Diabetic Polyneuropathy and Physical Activity in Type 1 Diabetes Mellitus: A Cross-Sectional Study.

BACKGROUND: The purpose of this study is to access whether a personal attitude to physical activity (PA) may influence the appearance of diabetic polyneuropathy (DPN) patients with well-controlled type 1 diabetes mellitus. METHODS: Ninety patients attending the diabetes technology outpatient clinic were enrolled. DPN was investigated according to the Toronto consensus diagnostic criteria. PA was assessed using the International Physical Activity Questionnaire. RESULTS: PA was low in 21.1%, moderate in 42.2% and high in 36.7% of patients. According to Toronto criteria, we defined two categories: the first one with DPN absent or possible (57 (63.3%)) and a second one with DPN certain or probable (33 (36.7%)). The χ2-test of the PA groups and the DPN categories showed a statistically significant difference (p < 0.001), with less neuropathy in patients belonging to the group of moderate/high PA. Exposure to a minimum of 600 MET minutes/week was protective factor against the onset of DPN (odd ratio 0.221, c.i. 0.068-0.720, p = 0.012). CONCLUSIONS: This study suggests that DPN is less present in type 1 diabetic patients with good metabolic control and a good personal habit of PA. Moderate-to-vigorous PA of at least 600 MET minutes/week might be a protective factor against DPN.

BNT162b2 mRNA COVID-19 Vaccine Does Not Impact the Honeymoon Phase in Type 1 Diabetes: A Case Report.

Type 1 diabetes (T1D), which is caused by the autoimmune destruction of insulin-secreting pancreatic beta cells, represents a high-risk category requiring COVID-19 vaccine prioritization. Although COVID-19 vaccination can lead to transient hyperglycemia (vaccination-induced hyperglycemia; ViHG), its influence on the course of the clinical remission phase of T1D (a.k.a. "honeymoon phase") is currently unknown. Recently, there has been an increasing concern that COVID-19 vaccination may trigger autoimmune phenomena. We describe the case of a 24-year-old young Italian man with T1D who received two doses of the BNT162b2 mRNA (Pfizer-BioNTech) COVID-19 vaccine during a prolonged honeymoon phase. He experienced a transient impairment in glucose control (as evidenced by continuous glucose monitoring) that was not associated with substantial changes in stimulated C-peptide levels and islet autoantibody titers. Nonetheless, large prospective studies are needed to confirm the safety and the immunometabolic impact of the BNT162b2 vaccine in T1D patients during the honeymoon phase. Thus far, T1D patients who are going to receive COVID-19 vaccination should be warned about the possible occurrence of transient ViHG and should undergo strict postvaccination surveillance.

A new case of combined factor V and factor VIII deficiency further suggests that the LMAN1 M1T mutation is a frequent cause in Italian patients.

Combined factor V and factor VIII deficiency (F5F8D) is an extremely rare worldwide congenital hemorrhagic disorder that is more prevalent in the Mediterranean area. We report the clinical presentations and the identification of a LMAN1 mutation in a 3-year-old Italian boy who was diagnosed with F5F8D. The mutation identified (M1T) has already been found in several Italian patients. Since the LMAN1 M1T mutation has been identified in most patients with F5F8D, we suggest that the search for this mutation should be the first step in the molecular characterization of patients from an Italian ethnic background.

A polymorphism in the VKORC1 gene is associated with an interindividual variability in the dose-anticoagulant effect of warfarin.

