Background: The corona virus is transmitted in three ways: by direct contact with an infected person, by droplets, and by air. Transmission control according to official guidelines can be prevented by keeping a distance, wearing a mask and washing hands. Sharing a space with several members of the immediate or extended family increases the risk of transmission in all three ways. In Traditional Bosnian families two or three generations live in one household. The family doctor is informed with living conditions of the residents and has the opportunity to monitor the rate of secondary transmission from the index case, and then recommend additional preventative and treatment measures. Objective: The aim of the study was to determine the first occurrence of the symptoms and to monitor possible intrafamilial transmission of the disease through clinical examinations and microbiological-serological tests. Methods: The study was conducted in a family medicine clinic in the region of northeastern Bosnia and Herzegovina from March to December 2020. Patients with symptoms that could indicate the presence of COVID-19 disease were registered. If COVID-19 was proven, the patient became an index case. The other members of the family would be monitored for the secondary transmission via laboratory (PCA SARS-CoV-2 and IgM and IgG antibodies) and clinical parameters. Results: Characteristics of 25 index cases were analyzed. All 25 of them were middle-aged men that worked outside the home. In 25 households, there was a total of 123 members that shared a home with the index patient. Secondary transmission developed in 76 out of 123 family members (61.8%). Only one patient had a severe form of the disease and was hospitalized. 2 patients died. Conclusion: Intrafamiliar transmission of Covid-19 in households of Bosnia and Herzegovina is high. The secondary attack rate of SARS- CoV-2 in households is 61,8%. In the surveyed households, family members use common rooms with an infected patient, and the customs of family gatherings are maintained, without the implementation of protective measures. The family medicine team has the opportunity to apply appropriate preventive action, education and early prehospital treatment as well as adequate selection for the hospital admission.

Introduction: Cytomegalovirus (CMV) infection is ubiquitous. It affects all age groups, and its clinical picture ranges from mild to severe, especially as a congenital infection in neonates. Aim: To determine frequency of CMV infection in pregnant women in Tuzla Canton (TC) and the risk factors that lead to the infection. Methods: This prospective study included 300 pregnant women from TC aged 18 to 42 years. CMV serology was performed on all participants, and in case of acute infection additionally IgG avidity test. Participants also completed the questionnaire on the risk factors for CMV infection. Results: The median age of the 300 women was 28 ±4.97 years. There were 161participants (53.6%) who classified their environment as urban and 295 (98.33%) were married. More than half of the women had completed secondary school 168 (56%). Positive IgG antibodies to CMV had 280 (93.0%) women. Positive IgM and IgG antibodies had 9 (3.0%) participants, but all of them had high IgG avidity, which indicates reinfection or recurrent CMV infection. There was a statistically significant higher number of seropositive participants living in rural areas than those living in urban areas (p= 0.048). Also, there was significantly higher percentage of positive anti-CMV IgG in pregnant women with lower education (p=0.04). Conclusion: In our region there is high seropositivity rates of IgG antibodies to CMV in pregnant women. No case of primary CMV infection was proven. The risk factors for CMV infection have been proven to be rural environment and lower level of education.

Introduction: Chronic HCV infection is chronic inflamatory liver disease caused by hepatitis C virus. Anti HCV prevalence among intravenous drug users (IVDU) is very high and it accounts 40% -90% (60%-90%) with the risk of 80% of developing the chronic infection. Aim: The aims of this study were: a) to compare clinical characteristics of chronic HCV infection among IVDU and non-users population and to detect their impact to treatment outcome; b) to investigate the treatment efficacy comparing sustained viral response (SVR) in these two populations in Tuzla Canton. Patients and methods: The study was retrospective-prospective and included 45 IVDU of both sexes from Tuzla Canton which were treated from chronic HCV infection with Pegilated interferon 2a/2b + ribavirin in the Clinic for Infectious Diseases and Clinic for Internal Disease of University Clinical Centre in Tuzla. The control group were presented by non-users who completed therapy in both Clinics. For statistical analyses it was used statistical package SPSS 20,0 (SPSS Inc, Chicago, IL, USA) with tests of descriptive statistics with measures of central tendency and dispersion. Quantitative variables were tested by t-test or by Mann-Whitney test. Qualitative variables were tested by hi-square test or by Fisher’s test. The standard analyse of level’s risk was used too. The analyse of predictive value of EVR for achieving the ETR and SVR was done by cross-tabulation. The impact of known factors for achieving the SVR was evaluated by logistic regression analyses. All tests were done with statistical level of significance of 95% (p=0,05). Results: Men were more dominant in the test group (93,3% / 61,7%), also younger age (p<0,001) and lower BMI (p=0,019). The test group had significant higher basal values of Le, Hb, Plt and ALT and tendency to lower stages of fibrosis (p=0,08). The difference in genotype frequencies was statistically significant (p=0,001) with clearly dominance of G3 and G4 among IVDU. Treatment was not complited by two patients in both groups (4,4% /3,3%). EVR was significantly higher in test group (p=0,001) so did the ETR (p=0,002) and SVR (p<0,001). Predictive factors for SVR were: age (negative predictive factor), male sex, absence of reduction of pegilated interferon and ribavirin, Metavir stage of fibrosis and presence of EVR. Conclusion: Population of IVDU were adherent to treatment protocol and with excellent treatment response they justified the hope of health care workers for success treatment of this population.

