarily infected, leading to pustulation, ulceration, and hemorrhage. Balanitis
FUNDAMENTAL DESCRIPTION Inflammation and/or infection of the glans penis. Balanoposthitis encompasses inflammation of the prepuce. This chapter will examine the infectious etiologies. Epidemiology Frequency • Sexual exposure; heightened prevalence in men with female partners suffering from Candida vaginitis. • Balanitis in young boys frequently occurs alongside diaper dermatitis. RISK FACTORS • Men who are uncircumcised • Diabetes, particularly new-onset diabetes • For Candida, both colonization and infection age serve as independent risk factors • Comprehensive-spectrum antibiotics • Immunodeficiency • Inadequate hygiene GENERAL PREVENTION • Circumcision • Proper hygiene • Treatment of sexual partner(s) diagnosed with Candida vaginitis or Trichomonas CAUSES The pathogens implicated in infectious balanitis include, among others: • Candida species • Trichomonas species • Anaerobic bacteria/Bacteroides species/Gardnerella vaginalis • Chlamydia • Neisseria gonorrhoeae • Human papillomavirus (HPV) • Herpes simplex virus (HSV) • Treponema pallidum • Mycoplasma • Mycobacterium [Bacillus Calmette–Guerin (BCG)] • Streptococcus (groups A and B) • Staphylococcus aureus Borrelia burgdorferi (Lyme illness) • Entamoeba histolytica DIAGNOSIS • Pain and soreness • Erosions • Erythema • Pruritus • Pustules • Foul odor of the glans penis associated with anaerobic infections • Swelling DIAGNOSTIC TESTS AND INTERPRETATION Laboratory • Fungal preparations typically signify Candida. • A recent study demonstrated that direct impression on CHROMagar Candida medium as a sampling technique yielded a higher quantity of Candida spp than swabs. • A wet mount may reveal Trichomonas. • Wet mount preparation for Gardnerella. • Evaluate the urethral discharge for sexually transmitted infections. • Titers or cultures to detect HIV, HPV, and HSV. • Glucose assessment to exclude diabetes mellitus. DIFFERENTIAL DIAGNOSIS • Noninfectious etiologies of balanitis - Irritants, including soaps – Inadequate hygiene – Trauma – Contact dermatitis – Circinate balanitis – Lichen sclerosus – Lichen planus – Zoon's balanitis – Erythroplasia of Queyrat – Pemphigus – Pemphigoid – Bowen's illness – Leukoplakia – Fixed drug eruption – Psoriasis, especially inverse psoriasis – Paget’s illness – Nummular eczema – Scabies – Squamous cell carcinoma ADDITIONAL TREATMENT Comprehensive Strategies • Maintain proper hygiene by retracting the foreskin and gently cleansing the glans penis. Local treatment for Candida balanitis involves the application of topical imidazoles. 1% hydrocortisone cream may serve as an adjunctive treatment. • Administer oral fluconazole for severe Candida balanitis. • Trichomonas is susceptible to metronidazole. • Concurrently treat sexual partner(s) for Candida or Trichomonas. • Manage anaerobic infections with oral metronidazole, oral amoxicillin/clavulanate, or topical clindamycin cream. CONTINUING TREATMENT POST-CARE SUGGESTIONS Patients require monitoring by a physician for signs of recurrence or the onset of diabetes. COMPLICATIONS • Phimosis • Paraphimosis • Preputial fissure • Scarring Infectious Disease - Bacillary Angiomatosis/Peliosis Hepatis
DESCRIPTION • A rare, vascular proliferative infectious disease affecting the skin and internal organs, predominantly observed in immunosuppressed persons, particularly those with T-cell deficits, such as HIV-positive patients. The name bacillary angiomatosis (BA) mostly refers to the cutaneous or disseminated form, whereas peliosis hepatica (PH) denotes the visceral form of this feverish sickness associated with Bartonella species. EPIDEMIOLOGY Prevalence This disease, encountered globally, is rare; isolated cases have been reported from various regions worldwide. RISK FACTORS • HIV infection (CD4 <100) (1) • Other types of immunosuppression • Unsanitary settings, exposure to felines COMPREHENSIVE PREVENTION • Concerning cats for people who are HIV-positive or otherwise immunocompromised: It is advisable to acquire a cat that is over one year old and in good health. The patient must practice meticulous hand hygiene following the cleaning of the litter box. Prevent bites and scratches; wash hands immediately if they occur. Declawing or subjecting a cat to testing is not recommended. • Primary prophylaxis is not advised. Prophylactic administration of a macrolide provides protection against Bartonella infection. The potential requirement for secondary prophylaxis or the indefinite duration of treatment in HIV-positive patients remains undefined. ETIOLOGY • Bartonella henselae (predominantly BA) and Bartonella quintana (mostly bacteremia). Bartonella species are gram-negative bacteria belonging to the alpha Proteobacteria family. • Infection with B. henselae is associated with cat exposure in individuals with HIV infection. Conversely, BA attributed to B. quintana is linked to body louse infection and homelessness. DIAGNOSIS HISTORY • The incubation period lasts a minimum of one week. • Clinical manifestations vary from isolated bacteremia to cutaneous and visceral (PH) disease, together with involvement of several organs (skin, bones, central nervous system). • If left untreated, it may be lethal. • BA: – Constitutional: Pyrexia, malaise, cachexia, anemia • PH: – Constitutional: Chronic fever, fatigue, weight reduction, stomach discomfort - Gastrointestinal manifestations: Nausea, emesis • Symptoms related to other organs or systems are contingent upon the individual body component involved (e.g., ostealgia, neurological impairments, etc.). PHYSICAL EXAMINATION • BA: – Dermatological symptoms (93% of patients): — Elevated, vivid red papules, ranging from one to hundreds in quantity and measuring from 1 mm to several centimeters in size, observed in two-thirds of patients. – Minor lesions may be obscured by a thinned epidermis, whereas bigger lesions are prone to erosion and hemorrhage. A peripheral collarette is prevalent. Subcutaneous nodular lesions, observed in one-fourth of patients, are typically big and may not exhibit any changes in the overlying skin. Cellulitic plaque-like lesions occur in 5–10% of patients and frequently overlay deeper osseous lesions. Ulcerations and folliculitis lesions are infrequent. Lesions can manifest in any region of the body; many types may develop simultaneously or in succession. - Extracutaneous signs primarily include bone and visceral lesions (liver, spleen), however several other organ/system involvements have been documented, with or without vascular proliferative alterations, painful or painless lymphadenopathy, and cerebral abscesses. Bone disease may initially present solely with pain and may or may not be accompanied by superficial skin sores. • PH: – Significant hepatomegaly, progressing over weeks or months – Splenomegaly – Potential involvement of the skin or other organs DIAGNOSTIC TESTS AND INTERPRETATION LAB Diagnosis is established through the identification of causative organisms in hematoxylin and eosin-stained tissue sections (granular purple material); it may also be confirmed using Warthin-Starry or Brown–Hopps tissue stains. • Organisms manifest either solitarily or in clusters and entanglements. • Acquiring culture is challenging and labor-intensive. The organism can be extracted from the blood using lysis centrifugation cultures. Incubate for a minimum of 21 days. Polymerase chain reaction (PCR) is used for detection and species identification. • The sensitivity of serological tests is diminished in immunocompromised individuals. • Mildly raised transaminases (average ×2 of normal), moderate to severe elevation of alkaline phosphatase (average ×5 of normal), and normal or slightly higher bilirubin levels. Mild to moderate pancytopenia may manifest in the visceral form of the disease. Imaging • Bone disease: Standard bone radiographs reveal well-defined lytic lesions or indistinct areas of significant cortical destruction accompanied by pronounced periosteal response. • CT imaging may demonstrate hepatosplenomegaly and enlargement of intra-abdominal and/or retroperitoneal lymph nodes. Visceral parenchyma may exhibit a diverse consistency. Histopathological Observations • Biopsy or fine-needle aspiration specimens from the skin, liver, and lymph nodes are typically utilized. The pathological pattern is contingent upon the organ affected. • Skin: Lesions exhibit a "epithelioid hemangioma" look, with the presence of organisms demonstrated. • PH: Liver biopsy specimens exhibit significantly dilated, blood-filled cystic areas