Pyrexia of unknown origin ( Fever evaluation) .pdf
- 1. 170 © Royal College of Physicians 2018. All rights reserved. ORIGINAL RESEARCH Clinical Medicine 2017 Vol 17, No 6: 170–8 CME INFECTIOUS DISEASES Clinical Medicine 2018 Vol 18, No 2: 170–4 Authors: A specialist trainee in infectious diseases, Tropical and Infectious Disease Unit, Royal Liverpool University Hospital, Liverpool, UK; B senior lecturer and honorary consultant in infectious diseases, Tropical and Infectious Disease Unit, Royal Liverpool University Hospital and Clinical Sciences Group, Liverpool School of Tropical Medicine, Liverpool, UK Authors: Cristina FernandezA and Nick J BeechingB The syndrome of pyrexia of unknown origin (PUO) was first defined in 1961 but remains a clinical challenge for many physicians. Different subgroups with PUO have been suggested, each requiring different investigative strategies: classical, nosocomial, neutropenic and HIV-related. This could be expanded to include the elderly as a fifth group. The causes are broadly divided into four groups: infective, inflammatory, neoplastic and miscellaneous. Increasing early use of positron emission tomography–computed tomography (PET-CT) and the development of new molecular and serological tests for infection have improved diagnostic capability, but up to 50% of patients still have no cause found despite adequate investigations. Reassuringly, the cohort of undiagnosed patients has a good prognosis. In this article we review the possible aetiologies of PUO and present a systematic clinical approach to investigation and management of patients, recommending potential second-line investigations when the aetiology is unclear. Introduction The definition of pyrexia of unknown origin (PUO) dates back to 1961; it was described as a persistent fever above 38.3°C (100°F) that evades diagnosis for at least 3 weeks, including 1 week of investigation in hospital.1 This definition has evolved with faster and more accurate diagnostic techniques and changing models of care, and a week of hospitalisation is no longer considered essential. Different subgroups with PUO have been suggested, each requiring different investigative strategies: classical, nosocomial, neutropenic and HIV-related.2 Pyrexia of unknown origin in the elderly tends to be considered under the classical heading, but the presentation, underlying conditions and subsequent management differ considerably from PUO in a younger adult age group. Pyrexia of unknown origin in the over 65s could be considered a fifth category.3,4 The causes of PUO can be considered in four categories: infective, inflammatory, neoplastic and miscellaneous. The relative ABSTRACT Pyrexia of unknown origin Key points When investigating a patient with pyrexia of unknown origin (PUO), consider possible aetiologies in each of the following four broad categories: infective, inflammatory, neoplastic and miscellaneous. Address each in turn. Pyrexia of unknown origin is a diagnostic challenge and early involvement of specialists is important The balance of causes of PUO varies over time and across different patient populations Investigations should be undertaken based on the most likely cause(s). Blanket investigations are not recommended as positive or equivocal tests are difficult to interpret in the absence of a suggestive exposure history and/or clinical syndrome. This can be misleading and potentially cause patient harm Empirical therapeutic trials are not recommended before a diagnosis is made, unless the patient is believed to have miliary tuberculosis (TB), central nervous system TB, temporal arteritis or infective endocarditis with severe sepsis The overall outcome of patients with a PUO is good, especially when no cause is found KEYWORDS: fever, pyrexia of unknown origin, fever of unknown origin, pyrexia, diagnosis ■ prominence of each category has changed over time, with an increasing proportion of patients who remain undiagnosed, which may be up to 51% of cases.5 Infectious causes account for 17–35% of cases, inflammatory causes 24–36%, neoplastic causes 10–20% and miscellaneous causes 3–15%.6 An older multimorbid population, increased global travel, HIV infection, the increase in organ transplantation and immunomodulation for many diseases, evolving diagnostics and changing antimicrobial resistance patterns have all changed the management of patients with PUO (Fig 1). Clinical approach The diagnostic approach to a patient with PUO should be methodical. A thorough history is essential and will have to go CMJv18n2-CME-Beeching.indd 170 CMJv18n2-CME-Beeching.indd 170 3/24/18 6:17 PM 3/24/18 6:17 PM
