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Orvosi Hetilap
Authors:
Katalin H. Nagy
,
Barnabás Rózsai
,
Kálmán Kürti
,
Ilona Rippl
,
Éva Erhardt
,
Adrienne Kozári
,
Erika Pákozdiné Vajda
,
Ágnes Czvenitsné Árkus
, and
Gyula Soltész

Gyürüs, E., Patterson, C., Soltész, G., on behalf of the Hungarian Childhood Diabetes Epidemiology Study Group: Twenty years of prospective incidence of childhood type 1 diabetes in Hungary – the rising trend

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(NIDDM). Regul. Pept., 1990, 30 (2), 159–164. Stadinski, B. D., Delong, T., Reisdorph, N., et al.: Chromogranin A is an autoantigen in type 1 diabetes. Nat. Immunol., 2010, 11 (3), 225

Open access
Acta Physiologica Hungarica
Authors:
F. Salman
,
G. Erten
,
M. Unal
,
B. Kiran
,
S. Salman
,
G. Deniz
,
M. Yilmaz
,
A. Kayserilioglu
, and
N. Dinccag

The essential therapy of diabetes mellitus includes medical nutrition therapy (MNT), exercise and medical therapy. Exercise, besides its metabolic effects, has positive influence on the immune system, but some forms of exercise may cause trauma for muscle and skeletal systems, they may also support negative effects on the immune system. Nineteen type 1 diabetic patients (mean age 22.1±2.8 yrs), followed by Diabetes Outpatient Clinic and twenty age matched male control subjects were included into the study, to demonstrate the effects of maximal, acute exercise on the immune system. The exercise test was performed according to Bruce protocol on treadmill. In diabetic subjects, increased CD19 and CD23 expressions were observed before exercise. In both groups (diabetic/control) CD3, CD4 expressions and CD4/CD8 ratio were decreased following the exercise, however expression of natural killer (NK) cells increased. Compared to type 1 diabetic patients healthy subjects had longer acute exercise that caused the increased level of CD8 expression, however type 1 diabetic patients did not show any difference. These results indicate that submaximal aerobic exercise might be recommended for type 1 diabetics without any complications because of its positive reflection on metabolic control and no negative effects on the immune system.

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Az 1-es típusú diabetes mellitus immunterápiája

Immunotherapy of type 1 diabetes mellitus

Orvosi Hetilap
Authors:
Krisztina Arapovicsné Kiss
,
Anna Tóth
,
László Schandl
,
Zsófia Kiss
,
Gábor Winkler
, and
János Tibor Kis

References 1 Noble JA. Immunogenetics of type 1 diabetes: a comprehensive review. J Autoimmun. 2015; 64: 101

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Orvosi Hetilap
Authors:
Károly Kalmár Nagy
,
Szabolcs Horváth
,
Péter Szakály
,
László Piros
, and
Róbert Langer

Fourlanos, S., Harrison, L. C., Colman, P. G.: The accelerator hypothesis and increasing incidence of type 1 diabetes. Curr. Opin. Endocrinol. Diabetes Obes., 2008, 15 , 321

Open access

type 1 diabetes in the DCCT/EDIC versus the general population. Diabetes Care 2016; 39: 1378–1383. 2 Asao K, Sarti C, Forsen T, et al., for the Diabetes Epidemiology Research

Open access
Orvosi Hetilap
Authors:
Krisztina Lukács
,
Pál Pánczél
, and
Nóra Hosszúfalusi

References 1 Wang Z, Xie Z, Lu Q, et al. Beyond genetics: What causes type 1 diabetes. Clin Rev Allergy Immunol. 2017; 52: 273–286. 2 Stankov K

Open access

A kognitív érzelemszabályozás szerepe az evészavartünetekben egyes serdülőkori krónikus betegségekben

The role of cognitive emotion regulation in disordered eating among chronically ill adolescents

Orvosi Hetilap
Authors:
Melinda Cserép
,
Brigitta Szabó
,
Péter Tóth-Heyn
,
Andrea Luczay
,
Antal Dezsőfi-Gottl
,
Áron Cseh
,
Nikoletta Várnai
,
Bea Pászthy
,
J. Attila Szabó
, and
Irena Szumska

Young V, Eiser C, Johnson B, et al. Eating problems in adolescents with type 1 diabetes: a systematic review with meta-analysis. Diabet Med. 2013; 30: 189–198. 4

Open access

incidence, prevalence and mortality of type 1 diabetes in children and adolescents: results from the International Diabetes Federation Diabetes Atlas, 9th edition. Diabetes Res Clin Pract. 2019; 157: 107842

Open access