key: cord-0001259-v01vwu00 authors: Thoden, J.; Potthoff, A.; Bogner, J. R.; Brockmeyer, N. H.; Esser, S.; Grabmeier-Pfistershammer, K.; Haas, B.; Hahn, K.; Härter, G.; Hartmann, M.; Herzmann, C.; Hutterer, J.; Jordan, A. R.; Lange, C.; Mauss, S.; Meyer-Olson, D.; Mosthaf, F.; Oette, M.; Reuter, S.; Rieger, A.; Rosenkranz, T.; Ruhnke, M.; Schaaf, B.; Schwarze, S.; Stellbrink, H. J.; Stocker, H.; Stoehr, A.; Stoll, M.; Träder, C.; Vogel, M.; Wagner, D.; Wyen, C.; Hoffmann, C. title: Therapy and prophylaxis of opportunistic infections in HIV-infected patients: a guideline by the German and Austrian AIDS societies (DAIG/ÖAG) (AWMF 055/066) date: 2013-09-14 journal: Infection DOI: 10.1007/s15010-013-0504-1 sha: 50264d1b7eca6884aa5404d3263afe92f5cf394f doc_id: 1259 cord_uid: v01vwu00 INTRODUCTION: There was a growing need for practical guidelines for the most common OIs in Germany and Austria under consideration of the local epidemiological conditions. MATERIALS AND METHODS: The German and Austrian AIDS societies developed these guidelines between March 2010 and November 2011. A structured Medline research was performed for 12 diseases, namely Immune reconstitution inflammatory syndrome, Pneumocystis jiroveci pneumonia, cerebral toxoplasmosis, cytomegalovirus manifestations, candidiasis, herpes simplex virus infections, varizella zoster virus infections, progressive multifocal leucencephalopathy, cryptosporidiosis, cryptococcosis, nontuberculosis mycobacteria infections and tuberculosis. Due to the lack of evidence by randomized controlled trials, part of the guidelines reflects expert opinions. The German version was accepted by the German and Austrian AIDS Societies and was previously published by the Arbeitsgemeinschaft der Wissenschaftlichen Medizinischen Fachgesellschaften (AWMF; German Association of the Scientific Medical Societies). CONCLUSION: The review presented here is a translation of a short version of the German–Austrian Guidelines of opportunistic infections in HIV patients. These guidelines are well-accepted in a clinical setting in both Germany and Austria. They lead to a similar treatment of a heterogeneous group of patients in these countries. Although opportunistic infections (OIs) in human immunodeficiency virus (HIV)-infected patients have become rare in industrialized countries [1] , patients continue to present with advanced HIV disease and HIV-related OIs. Patients (so-called ''late presenters'') are often unaware of their HIV infection or have not received antiretroviral treatment. They present at a late stage and when their overall health status is already poor [2] . Diagnosis and therapy of these OIs remain a challenge. The aim of the recommendations presented here is to develop general and practical guidelines for the treatment and prophylaxis of the most common OIs in Germany within the framework of local epidemiological conditions. The tables in the different sections of the guidelines represent a summary of the therapeutic guidelines. With regard to diagnosis, the authors refer to the appropriate literature. At the time the guidelines were approved some articles were only available as congress abstracts; if these were published as peer-reviewed article at a later date, the published articles were cited. The KAAD (Clinical AIDS Working Group Germany) guidelines conform to the international guidelines of the U.S. Centers for Disease Control and Prevention (CDC) (http:// www.cdc.gov/mmwr) [3] and guidelines formulated by the AWMF (Association of the Scientific Medical Societies in Germany) in the overlapping fields dermatology and neurology (http://www.uni-duesseldorf.de/AWMF/ll/). Members of other medical societies and the Austrian AIDS Society have also participated and have been consulted (see Appendix). Some of the following recommendations go beyond the approved use of drugs. In many cases, data from randomized controlled trials (RCTs) are missing, and evidence is based on practical and clinical experiences not presented in published studies (expert opinion). In addition, we advise always checking interactions and toxicities of the applied drugs as these factors cannot be described in detail within the scope of this guideline. For the treatment of bacterial pneumonia, which is similar in HIV-positive and HIV-negative patients, the appropriate guidelines should be referred to. The indication for antiretroviral therapy (ART) in Germany is based on the guidelines by the German and Austrian AIDS Societies (DAIG and Ö AG, respectively). However, general recommendations regarding when to start ART with mostly ART-naïve patients in the setting of an (acute) OI cannot be given. In the case of candidiasis, herpes virus infections or, for example, cryptosporidiosis, the immediate start of ART is uncomplicated; in the case of progressive multifocal leukoencephalopathy (PML) it is even necessary and recommended. The situation is more difficult in cases of Pneumocystis jiroveci pneumonia (PcP), cerebral toxoplasmosis, cytomegalovirus (CMV)-retinitis, tuberculosis (TB), atypical mycobacteriosis, and cryptococcosis. We refer to the corresponding sections of these guidelines. The recommendations given here represent the consensus of the guideline consensus group. The recommendations referring to medical therapies might involve off-label therapies that have not been officially approved. This is due to the lack of data from RCTs on HIV-infected patients with OI. In such cases, the recommendation often refers to data on HIV-negative persons or personal experience (expert opinion). It should also be noted that drug-drug interactions or toxicities need to be excluded in each single case. The KAAD was given the task to develop guidelines for the treatment and prophylaxis of OI by the DAIG in March 2010. The members of the DAIG, Ö AG, and other German medical societies (in total 24 societies represented; see Appendix) were asked to participate in the consensus process. The members formed small interest groups (n = 3-10 members) covering the different chapters of these guidelines. A first version was sent out in March 2010 based on the corresponding chapters of the digital version (http://www.hivbook.com). The different groups were free to base their chapters on this proposal after review of the relevant literature or to create new chapters. Via an email system these new chapters were put together until the groups reached a consensus on a final draft. Four weeks before a consensus conference in Cologne on 25 June 2010, these drafts for all 12 chapters were sent out to all members of all groups and to all DAIG members with the request for suggestions for changes. The submitted suggestions for changes which were received were then sent out to the members prior to the meeting. During the consensus conference all suggestions were discussed and voted on separately. Finally, each single chapter and the whole guideline proposal were voted on separately. There was an agreement of 100 % on the whole proposal between all members of the guideline group. In a third step the Cologne proposal was sent out via email to all members of the DAIG four weeks prior to a DAIG member assembly in Munich (17 March 2011) for comment. Only minor revisions were asked for. The guidelines were again put to vote during the meeting. During the final vote the guidelines received 36 positive unanimous votes and were agreed on in the current version as the DAIG/KAAD OI guidelines. The German version (long version) of these guidelines was submitted to the AWMF on 30 August 2011 and was published online on 8 November 2011 (http://www.awmf. org/leitlinien/detail/ll/055-006.html). Ö AG approved these guidelines on 9 November 2011. Immune reconstitution inflammatory syndrome The immune system is expected to recover following initiation of ART. Some patients, however, show a paradoxical reaction. With widely varying symptoms, this pattern of disease is defined as immune reconstitution disease, immune reconstitution syndrome, or immune reconstitution inflammatory syndrome (IRIS) [4] [5] [6] [7] . Different clinical case definitions exist [8, 9] Manifestations of IRIS are diverse and range from unspecific symptoms, OIs to autoimmune diseases, and malignomas [10] . Regarding OIs, the physician must differentiate between symptomatic relapse of a prior infection (paradoxical IRIS) and infections first appearing on ART (unmasking IRIS). Data on the incidence of IRIS vary widely, ranging between 10 and 23 % of all patients at initiation of an ART [10] [11] [12] [13] . A prospective study showed an incidence rate in Germany of 24.8 % [14] . An international meta-analysis showed a total incident rate of 16.1 % for IRIS, with the highest rates for IRIS uveitis, followed by TB, cryptococcal meningitis, PML, and rarer cases of Kaposi's sarcoma or varizella zoster virus (VZV) infections [13] . The greatest risk factor would appear to be a low CD4 T-cell count of \50 cells/ll [12, 15] . Patients starting an ART with a CD4 T-cell count of \200 cells/ll and especially those who have a high viral load require close monitoring. Patients with\50 CD4 T-cells/ll should also be tested for a latent mycobacterial infection (by culture). A large prospective trial [16] showed no difference for the development of an IRIS when ART