- 2. © Royal College of Physicians 2018. All rights reserved. 171 CME Infectious diseases back months or years to yield clues to potential aetiologies for investigation. The pattern of fever (episodic, consistent etc) and general health of the patient during and between episodes of fever should be ascertained, together with any associated past or current symptoms. Enquiry should include a detailed past medical and surgical history, all medications the patient takes or has taken including over-the-counter drugs, alternative, herbal or ‘traditional’ medications, recreational drug use and vaccinations. A comprehensive travel history is needed together with occupational, environmental, animal and sexual exposures. Illness in contacts and a family history of similar illnesses may be relevant. This history should be revisited at regular intervals, both to highlight clues that were previously missed or initially not considered to be relevant and to review any changes in symptoms. Patients with a prolonged PUO are often clinically well enough to lead a relatively normal life. However, at every clinical encounter it must be reviewed whether the patient has developed any ‘red flag’ symptoms; these include weight loss, increased lethargy, drenching night sweats, inability to perform activities of daily living, or changes in other symptomatology and physical examination. A comprehensive examination of the patient follows. The first clinical encounter should include an ‘A, B, C’ approach to ensure the patient is clinically stable. Physical features of a systemic inflammatory response must be elucidated on examination and in the first instance sepsis should be ruled out. As well as a detailed examination of the respiratory, cardiovascular and alimentary systems one must pay special attention to other important sources of fever. This includes: full examination of the spine and joints; top-to-toe examination of the skin for rashes, ulcers, scars, bites, pressure areas and abnormalities of the hair and nails; review of dentition; temporal arteries; fundoscopy; breast examination, particularly in women; and pelvic or rectal examination including the prostate in men. Any implant is a potential site of infection and must be examined if possible, including prosthetic joints, pacemakers, pacemaker wires, central or peripheral vascular lines, shunts, grafts and meshes. Investigations should be conducted to confirm or rule out the most likely diagnosis/diagnoses, based on the history and examination findings. Investigation should proceed through at least two stages of baseline tests followed by more specific tests, after which each abnormal result should be weighed carefully – the more tests that are done, the more false leads will emerge. Early blanket testing for all possible aetiologies is inappropriate. A baseline set of investigations includes full blood count with a differential cell count, renal electrolytes and liver function tests, C-reactive protein (CRP) and erythrocyte sedimentation rate (ESR), clotting screen, creatine kinase, at least two blood cultures (while not receiving antibiotics) and an HIV test. A chest X-ray, ultrasound of the abdomen and a urine dipstick should also be performed. Potential second-line investigations include microbiological tests, imaging and biopsies as described in Table 1. Each test should only be performed when there is a reasonable pretest probability of the condition being present and this often requires early involvement of other appropriate clinical specialties in the care of patients with PUO. The utility and availability of positron emission tomography– computed tomography (PET-CT) has increased and it is often used early in the list of second-line investigations to identify metabolically active foci of infection, inflammation or cancer as possible causes of PUO.12 Infective causes The most common causes of PUO in immunocompetent individuals are infective endocarditis (especially culture negative endocarditis), discitis, osteomyelitis, occult