within the parenchyma. They are frequently linked to a myxoid stroma. Foci of necrosis are observable in advanced instances. DIFFERENTIAL DIAGNOSIS • BA: – Kaposi’s sarcoma – Pyogenic granulomas – Angiomas – Verruga peruana (bartonellosis, prevalent in South America) • PH: – Kaposi’s sarcoma • Extracutaneous manifestations: – Additional lesions occurring in space – The potential coexistence with Kaposi’s sarcoma must constantly be contemplated. THERAPY PHARMACEUTICALS Initial Statement An initial assessment is required to ascertain the degree of organ involvement. Erythromycin 500 mg orally every 6 hours or doxycycline 100 mg every 12 hours (AII) • Treatment duration: BA 3 months; PH 4 months. Extended therapy for immunocompromised individuals. Patients may encounter a Jarisch–Herxheimer reaction and should get prophylactic antipyretic medications within the initial 72 hours of treatment. Second Line • In cases of intolerance to erythromycin or doxycycline, azithromycin or clarithromycin have demonstrated a clinical response (BIII). Combination therapy, incorporating rifampin (300 mg orally twice day) alongside either erythromycin or doxycycline, is advised for immunocompromised patients experiencing acute, life-threatening infections or central nervous system disorders. • TMP-SMX and ciprofloxacin have demonstrated variable clinical efficacy. INPATIENT CONSIDERATIONS Criteria for Admission Patients are often managed on an outpatient basis; however, inpatient care and intravenous antibiotics are required for those with significant skin disease, lytic bone lesions, visceral lesions, or fulminant disease. CONTINUING CARE FOLLOW-UP SUGGESTIONS • Following the commencement of treatment (about 4–7 days into therapy), substantial enhancement of cutaneous and visceral/other organ lesions is often observed. • Complete resolution typically occurs within 3 to 4 weeks. • Relapses manifest in around 15% of instances. • Treatment failure: Upon relapse, four months of uninterrupted suppressive therapy. Patient Surveillance Clinical monitoring is necessary. • Serial biochemical assays (e.g., liver function tests) may assist in evaluating the therapeutic response in visceral disease. Utilize x-rays or bone scans to assess bone pathology. • The potential for coexistence with Kaposi’s sarcoma should be explored if imaging results do not improve following adequate antibiotic therapy. COMPLICATIONS The visceral manifestation of the disease may be exacerbated by anemia, pancytopenia resulting from hypersplenism, and splenic rupture accompanied by hemoperitoneum. Infectious Disease - Babesiosis
FUNDAMENTALS AND DESCRIPTION Babesia is a protozoan that exhibits a preference for human erythrocytes. It is a prevalent etiology of hemolytic illness in endemic regions. The primary mode of transmission for Babesia microti is by bites from deer ticks (Ixodid species). Alternative, less prevalent transmission methods encompass blood transfusions and maternal transmission of babesiosis. The majority of B. microti is predominantly located in the Northeastern and Midwestern regions of the United States. Additional Babesia species are present in the western United States and Europe. EPIDEMIOLOGY • Babesia is classified as an emerging infectious illness due to the rising incidence of reported cases over the past decade. • The escalation of deer populations, tick density, and heightened human activity in endemic regions are believed to contribute to the increase in Babesia infections. • Numerous cases of Babesia remain subclinical in younger persons, suggesting that the incidence of this infection is likely underestimated. Data from blood donors indicate that 0.5–15% of individuals have been exposed in highly endemic regions. FACTORS OF RISK • Residing in or visiting endemic areas. • Patients without a spleen. • Immunosuppression (e.g., HIV, chemotherapy). COMPREHENSIVE PREVENTION • Individuals who are asplenic or immunocompromised, and so at heightened risk of severe illness, should avoid endemic locations during periods of elevated transmission, namely from May to October (3). Insect repellent is effective in preventing tick bites, particularly ones containing N-diethyl-meta-toluamide (DEET). Early removal of ticks is crucial; the tick must be attached for a minimum of 24 hours before transmission commences. Daily self-assessment is advised for individuals participating in outdoor activities in endemic regions. It is advisable to inspect pets for ticks in endemic regions. Clothing can be treated with permethrin to avert infection. PATHOPHYSIOLOGY The life cycle include the transmission of Babesia between vertebrate hosts and Ixodes ticks. Humans serve as "dead end" and "accidental" hosts, with the predominant transmission vectors for B. microti being white-footed mice and ticks. Humans may become unwell upon infection; yet, they do not contribute to the transmission of the pathogen. Ixodes ticks deliver sporozoites to the host's bloodstream. The sporozoites infiltrate the erythrocytes and transform into trophozoites. The trophozoites reproduce asexually through budding, resulting in 2–4 merozoites. The merozoites compromise red blood cells (RBCs) and infiltrate other RBCs, resulting in hemolysis and anemia. ETIOLOGY • The predominant cause of Babesia in the United States is B. microti, which is prevalent in New England, coastal New York, and the Midwest. Other prevalent Babesia species that induce sickness in humans are Babesia divergens in Europe and Babesia duncani in the Western United States. FREQUENTLY CO-OCCURRING CONDITIONS Co-infection with Lyme disease and human granulocytic anaplasmosis frequently occurs, as both are transmitted by Ixodes ticks in endemic areas. In endemic regions, up to 10% of those diagnosed with Lyme disease are concurrently infected with Babesia. DIAGNOSIS HISTORY Patients may be asymptomatic or exhibit the following symptoms: • Pyrexia • Rigors • Asthenia • Cephalalgia • Nausea/emesis • Abdominal discomfort • Diarrhea • Arthralgia • Dyspnea/thoracic pain • Darkened urine Inquire about recent Lyme disease illness, residence or travel in endemic regions, outdoor exposures, pet ownership, and recent tick bites. PHYSICAL EXAMINATION • Pyrexia • Splenomegaly • Hepatomegaly • Pallor • Icterus • Absence of lymphadenopathy • Assess for a rash indicative of erythema chronicum migrans in instances of Lyme co-infection DIAGNOSTIC EXAMINATIONS & ANALYSIS Laboratory Initial Assessments • Prepare thin blood smears to evaluate for intra-erythrocytic parasites and indications of hemolysis. In instances of low parasitemia and early infection, multiple blood smears may be required over several days. • Complete blood count: Anemia and thrombocytopenia detected. • Indicators of hemolysis: Increased reticulocyte count, LDH, and indirect bilirubin levels. Additionally, haptoglobin levels are low. • Hepatic function assays. Subsequent Actions & Unique Considerations • If the bacterium is undetected via blood smear, PCR amplification of 18S rRNA is advised. In patients with a significant likelihood of infection, indirect immunofluorescent antibody testing is advised when both blood smear and PCR results are negative. Imaging Imaging is typically unnecessary in moderate situations. Abdominal ultrasonography will verify hepatomegaly or splenomegaly. Pathological Observations Similar to malaria, Babesia manifests as an intra-erythrocytic parasite. Babesia parasites may be observed outside of red blood cells during severe infections, a phenomenon not present in malarial infections. At times, Babesia parasites (in the internal merozoite phase) manifest in tetrads, referred to as the "Maltese cross." Differential Diagnosis: • Sepsis • Lyme Disease • Human Granulocytic Anaplasmosis • Hepatitis • Malaria • Lymphoma TREATMENT MEDICATION For B. microti infection: administer oral atovaquone 750 mg twice daily for 7–10 days, in conjunction with oral azithromycin 500–1,000 mg on day 1, followed by 250 mg daily thereafter. Second Line For B. microti infection: Administer oral quinine 650 mg three or four times daily in conjunction with oral clindamycin 600 mg three times daily for a duration of 7 to 10 days. Intravenous formulations are applicable. Quinine and clindamycin are utilized in critical instances. SUPPLEMENTARY THERAPY Comprehensive Strategies Asymptomatic immunocompetent people with detectable parasites on blood smear for less than three months do not necessitate treatment (5). Extended treatment durations may be required for immunocompromised individuals or in instances of significant parasite