was initiated immediately after patients had started an OI therapy (patients with TB were excluded from the trial). In this study, corticosteroids were often given on initiation of ART in a high number of PcP cases, which possibly suppressed some IRIS cases. For TB and cryptococcosis, however, several studies showed an higher incidence of an IRIS when ART was initiated early [17] [18] [19] . Corticosteroids are useful in cases of TB-IRIS [20] . Steroid therapy for 2-6 weeks is recommended for cryptococcal-IRIS (increase of intracerebral pressure). The use of non-steroidal anti-inflammatory drugs (NSAIDs) and thalidomide was recommended in some studies, but a general recommendation can not be given for these agents [21] . ART should only be interrupted in very severe cases. Results of the Swiss HIV Cohort Study prove that consequent isoniazid (INH)-prophylaxis in HIV patients with latent TB significantly reduces the risk of a relapse [22] . In general, prognosis for an IRIS is good and the mortality rate is not higher than that for patients without an IRIS [23] . Pneumocystis jiroveci pneumonia is the most frequent OI in Germany and appears predominantly in HIV-infected patients with advanced immunodeficiency (CD4 T cells \200/ll). If there clinical-radiological findings suggest PcP, therapy should be initiated immediately without awaiting results of a bronchoalveolar lavage. A mild PcP [BGA: partial pressure of oxgen (PO 2 ) [70] [71] [72] [73] [74] [75] [76] [77] [78] [79] [80] can be treated in outpatient medical care. If ventilation becomes necessary, non-invasive methods (continuous positive airway pressure) are beneficial if applied at an early stage [24] . With respect to the treatment of ARTnaïve patients, several experts believe that the initiation of ART can be delayed until acute treatment is completed. However, one RCT has shown advantages of an early start [16] . Acute therapy should be given at least for 21 days, if necessary longer. The treatment of choice is a combination of trimethoprim and sulfamethoxazole (TMP/SMX, cotrimoxazole). Oral application of TMP/SMX is only recommended in mild cases, but this therapy can be also considered after initial improvement during intravenous therapy. Positive effects with lower doses of TMP/SMX have been observed in some case reports, but data from controlled trials are missing [25] . All severe cases should be treated intravenously in hospital. In cases of respiratory insufficiency [PO 2 \ 70 mmHg or alveolar-arterial oxygen tension difference (AaDO 2 ) C 35 mmHg on room air], most experts recommend (5)-10 days of adjuvant administration of prednisolone [approx.1 mg/kg body weight as a single dose or split dose twice daily (bid)]. With prednisolone, mortality risk of severe PcP can be reduced by half and significantly fewer patients require mechanical ventilation [26] . Compared to TMP/SMX, all alternative therapies are less effective. In the event of intolerance or sulfonamide allergy, intravenous pentamidine (4 mg/kg once daily (qd) for 14-21 days is recommended as a second choice; this agent is however more toxic and the dose may therefore have to be reduced after 5 days (2 mg/kg). Treatment with inhaled pentamidine can be attempted in mild cases of PcP [27, 28] ; however, reports on experience with this approach are conflicting [29] [30] [31] . Instead of pentamidine, the administration of atovaquone suspension or a combination of trimethoprime and dapsone or clindamycin and primaquine is possible [test for glucose-6-phosphate dehydrogenase (G6PD) deficiency!]. Data are only available for mild to moderate PcP [32] [33] [34] . Primaquine is no longer approved for use in Germany, but it is available through international pharmacies. It can only be applied if there are no other alternatives and requires increased efforts in educating patients. According to a meta-analysis, the combination of clindamycin plus primaquine is the most successful therapy if cotrimoxazole therapy fails [35] ; this combination appears to be more effective than pentamidine alone [36] . Patients with \200 CD4 T-cells/ll (or \14 % of total lymphocytic count) or a previous PcP require prophylaxis. The therapy of choice is TMP/SMX, which also has a protective effect against bacterial infections and cerebral toxoplasmosis [37, 38] . Daily administration is possibly more effective than three doses a week [39] . In cases of moderate cutaneous allergic reactions, desensitization is possible [40] . Monthly pentamidine inhalations are a welltolerated alternative [41, 42] . A suitable inhalation system should be chosen and an inhalative ß-sympathomimetic should be administered beforehand. Other options are dapsone [41, 42] and atovaquone, both of which have proved to be similarly effective as TMP/SMX, dapsone, and pentamidine in two multi-center trials [43] [44] [45] . Atovaquone, however, proved inferior to TMP/SMX in another study [32] . PcP prophylaxis can be discontinued after successful immune reconstitution on ART to C200 CD4 T-cells/ll for at least 3 months [46] [47] [48] [49] . Only a few cases of reoccurring PcP have been reported for discontinuation at [200 CD4 T-cells/ll [50, 51] . If the HIV RNA is well suppressed, [100 CD4 T-cells/ll may be sufficient to discontinue prophylaxis [52] . However, larger trials would be needed to submit a general recommendation regarding discontinuation for these patients. The recommendations concerning therapy and prophylaxis of PcP are summarized in Table 1 . The incidence of cerebral toxoplasmosis has decreased to less than a quarter of that during the earlier years of the HIV epidemic, [53] . Nevertheless, it remains the most important neurological OI in HIV-infected patients in Europe [54] . Cerebral toxoplasmosis almost always results from a reactivation of a latent infection with Toxoplasma gondii. Extracerebral manifestations are rare. Standard therapy is a combination of pyrimethamine and sulfadiazine, which is effective in 75-89 % of cases [55, 56] . An equivalent alternative is pyrimethamine and clindamycin [55, 57] . TMP/SMX is also possible, with the same doses as used in PcP [58, 59] . TMP/SMX proved to be as effective as sulfadiazine/pyrimethamine in two RCTs on ocular and cerebral toxoplasmosis [60, 61] . A Cochrane review showed no superiority of any one specific regimen [62] . For pyrimethamine, a ''loading dose'' within the first few days has been used since the first studies [56] . However, the efficacy of this approach has not been proven. Due to the myelotoxicity of pyrimethamine, it is important to add folinic acid (not folic acid) from the start [63] . Other alternatives are atovaquone/pyrimethamine [64] or azithromycin/pyrimethamine [65] ; however, data are limited. Acute therapy lasts for a period of at least 4 (to 6) weeks-longer for alternative therapies. In most cases, empiric treatment of toxoplasmosis is initiated upon identification by radiographic testing. Any improvement or clinical deterioration should be evaluated clinically and by magnetic resonance imaging (MRI) scanning during therapy (after 14 days). In the case of progression, an alternative diagnosis (i.e., cerebral lymphoma, tuberculoma) and a brain biopsy should be considered. Maintenance therapy with a reduced dosage should be initiated when lesions have resolved at least by 50 %, the clinical course has improved, and contrast enhancement has been reduced or eliminated. ART should be initiated as soon as possible. In cases of increased intracranial pressure or extensive edema, steroids can be given (dexamethasone, 3-4 9 4-8 mg/day). The choice for steroid therapy must be considered carefully as steroids distort possible differential diagnoses. For example, primary cerebral lymphomas also respond to steroids, and in the case of therapeutic failure, the validity of a potential biopsy can be reduced with steroids. Antiepileptic therapy is indicated if epileptic attacks occur. Due to rare interactions with ART, gabapentin, pregabalin, and levetiracetam are applied. Levetiracetam is also available as infusion. A distinction must be made between exposure prophylaxis, primary prophylaxis, and secondary prophylaxis after cerebral toxoplasmosis. • Exposure prophylaxis: Immunoglobulin G (IgG)-negative patients should avoid eating raw or undercooked meat. An increased risk due to proximity to cats has not been proven [66] . Stricter measures of hygiene should be followed. However, the importance of this recommendation under effective ART is questionable. • Primary prophylaxis: IgG-positive patients with \100 CD4 T-cells/ll require primary prophylaxis. The drug regimen of choice is TMP/SMX. In cases of allergy, desensitization may be considered [40] . See above for alternatives. Primary prophylaxis can be discontinued if CD4 T-cell count is[200 cells/ll for at least 3 months. • Secondary prophylaxis: In the absence of immune reconstitution, patients require lifelong secondary prophylaxis, usually consisting of half the dose needed for acute therapy [67] . Clindamycin is presumably less suitable as secondary prophylaxis as it cannot cross the intact blood-brain barrier [63] . TMP/SMX also seems less effective for secondary prophylaxis. However, it may be considered because it is simple. A higher dose than that for PcP is