The Bordetella species can be subdivided into classical and non classical subspecies. The classical subspecies include Bordetella bronchiseptica , B ordetella pertussis , and Bordetella parapertussis . 9 The nonclassical species include Bordetella hinzii , among many others. 4 Classical bordetellae cause disease of the respiratory tract of their natural hosts, whereas nonclassical species may also cause wound infections and bacteremia. 4 Bordetella hinzii is known to cause respiratory disease in poultry and rodents. 4 It has been associated with infections in immunocompromised humans, including bacteremia, septicemia, respiratory disease, and chronic cholangitis. 4 In the United States as of November 2021, there have been 18 reported cases of B. hinzii primarily in patients with cystic fibrosis, HIV/AIDS, and those undergoing immunosuppressant therapy. 3 Humans may become infected by aerosols from the avian reservoirs and may develop pulmonary infection long after exposure. 4 Survival in the digestive tract is another specificity of B. hinzii among the Bordetella species. 4 Studies have shown positive culture results from rectal swab samples of those infected. 4 Thus, this pathogen is likely to be transmitted by the oral route, possibly after ingestion of contaminated poultry products or swallowing of respiratory secretions. 4 Recent studies have shown that soil may also serve as an environmental niche for this pathogen. 5 SUMMARY Bordetella hinzii is an uncommon cause of pulmonary infections in immunocompetent patients. The infection does not prefer a particular location of the lungs. Its mode of transmission is through droplets or ingestion. It is primarily a zoonotic infection, most commonly caused by rodent and/or avian exposure. Lung infection has not been reported in healthy individuals such as the patient in this case report. REFERENCES 1. Donato GM, Hsia HLJ, Green CS, Hewlett EL. Adenylate cyclase toxin (ACT) from Bordetella hinzii: characterization and differences from ACT of Bordetella pertussis. J Bacteriol . 2005;187(22):7579-7588. doi:10.1128/JB.187.22.7579-7588.2005 2. B hinzii Pneumonia and Bacteremia in a SARS-CoV-2 Patient. Medscape. Accessed August 7, 2022. https://www. medscape.com/viewarticle/961650
Coccidiocides, and Histoplasma antibodies. Histoplasma antigen was negative in both serum and urine. His expectorant was negative for any acid-fast bacilli. The patient’s chest x-ray and CT angiography were unremarkable. The CT scan of the lung with contrast ( Figure 1 ) showed bronchial wall thickening and tree-in-bud infiltrate predominantly involving the lower lobes, hinting at possible malignancy or atypical infection. The patient subsequently underwent ultrasound-guided bronchoscopy. Findings included thick endobronchial mucus with diffuse inflammation of the airway. Bronchioalveolar lavage ( Figure 2 ) was performed in the right upper lobe apical segment and sent for cell count and bacterial/viral/fungal analyses. There were no malignant cells, but sample cultures were positive for Bordetella hinzii . The patient was administered IV piperacillin/tazobactam and discharged after 2 days with PO amoxicillin/clavulanate 6.5 mg BID for 10 days. qfrueiqnuoelonntleysr. esistant to many antimicrobial drugs, including β-lactams, cephalosporins, and 2 Reported isolates have been susceptible to piperacillin/tazobactam, ceftazidime, tigecycline, and meropenem. 9 /18/22 9:53:00 PM The presence of a novel beta-lactamase gene in B. hinzii makes it less susceptible to amoxicillin. 3 In this case, amoxicillin/clavulanate was prescribed for outpatient use. However, the choice of antimicrobial drugs and treatment duration have not been standardized. 4 The Bordetella species can be subdivided into classical and non classical subspecies. The classical subspecies include Bordetella bronchiseptica , Bordetella pertussis, and Bordetella parapertussis . 9 The nonclassical species include Bordetella hinzii , among many others. 4 Classical bspoercdieetsemllaaeycaalusosecdauisseeawseooufntdheinrfeescptiiorantsoarnydtrbaaccttoefrethmeiiar. natural hosts, whereas nonclassical 4 Bordetella hinzii is known to cause DISCUSSION B. hinzii is a species of gram-negative coccobacilli that exhibit weaker virulence than B. pertussis because of the reduced activity of the adenylate cyclase toxin (ACT). 1 This is due to decreased binding affinity of B. hinzii to calmodulin, the eukaryotic activator of the B. pertussis ACT and due to the lack of the cyaC gene needed to acylate the ACT. 1 Additionally, B. hinzii is frequently resistant to many antimicrobial drugs, including β-lactams, cephalosporins, and quinolones. 2 Reported isolates have been susceptible to piperacillin/tazobactam, ceftazidime, tigecycline, and meropenem. 9 /18/22 9:53:00 PM The presence of a novel beta-lactamase gene in B. hinzii makes it less susceptible to amoxicillin. 3 In this case, amoxicillin/clavulanate was prescribed for outpatient use. However, the choice of antimicrobial drugs and treatment duration have not been standardized. 4 Figure 2 . Axial image of chest computed tomography of lower lobes of the lung with infiltrates as labeled. Discussion B. hinzii is a species of gram-negative coccobacilli that exhibit weaker virulence than B. pertussis because of the reduced activity of the adenylate cyclase toxin (ACT). 1 This is due to decreased binding affinity of B. hinzii to calmodulin, the eukaryotic activator of the B. pertussis ACT and due to the lack of the cyaC gene needed to acylate the ACT. 1 Additionally, B. hinzii is Figure 2. Axial image of chest computed tomography of lower lobes of the lung with infiltrates as labeled.
3. Gregory S, Gregory IS, Fleckenstein J. Three Cases of Bordetella hinzii, United States. Published online 2021:7.
4. Fabre A, Dupin C, Bénézit F, et al. Opportunistic Pulmonary Bordetella hinzii Infection after Avian Exposure - Volume 21, Number 12—December 2015 - Emerging Infectious Diseases journal - CDC. doi:10.3201/eid2112.150400 5. Hamidou Soumana I, Linz B, Harvill ET. Environmental Origin of the Genus Bordetella. Front Microbiol . 2017;8:28. doi:10.3389/fmicb.2017.00028 ■
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J LA MED SOC | VOL 174 | FALL 2022
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