load. Treatment must persist for a minimum of 6 weeks, encompassing 2 weeks of therapy following the undetectability of parasites in blood smears. Concerns for Referral An infectious disease specialist should be consulted if there are indications of serious infection or infection in an immunocompromised individual. Supplementary Treatments Red blood cell exchange transfusions may be required in severe instances of excessive parasitemia (>10%) or the presence of shock/ARDS symptoms. CONTINUING CARE FOLLOW-UP SUGGESTIONS Patient Surveillance Hospitalized patients should undergo daily CBC and blood smear assessments to monitor for hemolysis, anemia, and parasite load. INFORMATION FOR PATIENTS Educate patients of the risk factors associated with Babesia transmission and implement measures to prevent re-infection. COMPLICATIONS • Disseminated Intravascular Coagulation (DIC) • Anemia • Congestive Heart Failure (CHF) • Acute Respiratory Distress Syndrome (ARDS) • Renal Dysfunction • Hypotension Infectious Disease – Atypical Mycobacteria FUNDAMENTALS AND DESCRIPTION Infection by a species of nontuberculous mycobacteria (NTM). Pediatric Considerations Atypical mycobacteria must be contemplated in patients exhibiting unilateral cervical lymphadenitis. • This virus predominantly affects youngsters between the ages of 1 and 5 years. • Edema frequently manifests around the impacted nodes, typically in the anterior cervical chain. Adenitis may develop swiftly, and the creation of fistulas through the skin is prevalent. Enlarged lymph nodes are frequently asymptomatic. • Systemic symptoms are seldom. • The majority of symptoms are attributed to MAC; however, Mycobacterium scrofulaceum and Mycobacterium tuberculosis are also observed, but less commonly. Epidemiology Annually, there are 300 cases of MAC lymphadenitis in the United States. Prevalence: 1–7.2 cases per 100,000 in the United States. • Significantly changeable, contingent upon location. Approximately 50% of non-tuberculous mycobacteria isolates are pathogenic. RISK FACTORS • Age • Immunosuppression • HIV with diminished CD4 cell counts or other opportunistic infections • Interferon (IFN)-gamma deficiency • Preexisting structural pulmonary disease Genetics: Deficiency of IFNγR1 or IL-12βR1 COMPREHENSIVE PREVENTION In individuals with AIDS (CD4 count <100 cells/mm3), weekly administration of 1200 mg azithromycin is recommended as primary prophylaxis. Alternative preventative regimens are clarithromycin 500 mg three times day or rifabutin 300 mg daily. PATHOPHYSIOLOGY • Environmental exposures such as soil, water, hot tubs, and tap water are frequently implicated. • Human-to-human transmission has not been recorded. • Initial infection occurs through ingesting or inhalation; reactivation is not a risk. • Granuloma formation arises from the interaction among macrophages, lymphocytes, and natural killer cells. • Disseminated disease stems from a localized infection. ETIOLOGY • Aerobic, non-spore-forming bacilli characterized by cell walls containing mycolic acid (2). • Rapidly growing organisms encompass the following rapid-growing mycobacteria (RGM) (growth within 7 days): – Mycobacterium fortuitum complex – Mycobacterium chelonae/abscessus – Mycobacterium smegmatis • Organisms with intermediate growth rates encompass the following: – Mycobacterium marinum – Mycobacterium gordonae • Organisms with a slow growth rate (10–21 days) encompass the following: – Mycobacterium avium complex (MAC) – Mycobacterium kansasii – Mycobacterium xenopi – Mycobacterium scrofulaceum – Mycobacterium haemophilum – Mycobacterium ulcerans FREQUENTLY CO-OCCURRING CONDITIONS • Immunosuppression, such as AIDS or transplant recipients • Utilization of TNF inhibitors • Cystic fibrosis • Pre-existing pulmonary disorders: silicosis, resolved tuberculosis, bronchiectasis, or chronic obstructive pulmonary disease DIAGNOSIS CLINICAL SYNDROMES • Pulmonary • Lymphadenitis • Cutaneous and soft tissue • Osteoarticular • Catheter-associated • Disseminated • Pulmonary: Persistent cough typically yielding sputum. Advanced disease correlates with constitutional symptoms (e.g., weight loss, fatigue) and may encompass dyspnea, hemoptysis, and chest discomfort (2). • Soft tissue: Frequently linked to inoculation or recent surgical procedures or instrumentation. • Osteoarticular. • Disseminated: Characterized by fevers, tiredness, and anorexia. • Exposures: Water (cutaneous/soft tissue), catheters (bacteremia) • Suppression of the immune system PHYSICAL EXAM • Pulmonary: Rales, wheezes, rhonchi. Pectus excavatum (27%) and scoliosis (52%) are prevalent among patients with pulmonary MAC. • Soft tissue: Minor, papular lesions typically located on the extremities; may become ulcerated and disseminate locally or via lymphatics. Lymphadenitis: An swollen lymph node, typically located in the submandibular or jugular area, that is either painless or mildly uncomfortable, but not fluctuant. DIAGNOSTIC TESTS AND INTERPRETATION LAB Pancytopenia may arise due to marrow suppression in disseminated illness. • Increased alkaline phosphatase may be observed in 5% of disseminated MAC (20–40 times the normal level). • Mycobacterial blood cultures yield positive results in 90% of dispersed cases. Imaging: Preliminary Strategy Chest X-ray (CXR) or chest CT (pulmonary): Upper lobe cavitary illness, nodular or reticulonodular disease, or adenopathy. Pleural effusions are infrequent. Subsequent Actions & Unique Considerations • Serial imaging will be conducted to monitor for progression (if asymptomatic) or improvement (during therapy). Cavitary illness occurs in 60–90% of Mycobacterium avium complex lung infections. Cavitations may range from 2 to 4 centimeters in size and are generally characterized by thin walls. Diagnostic Procedures and Additional Methods • Tissue for acid-fast bacillus (AFB) smear, mycobacterial culture, and pathology is crucial, as these organisms may behave as colonizers (2). In cases of pulmonary disease, it is advisable to obtain three or more sputum samples (or perform bronchoalveolar lavage) for culture analysis. RNA probes can facilitate the first identification of M. tuberculosis, MAC, and M. kansasii from positive cultures. • Upon isolation, mycobacterial cultures must be dispatched to a specialized facility for confirming identification and antibiotic susceptibility assessment. Pathological Observations • Granuloma containing large cells and acid-fast bacilli observed in localized infection. In widespread illness, the presence of well-formed granulomas is less probable. DIFFERENTIAL DIAGNOSIS • Mycobacterium tuberculosis (MTb) • Other non-tuberculous mycobacteria (NTM) • Endemic fungi (histoplasmosis, cryptococcosis, blastomycosis, nocardiosis) • Pre-existing structural lung disease TREATMENT MEDICATION Initial Line • MAC (pulmonary): Rifampin 600 mg daily, ethambutol 15 or 25 mg/kg daily based on radiographic pattern, azithromycin or clarithromycin 500 mg, with the addition of an aminoglycoside as necessary (2). • Kansasii (pulmonary): Isoniazid 300 mg daily, rifampin 600 mg daily, ethambutol 15 mg/kg daily. • RGM (soft tissue): Two of the following agents to which the isolate is susceptible: Trimethoprim-sulfamethoxazole (TMP-SMX), doxycycline, levofloxacin, clarithromycin. • Severe abscess: Amikacin + clarithromycin + cefoxitin or imipenem • Fortuitum or chelonae (severe): Amikacin or tobramycin combined with cefoxitin, with the option of adding imipenem or levofloxacin. • MAC (disseminated/HIV): Administer clarithromycin 500 mg orally twice daily or azithromycin 500–600 mg orally twice daily, along with ethambutol 15 mg/kg orally daily; consider adding rifampin with input from infectious disease specialists. • M. marinum (soft tissue): Administer clarithromycin 500 mg orally twice daily and ethambutol 15 mg/kg, with the inclusion of rifampin for osteomyelitis and the potential for surgical debridement. Mild illness may be managed alone with clarithromycin. Second Line • Moxifloxacin 400 mg daily • Amikacin • M. abscessus: Linezolid, doxycycline, TMP–SMX ADDITIONAL THERAPY Comprehensive Strategies • Susceptibility testing is required for MAC (clarithromycin), kansasii (rifampin), and RGM (eight medicines on the susceptibility panel) (2). Treatment duration is extended; for pulmonary MAC, administer therapy for 12 months following negative cultures (totaling 12–24 months), and for disseminated MAC, treat for 12 months or 6 months beyond when CD4 counts exceed 100 cells/mm³. Skin and soft tissue infections may require three months or more of treatment. Catheter-associated