Search Results (3)

Fahr’s syndrome is a rare neurodegenerative disorder with limited research on its oral manifestations. This study investigates the dental features and genetic background of Fahr’s syndrome through a pedigree analysis and a retrospective literature study. A clinical examination and whole-exome sequencing (WES) were conducted on a female patient with Fahr’s syndrome and pseudohypoparathyroidism, along with her family members. The patient presented with super-numerary teeth, tooth agenesis, enamel hypoplasia, and abnormal tooth eruption. The WES did not reveal any known pathogenic mutations related to pseudohypoparathyroidism or Fahr’s disease. However, genetic variations in KIF1A, FZD8, and PDGFA may underlie these dental abnormalities. Additionally, a retrospective analysis of 22 reported cases from PubMed and the Human Gene Mutation Database (1 January 1965–30 June 2024) was conducted with keywords such as “Fahr’s disease”, “Fahr’s syndrome”, “dental”, and “hypoparathyroidism”. The analysis showed that patients with Fahr’s syndrome, pseudohypoparathyroidism, and idiopathic hypoparathyroidism exhibited similar oral abnormalities, including tooth agenesis, root dysplasia, dental malformations, and abnormal tooth eruption. Variations in the incidence of tooth agenesis and dental malformation among these groups may be linked to differences in parathyroid hormone metabolism. These findings suggest oral abnormalities are the key local features of Fahr’s syndrome and related parathyroid disorders. Full article

Background: It is unclear whether patients with basal ganglia calcifications (BGC) should undergo infectious disease testing as part of their diagnostic work-up. We investigated the occurrence of possibly associated infections in patients with BGC diagnosed with Fahr’s disease or syndrome and consecutively performed a systematic review of published infectious diseases associated with BGC. Methods: In a cross-sectional study, we evaluated infections in non-immunocompromised patients aged ≥ 18 years with BGC in the Netherlands, who were diagnosed with Fahr’s disease or syndrome after an extensive multidisciplinary diagnostic work-up. Pathogens that were assessed included the following: Brucella sp., cytomegalovirus, human herpesvirus type 6/8, human immunodeficiency virus (HIV), Mycobacterium tuberculosis, rubella virus, and Toxoplasma gondii. Next, a systematic review was performed using MEDLINE and Embase (2002–2023). Results: The cross-sectional study included 54 patients (median age 65 years). We did not observe any possible related infections to the BGC in this population. Prior infection with Toxoplasma gondii occurred in 28%, and in 94%, IgG rubella antibodies were present. The positive tests were considered to be incidental findings by the multidisciplinary team since these infections are only associated with BGC when congenitally contracted and all patients presented with adult-onset symptoms. The systematic search yielded 47 articles, including 24 narrative reviews/textbooks and 23 original studies (11 case series, 6 cross-sectional and 4 cohort studies, and 2 systematic reviews). Most studies reported congenital infections associated with BGC (cytomegalovirus, HIV, rubella virus, Zika virus). Only two studies reported acquired pathogens (chronic active Epstein–Barr virus and Mycobacterium tuberculosis). The quality of evidence was low. Conclusions: In our cross-sectional study and systematic review, we found no convincing evidence that acquired infections are causing BGC in adults. Therefore, we argue against routine testing for infections in non-immunocompromised adults with BGC in Western countries. Full article

Pathological mineralization has been reported countless times in the literature and is a well-known phenomenon in the medical field for its connections to a wide range of diseases, including cancer, cardiovascular, and neurodegenerative diseases. The minerals involved in calcification, however, have not been directly studied as extensively as the organic components of each of the pathologies. These have been studied in isolation and, for most of them, physicochemical properties are hitherto not fully known. In a parallel development, materials science methods such as electron microscopy, spectroscopy, thermal analysis, and others have been used in biology mainly for the study of hard tissues and biomaterials and have only recently been incorporated in the study of other biological systems. This review connects a range of soft tissue diseases, including breast cancer, age-related macular degeneration, aortic valve stenosis, kidney stone diseases, and Fahr’s syndrome, all of which have been associated with mineralization processes. Furthermore, it describes how physicochemical material characterization methods have been used to provide new information on such pathologies. Here, we focus on diseases that are associated with calcium-composed minerals to discuss how understanding the properties of these minerals can provide new insights on their origins, considering that different conditions and biological features are required for each type of mineral to be formed. We show that mineralomics, or the study of the properties and roles of minerals, can provide information which will help to improve prevention methods against pathological mineral build-up, which in the cases of most of the diseases mentioned in this review, will ultimately lead to new prevention or treatment methods for the diseases. Importantly, this review aims to highlight that chemical composition alone cannot fully support conclusions drawn on the nature of these minerals. Full article