definitely required [68, 69] . Prophylaxis may be discontinued safely if initial therapy has led to radiological resolution and if there is an immune reconstitution of [200 CD4 T-cells/ll for at least 3-6 months [31, [70] [71] [72] . The recommendations on therapy and prophylaxis of cerebral toxoplasmosis are summarized in Table 2 . In Germany, seroprevalence of CMV infection in the adult population is 50-70 %. The risk of a reactivation of CMV infection increases when the CD4 T-cell count is \100 cells/ll. In addition to CMV retinitis, impairment of other end-organs may occur. Due to the limited data on CMV manifestations, the same systemic therapy is recommended in these latter cases as for CMV retinitis [73] . International guidelines are also available for this approach [3] . All patients with manifest CMV infection should start ART immediately. The CMV-specific immune response is restored [74] , leading to a reduction of CMV viremia [75] and delaying progression of an existing CMV retinitis or its recurrence [76, 77] . In addition to ART, a CMV-specific therapy should be initiated at the time of diagnosis. Therapy of CMV retinitis can be performed locally or systemically. A local therapy alone does not provide protection against dissemination of infection in the contralateral eye or other organs, but it can be considered if systemic drug toxicity is high. For systemic therapy, four substances are available: gancyclovir, foscarnet, cidofovir, and valgancyclovir (ValGCV). The reader is referred to the product information on these substances for the respective side effects. Valgancyclovir is the only drug that can be administered orally. It is almost completely hydrolyzed to gancyclovir after resorption in the gastrointestinal tract [78, 79] . Gancyclovir and foscarnet are both recommended as first choices for treating CMV retinitis even though foscarnet proved to be superior in pre-ART times [80, 81] . The side effects of both drugs differ, but the response rates to therapy are similar with both substances [81] [82] [83] . As foscarnet must be administered via a central catheter, the administration of gancyclovir is easier and often preferred. Valgancyclovir has proven to be effective in a comparative study and has the advantage of being less complicated to administer than intravenous infusion. Intravenous treatment, however, may be necessary if foveal infections occur with acute risk of impairing visual acuity. In these cases, gancyclovir and foscarnet are equally recommended for first-line therapy. Treatment with both agents consists of an induction therapy followed by life-long maintenance therapy. Induction therapy usually lasts for at least 2-3 weeks until lesions resolve. Without sufficient ART, selection of resistant CMV mutations is frequent and accumulates as the infection progresses [84, 85] . Several authors recommend ValGCV for first-line therapy based on the results of a prospective randomized trial with ValGCV and parenteral gancyclovir [86] and on those of studies on the pharmacokinetics of ganciclovir, with both showing similar results after the administration of ValGCV [78, 79, 86] . Other studies on the pharmacokinetics of gancyclovir following the administration of valgancyclovir either lack a comparison with parenteral gancyclovir [78] , or the administered doses were too low to show bioequivalence of ValGCV and gancyclovir [79] . In summary, a clear recommendation in favor of ValGCV cannot be given at the present time. In the presence of sight-threatening lesions, the panel strongly recommends against treatment with valgancyclovir due to the lack of clear evidence. Some experts recommend a combination therapy of gancyclovir and foscarnet in full doses for acute sightthreatening lesions. Maintenance therapy with ValGCV can be initiated after lesions have completely resolved [87] ; however, this recommendation also lacks data. Without sufficient ART, a relapse is likely to occur, even under maintenance therapy with valgancyclovir. If lesions (zone II and III) are more anterior, therapy with ValGCV may be attempted with weekly monitoring of the fundus. Cidofovir has not been tested in controlled trials against gancyclovir or foscarnet. Compared to a delayed therapy, cidofovir significantly slows down the progression of the infection [88] ; however, cidofovir is not recommended as first-line therapy due to its side effects. It does remain an important agent in the treatment of progredient CMV retinitis under gancyclovir or foscarnet therapy. Sufficient ART is crucial for a successful therapy of CMV retinitis. Patients with progredient CMV retinitis on a gancyclovir regimen can be treated successfully with foscarnet or a combination of foscarnet and gancyclovir [89] . A good response is obtained in many cases with treatment with cidofovir, and this drug can therefore be an alternative. If foscarnet should fail, gancyclovir or a combination of gancyclovir and foscarnet can be effective. Here too, therapy with cidofovir can prevent further progression. Gancyclovir implants can still be effective after therapy failure under systemic gancyclovir or foscarnet due to the significantly higher intraocular gancyclovir concentration produced by the implants [90] . However, there is no protection against further spread of the infection to other organs or to the contralateral eye [91] [92] [93] . Extraocular manifestations are always treated in the same way as a CMV retinitis, although only a few studies support this recommendation. In the presence of a CMV encephalitis or ventriculitis, clinical experience and smaller case studies indicate that a combination therapy with gancyclovir and foscarnet is superior to monotherapy [94] [95] [96] [97] [98] [99] . Due to the toxicity of this therapy, the diagnosis should be confirmed. • Primary prophylaxis: Gancyclovir prophylaxis for CMV retinitis with a CD4 T-cell count of \50 cells/ll is effective, but this is usually too toxic. Fundoscopy every 3 months is recommended but not necessary in the opinion of most experts (especially at a CD4 T-cell count of [100 cells/ll). • A dose-reduced secondary prophylaxis should be initiated, preferably with oral ValGCV after about 3 weeks of acute therapy and after lesions have formed scars [87] . Discontinuation of secondary prophylaxis to avoid side effects as soon as possible is recommended and feasible [77, 100, 101]-however, not before at least 6 months of maintenance therapy and immune reconstitution at a CD4 T-cell count of[100-150 cells/ ll. A small study showed that discontinuation after 18 months of ART/maintenance therapy is already safe at a CD4 T-cell count of [75/ll [101] . In the first stage after discontinuation, patients undergo an ophthalmology control at least once a month. The required duration of a recurrence prophylaxis is not clear, nor is it as yet known for how long recurrences with other organ manifestations should be monitored. Duration should therefore be handled as for CMV retinitis. The recommendations on therapy and prophylaxis of CMV manifestations are summarized in Table 3 . From the roughly 200 Candida species only about 15 different species are encountered in clinical daily practice. The most frequent species by far is C. albicans. Clinical response to fluconazole of infections caused by C. albicans and Candida parapsilosis is mostly good, whereas that to infections caused by C. glabrata or C. krusei is poor or totally missing. Primary in vitro resistance of C. albicans to azoles is rare [102] . Secondary resistance development under long-term azole therapy (fluconazole) was frequently observed in the pre-highly active ART (HAART) era. For the treatment of oral and vulvovaginal candidiasis, the reader is referred to the respective AWMF guidelines [103, 104] . Esophageal candidiasis (thrush) does not require an endoscopy to confirm the diagnosis in the presence of a typical clinical course and a mouth sore. The imidazole antimycotics, such as clotrimazole and the hydroxypyridone ciclopirox olamine, are suitable for local therapy of cutaneous candidiasis. If the immune status of the patient is good and/or in the case of a first episode of an oral candidiasis (OC), topical antimycotics, such as suspensions or pastilles (nystatin, amphotericin B, miconazole), are more inexpensive therapy options, although inferior to a therapy with fluconazole [105] [106] [107] . However, adherence is restricted with topically effective suspensions/pastilles. Alternatives are mucoadhesive applications, although these are clearly more expensive. Oral therapy with systemical azole derivatives (fluconazole, itraconazole, posaconazole, voriconazole) show a more rapid response, provide longer protection against recurrences, and are tolerated better by patients [108] [109] [110] [111] . Fluconazole can be considered the drug of choice for OC and esophageal candidiasis. A once-daily oral therapy (100 mg for 5-14 days) has been established as the standard for OC [112] . Single doses of up to 750 mg fluconazole have been tested in a small patient group (mostly without ART) and was considered to be equivalent to a 14-day therapy. This therapy, however, should be confined to patients with compliance problems, as data on late relapses are limited [113, 114] . Esophageal candidiasis is