abscesses and infected implanted devices. Patients who have been hospitalised in the last 6 months are at increased risk of haematogenous spread of infections through invasive procedures and intravascular devices. In all cases, a positive microbiological diagnosis should be attempted prior to commencing antimicrobial therapy, often involving a biopsy of the potentially infected tissue or removal of the culprit device. In patients with suspected endocarditis and negative blood cultures, fastidious and slow-growing bacteria are common aetiological agents. In these cases, extended cultures for HACEK organisms (a group of fastidious Haemophilus-like organisms) and serology for Coxiella burnetii (Q fever), Bartonella spp and Brucella spp are recommended.13 Resistant organisms are becoming increasingly common and must be considered in patients with recent (last 6 months) or repeated hospitalisations, who have received repeated courses of antimicrobials, and those who have been travelling abroad, especially if they have had diarrhoea or been hospitalised overseas. Elderly patients account for an increasing proportion of patients with PUO. It is important to not discount diagnoses such as tuberculosis, HIV or syphilis on the basis of age alone. Returning travellers Up to one-quarter of returning travellers cite fever as the chief reason for seeking care on return and are more likely to be hospitalised than those without fever.14,15 The National Travel Health Network and Centre (NaTHNaC) (https://travelhealthpro. 0 20 40 60 80 100 120 Causes of PUO Children >65 years old Tropics Paent populaons HIV posive paents on ART a Total Unknown Miscellaneous Inflammatory Neoplasc Infecous Fig 1. The relative causes of pyrexia of unknown origin (PUO) in differ- ent patient populations expressed as percentages (data from references5,7–11 ). a Many HIV positive patients have more than one causal diagnosis for PUO and therefore the sum of percentages in this category is 100%. ART = antiretroviral therapy CMJv18n2-CME-Beeching.indd 171 CMJv18n2-CME-Beeching.indd 171 3/24/18 6:17 PM 3/24/18 6:17 PM
- 3. 172 © Royal College of Physicians 2018. All rights reserved. CME Infectious diseases org.uk) provides travel information about current outbreaks and potential exposures based on the area of travel. A travel history should elicit where the patient has returned from (including transits), the length of time spent in each place, the type of accommodation used, use of bed nets, the activities the patient undertook, what type of food and beverages they consumed, and whether they suffered any arthropod or animal bites. Details are needed of business and leisure activities including animal and freshwater contact, sexual history and possible illness in contacts. Vaccinations prior to travel, compliance with malaria and other chemoprophylaxis and the use of antimicrobials abroad are also important. Most patients with falciparum malaria present within 2 months of return, but other species of malaria may have incubation periods of a year or more, so travel history should extend back for at least 2 years.16 Patients visiting friends and relatives abroad are at increased risk of infections such as typhoid and malaria and are also more likely to suffer other serious preventable travel-related illnesses compared to other travellers. Infections that may present months to years after exposure, such as tuberculosis (TB), need to be considered and are more likely in areas with large migrant populations. Systematic approaches to investigating fever in the returning traveller are published in more detail elsewhere.17 It is important to consider less exotic causes for a fever in returning travellers such as urinary tract infections, influenza, pneumonia, meningitis and non-infectious conditions, especially deep venous thrombosis and pulmonary embolism. Immunosuppressed patients Immunosuppression can be caused by numerous conditions and related medications including HIV infection, haematological malignancies, organ transplantation, corticosteroids, immunomodulators and chemotherapy agents. Pyrexia of unknown origin in patients with HIV infection can be caused by HIV seroconversion, opportunistic infections at low CD4 cell count levels (especially 200x106 cells/L), malignancies at all CD4 count