infections necessitate 6 to 12 weeks of therapy following catheter removal. Referral Issues Due of the drug resistance of these indolent organisms, doctors with expertise in these illnesses are required for therapy. Occasionally, people necessitate years of treatment. OPERATIVE INTERVENTIONS/ADDITIONAL PROCEDURES • MAC: Lung resection is advisable for patients with upper lobe disease, particularly if they are intolerant to medical therapy or exhibit culture positivity after six months of antibiotic treatment. • MAC lymphadenitis: Resection yields a 90% cure rate without the use of antimicrobials. • Incision and drainage for soft tissue infections or tenosynovitis, particularly for rapidly growing mycobacteria. INPATIENT CONSIDERATIONS Criteria for Admission • For diagnostic evaluation. • For the commencement of parenteral antibiotics. CONTINUING CARE FOLLOW-UP SUGGESTIONS Monthly follow-up during the initial phases of treatment is frequently advised due to antimicrobial toxicity. • Following patient tolerance of drugs, follow-up intervals may be extended. Patient Surveillance • Laboratories for assessing medication toxicity. • Assessment for pharmacological interactions. • Monitoring therapeutic medication levels for antibacterial peaks and troughs. PROGNOSIS It is contingent upon the disease's location, the detection of non-tuberculous mycobacteria (NTM), and the particular host. COMPLICATIONS • Laboratories for assessing medication toxicity. • Evaluation of pharmacological interactions between drugs. • Disseminated MAC: Intussusception, gastrointestinal hemorrhage, and bowel blockage may develop, however these are few. • MAC lymphadenitis: Ulceration and the development of fistulas. Infectious Disease - Aspergillosis
BASICS DESCRIPTION • The term “aspergillosis” encompasses a broad spectrum of conditions, ranging from mere colonization or allergic reactions to localized or widespread invasive diseases. The illness typically targets the lungs, while it can also affect any organ, with the paranasal sinuses and central nervous system (CNS) being less frequently implicated. EPIDEMIOLOGY Incidence • The variety of Aspergillus species responsible for invasive illness seems to be increasing. A. fumigatus is the predominant species; however, A. flavus, A. terreus, A. niger, and A. versicolor have also been implicated in aspergillosis. Invasive aspergillosis ranks second in prevalence to candidiasis among invasive mycoses in the majority of immunosuppressed patient populations. RISK FACTORS • Granulocytopenia (the most significant predisposing factor) • Hematopoietic cell transplant recipients • Solid-organ transplant recipients • Individuals with acute leukemia • Chronic obstructive pulmonary disease (COPD) patients undergoing steroid therapy • Extended corticosteroid or cytotoxic treatment • Prolonged antibiotic administration • Hepatic failure • Diabetes mellitus • Chronic granulomatous illness in childhood • Acquired immunodeficiency syndrome (AIDS) (CD4 count of 50 cells/mm³ or fewer) Genetics • Polymorphisms in Toll-like receptor 4 may elevate the risk of invasive aspergillosis. • Polymorphisms in Toll-like receptor 9 may influence the risk of allergic bronchopulmonary aspergillosis (ABPA). GENERAL PREVENTION • Implementation of environmental control measures, particularly during building operations, to prevent conidia from reaching at-risk patients. • Airflow units equipped with high-efficiency particle air filters. Prophylactic use of voriconazole or amphotericin B may be contemplated for individuals with a history of invasive illness who are at risk of becoming neutropenic. PATHOPHYSIOLOGY • ABPA – Aspergillus colonization in atopic individuals activates TH2 CD4+ T cells, resulting in increased IgE expression and eosinophilia. This inflammatory milieu aggravates asthma, resulting in worse symptoms. Airway injury and central bronchiectasis may develop. • Chronic pulmonary aspergillosis, including aspergilloma, typically manifests in patients with the following diseases. – History of tuberculosis – Allergic bronchopulmonary aspergillosis – Lung cancer with surgical excision – Bulla formation • COPD – Lesions exhibit persistent inflammatory alterations, fibrosis, and necrosis. – Invasion is not observed unless the patient enters an immunocompromised state. • Invasive aspergillosis – Conidia are omnipresent and sufficiently diminutive to reach the alveolus upon inhalation. Alveolar macrophages generally phagocytize these infections. – In an immunocompromised state, macrophages are unable to retain the conidia, allowing them to germinate into hyphae. The existence of hyphal forms induces the influx of macrophages and the release of inflammatory cytokines. Vascular invasion and subsequent tissue necrosis may occur. – Circulation via the bloodstream is feasible. DIAGNOSIS HISTORY • ABPA – Present in individuals with diagnosed asthma or cystic fibrosis – Possible bronchial obstruction – General malaise – Rare occurrence of hemoptysis • Chronic aspergillosis – Weight loss – Persistent cough – Hemoptysis – Shortness of breath – Dyspnea upon exertion • Invasive aspergillosis – Pleuritic chest pain – Cough – Hemoptysis – Dyspnea PHYSICAL EXAMINATION • ABPA – Wheezing may be seen, but is not mandatory. – Fever • Chronic aspergillosis – Abnormal pulmonary auscultation – Fever • Invasive aspergillosis – Fever – Abnormal pulmonary auscultation DIAGNOSTIC TESTS AND INTERPRETATION Diagnostic Procedures and Additional Methods • ABPA – Chest X-ray may reveal parenchymal infiltrates, typically affecting the higher lobes. CT scan reveals bronchial wall thickening, bronchiectasis, and ground-glass opacities. – Peripheral eosinophilia – Immediate reaction to skin tests for Aspergillus – Increased total serum IgE – Serum IgG to A. fumigatus • Chronic aspergillosis – Chest X-ray and/or Chest CT reveal one or more cavities – Aspergilloma masses may be observed within the cavity, typically encircled by air- Crescent shadow - Serum IgG to A. fumigatus - Elevated CRP or ESR • Invasive aspergillosis - Positive culture from tissue biopsy is the gold standard - Evidence of fungal invasion in tissue - Positive galactomannan level in serum - Positive β-glucan level in serum THERAPY PHARMACEUTICALS First Line • ABPA – A regimen of glucocorticoids and itraconazole is employed. – Steroids may be gradually reduced over a period of 3 to 6 months. – In certain instances, steroids cannot be reduced, necessitating ongoing steroid maintenance. • Chronic aspergillosis – Aspergilloma generally necessitates surgical resection in patients capable of enduring the procedure. Certain individuals derive advantages from antifungal treatment, predominantly voriconazole. Chronic pulmonary aspergillosis necessitates prolonged antifungal treatment. Embolization is employed in patients to mitigate the risk of hemoptysis. • Invasive aspergillosis – Voriconazole is regarded as the primary treatment. Surgical debridement is necessary whenever feasible. Second Line • For invasive aspergillosis, other medicines comprise amphotericin B, itraconazole, and echinocandins. – The efficacy of combination therapy involving the aforementioned antimicrobials remains unverified. OPERATIVE INTERVENTIONS/ADDITIONAL PROCEDURES Aggressive debridement should be contemplated for patients with persistent or invasive diseases. INPATIENT CONSIDERATIONS Preliminary Stabilization • Antifungal therapy, either intravenous or oral, should be commenced promptly. • Hemodynamic parameters must be stabilized. Admission Criteria: • Patients exhibiting hemodynamic instability • Patients presenting with hemoptysis • Certain patients with fever and immunocompromised conditions CONTINUING CARE FOLLOW-UP SUGGESTIONS Patients with hypersensitivity lung disorders must be followed for relapses and the onset of pulmonary fibrosis or bronchiectasis. Patients with aspergillomas who do not get surgical intervention require clinical and radiological surveillance for lesion progression and the onset of hemoptysis. Patients who receive surgical intervention for aspergillomas require monitoring for potential return of the infection, despite initial surgical success. Patients with invasive illness require monitoring for relapses, particularly during episodes of neutropenia. Patient Surveillance Monitoring of voriconazole trough levels is essential for individuals undergoing prolonged treatment with the drug. PROGNOSIS The prognosis for patients with invasive aspergillosis is contingent upon the fungal load and the extent of immunosuppression. COMPLICATIONS The most dreaded consequence of chronic pulmonary aspergillosis is hemoptysis. • Dissemination and mortality are critical consequences in patients with invasive aspergillosis. Bronchiectasis may complicate allergic bronchopulmonary aspergillosis (ABPA). Pulmonary fibrosis may complicate both allergic bronchopulmonary aspergillosis (ABPA) and extrinsic allergic alveolitis. Hemoptysis, which can be substantial, particularly for lesions situated near the hilum, may aggravate both invasive and noninvasive pulmonary aspergillosis. Pneumothorax may arise in immunocompromised individuals and is typically linked to the enhancement of the immune system. The introduction of Aspergilli into the pleural space, resulting from pneumothorax or the formation of a bronchopleural fistula, may result in empyema. In instances of pulmonary and extrapulmonary invasive aspergillosis, persistent dissemination to other organs and lesion enlargement may occur, particularly in immunocompromised persons. Patients with central nervous system involvement may have occlusion of cerebral vessels due to Aspergillus. Infectious Disease - Appendicitis