usually treated for 10-14 days with doses of 200-400 mg fluconazole qd. Patients presenting with severe dysphagia can initially be treated intravenously and switched to oral application as symptoms improve. If fluconazole resistance has been detected, treatment with other azole derivatives is usually still effective and should be attempted before parenteral therapy is initiated (e.g., with echinocandin). Traconazole, voriconazole, and posaconazole have demonstrated clinical efficacy for cases of fluconazole refractory oropharyngeal and esophageal candidiasis [115] [116] [117] [118] . All azole derivatives require a double dose on the first day of the regimen (loading dose). Therapy with a higher dose of fluconazole (B800 mg/day & 12 mg/kg/day) or an antimycotic combination therapy [119] can be considered, but data are insufficient. Therapy failure and/or fast relapses occur most frequently in patients with poor immune status (\100 CD4 T-cells/ll). Data from randomized studies have shown that echinocandins (caspofungin, micafungin or anidulafungin) are as effective and well tolerated as fluconazole for the treatment of candida esophagitis [120] [121] [122] . However, application should be restricted to azole refractory infections with clear fluconazole resistance [120, 123, 124] . ART should be initiated immediately if chronic recurring oropharyngeal/esophageal candidiasis is present and at the latest if resistance problems occur. Azole refractory candidiasis as well as azole-resistant strains can disappear with sufficient immune reconstitution as a consequence of ART [125, 126] . Regular change of toothbrush and thorough cleaning of dentures are a basic recurrence prophylaxis for OC. OC in HIV-infected children and adults can be treated and relapses prevented by applying disinfecting mouth rinses containing chlorhexidine 0.12 % 1-29 daily for a 90-day period [127, 128] . In the pre-HAART era, secondary prophylaxis or life-long therapy with fluconazole led to significant reductions of chronic recurring oropharyngeal candidiasis-but it has also led to the development of secondary resistance [129, 130] . In a randomized study comparing secondary prophylaxis after OC with intermittent therapy on OC recurrence, relapses and infections of systemic candidiasis were reduced by the long-term prophylaxis. However, no survival benefit has been demonstrated for any candidiasis prophylaxis [131] . Primary prophylaxis is not recommended, and indications for secondary prophylaxis should be restricted to individual case. The recommendations on therapy and prophylaxis of candidiasis are summarized in Table 4 . Herpes simplex virus (HSV) infections are frequent in HIV-infected patients. Chronic and atypical courses are possible especially in the setting of severe immune deficiency (\100 CD4 T-cells/ll). Organs such as the esophagus, central nervous system (CNS), eyes, and respiratory tract may also be affected. In these cases and with persistence of lesions for a period of[4 weeks, HSV infection is an AIDS-defining illness. Topical treatment with acyclovir is adequate for patients with a good immune status and only discrete oral lesions. Pencyclovir cream is probably as effective [132] . Genital herpes lesions do not respond as well to topical treatment. For systemic treatment against HSV-1 and HSV-2, the drug of choice is still acyclovir. Resistance is rare [133] , and healing of lesions can be accelerated by the therapy [134] . Severe cases with organ involvement should be treated intravenously. As HSV levels are lower in the CNS than in plasma, the dose to treat encephalitis should be increased. Valacyclovir (ValACV) and famcyclovir are equally effective alternatives to acyclovir [135, 136] . However, they are not approved for patients with immune deficiency and should only be applied if response to acyclovir fails [137] . For uncomplicated genital herpes lesions, shorter regimens of 2 days of 500 mg famcyclovir may be as effective, provided there is no immune deficiency [138] . According to the opinion of some experts, brivudine is an alternative for HSV-1 and VZV, although contraindicated for immunosuppressed patients and only approved for the treatment of VZV. However, results from controlled studies with HIV-infected patients are not available. In cases of painful mucocutaneous lesions, a local anesthetic can also be applied. Treatment with foscarnet for several weeks may be helpful in exceptional cases, especially if lesions remain refractory to standard treatment [139] . Primary prophylaxis is not recommended. An earlier meta-analysis in which acyclovir was found to reduce the risk of both HSV and VZV disease by more than 70 % [140] must be viewed in the context of ART today. Nevertheless, long-term treatment with low-dose acyclovir or ValACV can still be effective treatments for recurrent HSV [141, 142] . The risk of HIV transmission, which is increased threefold by genital HSV-infection [143] , is not reduced by treatment with acyclovir [144] [145] [146] . Between 70 and 90 % of patients with symptomatic HSV-2 infection and at least 20-50 % of patients with symptomatic HSV-1 infection experience recurring episodes within the first year. Possible causes are local trauma, UV exposure, fever, and immune suppression. A long-term prophylaxis for at least 6 months is recommended for frequent recurrences. This prophylaxis can prevent further episodes in 70-80 % of cases. The recommendations on therapy and prophylaxis of genital HSV infections are summarized in Table 5 . Patients infected with HIV are at increased risk for VZV infection. Multisegmental zoster or zoster generalisatus are often observed with low CD4 T-cell counts. Chronic courses with ulcerating forms and involvement of other organs are rare. Pneumonia or CNS involvement should be considered. A monosegmental zoster can be treated with oral acyclovir. Famcyclovir and ValACV are alternatives. Each complicated, multisegmental or facial zoster should be treated intravenously for 10-14 days. After clinical improvement is evident, a switch to oral therapy is possible. Zoster neuralgia occurs less frequently in HIV-negative patients treated with the alternative drugs ValACV, famcyclovir, and brivudine than when treated with acyclovir Table 5 Therapy and prophylaxis of genital Herpes simplex virus infections a Therapy/prophylaxis Drug Therapeutic regimen Acute therapy (duration: 7-10 days), daily doses First choice Acyclovir (3-) 5 9 400 mg p.o. Severe cases 3 9 5-10 mg/kg i.v. 5 9 800 mg p.o. Alternatives Valacyclovir 2-3 9 1,000 mg or 3 9 500-1,000 mg (expert opinion) Therapy for recurrent Herpes simplex infection virus episodes Acyclovir 3 9 400 mg p.o. for 5-10 days Valacyclovir 2 9 1,000 mg for 5-10 days Famciclovir 2 9 500 mg for 5-10 days Long-term prophylaxis (duration: at least 90 days) Acyclovir 2-3 9 400-800 mg Valacyclovir 2 9 500 mg Famciclovir 2 9 500 mg a Daily doses [147] . However, according to a Cochrane analysis, the results of this study are not clear [148] . Brivudine is not licensed for the treatment of immunocompromised patients. Acyclovir resistance is rare and most frequently observed under long-term therapy [149, 150] ; in these cases, foscarnet (3 9 40 mg/kg) or cidofovir (5 mg/kg, maximum 375 mg 19/week) can be given. Early concomitant and monitored pain management with NSAIDs and/or other opiates in combination with amitriptyline and/or pregabalin is important. For further information on zoster pain, the reader is referred to the AWMF guidelines. Varicella vaccination seems to be fairly safe and effective for patients with a CD4 T-cell count of [400/ll [149] . Vaccination should be considered if VZV serology is negative. In individuals with negative serology and exposure to VZV, administration of hyperimmunoglobulin may be attempted. Long-term primary prophylaxis is usually not effective; however, a long-term low-dose therapy can be considered in the presence of persistent recurring episodes. The recommendations on therapy and prophylaxis of VZV-infections are summarized in Table 6 . Progressive multifocal leukoencephalopathy (PML) is a severe demyelinating disease of the CNS caused by the John Cunningham virus (JCV). Prognosis for PML was poor in the pre-HAART era, with the median interval between the onset of the first symptoms and death being 3-6 months. With effective ART, there are significantly fewer cases of disease progression, and even complete remission seems possible [151] . Nevertheless, mortality of patients with PML remains high at 50 %, albeit ART [152] . There is no specific PML treatment with proven efficacy; consequently, the mainstay of therapy is immune reconstitution. As such, priority remains on the initiation and optimization of an ART. Treating physicians are recommended to apply intracerebral penetrating agents. A successful immune reconstitution accounts for a significant reduction in mortality [151] [152] [153] [154] [155] [156] . After initiation of ART, a paradoxical worsening of clinical symptoms in terms of an immune reconstitution inflammatory syndrome (IRIS) has been observed in approximately 16-23 % of PML cases. Administration of corticosteroids for PML-IRIS has only been described in case studies [157] , and evidence of a benefit was not provided. Given the slight