levels, and immune reconstitution inflammatory syndrome (IRIS) after commencing antiretroviral therapy. Patients living with HIV often have a high epidemiological risk for infections such as TB, invasive non-typhoidal salmonellosis and malaria, which can occur at any CD4 count but may present atypically in these patients. The risk of immunosuppression in transplant recipients is determined by the underlying medical condition which necessitated transplant, the duration and type of drug-induced immunosuppression pre- and post-transplant, and their comorbidities. Acute and chronic transplant rejection can also cause fever, the management of which may necessitate further immunosuppression. Infections in immunosuppressed patients present atypically, with altered incubation periods, attenuated or more severe clinical signs and symptoms, and differing yields from diagnostic tests. It is not uncommon for immunosuppressed patients to have more than one life-threatening infection. Table 1. Potential second-line investigations for pyrexia of unknown origin Infection Inflammatory Neoplastic Miscellaneous Echocardiogram, preferably TOE Line cultures if the patient has an intravascular device Lumbar puncture Lymph node biopsy Malaria screen (RDT and three malaria films on consecutive days) PET-CT Serology for viral hepatitis Specialised serological or molecular tests Spinal MRI Sputum test for culture (consider an induced sputum test if the patient is not expectorating) Stool samples for culture, PCR and OCP Syphilis serology Two to three peripheral blood cultures Urine culture, plus three early morning urines for TB culture in sterile pyuria Wound swabs ANA ANCA Anti-CCP Antiphospholipid antibodies (lupus anticoagulant and anticardiolipin) Complement levels Cryoglobulins CT chest, abdomen and pelvis Ferritin Joint aspiration to detect crystals LDH MR or CT angiography PET-CT Rheumatoid factor Serum ACE level Serum electrophoresis Serum urate Temporal artery biopsy Urine for Bence Jones protein Colonoscopy CT chest, abdomen and pelvis Echocardiogram, preferably TOE LDH PET-CT Serum calcium Serum electrophoresis Tissue, lymph node and/ or bone marrow biopsy for histology Urine for Bence Jones protein Pituitary screen Synacthen test Thyroid function tests Note: This is not a comprehensive list of investigations to be carried out in every patient with PUO but instead a list of tests that should only be performed when there is a reasonable pretest probability of the condition investigated being present. ACE = angiotensin converting enzyme; ANA = anti-nuclear antibodies; ANCA = antineutrophil cytoplasmic antibody; Anti-CCP: anti-cyclic citrullinated peptide; CT = computed tomography; LDH = lactate dehydrogenase; MR(I) = magnetic resonance (imaging); OCP = ova, cysts and parasites; PET-CT = positron emission tomography–computed tomography; PCR = polymerase chain reaction; RDT = rapid diagnostic test; TB = tuberculosis; TOE = transoesophageal echocardiogram CMJv18n2-CME-Beeching.indd 172 CMJv18n2-CME-Beeching.indd 172 3/24/18 6:17 PM 3/24/18 6:17 PM
- 4. © Royal College of Physicians 2018. All rights reserved. 173 CME Infectious diseases Immunosuppressed patients have an increased incidence of the infections which may present as PUO, especially: bacterial: pulmonary and extrapulmonary TB, other mycobacterial infections, non-typhoidal salmonellosis, melioidosis, and syphilis viral: arboviruses, Coxsackie virus, cytomegalovirus (CMV), Epstein–Barr virus (EBV), and parvovirus fungal: aspergillosis, candidiasis, cryptococcosis, endemic mycoses, and histoplasmosis parasitic: visceral leishmaniasis. Non-infective causes The non-infectious causes of PUO can be broadly categorised as inflammatory disorders, solid tumours, haematological malignancies and miscellaneous (Table 2). As the relative incidence of infective causes of PUO decreases, non-infective causes are becoming more prevalent and can account for up to one-third of PUO cases.5,7 Numerous inflammatory disorders can cause fever, such as systemic rheumatic diseases (eg polymyositis), vasculitic processes (eg temporal arteritis), autoinflammatory disorders (eg Still’s disease) or granulomatous processes (eg sarcoidosis). These are often multisystem conditions requiring multiple confirmatory investigations and a multidisciplinary