Active otosclerosis (n = 39) was characterized by increased expression of BMP2, 4, 5, and 7. Inactive cases of otosclerosis (n = 12) were characterized by negative immunoreaction for BMPs. Non-otosclerotic stapes specimens (n = 16) and negative controls (n = 41) showed negligible BMP expression. The BMP expression pattern showed a strong correlation with the histological activity of otosclerosis.
Tuberculosis remains one of the most challenging infectious diseases, which rarely manifests in the middle ear cleft exclusively. Typical symptoms of tuberculosis have become more and more confusing due to the genetic evolution of different Mycobacterium species. In the diagnosis of tuberculous otitis media (TOM), clinical suspicion plays a fundamental role, when topical and/or systemic antibiotic treatment cannot lead to improvement in ear discharge and inflammation. If there is no other reason of persisting otorrhea, microbiological sampling and culturing are the subsequent steps of diagnosis. These investigations, however, have low sensitivity; therefore a canal wall-up mastoidectomy is recommended, which includes the removal of necrotic bone and multiple histological sampling from various locations. Currently, histopathological analysis is the most robust and reliable method in the diagnosis of TOM. Tuberculin skin test, Mycobacterium-specific PCR and interferon-gamma release assay cannot distinguish between active, inactive or post-infective conditions. According to these considerations, these methods may serve as supplementary assays for the final diagnosis. Having the appropriate diagnosis after surgical intervention and laboratory analysis, medical management should be continued by anti-tuberculosis chemotherapy. Hereby, we demonstrate two cases with primary TOM and provide an overview of the literature in the light of diagnostic and therapeutic guidelines in the management of TOM.
Two thirds of nonotosclerotic stapes footplates represented complete pathologic bone remodeling. Unlike otosclerosis, nonotosclerotic stapes fixations were characterized by basic histopathologic findings without organ specificity that can also be identified in case of different diseases. Prevalence of nonotosclerotic stapes ankylosis is approximately 30 to 40% among stapes fixation cases. The long-term prognosis and surgical considerations theoretically differ from those of otosclerosis.
Otosclerosis is a complex bone remodeling disorder of the human otic capsule that might be associated with various mutations of A1 and A2 alleles of type-I collagen. The study herein presented, investigates the possibilty of the genetic involvement of type-I collagen in the pathogenesis of histologically confirmed otosclerosis. A total of 55 ankylotic stapes footplates were analyzed. Cortical bone fragments (n = 30), incus (n = 3) and malleus (n = 2) specimens were employed as negative controls. Specimens were divided into two groups. The first group was processed using conventional H.E. hematoxylin-eosin (H.E.) staining and type-I collagen-specific immunofluorescent assay (IFA), while the second group was examined by COL1A1 and A2-specific RT-PCR. Otosclerotic- (n = 31) and non-otosclerotic stapes footplates (n = 9) as well as cortical bones (n = 20), incus (n = 2) and malleus specimens (n = 1) showed normal and quite similar A1 and A2 allele expression confirmed by IFA. RT-PCR analysis revealed normal and consistent mRNA expression of both alleles in each specimen. Expression levels and patterns of COL1A1/A2 alleles did not show significant correlation with the histological diagnosis of otosclerosis. Type-I collagen is a highly conserved structure protein, which plays a fundamental role in the integritiy of various connective tissues. Mutations of A1 and A2 alleles result in serious systemic disorders of the skeleton, tendons and skin. Since otosclerosis is an organ-specific disease, it is difficult to explain its genetic association with type-I collagen. In conclusion, we found no evidence supporting the putative link of COL1A1 and COL1A2 alleles with otosclerosis.
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