difference in the 1-year survival rate for PML patients and PML-IRIS patients [158] , the use of corticosteroids or a temporary discontinuation of ART must be weighed up against the risks of a possible decline of the JCV-specific immune response. Several supportive immunomodulatory approaches have been tested, but to date there is no convincing evidence for the efficacy of treatments with immunoglobulin, interleukin-2 (IL-2), or IL-a [159] . Therapeutic regimens aimed at inhibiting JCV replication have also been attempted, but as yet relevant evidence supporting the clinical use of drugs such as cytosine arabinoside is not available [153, 160] . Antiviral treatment with acyclovir, cidofovir, ganciclovir, brivudin, ribavirin, foscarnet and the combination therapy foscarnet and zidovudine have also proven to be ineffective [161] . Recently, 5-HT2a inhibitors and/or serotonin receptor antagonists have been discussed for PML treatment. In vitro data for the suppression of JCV replicates via 5HT(2A)R inhibitors are contradictory [162] [163] [164] [165] [166] [167] . Results from controlled clinical studies are missing. Based on promising in vitro data [168] a phase I/II study of mefloquine was initiated-only be stopped due to a lack of efficacy. In summary, specific treatments for PML cannot be recommended outside clinical trials. There is no prophylaxis. Exposure prophylaxis is also not possible. The recommendations for therapy and prophylaxis of PML are summarized in Table 7 . Cryptosporidiosis is a parasitic intestinal disease with fecal-oral transmission, mainly caused Cryptosporidium parvum (two other frequent types: C. hominis and C. [169] . Infection of the biliary tract leading to sclerosing cholangitis is frequent, particularly among patients with severe immunodeficiency, but may be reversible with immune reconstitution [170] [171] [172] (level of evidence C). Other rare manifestations are infections of the pancreatic duct and pulmonary infections [173, 174] . Successful immune reconstitution under ART can lead to complete resolution of clinical crytosporidiosis [175, 176] . Symptomatic treatment with loperamide and/or tincture of opium should be given. Octreotide (off label) can also be applied. Sufficient hydration is important and infusions may even be required. No specific treatment has been validated [177] . Rifaximin is promising, as first studies with AIDS patients show [178] ; however, results from randomized studies are still missing. Nitazoxanide was found to be effective in a small randomized study in immunocompetent patients [179] . However, this drug is not approved for AIDS patients and showed no effects in a double-blind randomized study in HIV-infected children with cryptosporidiosis [180] . Paromomycin has been found to have favorable effects on diarrhea [181] . However, a double-blind randomized study showed no benefit compared to placebo [182] . In a Cochrane review for the prevention and treatment of cryptosporidiosis, paromomycin did not reduce diarrheal frequency permanently [177] . There is no generally accepted prophylaxis, although a protective effect of rifabutin and clarithromycin has been reported from retrospective studies. Azithromycin showed no effect [183] . The usual hygienic measures (gloves) are usually adequate. Patients do not need to be isolated. However, accommodation with other immunosuppressed patients should be avoided. The recommendations on therapy and prophylaxis of cryptosporidiosis are summarized in Table 8 . For further information, refer to guidelines by the CDC for cryptosporidiosis in HIV-infected patients (CDC 2009; http://www.cdc.gov/mmwr) [3] . Cryptococcosis occurs much more frequently in Africa, the USA, and Southeast Asia than in Europe. Bird droppings (especially of pigeons) are presumably a key reservoir, but a direct transmission between humans has not been observed. Although transmission occurs via inhalation, pulmonary symptoms or lung infiltration are only seen in 30-40 % of cases of HIV-infected patients. Cryptococcosis infection is often followed by disseminated disease in HIV patients with severe immunodeficiency (\100 CD4 T-cells/ ll) and often involves the CNS ([75 %, meningitis) [21] . Recommended treatment for a cryptococcal meningitis is the combination regimen of amphotericin B deoxycholate (AmB-D; 0.7-1.0 mg/kg/day i.v.) and flucytosine (100 mg/kg/day i.v. or p.o. if available), divided into four doses a day. Acute therapy should be given for at least 14 days. If clinical response is good, a switch to monotherapy with fluconazole (400 mg/day) for another 8 weeks is possible [21] . Liposomal amphotericin is slightly more effective than conventional AmB-D and provides an alternative, if AmB-D is not well tolerated [184] . Monotherapy with fluconazole as initial treatment in HIV-infected patients is not sufficient, even with higher daily doses of 800-2,000 mg. Thus, it is only considered as an option in countries with limited resources [21, 185] . In the pre-HAART era, a triple combination therapy with AmB-D, flucytosine, and fluconazole was favored for the treatment of cryptococcal meningitis in Germany [186] . However, in one randomized study, the triple combination was not more effective than a combination with AmB-D and flucytosine or AmB-D and fluconazole or a monotherapy with AmB-D [187] . The combination with AmB-D and fluconazole is an alternative in regions with limited resources where flucytosine is not available. In a small study in Thailand, a higher dose of fluconazole (800 mg/day) combined with AmB-D (0.7 mg/kg/day) was more effective than monotherapy with AmB-D alone or a regimen of AmB-D ? fluconazole (400 mg/day). Other combination therapies (e.g. fluconazole ? flucytosine) are possible alternatives, but lack sufficient data [188] . Itraconazole plays no role in primary therapy and is less effective than fluconazole in maintenance therapy [189] . Monotherapy with posaconazole showed a response rate of up to 50 % in a small case study on refractory diseases and therefore provides an alternative for this indication [190] . Efficacy of voriconazole in salvage therapy is still not clear [191] . Echinocandines show no in vitro effect against C. neoformans. In the case of an IRIS when ART is initiated during antimycotic treatment, additional treatment with corticosteroids (0.5-1.0 mg/kg/day prednisolone equivalent) is required [21] . In refractory treatment situations, additional administration of c-interferon might be useful in individual cases [192] . Treatment success is monitored based on the clinical course and repeated lumbal punctures. Patients should have their intracranial pressure measured at time of diagnosis. If the intracranial pressure is very high, several punctures should be made in the first week until it is reduced to B20 cm. In individual cases, cerebrospinal fluid (CSF) drainage can be considered to reduce the intracranial pressure if there are no contraindications [21] . For mild, isolated cryptococcal pneumonia (negative CSF diagnosis), monotherapy with fluconazole (400 mg/day) is possible. Treatment should continue for 6-12 months. Severe cases of pneumonia with or without acute respiratory distress syndrome (ARDS) should be treated the same way as meningitis (see above). ART-naïve patients at the time of diagnosis should start an ART after a 2wo-week induction therapy with antimycotics. However, an optimal time for initiation of ART is not yet clearly defined. Primary prophylaxis can not be recommended to HIVinfected patients in Germany due to lack of a clear survival benefit [193] . After acute therapy of cryptococcal meningitis, secondary prophylaxis should be introduced. Fluconazole (200 mg/day) is the regimen of choice and is also more effective than itraconazole [21] . Secondary prophylaxis can be discontinued after at least 6 months maintenance therapy with sufficient immune reconstitution ([100 CD4 T-cells/ll and HIV-RNA below detection limit for over 6 months). The risk of a relapse is high if maintenance therapy is discontinued too early [194] . The recommendations on therapy and prophylaxis of cryptococcosis are summarized in Table 9 . Human immunodeficiency virus-associated infections of nontuberculous mycobacteria (NTM) have declined in countries where ART is available [195] [196] [197] . In addition to disseminated NTM diseases, which develop almost exclusively in the setting of severe CD4 T-cell depletion (\50 CD4 T-cells/ll) and which are mainly ([90 %) caused by the Mycobacterium avium complex or M. intracellulare (Mycobacterium avium intracellure complex, MAI), incidences of NTM-IRIS as well as pulmonary NTM diseases are also observed. Pulmonary NTM is frequently caused by other species, such as M. kansasii, M. xenopi, M. malmoense, and M. abscessus. For further information on diagnosis, the reader is referred to the American Thoracic Society criteria [198] . Due to the ubiquitous occurrence of NTM, pre-exposure prophylaxis is not possible and an isolation of infected patients is not necessary. Some specialists, however, recommend a screening of generalized MAI infections in patients with CD4 T-cell counts of\50/ll prior to initiation of an ART. Given here are only recommendations for the MAI therapy. With respect to NTM species other than