approach to management. Fever associated with malignancy may be due to the malignant process itself or an associated paraneoplastic process, as well as opportunistic infections. Criteria for diagnosis of malignancy related PUO, including a selective response to naproxen, have been summarised elsewhere.18 Drug fever is an under-recognised cause of PUO, particularly in the elderly. It usually commences 7–10 days after starting a medication but can occur at any time, including months later. If fever persists for more than 96 hours after its discontinuation, the suspected drug is unlikely to be the cause.4 Many classes of medications can cause fever through different mechanisms including antibiotics, anticholinergics, non-steroidals, allopurinol, anticonvulsants, anti-hypertensives, antiarrhythmics, and antidepressants. There are many rare conditions in the miscellaneous causes of PUO, some of the most common of which are listed in Table 2. It is essential to consider factitious (self-induced) fever, especially in patients with good medical knowledge and apparently good health despite wide-swinging fever patterns.19 Management The management of PUO should be supportive until the cause has been determined. Therapeutic trials of antimicrobials or steroids are not recommended because they can mask symptoms and signs of the underlying disease process. The overall mortality of PUO is low, particularly in those well enough to be investigated as outpatients.20 Box 1 lists good practice points in the management of patients with PUO. There are three occasions when empirical treatment is appropriate: antituberculous therapy for suspected miliary or CNS TB, antimicrobials for patients with suspected infective endocarditis and signs of sepsis, and steroid treatment for possible temporal arteritis. Empirical treatment for TB should always be discussed with a specialist, as the risk of drug resistance needs to be evaluated for each patient, together with the need for early adjunctive steroid therapy for CNS and pericardial TB (at differing dosing regimens). One of the most important aspects of management is to address the patient’s expectations of diagnosis and treatment. It is important to warn them about the need for a methodical stepwise approach to investigation, which can be frustrating for both the patient and physician and which may not lead to a firm diagnosis. Undiagnosed patients may be reassured that their prognosis is likely to be good, despite possible continuation of symptoms. ■ Table 2. Non-infective causes of pyrexia of unknown origin Category Aetiology Inflammatory disorders Behçet’s disease Familial Mediterranean fever Felty’s syndrome Giant cell arteritis and temporal arteritis Gout and pseudogout Granulomatosis with polyangiitis (Wegener’s disease) Polyarteritis nodosa Polymyositis Rheumatoid arthritis Sarcoidosis Still’s disease Systemic lupus erythematosus Takayasu’s arteritis Solid tumours Atrial myxoma Colonic cancer Hepatic carcinoma Metastatic disease Pancreatic cancer Renal cell carcinoma Haematological malignancy Leukaemia Lymphoma Multiple myeloma Myeloproliferative disorders Miscellaneous Drug fever Factitious fever Hypoadrenalism Hypothalamic dysfunction Inflammatory bowel disease Thyroiditis CMJv18n2-CME-Beeching.indd 173 CMJv18n2-CME-Beeching.indd 173 3/24/18 6:17 PM 3/24/18 6:17 PM
- 5. 174 © Royal College of Physicians 2018. All rights reserved. CME Infectious diseases Acknowledgment NJB is partially supported by the National Institute of Health Research Health Protection Unit in Emerging and Zoonotic Infections, a collaboration between the University of Liverpool, Liverpool School of Tropical Medicine and Public Health England. He is affiliated with the Liverpool School of Tropical Medicine. Views expressed in this article are those of the contributors and do not necessarily represent the official position of the National Health Service, the National Institute for Health Research, the Department of Health, or Public Health England. References 1 Petersdorf RG, Beeson PB. Fever of unexplained origin: report on 100 cases. Medicine (Baltimore) 1961;40:1–30. 2 Durack DT, Street AC. Fever of unknown origin—reexamined and redefined. Curr Clin Top Infect Dis 1991;11:35–51. 