Tularemia is a vector-borne zoonosis with a complex epidemiology caused by Francisella tularensis. F. tularensis is a non-motile, obligatory aerobic, facultative intracellular Gram-negative coccobacillus. The bacterium has a broad host range, i.e. mammals, birds and invertebrates. Two types (A, B) and four subspecies (F. tularensis subsp. tularensis (type A), F. tularensis subsp. holarctica (type B), F. tularensis subsp. mediasiatica and F. tularensis subsp. novicida.) are known today. Types A and B are of importance as they cause disease in humans and animals. Type A is present almost exclusively in North America and type B is found all over the Northern hemisphere. F. tularensis is considered to be a class A biological warfare agent, it is notoriously difficult to recognize infections in non-endemic regions and was produced as a weaponized agent by several countries in the 1960ties and 70ties. Humans can acquire tularemia by inhaling dust or aerosols contaminated with F. tularensis bacteria, this type of exposure can result in pneumonic tularemia, one of the most severe forms of the disease. especially farming involving machines that disperse remains of infected animals or carcasses. Rarely, water can become tularemia contaminated through contact with infected animals. Humans who drink contaminated and untreated water may contract oropharyngeal tularemia. The tularemia outbreak in B&H in 1995 showed an unusual number of oropharyngeal cases. As all aspects of this particular tularemia epidemic were not thoroughly investigated and the possible intentional use of agents of biological warfare remained a possibility, we reviewed all available data in order to assess whether the outbreak was natural. Correspondence to: Mirsada Hukić, Institute for Biomedical Diagnostic and Research Nalaz, Sarajevo Bosnia and Herzegovina, Tel: +387-33-651 371; E-mail: mirsadahukic@yahoo.com Received: May 23, 2017; Accepted: June 20, 2017; Published: June 22, 2017 Introduction Tularemia is a vector-borne zoonosis with a complex epidemiology caused by Francisella tularensis. F. tularensis is a non-motile, obligatory aerobic, facultative intracellular Gram-negative coccobacillus. The bacterium has a broad host range, i.e. mammals, birds and invertebrates. Four subspecies are known today; F. tularensis subsp. tularensis (type A), F. tularensis subsp. holarctica (type B), F. tularensis subsp. mediasiatica and F. tularensis subsp. novicida. Types A and B are of importance as they cause disease in humans and animals. Type A is present almost exclusively in North America and type B is found all over the Northern hemisphere [1]. Infections due to tick and deer fly bites usually take the form of ulceroglandular or glandular tularemia. F. tularensis bacteria can also be transmitted to humans via the skin when handling infected animal tissue. This can occur when hunting or skinning infected rodents like rabbits, muskrats and other rodents. Many animals have also been known to become infected and clinically ill from tularemia. Domestic cats are very susceptible and can transmit the bacteria to their owners. Therefore, care should always be taken when handling sick or dead animals. Infection due to handling animals can result in glandular, ulceroglandular and oculoglandular tularemia. Eating of under-cooked meat of infected animal’s tularemia can also result in oropharyngeal tularemia [2]. Humans can acquire tularemia by inhaling dust or aerosols contaminated with F. tularensis bacteria, this type of exposure can result in pneumonic tularemia, one of the most severe forms of the disease. especially farming involving machines that disperse remains of infected animals or carcasses. Rarely, water can become tularemia contaminated through contact with infected animals. Humans who drink contaminated and untreated water may contract oropharyngeal tularemia [3]. Transmission from person to person has so far not been reported. Inhalational tularemia following intentional release of a virulent strain of F. tularensis would have the greatest adverse human Hukić M (2017) Recognizing the possibility of bioterrorism in the face of emerging and reemerging zoonotic pathogens in Bosnia and Herzegovina during the war (1992-1995) Volume 1(3): 2-7 Virol Res Rev, 2017 doi: 10.15761/VRR.1000113 consequence because of its very high infectivity if delivered as an aerosol. It has been estimated that an aerosol dispersal of 50 kg of virulent F. tularensis over a metropolitan area with 5 million inhabitants would result in 250 000 incapacitating casualties, including 19,000 deaths. Outbreaks of pneumonic tularemia, particularly in low incidence areas, should prompt consideration of bioterrorism. F. tularensis has long been considered a potential biological weapon. It was one of the agents studied the Japanese germ warfare research units in Manchuria, China between 1932 and 1945; it was also considered for military purposes in the West [4]. An outbreak of tularemia reported in Soviet and German soldiers during the second world war may have been the result of intentional release [5]. F. tularensis has been studied, weaponized and stockpiled by several countries, including Japan, the USSR and the US [4]. Pathogenesis Francisella tularensis can infect humans through the skin, mucous membranes, gastrointestinal tract, and lungs. The major target organs are the lymph nodes, lungs and pleura, spleen, liver, and kidney. Bacteremia is common in the early phase of infection. The initial tissue reaction to infection is a focal, suppurative necrosis. Suppurative lesions become granulomatous, typical of other granulomatous conditions, i.e. tuberculosis or sarcoidosis. Humans with inhalational exposure also develop early in the course of illness hemorrhagic signs and inflammation of the airways which usually evolves to bronchopneumonia. Clinical manifestations The primary clinical forms of tularemia vary in severity and presentation according to virulence of the infecting organism, the dose, and way of administration. Primary disease presentations can be glandular, ulceroglandular, oculoglandular, oropharyngeal, pneumonic, typhoidal, and septic forms. The onset of tularemia is usually abrupt, with fever (38°C-40°C), headache, chills and rigors, generalized body aches (lower back pain) and sore throat. A dry or slightly productive cough frequently occurs with or without signs of pneumonia. Nausea, vomiting, and diarrhea sometimes occur. Sweats, fever and chills, malaise, progressive weakness and weight loss characterize the continuing illness. In untreated tularemia, symptoms often persist for several weeks or months. Any form of tularemia may be complicated by hematogenous spread, resulting in secondary pleura-pneumonia, sepsis, and meningitis. Prior to the administration of antibiotics, the overall mortality with the more severe type A strains is of 5% to 15%, and in the case of untreated pneumonic and severe systemic forms fatality rates as high as 30% to 60% were reported. Type B infections are in contrast rarely fatal. Ulceroglandular tularemia, after handling a contaminated carcass or due to an infective arthropod bite, a local cutaneous papule appears at the inoculation site together with the onset of generalized symptoms, becomes pustular, and ulcerates within a few days. The ulcer is tender may show an eschar. Antibiotic treatment does not prevent the affected nodes from becoming fluctuant and rupture. Oculoglandular tularemia, which follows direct contamination of the eye, ulceration occurs on the conjunctiva, accompanied by pronounced chemosis, vasculitis, and regional lymphadenitis. Glandular tularemia is characterized by lymphadenopathy without an ulcer. Oropharyngeal tularemia is acquired by drinking contaminated water, ingesting contaminated food, or by inhaling contaminated droplets or aerosols. Affected persons may develop stomatitis but more commonly develop exudative pharyngitis or tonsillitis, sometimes with ulceration. Tularemia pneumonia is the direct result of inhaling contaminated aerosols. Inhalational exposures commonly result in an initial clinical picture of systemic illness without prominent signs of respiratory disease. The earliest pulmonary radiographic findings of inhalational tularemia may be peribronchial infiltrates, typically advancing to bronchopneumonia in one or more lobes. Pulmonary infection can sometimes rapidly progress to severe pneumonia, respiratory failure, and death. Lung abscesses occur infrequently. Typhoidal tularemia is used to describe systemic illness when the site of inoculation or the localization of infection is unclear. Tularemia sepsis is severe and potentially fatal. As in the case of typhoidal tularemia, fever, abdominal pain, diarrhea, and vomiting may be prominent early in the course of illness. The patient typically appears toxic and may develop confusion and coma. Unless treated promptly, septic shock and other complications of systemic inflammatory response syndrome may develop with hemorrhagic signs, acute respiratory distress syndrome and organ failure [4]. The war in Bosnia and Herzegovina (B&H) (1992-1995) As in all conflicts, the inhabitants of Bosnia and Herzegovina were under extreme pressure during the war that took place 1992-1995. Due to the nature of the conflict that sometimes involved hostilities amongst neighbors, there was minimal respect for human rights and civilians, children and old people as well as soldiers suffered the consequences. In particular the weakest individuals, namely women and children suffered the most. Horrific ethnic cleansing campaigns between 1992 and the end of 1995 killed thousands and violently displaced more than two million people in much of B&H. International intervention into the Bosnian conflict led finally to a peace agreement in late 1995 (the Dayton Accords). The Dayton agreement finally ended the war in B&H. In 1995, the conflict between multiple factions was ag