MAI, the reader is referred to the appropriate literature [198] or advised to consult experts (NTM-NET). A combination treatment of macrolide (clarithromycin or azithromycin) and ethambutol plus/minus rifabutin is recommended [198] . Rifabutin is preferred to rifampicin due to its in vitro efficacy against MAI and its lower interaction potential. Following the publication of data showing that rifabutin could be omitted from the treatment regimen [199] , another randomized study demonstrated a survival benefit with the triple combination clarithromycin, rifabutin, and ethambutol compared to clarithromycin with either ethambutol or rifabutin-the mortality rate was halved in the treatment arm receiving this triple (clarithromycin-containing) combination [200] . The doses for rifabutin must occasionally be adjusted to the ART regimen [201] . Clarithromycin increases the rifabutin serum level, while rifabutin decreases the clarithromycin level. Treatment duration with rifabutin has not yet been determined in studies; however, experts recommend discontinuing rifabutin after a few weeks and with clinical improvement. The daily doses for clarithromycin should not exceed 2 9 500 mg, as a higher mortality risk has been described for patients receiving higher dosages [202, 203] . Azithromycin can be administered instead of clarithromycin, as these two drug are comparably effective in combination with ethambutol, with slightly more rapid sterilization of blood cultures with clarithromycin [196, 199, 204] . As macrolides are the cornerstone of therapy, the development of resitance to macrolides must be avoided, and monotherapy with macrolides should not be administered. In the case of intolerance, alternative substances, such as fluoroquinolone, amikacin, cycloserine, dapsone, linezolid, or mefloquine, are available. However, clinical evidence for the treatment of MAI infections with these alternative substances is still insufficient. In the case of NTM-IRIS, the extent and duration of an antimycobacterial therapy are not clear. It is possible that partial virus suppression is enough for a NTM-specific immune reconstitution [205] . It is easier to evaluate the clinical response to localized NTM infections. In cases of localized lymphadenitis and skin manifestations, therapy duration of 6 months is recommended after patients are culture-negative. If the clinical response is good and CD4 T-cells continue to increase under a still effective ART, the regimen can be reduced after 3 months to a recurrence prophylaxis with a macrolide for a further 3 months. Patients with abdominal localization have a poorer response and require a more aggressive and longer therapy [206, 207] . Additive corticoid therapy has symptomatic indications. The treatment of patients with pulmonal NTM diseases not deriving from an IRIS are based on the guidelines for non-HIV-infected patients [198] . In the USA, placebo controlled trials for clarithromycin, azithromycin and rifabutin showed that primary prophylaxis significantly reduced MAI-morbidity and -mortality in severely immunocompromised patients [208] [209] [210] [211] . All these studies, however, were undertaken in the pre-HA-ART era. In addition, MAI-infections are less frequent in Europe, so that only a few patients receive primary prophylaxis [212] . Due to the declining incidences since the introduction of ART, primary prophylaxis can only avoid a small number of diseases [197] . NTM-associated IRIS can also not be prevented by prophylactic drugs [206] . Therefore primary prophylaxis is not recommended in Germany. After treatment of a disseminated MAI-infection, patients lacking other ART options, should receive secondary prophylaxis with a macrolide, provided CD4 T-cell count is under 50 cells/ll. Weekly doses of azithromycin are convenient and efficacy is comparable to daily rifabutin [208] . Secondary prophylaxis or maintenance therapy can be discontinued under an ART and if patients are without symptoms and CD4 T-cell count is [100/ll for 6 months. The recommendations concerning therapy and prophylaxis of disseminated MAI-diseases are summarized in Table 10 . Globally, TB is the most prevalent HIV-associated opportunistic infection. In Germany, TB is rare. HIV-infected patients are affected by TB independent of their CD4 T-cell count [213] , although incidences increase with advanced immunodeficiency [214] . Uncomplicated cases of TB can successfully be treated with a standard therapy regimen over a period of 6 months, regardless of HIV status. First-line drugs are rifampicin, INH, ethambutol, pyrazinamide, and streptomycin, with INH and rifampicin being the most effective. TB should always be treated with a combination of four drugs in the initial phase to prevent drug resistance. Standard initial phase therapy is a 2-month course of rifampicin, INH, ethambutol, and pyrazinamide, followed by a continuation phase therapy of 4 months rifampicin and INH. In individual cases, such as incompliance, it may be necessary to extend the standard treatment duration to C9 months, especially if sputum cultures are still positive after 2 months. Recurrences after successful therapy appear more frequently in HIV-infected patients [215] . If standard therapy has not been initially applied, treatment should always last for at least 9 months. Alternatively, ethambutol, streptomycin, and reserve drugs such as ofloxacin or moxifloxazin, cycloserine, and linezolid may be administered. Since this treatment is no different from that for multiresistant TB, these patients should be treated in specialized centers. Adverse effects occur frequently with anti-TB therapy (refer to individual drug information for side effects, necessary testing, and drug interactions). Severe side effects are observed more often in HIV-infected patients than in HIV-negative patients [216] . Antiretroviral therapy significantly reduces the morbidity and mortality rate in HIV-infected patients [217] . A 6-month TB standard therapy achieves similar success in both HIV-infected and HIV-negative patients [218] . Although a large retrospective and a large open-label, randomized trial showed a survival benefit with simultaneous ART and anti-TB treatment, this approach proves to be difficult in practice due to overlapping drug interactions and side effects [219] . For TB meningitis, side effects are more frequent during the first 2 months of therapy if ART and anti-TB therapy are initiated simultaneously. In this case, a delay of ART by 2 months is possible without risking a higher mortality [220] . With regard to other forms of TB, 25-60 % of patients develop an IRIS in the first 3 months of ART treatment [221] . A consensus on a uniform case definition of TB-IRIS was reached in 2008 [9] , which we refer to in the chapter on IRIS of this guideline. Adherence to simultaneous HIV and Mycobacterium TB treatment is difficult to achieve due to the high pill burden and overlapping toxicities. Both rifampicin and protease inhibitors (PIs) are metabolized by cytochrome P450 3A. Concomitant therapy is therefore not recommended [222, 223] (Table 11 ). Rifabutin can be combined with boosted Unboosted protease inhibitors are no longer recommended due to insufficient plasma levels. Consider TDM PIs, however the dose must be adjusted (Table 12 ). It may be useful to determine serum levels [201] ; however, this approach has not been tested in clinical research with clear endpoints. Recommendations can be given for first-line ART therapy with tenofovir (TDF), TDF ? emtricitabine (FTC), and FTC plus efavirenz in combination with rifampicinbased TB therapy. Alternatives are other efavirenz-based regimens (without adjustment of dose) with rifabutin [222] . To date, clinical data on combinations of rifamycin with new drugs, such as darunavir, raltegravir, or maraviroc, are limited. Due to the strong inducing potential of cytochrome P450 3A, PIs should be avoided and maraviroc should only be given under close observation. Rifampicin also induces the enzyme UGT1A1, leading to increased glucoronidation and reduced plasma levels of raltegravir [224] . No interactions have been reported with tenofovir and T-20 [225] . The recommendations on the adjustment for combination of ART/rifampicin in TB therapy are summarized in Table 12 . Treatment of active TB has clinical priority over ART. In patients with \100 CD4 T-cells/ll, simultaneous treatment of both infections is indicated [222, 226] . However, even in this situation it is recommended to start TB therapy first for 2 weeks before initiating ART to prevent possible side effects. For patients with 100-350 CD4 T-cells/ll, ART can be delayed for 2 months until the anti-TB drugs can be reduced for the continuation phase. There is no evidence for an optimal timing of ART when the CD4 T-cell count is [350 cells/ll [222] . The results of a large randomized trial indicate that mortality rate in patients with 200-500 CD4 T-cells/ll is reduced when ART is initiated during TB therapy [219] . For HIV patients with\50 CD4 T-cells/ll, the results of a recent study show a benefit of a delayed ART. The decision should be made carefully under consideration of the situation of each single patient [17, 227] . HIV-infected patients already on a successful ART should remain on ART, although the