FUNDAMENTALS OVERVIEW • Appendicitis refers to the inflammation of the appendix. • When the blood supply to the appendix is impaired, it is termed “gangrenous appendicitis.” When appendicitis is complicated by perforation, it is referred to as "perforating appendicitis." When appendicitis is caused by a blockage of the lumen, it is referred to as "obstructive appendicitis." EPIDEMIOLOGY Incidence Appendectomy is the most common indication for abdominal surgery. Annually in the United States, there are a minimum of 250,000 instances of appendicitis, necessitating over 1 million inpatient hospital days. • The appendix appears normal in around one-third of patients who need emergency appendectomy. • Missed appendicitis ranks among the most commonly successful malpractice claims against emergency room clinicians. RISK FACTORS Males exhibit a little greater rate than females, with a male-to-female ratio of 3:2. The lifetime risk of appendicitis is 8.5% for males and 6.7% for females. • Acute appendicitis may manifest at any age, with peak incidence observed during the second and third decades of life. • Perforation is more prevalent among infants and the elderly. PATHOPHYSIOLOGY • Luminal blockage is the principal etiology of appendicitis. • The obstruction is most frequently attributed to a fecalith, but may also result from foreign bodies, increased lymphoid hyperplasia linked to viral infections (e.g., measles), helminths, or neoplasms (e.g., carcinoid or carcinoma). • Mucus accumulates behind the obstruction, leading to bacterial proliferation and invasion of the appendiceal wall, which causes venous engorgement and subsequent arterial impairment and ischemia due to elevated intraluminal pressures. • Ultimately, gangrene and perforation ensue. Rupture of primary appendiceal abscesses may result in fistulas. • Acute appendicitis may, at times, serve as the initial symptom of Crohn’s disease. • Infrequently, recurrent acute appendicitis may manifest with complete remission of inflammation and symptoms between episodes. ETIOLOGY • Proliferation of several gastrointestinal bacteria (E. coli, Peptostreptococcus, B. fragilis, Enterobacteriaceae, viridans streptococcus) transpires within the obstructed appendix. • Chronic appendiceal infection may arise from tuberculosis, amebiasis, and actinomycosis. DIAGNOSIS HISTORY The onset of pain transpires across several hours. The earliest visceral abdominal pain of appendicitis is colicky and typically poorly localized in the periumbilical or epigastric area. As inflammation spreads to the parietal peritoneal surfaces, the pain becomes somatic, steady, and more intense. The pain intensifies with movement or coughing and is localized in the right lower quadrant (McBurney's point). • An associated need to defecate or expel flatus frequently occurs, neither of which alleviates the discomfort. Anorexia is prevalent enough that the manifestation of hunger should raise concern for a diagnosis of acute appendicitis. Nausea and vomiting manifest in 50–60% of instances; however, vomiting is seldom severe and prolonged. The occurrence of nausea and vomiting prior to the onset of pain is exceedingly uncommon. • Urinary frequency and dysuria manifest when the appendix is positioned near to the bladder. PHYSICAL EXAM • Physical results fluctuate over time following the commencement of the illness and are contingent upon the appendix's position. • Tenderness may initially be absent in the early visceral stage of the disease, but it eventually manifests in the area corresponding to the appendix's location. Pregnant women frequently exhibit pain in the right upper quadrant. Guarding is a result of parietal peritoneal involvement. Tenderness upon percussion, rebound tenderness, and referred rebound tenderness are frequently observed. Rebound soreness in the right lower quadrant during probing of the left lower quadrant is referred to as "Rovsing's sign." Pain induced by passive flexion of the right hip is referred to as "the psoas sign"; pain induced by internal rotation of the right hip is referred to as "the obturator sign." • The temperature is often normal or marginally elevated; however, a temperature beyond 38.3°C (101°F) indicates potential perforation. • A discernible mass in the right lower quadrant implies the possibility of an abscess or cecal cancer. DIAGNOSTIC TESTS AND INTERPRETATION Lab Leukocytosis ranging from 10,000 to 18,000 cells per milliliter with a left shift is prevalent; however, the lack of leukocytosis does not preclude the diagnosis of acute appendicitis. A pregnancy test must be conducted for all women of childbearing age to exclude the possibility of uterine or ectopic pregnancy. Imaging: Preliminary Strategy Among noninvasive diagnostic tools, appendiceal CT has demonstrated superior precision, achieving an accuracy of 90%. The greatest accuracy has been documented with helical CT following the administration of a 3% diatrizoate meglumine (Gastrografin)–saline solution into the colon. Appendiceal CT is safe, can be conducted in roughly 15 minutes, and necessitates only one-third of the radiation exposure compared to normal CT of the belly and pelvis. Routine appendiceal CT conducted in patients with probable appendicitis enhances patient care and diminishes the utilization of hospital resources. Ultrasound is particularly beneficial for women of childbearing age to rule out ovarian cysts, ectopic pregnancy, or tubo-ovarian abscess. It is also utilized in pediatrics. Normal ultrasonographic findings should not dissuade the surgeon from conducting an appendectomy if the clinical history suggests appendicitis and there is definitive discomfort in the right lower quadrant. Subsequent Actions & Unique Considerations The management strategies for clinicians assessing patients with suspected appendicitis including observation, diagnostic imaging, laparoscopy, and appendectomy. • Patients with a history strongly indicative of appendicitis are frequently sent to the operating room for laparoscopy, irrespective of imaging outcomes. • Patients with a less compelling history are typically subjected to imaging or monitoring. Histopathological Observations Pathology specimens from acute appendicitis exhibit indicators of inflammation, including polymorphonuclear leukocytes, edema, and vascular congestion in the appendiceal walls. DIFFERENTIAL DIAGNOSIS • The lack of right lower quadrant pain, the absence of typical pain migration, and a history of analogous pain render appendicitis less probable. The absence of right lower quadrant discomfort, rigidity, or guarding during the physical examination diminishes the likelihood of appendicitis. • The differential diagnosis of acute appendicitis encompasses the following: – Acute cholecystitis – Acute diverticulitis – Acute gastroenteritis – Acute pancreatitis – Acute pelvic inflammatory illness – Endometriosis – Mesenteric lymphadenitis – Perforated ulcer – Pyelonephritis – Ruptured Graafian follicle or corpus luteum cyst – Ruptured ectopic pregnancy – Strangulating intestinal blockage – Torted ovarian cyst – Ureteral calculus The differential diagnosis of acute appendicitis is elaborated upon in Section I, chapter "Abdominal Pain and Fever." THERAPY The principal intervention for appendicitis is immediate surgical intervention. Antibiotics are the normal preoperative treatment and must be effective against gram-negative aerobes and anaerobes. MEDICATION • Antibiotic care parallels