AIM To analyse clinical, laboratory and epidemiological characteristics of brucellosis in children in Bosnia and Herzegovina. METHODS The study included 246 children aged 0-18 years, who were hospitalized in Clinics and Departments for Infectious Diseases in Tuzla, Sarajevo, Banja Luka, Zenica and Bihać in the period 2000-2013, in whom the diagnosis of brucellosis was established based on anamnestic data, clinical features and positive results from blood culture and/or positive results from one of the serological tests. RESULTS In this period, a total of 2630 patients, 246 (9.35%) of whom were children, were treated from brucellosis at the Clinics and Departments in Bosnia and Herzegovina. In the majority of cases, the children were from rural parts of the country, 226 (91.87%);214 (87.04%) cases had direct contact with sick animals, sick family member or consumption of unpasteurized dairy products from farms where brucellosis had been already established. Male children predominated, 157 (63.82%). The most frequent clinical features in affected children were fever, 194 (78.86%) and joint pain, 158 (64.22%). The average duration of antimicrobial treatment was 42.85 ± 10.67 days. A total of 228 (92.68%) children were completely cured, while relapses occurred in 18 (7.32%) children. CONCLUSION Since brucellosis is an endemic disease in Bosnia and Herzegovina, it is important that physicians in their daily practice consider brucellosis and establish proper diagnosis and therapy in children with prolonged fever, arthralgia, leukopenia and positive epidemiological data, especially in rural parts of the country.