Patients require different warfarin dosages to achieve the target therapeutic anticoagulation. The variability is largely genetically determined, and it can be only partly explained by genetic variability in the cytochrome CYP2C9 locus. In 147 patients followed from the start of anticoagulation with warfarin, we have investigated whether VKORC1 gene mutations have affected doses of drug prescribed to acquire the target anticoagulation intensity. Two synonymous mutations, 129C>T at Cys43 and 3462C>T at Leu120, and 2 missense mutations, Asp38Tyr and Arg151Gln, were identified. None of these mutations was found to affect the interindividual variability of warfarin prescribed. Finally, 2 common polymorphisms were found, 1173C>T in the intron 1 and 3730G>A transition in the 3' untranslated region (UTR). Regardless of the presence of confounding variables, the mean adjusted dose required of warfarin was higher (6.2 mg) among patients with the VKORC1 1173CC genotype than those of patients carrying the CT (4.8 mg; P = .002) or the TT genotype (3.5 mg; P < .001). In the present setting, VKORC1 and CYP2C9 genetic variants investigated accounted for about a third (r2, 0.353) of the interindividual variability. Genetic variants of the VKORC1 gene locus modulate the mean daily dose of drug prescribed to acquire the target anticoagulation intensity.

Polymorphisms in factor II and factor VII genes modulate oral anticoagulation with warfarin.

BACKGROUND AND OBJECTIVES: There is very considerable inter-individual variability in warfarin dosages necessary to achieve target therapeutic anticoagulation. The variability is largely genetically determined but can only partly be explained by genetic variability in the cytochrome CYP2C9 locus. Polymorphisms within the genes coding for vitamin K-dependent proteins have been suggested to predict sensitivity to warfarin therapy. DESIGN AND METHODS: In a cohort of 147 patients followed-up at one specialized clinic from the start of anticoagulation with warfarin, we investigated whether factor II (Thr165Met; G20210A) and factor VII polymorphisms (G-402A; G-401T) affected the doses of warfarin necessary to acquire the target intensity of anticoagulation. RESULTS: Regardless of the presence of confounding variables, the mean adjusted dose of warfarin required was higher among patients with the factor II Thr/Thr 165 genotype (4.2 mg) than among patients carrying the Met165 allele (2.9 mg; p=0.041) and higher in carriers of the factor VII GG-401 genotype (4.1 mg) than in those with the T-401 allele (3.1 mg; p=0.029). No significant effect was found for factor II A20210G and factor VII G-402A polymorphisms. All together, the genetic variants investigated accounted for about a quarter (r2: 0.261) of the inter-individual variability calculated in the present setting. INTERPRETATION AND CONCLUSIONS: Genetic variants of factor II and factor VII modulate the mean daily dose of warfarin required to achieve a target intensity of anticoagulation.

A novel G-to-A mutation in the intron-N of the protein S gene leading to abnormal RNA splicing in a patient with protein S deficiency.

BACKGROUND AND OBJECTIVES: Hereditary protein S (PS) deficiency is a rare autosomal disorder of the coagulation pathway associated with familial thrombophilia. DESIGN AND METHODS: We investigated a young propositus with recurrent deep vein thrombosis, a positive family history for thrombotic episodes, and low plasma concentrations of free, but not total PS antigen (12% and 70%, respectively). RESULTS: Sequence analysis of the PS gene showed a heterozygous G-to-A mutation at the first nucleotide of intron N. The patient's father, who had suffered from deep vein thrombosis and had reduced total and free PS antigen (59% and 28%, respectively) was a heterozygote. The G-to-A change predicts the disappearance of a donor splice site. After transfection with a construct, containing either the wild-type or the mutated sequence, cells with the mutant construct showed an aberrant mRNA, consistent with exclusion of exon 14, but not the expected mRNA. Sequencing of the abnormal mRNA showed the complete absence of exon 14. Exclusion of exon 14 predicts the deletion of the amino acid sequence from residue 508 to residue 582, and the shift of the reading frame of the following 8 amino acids with a premature stop codon within exon 15 at position 591. Thus, the truncated PS gene product would not contain the terminal portion of the sex hormone binding globulin-like domain. INTERPRETATION AND CONCLUSIONS: We have identified a mutation in a highly conserved intronic region of PS gene. The mutation affects in vitro mRNA processing and efficiency of normal splicing.