regimen may need to be modified [226] . The recommendations for co-administering ART with rifabutin are summarized in the statement that adherence is the most important factor for therapeutic success and to avoid resistant TB strains. The World Health Organization (WHO) recommends a directly observed therapy for these patients. Latent tuberculosis infection (LTBI) is defined by a positive Mycobacterium TB-specific immune response in the tuberculin skin test (TST) or an interferon gamma release assay (IGRA) in the absence of active TB. Clear values for a positive Mycobacterium TB-specific immune response in HIV-infected patients do not exist. Patients are not infectious as the TB is not active. However, HIV-infected patients with LTBI carry a higher risk of developing active TB. According to guidelines for the treatment of LTBI by the CDC [228] , HIVinfected patients with a TST of [5 mm should be given treatment with INH for 9 months. This probably also applies to patients with positive IGRA test results, but convincing data are still missing [229] . Alternatively, a 4-month course of rifampicin can be given. A 2-month course of rifampicin and pyrazinamide is no longer recommended, as it has been associated with significantly higher toxicities in HIV-negative patients [230, 231] . In 2006, 2.2 % of all TB patients showed multidrug resistance (at least resistance against INH and rifampicin). Among these, 5 % were HIV-infected [232] . In addition to incidences of multidrug resistance (MDR), incidences of extensive drug resistance (XDR) were reported in at least 58 countries in 2010 [233] . XDR TB is defined by the WHO as TB which is additionally resistant to fluoroquinolones and at least one of the injectable drugs amikacin, capreomycin, or kanamycin. Due to the complex therapy and an overall poor prognosis, patients with MDR/XDRTB should be treated in specialized centers. Conflict of interests Conflict of Interest statements of all authors are published online: http://daignet.de/site-content/hiv-therapie/ Open Access This article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and the source are credited. Final consent to this version by the steering committee of the Ö AG given on 9 November 2011. 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A syndrome with distinct clinical and pathologic features Progressive cytomegalovirus encephalitis in successful ganciclovir therapy of cytomegalovirus retinitis in an AIDS patient CMV encephalitis during ganciclovir therapy of CMV retinitis Cytomegalovirus encephalitis in two patients with AIDS receiving ganciclovir for cytomegalovirus retinitis Ganciclovir therapy for cytomegalovirus (CMV) infection of the central nervous system in AIDS patients: monitoring by CMV DNA detection in cerebrospinal fluid Lack of reactivation of cytomegalovirus (CMV) retinitis after stopping CMV maintenance therapy in AIDS patients with sustained elevations in CD4 T cells in response to highly active antiretroviral therapy Discontinuation of maintenance therapy for cytomegalovirus retinitis in HIV-infected patients receiving highly active antiretroviral therapy Resistance of Candida species to antifungal agents: molecular mechanisms and clinical consequences Effendy I, et al. Oral candidiasis Guideline vulvovaginal candidosis: guideline of the German Dermatological Society, the German Speaking Mycological Society and the Working Group for Infections and Infectimmunology of the German Society for Gynecology and Obstetrics Oropharyngeal candidiasis in immunocompromised children: a randomized, multicenter study of orally administered fluconazole suspension versus nystatin. The Multicenter Fluconazole Study Group The treatment of oropharyngeal candidiasis in HIV-infected patients with oral amphotericin B suspension Oropharyngeal candidiasis in patients with AIDS: randomized comparison of fluconazole versus nystatin oral suspensions A multicenter randomized trial evaluating posaconazole versus fluconazole for the treatment of oropharyngeal candidiasis in subjects with HIV/AIDS Fluconazole compared with itraconazole in the treatment of esophageal candidiasis in AIDS patients: a double-blind, randomized, controlled clinical study A randomized, double-blind, double-dummy, multicenter trial of voriconazole and fluconazole in the treatment of esophageal candidiasis in immunocompromised patients A double-blind comparison of itraconazole oral solution and fluconazole capsules for the treatment of oropharyngeal candidiasis in patients with AIDS Mucosal and systemic fungal infections in patients with AIDS: prophylaxis and treatment Single-dose fluconazole versus standard 2-week therapy for oropharyngeal candidiasis in HIV-infected patients: a randomized, double-blind, double-dummy trial Single-dose therapy for oral candidiasis with fluconazole in HIV-infected adults: a pilot study Itraconazole cyclodextrin solution-effective treatment for HIV-related candidosis unresponsive to other azole therapy Treatment of fluconazole-resistant candidiasis with voriconazole in patients with AIDS Posaconazole for the treatment of azole-refractory oropharyngeal and esophageal candidiasis in subjects with HIV infection Safety and efficacy of posaconazole in the longterm treatment of azole-refractory oropharyngeal and esophageal candidiasis in patients with HIV infection High-dose therapy with fluconazole [or =800 mg/day A randomized double-blind study of caspofungin versus fluconazole for the treatment of esophageal candidiasis A randomized, double blind, comparative trial of micafungin (FK463) vs. fluconazole for the treatment of oesophageal candidiasis A randomized, double-blind trial of anidulafungin versus fluconazole for the treatment of esophageal candidiasis A phase 2, open-label study of the safety and efficacy of intravenous anidulafungin as a treatment for azolerefractory mucosal candidiasis A randomized double-blind study of caspofungin versus amphotericin for the treatment of candidal esophagitis Resolution of azole-resistant oropharyngeal candidiasis after initiation of potent combination antiretroviral therapy Declining rates of oropharyngeal candidiasis and carriage of Candida albicans associated with trends toward reduced rates of carriage of fluconazole-resistant C. albicans in human immunodeficiency virus-infected patients Efficacy of chlorhexidine gluconate rinse for treatment and prevention of oral candidiasis in HIV-infected children: a pilot study. Oral Surg Oral Med Oral Pathol Oral Radiol Endod A randomized clinical trial of chlorhexidine in the maintenance of oral candidiasis-free period in HIV infection Detection and significance of fluconazole resistance in oropharyngeal candidiasis in human immunodeficiency virus-infected patients Development of resistance in candida isolates from patients receiving prolonged antifungal therapy A randomized study of the use of fluconazole in continuous versus episodic therapy in patients with advanced HIV infection and a history of oropharyngeal candidiasis: AIDS Clinical Trials Group Study 323/Mycoses Study Group Study 40 A comparison of topical application of penciclovir 1% cream with acyclovir 3% cream for treatment of genital herpes: a randomized, double-blind, multicentre trial Resistance of herpes simplex virus infections to nucleoside analogues in HIV-infected patients Impact of aciclovir on ulcer healing, lesional, genital and plasma HIV-1 RNA among patients with genital ulcer disease in Malawi Valaciclovir: a review of its long term utility in the management of genital herpes simplex virus and cytomegalovirus infections Valaciclovir versus aciclovir for herpes simplex virus infection in HIV-infected individuals: two randomized trials Famciclovir for the treatment of recurrent genital herpes: a clinical and pharmacological perspective 2-day versus 5-day famciclovir as treatment of recurrences of genital herpes: results of the FaST study Treatment of acyclovir-resistant herpes simplex virus infections in patients with AIDS Clinical efficacy of high-dose acyclovir in patients with human immunodeficiency virus infection: a metaanalysis of randomized individual patient data Valacyclovir for the suppression of recurrent genital herpes in human immunodeficiency virusinfected subjects Efficacy and safety of valacyclovir for the suppression and episodic treatment of herpes simplex virus in patients with HIV Herpes simplex virus 2 infection increases HIV acquisition in men and women: systematic review and metaanalysis of longitudinal studies Effect of aciclovir on HIV-1 acquisition in herpes simplex virus 2 seropositive women and men who have sex with men: a randomised, double-blind, placebo-controlled trial Acyclovir and transmission of HIV-1 from persons infected with HIV-1 and HSV-2 Effect of herpes simplex suppression on incidence of HIV among women in Tanzania Clinical practice. Herpes zoster Antiviral treatment for preventing postherpetic neuralgia. Cochrane Database Syst Rev Prevention and treatment of VZV infections in patients with HIV Clinical and virologic characterization of acyclovirresistant varicella-zoster viruses isolated from 11 patients with acquired immunodeficiency syndrome Highly active antiretroviral therapy significantly improves the prognosis of patients with HIV-associated progressive