Between January 2014 and the beginning of February 2015, the Federal Institute of Public Health in the Federation of Bosnia and Herzegovina has reported 3,804 measles cases. Notable transmission has been observed in three Central Bosnia Canton municipalities: Bugojno, Fojnica and Travnik. Most cases were unvaccinated 2,680 (70%) or of unknown vaccination status 755 (20%). Health authorities have been checking vaccination records and performing necessary prevention measures. The epidemic is still ongoing.

Introduction: More than three decades after recognition of acquired immunodeficiency syndrome (AIDS) in the United States, the pandemic of human immunodeficiency virus (HIV) infection has dramatically changed the global burden of disease. Aim: The main goal of this research is retrospective analysis of epidemiological and clinical characteristics of 28 HIV infected patients, who were diagnosed and treated at the Clinic for Infectious Diseases in University Clinical Center Tuzla in the period from 1996 until the end of 2013. Subjects and Methods: Retrospective analysis was performed using the medical records of 28 HIV-infected persons. Two rapid tests were used for HIV testing: OraQuick Advance test, Vikia HIV1/2, Elisa combo test, HIV RNA test. AIDS disease was determined by using the criteria from WHO. Results: Among a total of 28 HIV-infected persons, 23 (82.14%) were males and 5 (17.86%) were females, with the male: female ratio of 4,6:1. In terms of the transmission route, a large proportion of cases were infected through heterosexual contact 19 (67.86%). At the time of the first visit, 16 (57.15%) patients showed asymptomatic HIV infection, 4 (14.28%) HIV infection with symptoms other than the AIDS defining diseases, and 8 (28.57) had AIDS. At the time of first hospital visit, the CD4 + cells count ranged from 40 to 1795/µl (conducted in 19 patients), and mean value of CD4 + cells was 365,31/µl, and mean HIV RNA titer was 287 118 copies/ml³. Of 28 HIV-infected persons 39 cases of opportunistic diseases developed in 12 patients (42.9%). In terms of the frequency of opportunistic diseases, tuberculosis (12 cases, 42.9%). Among a total of 28 HIV-infected patients, 6 (21.4%) of them died. Conclusion: This study characterizes the epidemiological and clinical patterns of HIV–infected patients in Tuzla region of Bosnia and Herzegovina to accurately understand HIV infection/AIDS in our region, in the hope to contribute in the establishment of effective HIV guidelines in the Tuzla region of B&H in the future.

Acute respiratory distress syndrome (ARDS) is a form of acute life threatening respiratory failure. In daily practice there is difficulty in diagnostic and therapeutic management of Acute respiratory distress syndrome (ARDS). We observed delay in diagnostic and therapeutic procedures in patients with clinical signs for the presence of severe respiratory disorders. Finding timely evidence of the presence the clinical signs of threatening ARDS and underlying diseases like influenza A/H1N1 during prehospital period in early stage of disease it is possible introduce early adequate treatment: high flow oxygen, fluid replacement and pharmacological and antiviral therapy. This measure can reduce high mortality in patients who develop ARDS. It is important to improve diagnostic criteria for a precise definition of ARDS and transfer it in practice of emergency and family medicine, microbiology, intensive care units, hospital departments of infectious and respiratory diseases. In this article we underlined the key elements of the new definition of ARDS, diagnostic criteria and the importance of early diagnosis in prehospital period following clinical feature and course (a presence of severe dyspnea) by adding chest x-ray and laboratory investigations.