that of other intra-abdominal infections, as elaborated in Section II chapters, “Peritonitis” and “Intra-abdominal Abscess.” • Options comprise: – Beta-lactam and beta-lactamase inhibitor (ampicillin–sulbactam, piperacillin–tazobactam, ticarcillin–clavulanate) – Ceftriaxone and metronidazole – Fluoroquinolone and metronidazole - Carbapenems (imipenem, meropenem) SUPPLEMENTARY THERAPY Referral Considerations Surgical intervention should be integrated into the management of a patient with suspected appendicitis from the moment of initial presentation. OPERATIVE INTERVENTIONS/ADDITIONAL PROCEDURES Prompt surgical assessment of a patient with a compelling history and/or imaging indicative of appendicitis is essential. • Both laparoscopic and open techniques are permissible. Patients undergoing laparoscopic surgery experience fewer wound infections, reduced discomfort, and shorter hospital stays compared to those undergoing open surgery. Nonetheless, laparoscopic appendectomies are correlated with an increased incidence of intra-abdominal abscesses, extended operative durations, and elevated surgical expenses. • If a palpable mass is detected 3–5 days post-symptom onset, the procedure should be postponed, since a phlegmon rather than a definite abscess is likely to be present. Patients should get broad-spectrum antibiotics, parenteral fluids, and rest. An appendectomy should be performed safely three months later. If the tumor increases in size or the patient exhibits heightened toxicity, abscess drainage is required. INPATIENT CONSIDERATIONS Preliminary Stabilization If unstable, the patient with appendicitis is likely experiencing sepsis or has a perforated appendix with subsequent peritonitis. The patient requires resuscitation with intravenous fluids, and vasopressors should be administered if deemed required. Admission Criteria All patients with suspected appendicitis must be admitted. Intravenous Fluids Patients should be thoroughly hydrated preoperatively, and electrolyte imbalances must be corrected. Criteria for Discharge Discharge criteria encompass the normalization of white blood cell count, the resolution of fever, and the restoration of bowel function. CONTINUING MANAGEMENT POST-TREATMENT SUGGESTIONS Close monitoring of patients with stomach pain who do not undergo additional diagnostic testing is warranted. NUTRITION Individuals suspected of having appendicitis should refrain from eating. PROGNOSIS • The mortality rate in Europe and the US has consistently declined to less than 1 per 100,000. The general mortality rate for perforated appendicitis is 3%, escalating to 15% in the elderly population. COMPLICATIONS The postponement of appendicitis diagnosis elevates the likelihood of appendiceal perforation, which is linked to postoperative complications in as many as 40% of patients, in contrast to 5–10% for uncomplicated appendicitis. Perforation is uncommon within the first 24 hours of symptom onset, but the incidence increases to 80% after 48 hours. The formation of intra-abdominal abscesses or phlegmon typically occurs subsequent to perforation accompanied by generalized peritonitis and can be prevented with early disease detection. • Wounds must be monitored for indications of infection. • Portal vein thrombophlebitis and pyogenic liver abscess are rare occurrences. Infectious Disease – Anthrax
BASICS DESCRIPTION • Anthrax is a zoonotic illness primarily affecting herbivores and infrequently infects humans. The phrase originates from the Greek word for coal and refers to the black eschar associated with the cutaneous variant of the disease. • In humans, the disease manifests predominantly in three forms: cutaneous, respiratory, and gastrointestinal. • Duration of incubation: - Dermatological condition: 3–10 days - Pulmonary disease: 3 to 5 days Epidemiology • Anthrax is an infrequent disease in the United States. • Epidemics have been documented in relation to the importation of wool, skins, and other animal derivatives. Epidemics in humans in underdeveloped nations are associated with diseases in animals. Foodborne outbreaks have been recorded and associated with the consumption of contaminated meat. In 2001, there were 22 confirmed or suspected cases of anthrax (11 cutaneous and 11 inhalational) associated with bioterrorism in the United States. Five of these patients succumbed. Since December 2009, Scotland has reported a total of 31 instances, including 11 fatalities, of a novel variant of the disease previously characterized as "injectional." ETIOLOGY Bacillus anthracis is an aerobic, gram-positive, spore-forming bacterium. Endospores exhibit resistance to desiccation, radiation, and disinfectants, and can remain dormant in soil for extended periods, often for years. risk FACTORS • In developing nations, the primary danger arises from exposure to contaminated soil or diseased animals. In urban areas, the primary risk arises from exposure to tainted skins and animal fur. COMPREHENSIVE PREVENTION • Vaccination of livestock is recommended in endemic regions. • Decontamination of imported skins and animal hair would mitigate danger. The anthrax vaccination is accessible to those at risk of exposure to the pathogen. These encompass military personnel, veterinarians, and individuals exposed to imported hides or animal fur. Pathophysiology The synthesis of two binary toxins (lethal toxin and edema toxin) is crucial for the pathogenic process. DIAGNOSIS Disease can present as cutaneous, respiratory, or gastrointestinal, with cutaneous being the predominant type. Meningitis may arise as a complication from bacteremic dissemination originating from any of the three principal types. PHYSICAL EXAM • Cutaneous disease: The characteristic lesion is a circular eschar (1–3 cm) that may initially present as an ulcerating papule. If neglected, the infection may advance to bacteremia and sepsis. Respiratory sickness typically manifests in two stages. A viral upper respiratory disease persists for 2–4 days, subsequently leading to severe fulminant pneumonitis. Nonetheless, the clinical manifestation may be uncommon, with certain patients exhibiting an absence of cough, chest pain, or irregular lung examination findings. Gastrointestinal disease typically manifests with abdominal discomfort, nausea, vomiting, and fever, and may be accompanied by hematemesis and hematochezia. • Anthrax meningoencephalitis can aggravate bacteremia and may present with a hyperacute onset, rapidly progressing to coma and death. Anthrax in injectable drug users is a serious condition characterized by soft tissue infection, tight edema, cerebral or subarachnoid bleeding, and gastrointestinal symptoms. A typical cutaneous lesion should raise suspicion of anthrax. Assessing the history of exposure to sick or deceased animals, hides, or fur can be beneficial. The diagnosis of pneumonia or gastroenteritis is challenging to ascertain due to the vague clinical manifestations. • A significant observation is that in advanced pulmonary disease, the mediastinum expands on chest X-ray. The conjunction of mediastinal enlargement, altered mental status, and raised hematocrit is 100% sensitive in differentiating inhalational anthrax from community-acquired pneumonia. • Hemorrhagic cerebrospinal fluid and gram-positive bacilli on Gram staining indicate potential meningeal involvement. DIAGNOSTIC TESTS AND INTERPRETATION LAB • Cultures and Gram stains of vesicular lesions should identify the organism—a large, encapsulated, gram-positive rod arranged in short chains. • Blood cultures are typically positive in febrile, acutely ill patients with pulmonary or gastrointestinal conditions. • Stool cultures detect the organism in gastrointestinal disease. Chest X-ray films frequently demonstrate diffuse infiltrates and effusions. The mediastinum may exhibit widening in the later stages of the disease. DIFFERENTIAL DIAGNOSIS • Cutaneous – Tularemia – Staphylococcus aureus – Spider bite – Burn lesion • Pulmonary – Diverse bacterial and viral infections • Gastrointestinal – Shigella – Yersinia – Campylobacter • Meningitis – Tuberculosis – Amebic meningoencephalitis – Specific viral infections: Hantavirus, dengue, Ebola Treatment / Medication • Naturally acquired cutaneous anthrax in individuals over 2 years of age: - Administer oral ciprofloxacin (500 mg twice day for adults and 15 mg/kg twice daily, not to exceed 500 mg for children) for a duration of 7 to 10 days. - Oral doxycycline (100 mg twice daily in adults and 2.2 mg/kg—capped at 100 mg—twice daily in children) for a duration of 7 to 10 days If susceptibility testing