3 Tal S, Guller V, Guervich A. Fever of unknown origin in older patients. Clin Geriatr Med 2007;23:649–83 4 Todd S, Beeching NJ. Fever of unknown origin. Chapter 11. In: Gosney M, Harper A, Conroy S (eds), The Oxford desk reference: geriatric medicine. Oxford: OUP, 2012:247–9. 5 Bleeker-Rovers CP, Vos FJ, de Kleijn EM et al. A prospective multi- center study on fever of unknown origin: the yield of a structured diagnostic protocol. Medicine (Baltimore) 2007;86:26–38. 6 Beresford RW, Gosbell IB. Pyrexia of unknown origin: causes, inves- tigation and management. Intern Med J 2016;46:1011–6. 7 Yamanouchi M, Uehara Y, Yokokawa H et al. Analysis of 256 cases of classic fever of unknown origin. Intern Med 2014;53:2471–5. 8 Chow A, Robinson JL. Fever of unknown origin in children: a system- atic review. World J Pediatr 2011;7:5–10. 9 Newsholme W, Brown M. Pyrexia of unknown origin: a review of studies from the developing world. Trop Doct 2005;35:68–71. 10 Lozano F, Torre-Cisneros J, Santos J et al. Impact of highly active antiretroviral therapy on fever of unknown origin in HIV-infected patients. Eur J Clin Microbiol Infect Dis 2002;21:137–9. 11 Armstrong W, Katz J, Kazanjian P. Human immunodeficiency virus- associated fever of unknown origin: a study of 70 patients in the United States and review. Clin Infect Dis 1999;28:341–5. 12 Bleeker-Rovers CP, Vos FJ, Mudde AH et al. A prospective multi- centre study of the value of FDG-PET as part of a structured diag- nostic protocol in patients with fever of unknown origin. Eur J Nucl Med Mol Imaging 2007;34:694–703. 13 Gould FK, Denning DW, Elliott TS et al. Guidelines for the diag- nosis and antibiotic treatment of endocarditis in adults: a report of the Working Party of the British Society for Antimicrobial Chemotherapy. J Antimicrob Chemother 2012;67:269–89. 14 Schlagenhauf P, Weld L, Goorhuis A et al. Travel-associated infec- tion presenting in Europe (2008–12): an analysis of EuroTravNet longitudinal, surveillance data, and evaluation of the effect of the pre-travel consultation. Lancet Infect Dis 2015;15:55–64. 15 Leder K, Torresi J, Libman MD et al. GeoSentinel surveillance of illness in returned travelers, 2007–2011. Ann Intern Med 2013;158:456–68. 16 Lalloo DG, Shingadia D, Bell DJ et al. UK malaria treatment guide- lines 2016. J Infect 2016;72:635–49. 17 Fink D, Wani RS, Johnston V. Fever in the returning traveller. BMJ 2018 Jan 25;360:j5773. 18 Foggo V, Cavenagh J. Malignant causes of fever of unknown origin. Clin Med 2015;15:292–4. 19 Aduan RP, Fauci AS, Dale DC, Herzberg JH, Wolff SM. Factitious fever and self-induced infection: a report of 32 cases and review of the literature. Ann Intern Med 1979;90:230–42. 20 Vanderschueren S, Eyckmans T, De Munter P, Knockaert D. Mortality in patients presenting with fever of unknown origin. Acta Clin Belg 2014;69:12–6. Box 1. Good practice points in the management of pyrexia of unknown origin There are many pitfalls in the investigation and management of pyrexia of unknown origin (PUO). The following good-practice points are recommended. Ensure a thorough history, examination and baseline investigation panel have been done. Return to the patient’s history and examination at regular intervals. Consider non-infectious causes of a fever early on in the patient’s journey. All patients with PUO should have an HIV test. Exclude malaria in patients with a history of relevant travel within the last 2 years. A positive tuberculin or interferon gamma release assay is not diagnostic for TB: microbiological confirmation through bacterial culture or molecular testing is required. Do not give empirical antimicrobial or steroid trials. Be cautious with the interpretation of some serological tests as some perform poorly with high false positive and false negative rates. Do not perform serological testing if there is no history of exposure to the pathogen you are testing for. Perform PET-CT testing early in the patient’s diagnostic journey when there are no localising clues in the history or examination. Ensure that the patient is aware of the strong possibility of no diagnosis being made. Address for correspondence: Dr Nick Beeching, Clinical Sciences Group, Liverpool School of Tropical Medicine, Pembroke Place, Liverpool L3 5QA, UK. Email: nicholas.beeching@lstmed.ac.uk CMJv18n2-CME-Beeching.indd 174 CMJv18n2-CME-Beeching.indd 174 3/24/18 6:17 PM 3/24/18 6:17 PM