multifocal leukoencephalopathy Treatment options for AIDS patients with progressive multifocal leukoencephalopathy HAART improves prognosis in HIVassociated progressive multifocal leukoencephalopathy Progressive multifocal leukoencephalopathy: improved survival of human immunodeficiency virus-infected patients in the protease inhibitor era Progressive multifocal leukoencephalopathy in patients with AIDS receiving highly active antiretroviral therapy Clinical course and prognostic factors of progressive multifocal leukoencephalopathy in patients treated with highly active antiretroviral therapy PML-IRIS in patients with HIV infection: clinical manifestations and treatment with steroids Determinants of survival in progressive multifocal leukoencephalopathy Progressive multifocal leukoencephalopathy: what's new? Failure of cytarabine in progressive multifocal leukoencephalopathy associated with human immunodeficiency virus infection. AIDS Clinical Trials Group 243 Team Activities of various compounds against murine and primate polyomaviruses Inhibitory effect of serotonin antagonists on JC virus propagation in a carrier culture of human neuroblastoma cells Serotonin receptor 2A blocker (risperidone) has no effect on human polyomavirus JC infection of primary S112 human fetal glial cells Mirtazapine in progressive multifocal leukoencephalopathy associated with polycythemia vera Risperidone-induced reduction in JC viruria as a surrogate marker for efficacy against progressive multifocal leukoencephalopathy and hemorrhagic cystitis 5-HT2a inhibitors for progressive multifocal leukoencephalopathy: old drugs for an old disease Mirtazapine use in human immunodeficiency virus-infected patients with progressive multifocal leukoencephalopathy Identification and characterization of mefloquine efficacy against JC virus in vitro Cryptosporidiosis among patients infected with human immunodeficiency virus. Factors related to symptomatic infection and survival The natural history of cryptosporidial diarrhoea in HIV-infected patients Sclerosing cholangitis with papillary stenosis in an HIV-infected patients with Cryptosporidium infection A report of 95 cases AIDS and multiple system involvement with cryptosporidium Respiratory cryptosporidiosis in a patient with malignant lymphoma Treatment of HIV-1-associated microsporidiosis and cryptosporidiosis with combination antiretroviral therapy Eradication of cryptosporidia and microsporidia following successful antiretroviral therapy Prevention and treatment of cryptosporidiosis in immunocompromised patients Resolution of severe cryptosporidial diarrhea with rifaximin in patients with AIDS Treatment of diarrhea caused by Cryptosporidium parvum: a prospective randomized, double-blind, placebo-controlled study of Nitazoxanide High dose prolonged treatment with nitazoxanide is not effective for cryptosporidiosis in HIV positive Zambian children: a randomised controlled trial Paromomycin in cryptosporidiosis Paromomycin: no more effective than placebo for treatment of cryptosporidiosis in patients with advanced human immunodeficiency virus infection Possible effectiveness of clarithromycin and rifabutin for cryptosporidiosis chemoprophylaxis in HIV disease. HIV Outpatient Study (HOPS) Investigators Liposomal amphotericin B (AmBisome) compared with amphotericin B both followed by oral fluconazole in the treatment of AIDS-associated cryptococcal meningitis Management of cryptoccocal meningitis in resource-limited settings: a systematic review Therapy of candidiasis and cryptococcosis in AIDS Combination antifungal therapies for HIVassociated cryptococcal meningitis: a randomised trial Treatment of cryptococcal meningitis associated with the acquired immunodeficiency syndrome. National Institute of Allergy and Infectious Diseases Mycoses Study Group and AIDS Clinical Trials Group Activity of posaconazole in the treatment of central nervous system fungal infections Voriconazole treatment for less-common, emerging, or refractory fungal infections Recombinant interferon-gamma 1b as adjunctive therapy for AIDS-related acute cryptococcal meningitis A randomized trial comparing fluconazole with clotrimazole troches for the prevention of fungal infections in patients with advanced human immunodeficiency virus infection. NIAID AIDS Clinical Trials Group Long-term outcome of AIDS-associated cryptococcosis in the era of combination antiretroviral therapy AIDS-defining opportunistic illnesses in US patients, 1994-2007: a cohort study Mycobacterium avium complex in patients with HIV infection in the era of highly active antiretroviral therapy Disseminated Mycobacterium avium-intracellulare complex (MAC) infection in the era of effective antiretroviral therapy: is prophylaxis still indicated? An official ATS/IDSA statement: diagnosis, treatment, and prevention of nontuberculous mycobacterial diseases A randomized, double-blind trial comparing azithromycin and clarithromycin in the treatment of disseminated Mycobacterium avium infection in patients with human immunodeficiency virus A prospective, randomized trial examining the efficacy and safety of clarithromycin in combination with ethambutol, rifabutin, or both for the treatment of disseminated Mycobacterium avium complex disease in persons with acquired immunodeficiency syndrome Pharmacokinetic evaluation of rifabutin in combination with lopinavir-ritonavir in patients with HIV infection and active tuberculosis Clarithromycin therapy for bacteremic Mycobacterium avium complex disease. A randomized, double-blind, dose-ranging study in patients with AIDS. AIDS Clinical Trials Group Protocol 157 Study Team A prospective randomized trial of four three-drug regimens in the treatment of disseminated Mycobacterium avium complex disease in AIDS patients: excess mortality associated with highdose clarithromycin. Terry Beirn Community Programs for Clinical Research on AIDS Randomized, open-label trial of azithromycin plus ethambutol vs. clarithromycin plus ethambutol as therapy for Mycobacterium avium complex bacteremia in patients with human immunodeficiency virus infection. Veterans Affairs HIV Research Consortium Effect of potent antiretroviral therapy on immune responses to Mycobacterium avium in human immunodeficiency virus-infected subjects Nontuberculous mycobacterial immune reconstitution syndrome in HIV-infected patients: spectrum of disease and long-term follow-up Mycobacterium avium complex immune reconstitution inflammatory syndrome: long term outcomes Prophylaxis against disseminated Mycobacterium avium complex with weekly azithromycin, daily rifabutin, or both. California Collaborative Treatment Group Incidence of Mycobacterium avium-intracellulare complex bacteremia in human immunodeficiency virus-positive patients Once weekly azithromycin therapy for prevention of Mycobacterium avium complex infection in patients with AIDS: a randomized, double-blind, placebo-controlled multicenter trial A randomized trial of clarithromycin as prophylaxis against disseminated Mycobacterium avium complex infection in patients with advanced acquired immunodeficiency syndrome Regional differences in use of antiretroviral agents and primary prophylaxis in 3122 European HIV-infected patients. EuroSIDA Study Group Response to treatment, mortality, and CD4 lymphocyte counts in HIV-infected persons with tuberculosis in Abidjan Risk factors for developing tuberculosis in HIV-1-infected adults from communities with a low or very high incidence of tuberculosis HIV-1 and recurrence, relapse, and reinfection of tuberculosis after cure: a cohort study in South African mineworkers Adverse events and treatment interruption in tuberculosis patients with and without HIV co-infection Outcome of HIVassociated tuberculosis in the era of highly active antiretroviral therapy Treatment of HIV-related tuberculosis in the era of effective antiretroviral therapy Timing of initiation of antiretroviral drugs during tuberculosis therapy When to start antiretroviral therapy in HIV-associated tuberculosis Clinical characteristics of IRIS syndrome in patients with HIV and tuberculosis Office of AIDS Research Advisory Council (OARAC). Guidelines for the use of antiretroviral agents in HIV-1-infected adults and adolescents. Department of Health and Effect of rifampin, a potent inducer of drugmetabolizing enzymes, on the pharmacokinetics of raltegravir Lack of enzyme-inducing effect of rifampicin on the pharmacokinetics of enfuvirtide Treatment of tuberculosis in HIV-infected persons in the era of highly active antiretroviral therapy Timing of antiretroviral therapy for HIV-1 infection and tuberculosis Detection and prediction of active tuberculosis disease by a whole-blood interferon-gamma release assay in HIV-1-infected individuals Managing drug interactions in the treatment of HIV-related tuberculosis. Division of Tuberculosis Elimination National Center for HIV/ AIDS, Viral Hepatitis, STD, and TB Prevention Treatment of latent tuberculosis infection in HIV infected persons Multidrug-and extensively drug-resistant tuberculosis Multidrug and extensively drug-resistant TB (M/XDR-TB): 2010 global report on surveillance and response. WHO/HTM/TB/2010.3. 2010. WHO Acknowledgments We are indepted to Fiona Diekhoff for translation and preparation of the manuscript.