is accessible, administer penicillin G 6–8 million units per day intravenously, penicillin VK 500 mg four times daily, and 50 mg/kg/day in children under 12 years, or amoxicillin orally 500 mg three times daily and 45 mg/kg/day in children to finish the treatment course. – Notwithstanding the possibility of resistance and inducible resistance, an administration of penicillin for approximately 7–10 days may be adequate for the treatment of naturally acquired simple cutaneous anthrax. Levofloxacin may be suggested as an alternative choice. • For severe cases of spontaneously occurring cutaneous anthrax: – Administer IV ciprofloxacin 400 mg twice daily and 10 mg/kg twice daily in pediatric patients – Administer IV doxycycline 100 mg twice daily in adults and 2.2 mg/kg twice daily in pediatric patients • Cutaneous anthrax associated with bioterrorism: administer oral ciprofloxacin, oral doxycycline, or oral amoxicillin at the recommended dosages for 60 days to fulfill the complete course of postexposure prophylaxis. • For inhalational anthrax, gastrointestinal anthrax, and fulminant bacteremia: – Intravenous ciprofloxacin is preferred over intravenous doxycycline. The combination regimens may consist of IV ciprofloxacin or IV doxycycline in conjunction with one or two of the following agents: imipenem, meropenem, rifampin, vancomycin, penicillin, ampicillin, chloramphenicol, or clindamycin. • Employ a minimum of one drug with enough CNS penetration to address the potential for subclinical meningitis. Some experts recommend the inclusion of clindamycin to suppress endotoxin formation. A human IgG1λ monoclonal antibody targeting a component of the anthrax toxin (raxibacumab) enhanced survival in rabbits and monkeys afflicted with symptomatic inhalational anthrax (IA). CONTINUED MANAGEMENT SUBSEQUENT SUGGESTIONS Patients should be monitored for signs of disease recurrence following treatment. COMPLICATIONS • Pulmonary and gastrointestinal disorders are typically lethal. • Cutaneous disease frequently results in scarring at the site of the eschar. Infectious Disease – Diarrhea and Fever
FUNDAMENTALS AND DESCRIPTION Diarrhea is clinically defined as an elevation in daily stool weight above 200 grams and more broadly characterized as the occurrence of three or more loose stools daily. Diarrhea is classified as acute when it persists for less than 14 days and as chronic when it endures for more than 4 weeks. An inflammatory diarrheal syndrome is defined by frequent, small-volume feces that may be mucoid, bloody, or both. It may be associated with tenesmus, fever, or intense stomach pain. The defining characteristic of inflammatory diarrheas is the presence of leukocytes in the feces. A noninflammatory diarrheal condition is defined by the presence of voluminous watery stools (>1 L/d) that lack blood, pus, significant abdominal pain, or fever. Epidemiology: Incidence Approximately 200 to 375 million instances of severe diarrhea transpire annually in the United States. Approximately 38 million of these events are ascribed to a recognized pathogen (bacteria, parasite, or virus). Foodborne transmission is responsible for approximately 36% of diarrheal diseases caused by identified pathogens. In 2007, of the 9 bacterial enteropathogens monitored by FoodNet, the predominant causes were non-typhoid salmonella (14.86 cases per 100,000 population), campylobacter (12.78), shigella (6.24), cryptosporidium (2.67), and Shiga toxin-producing E. coli (STEC) O157 (1.19). • The prevalence of bacterial diarrhea attributed to salmonella, campylobacter, and yersinia is greatest in infants under one year of age. The prevalence of post-diarrheal hemolytic uremic syndrome (HUS) in the United States is 0.65 instances per 100,000 individuals, with the highest frequency observed in children under five years of age. • Traveler's diarrhea impacts 20–60% of global travelers. RISK FACTORS • Ingesting uncooked eggs, pork, shellfish, poultry, or unpasteurized dairy products. • Consuming unpurified water from streams or rivers. Conditions linked to heightened illness severity or increased susceptibility to specific pathogens encompass HIV infection, immunosuppressive therapies (such as glucocorticoids, TNF inhibitors, and chemotherapy), recent antibiotic administration, hepatic disease, neutropenia, malnutrition, zinc deficiency, and IgA deficiency. • Oral-anal sexual intercourse • Antibiotic exposure is a risk factor for C. difficile-associated diarrhea. GENERAL PREVENTION • Cleanse hands with soap prior to consuming or preparing food. • Refrain from ingesting raw or undercooked eggs, poultry, meat, fish, and seafood. • Avoid unpasteurized dairy products. • Do not consume untreated stream or river water. • When traveling, eschew tap water and ice in regions with potentially contaminated water. • Vaccines are accessible to prevent Salmonella typhi related to international travel. Refer to the CDC website for recommended immunizations according to your destination (http://www.cdc.gov/). The Advisory Committee on Immunization Practices recommends the rotavirus vaccine for infants in the United States. CAUSES Bacteria include Campylobacter, Salmonella species, E. coli (a. Enterotoxigenic [ETEC], b. Enteropathogenic [EPEC], c. Enteroinvasive [EIEC], d. Shiga toxin-producing [STEC] including E. coli O157:H7, and e. Enteroaggregative [EAEC]), Shigella species, Yersinia enterocolitica, Clostridium difficile, Vibrio cholera, Vibrio parahaemolyticus, Aeromonas species, and Plesiomonas shigelloides. • Viruses (Rotavirus, human caliciviruses including noroviruses, Adenovirus, and Cytomegalovirus) • Parasites (Giardia intestinalis, Cryptosporidium parvum, Entamoeba histolytica, Cyclospora cayetanensis, Isospora belli, and Strongyloides stercoralis) • Toxin-mediated diarrhea (Staphylococcus aureus, Bacillus cereus, and Clostridium perfringens) DIAGNOSIS HISTORY A comprehensive medical history and physical examination are crucial for identifying the potential cause, severity, and existence of problems. • Inquire about recent travel, dietary habits, antibiotic consumption, sexual activity, attendance at day-care facilities, other illnesses, outbreaks, and seasonal factors. • Ascertain the frequency, duration, and nature of diarrhea (e.g., watery, bloody, etc.). • Infectious diarrhea may be accompanied by fever, chills, vomiting, nausea, stomach discomfort, and tenesmus. A history of dizziness, syncope, or presyncope suggests volume depletion. Bloody stools (dysentery) indicate the presence of an invasive infection, including Shigella, Salmonella, Campylobacter, Shiga toxin-producing E. coli (notably in the absence of fever), or Yersinia. Shiga toxin-producing E. coli, particularly O157:H7, induces watery diarrhea that progresses to bloody diarrhea and is linked to the consumption of contaminated beef or produce in around fifty percent of cases. Fever is frequently absent. Yersinia and Salmonella can infect the terminal ileum and cecum, presenting with right lower quadrant pain and tenderness indicative of acute appendicitis. • Watery diarrhea is clinically ambiguous. Gastroenteritis resulting from an enterotoxin (food poisoning) may be attributed to S. aureus, B. cereus, or C. perfringens. These instances may manifest with isolated vomiting (S. aureus or C. perfringens) or watery diarrhea (B. cereus or C. perfringens). Fever is typically absent. The incubation period is brief (2–7 hours for S. aureus; 8–14 hours for C. perfringens; C. perfringens may exhibit either duration) and the overall duration is limited. Extraintestinal signs, like arthritis, dermatological diseases, or eye problems, indicate the presence of inflammatory bowel disease. • The cause of recent overseas travel is contingent upon the place, environment, and season. The predominant pathogens comprise enterotoxigenic E. coli, enteroaggregative E. coli, Campylobacter, Salmonella, and norovirus. The CDC Travelers' Health website or other travel medicine resources can assist in diagnostic evaluation. PHYSICAL EXAMINATION • Evaluate blood pressure, heart rate, respiration rate, temperature, and mental status to determine the severity. • Assess for indicators of dehydration such as xerostomia, impaired skin turgor, enophthalmos, reduced capillary refill time, low jugular venous pressure, or orthostatic hypotension. • Examine for abdominal discomfort, manifestations of peritonitis (guarding, rebound tenderness), hepatomegaly, and splenomegaly. DIAGNOSTIC TESTS AND INTERPRETATION Laboratory Initial Assessments • The indications for diagnostic testing encompass the following: Fever, systemic sickness, hematochezia, dehydration, a confirmed or suspected outbreak of foodborne illness, recent international travel, immunosuppression, or recent antibiotic administration. Submit stool specimen for culture analysis. In the majority of microbiology laboratories, stool samples submitted for the culture of enteric pathogens will be analyzed for Shigella, Salmonella, and Campylobacter. Consequently, if there is a strong clinical suspicion for E. coli (STEC, ETEC, EPEC, EIEC), Yersinia, Vibrio, etc., inform the microbiology laboratory. The diagnostic yield of stool cultures varies between 1.5% and 5.6%. • In cases with bloody diarrhea, do stool cultures for Salmonella, Shigella, Campylobacter, and Shiga toxin-producing E. coli, and conduct an immunoassay for Shiga toxin. Upon isolation of E. coli, dispatch to a reference laboratory for serotyping. • In cases of recent antibiotic use, hospitalization, daycare exposure, or chemotherapy, stool specimens should be analyzed for C. difficile toxins A and B. For diarrhea lasting over 7 days, collect numerous stool specimens for ova and parasite analysis, specifically targeting Giardia, Cryptosporidium, Isospora belli, and Cyclospora. Evaluate noninfectious etiology. In individuals with AIDS or immunosuppression, further test for microsporidia, Mycobacterium avium. complex, and CMV. • A positive fecal test for polymorphonuclear cells indicates inflammatory diarrhea. Subsequent Actions & Unique Considerations In cases of dehydration or severe sickness, assess serum electrolytes, renal function, hepatic function, total blood count, and blood cultures. Imaging If the diagnosis is ambiguous, accompanied by critical illness, significant abdominal pain, or signs of peritonitis, consider performing a CT scan with both oral and intravenous contrast. Diagnostic Procedures and Additional Methods For additional assessment, contemplate upper gastrointestinal endoscopy or colonoscopy accompanied by diagnostic biopsies. DIFFERENTIAL DIAGNOSIS • Acute inflammatory diarrheal syndrome may also arise from noninfectious causes, including ulcerative colitis, Crohn’s disease, radiation or ischemic colitis, partial bowel obstruction, diverticulitis, laxative abuse, rectosigmoid abscess, Whipple’s disease, pernicious anemia, diabetes, malabsorption, scleroderma, or celiac sprue. Diarrhea and fever may also arise from infections beyond the gastrointestinal tract, such as malaria or sepsis. THERAPY PHARMACEUTICALS The major elements of treatment consist of fluids and antibiotics. Oral rehydration constitutes the most suitable and cost-effective management strategy for both developing and wealthy nations. Intravenous volume repletion is warranted in cases of severe dehydration or significant electrolyte imbalance. The rice-based oral solution is more effective in adults and children suffering from cholera. Antimicrobial therapy is warranted in cases of severe infection and is advised for persistent gastroenteritis, individuals over 65 years of age, immunocompromised patients, those with prosthetic devices, and in instances of invasive infections, excluding those caused by Shiga toxin-producing E. coli. Empiric therapy: For febrile community-acquired invasive diarrhea or moderate to severe traveler's diarrhea, administer ciprofloxacin 500 mg twice day or levofloxacin 500 mg daily while awaiting stool investigations, unless Shiga toxin-producing E. coli is suspected. In the event of recent travel to Southeast Asia, investigate fluoroquinolone-resistant Campylobacter. If there has been recent antibiotic usage or nosocomial diarrhea, administer metronidazole or vancomycin while awaiting assay results for C. difficile toxin. Chosen pathogens and their treatment: • Salmonella (non-typhi species) — Bacteremia manifests in 2–8% of cases. Administer treatment for severe disease in individuals under 12 months, over 50 years, with valvular disease, severe atherosclerosis, prosthetic devices, cancer, HIV, uremia, sickle cell disease, and other immunocompromised conditions. Ciprofloxacin 500 mg orally twice daily or levofloxacin 500 mg orally once daily for 5 to 7 days. If susceptible, provide TMP-SMX DS twice daily for 5–7 days, or ceftriaxone 2 g IV/IM daily for 5–7 days. Administer treatment for 14 days if the individual is immunocompromised. Antibiotics may augment shedding. • Shigellosis – provide ciprofloxacin 500 mg orally twice daily, or levofloxacin 500 mg once daily for 3 days, or if susceptible, TMP-SMX DS twice daily for 3 days. Administer treatment for 7 to 10 days in cases of severe disease or in immunocompromised individuals. • Campylobacter – provide erythromycin 500 mg bi-daily for a duration of 5 days. Significant fluoroquinolone resistance, particularly in Southeast Asia. • Escherichia coli, Shiga toxin-producing (STEC) – Avoid antibiotics as they may elevate the risk of hemolytic uremic syndrome (HUS). Auxiliary care. • E. coli (ETEC, EPEC, EIEC) – provide ciprofloxacin 500 mg orally twice daily or levofloxacin 500 mg daily for a duration of 3 days. Administer TMP-SMX DS bi-daily for three days if susceptible. • Yersinia – antibiotics are generally unnecessary. For severe infections or immunocompromised patients, administer doxycycline in conjunction with an aminoglycoside, fluoroquinolone, or TMP-SMX. • C. difficile – discontinue superfluous antibiotics and use metronidazole 500 mg three times daily for moderate cases or vancomycin 125 mg four times daily for 10–14 days. Kindly refer to the pertinent subject. • Cholera: Fluid replenishment is essential. Examine local susceptibilities. Treatment options include doxycycline, tetracycline, TMP-SMX, or fluoroquinolone. Amebiasis: Administer metronidazole 750 mg three times daily for five days (ten days in severe cases), followed by paromomycin 500 mg three times daily for seven days, or iodoquinol 650 mg three times daily for twenty days. • Giardiasis: Metronidazole 250–750 mg administered thrice day for 7–10 days or tinidazole 2 g as a single dose • Cyclospora & Isospora – Administer TMP-SMX 1 DS bi-daily for a duration of 7–10 days. If immunocompromised, prolong treatment and contemplate suppression. SUPPLEMENTARY THERAPY Comprehensive Strategies • The majority of mild instances are self-resolving. Symptomatic treatment encompasses water and anti-motility medicines, including loperamide. Loperamide is the preferred antidiarrheal medication for people experiencing mild to moderate diarrhea without hematochezia. It is contraindicated in instances of severe inflammatory or bloody diarrhea, C. difficile infection, and in children under 2 years of age. Bismuth salicylate functions as an antisecretory agent and can diminish stool output in both children and adults. Concerns for Referral • In instances of severe or persistent diarrhea of indeterminate origin, consider consulting gastroenterology and/or infectious diseases specialists. • Document instances of Salmonella species, Shigella, Campylobacter, E. coli, cholera, cryptosporidiosis, cyclosporiasis, Vibrio species, and any suspected or confirmed outbreaks. INPATIENT CONSIDERATIONS Preliminary Stabilization Immediate rehydration and empirical antibiotics are necessary in cases of severe acute diarrhea accompanied by systemic toxicity. Criteria for Admission Admit individuals exhibiting severe dehydration or an inability to sustain fluid intake. Intravenous Fluids Intravenous volume repletion is warranted in cases of severe dehydration or when the patient exhibits changed mental status. Criteria for Discharge Patients may be discharged after fevers diminish for over 24 hours, vital signs stabilize, and the patient can sustain sufficient fluid and food intake. CONTINUED MANAGEMENT POST-TREATMENT SUGGESTIONS Evaluate and administer treatment to families exhibiting like symptoms. DIET • Nutritional intake may commence four hours following the initiation of oral or intravenous hydration. • Provide regular, little portions of easily digestible food. Avoid hyperosmolar fruit juices, as they may worsen diarrhea. INFORMATION FOR PATIENTS Instruct patients on general food safety practices and methods to prevent foodborne infections, particularly during travel. OUTLOOK Gastrointestinal diseases account for about 900,000 hospitalizations and 6,000 fatalities in the United States each year. COMPLICATIONS Complications encompass dehydration, electrolyte imbalances, bacteremia and sepsis, malnutrition and vitamin deficiency, hemolytic uremic syndrome (HUS), and systemic amebiasis. |
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