1 Index scores were derived from the National
Danish Admissions Registry.
2 habits, and risk of type 2 diabetes (T2D) in
Danish adults from the Diet, Cancer and Health cohort st
3 xamine the risk of anxiety and depression in
Danish adults with mild and moderate-severe AD, as well
4 118 EAEC strains isolated from the stools of
Danish adults with traveler's diarrhea.
5 stently associated with lower risk of T2D in
Danish adults.
6 aire data and objective measurements of 9656
Danish adults.
7 nna Simonsens Fond, Novo Nordisk Foundation,
Danish AIDS Foundation, Augustinus Foundation, and Odens
8 amyloid deposition in TgCRND8 mice and ADan (
Danish Amyloid) cerebral amyloid angiopathy in the mouse
9 ivity and 94.4% and 82.4% specificity in the
Danish and Scottish cohorts, respectively.
10 Patients from the
Danish and Swedish lymphoma registries were included acc
11 The trial included 127 patients in eight
Danish and Swedish surgical departments, and 112 patient
12 infects urban-dwelling Danes even without a
Danish animal reservoir.
13 This exploratory study used the
Danish archived midgestational sera and their nationwide
14 ithin the first 18 months of life in a large
Danish birth cohort.
15 dance for anaphylaxis between immigrants and
Danish-
born including time- and age- trends.
16 matched in a 1 : 6 ratio on age and sex with
Danish-
born individuals (n = 740 600).
17 ts, 9 among Western immigrants and 955 among
Danish-
born patients.
18 Compared to
Danish-
born, non-Western immigrants living in Denmark du
19 Compared to
Danish-
born, non-Western immigrants who obtained residen
20 pital attendance for anaphylaxis compared to
Danish-
born.
21 a lower incidence of anaphylaxis compared to
Danish-
born.
22 xis among non-Western immigrants compared to
Danish-
born; however this protection was lost over time.
23 nt Registry that were cross-checked with the
Danish Breast Cancer Group database and the Danish Patho
24 tionally well preserved circa 3.400-year old
Danish Bronze Age female find, known as the Egtved Girl.
25 The
Danish Calmette Study is a multicenter randomized trial
26 The
Danish Calmette Study was conducted 2012-2015.
27 dren born in 1930-1989, were linked with the
Danish Cancer Registry.
28 es in Denmark between 2000 and 2012 from the
Danish Cancer Registry.
29 nd were linked over 1943 through 2011 to the
Danish Cancer Registry.
30 Danish Cancer Society, Aarhus University Research Founda
31 Institute and the National Cancer Institute,
Danish Cancer Society, Novo Nordisk Foundation, National
32 sts have been systematically reported to the
Danish Cardiac Arrest Register since 2001.
33 Using data from the nationwide
Danish Cardiac Arrest Registry (2001 horizontal line 201
34 and 2011, identified through the nationwide
Danish Cardiac Arrest Registry.
35 une 1, 2001, to December 31, 2012, using the
Danish Cardiac Arrest Registry.
36 he Danish Civil Registration Service and the
Danish Cause of Death Register, respectively.
37 sk of death by suicide was identified in the
Danish Cause of Death Register.
38 entral Research Register and deaths from the
Danish Cause of Death register.
39 System, and cause of death from the National
Danish Causes of Death Registry.
40 Eight hundred and forty-five
Danish children 4-9 years of age were studied.
41 cutoffs (25, 30, 40, and 50 nmol/L) in white
Danish children aged 4-8 y living at 55 degrees N.
42 1600 individuals randomly selected from all
Danish children born during 1989-1999.
43 al height and weight measurements of 372,636
Danish children born in 1930-1989, were linked with the
44 quent weight and height measurements for 311
Danish children in the SKOT (Complementary and Young Chi
45 timal well-being, development and health for
Danish children through a healthy New Nordic Diet (OPUS)
46 timal well-being, development and health for
Danish children through a healthy New Nordic Diet (OPUS)
47 OPSAC2000 is a high-risk birth cohort of 411
Danish children.
48 ons of phthalate metabolites and parabens in
Danish children.
49 We used a subset of the national
Danish Chlamydia Study.
50 All
Danish citizens 18 years or older from January 1, 1997,
51 All
Danish citizens 18 years or older from January 1, 1997,
52 All
Danish citizens aged >/=18 years between January 1, 1997
53 All
Danish citizens who received gastric bypass or gastric b
54 tion, consisted of resuscitation training of
Danish citizens, dissemination of on-site AEDs, foundati
55 Data were obtained from
Danish civil and psychiatric national registers in June
56 among cohort members were identified via the
Danish Civil Registration Service and the Danish Cause o
57 ,904) was identified via linkage between the
Danish Civil Registration Service and the Danish Medical
58 Population controls were identified from the
Danish Civil Registration System and individually matche
59 l patient information was extracted from the
Danish Civil Registration System and the Psychiatric Cen
60 e linked nationwide population data from the
Danish Civil Registration System to information about ho
61 ividuals drawn from the population register (
Danish Civil Registration System) who did not have a pos
62 Registry and vital status from the National
Danish Civil Registration System, and cause of death fro
63 All data were obtained from the
Danish Civil Registration System, Psychiatric Central Re
64 udy was established by linking data from the
Danish Civil Registration System, the Danish National Pa
65 the Danish National Patient Registry and the
Danish Civil Registration System.
66 n the occurrence of (236)U in seawater along
Danish coasts, which is the sole water-exchange region b
67 ERMAP UK cohort (n=225) and a healthy-eating
Danish cohort (n=66).
68 in the INTERMAP UK cohort (p<0.0001) and the
Danish cohort (p<0.0001).
69 We screened a
Danish cohort of 243 GTS patients and 1571 control subje
70 In a
Danish cohort of 965 pregnant women established in 1988-
71 study was a retrospective investigation of a
Danish cohort of mCRPC patients who received (223)RaCl2
72 ed 50-64 y, were enrolled in the prospective
Danish cohort study Diet, Cancer and Health between 1993
73 In this
Danish cohort study of patients with atrial fibrillation
74 In the
Danish cohort, we identified eight patients with overlap
75 ort and Long Term Development and Health; in
Danish)
cohort were used to estimate BMI growth curves f
76 was strengthened by including data from the
Danish cohorts (Pinteraction=6.5x10(-7)).
77 in at 1 year from surgery in the Finnish and
Danish cohorts and at 9 months in the Scottish cohort.
78 Recently published data from 2
Danish cohorts suggest that genetic factors may underlie
79 Among 3
Danish cohorts, the BMI associated with the lowest all-c
80 CpGs and replicated them in two independent
Danish cohorts.
81 nucleotide polymorphisms were genotyped in 2
Danish cohorts: inter99 (n=5961) for discovery analyses
82 The Lundbeck Foundation, the
Danish Council for Independent Research, Centre For Inte
83 n, Swedish Society for Medical Research, and
Danish Council for Independent Research.
84 n Epidemiology at Karolinska Institutet, and
Danish Council for Independent Research.
85 dy including all individuals recorded in the
Danish Cytogenetic Central Register with a 22q11.2 delet
86 Using
Danish data resources from 1995-2012, we conducted case-
87 In the combined Icelandic and
Danish data sets we observe significant association of i
88 Patients registered in the
Danish Database for Hepatitis B and C with CHC and a liv
89 By using
Danish databases (1977-2009), we conducted a nationwide
90 Alzheimer's disease (AD) and familial
Danish dementia (FDD) are degenerative neurological dise
91 protein associated with Familial British and
Danish dementias contains a BRICHOS domain, which reduce
92 hern Sweden Health and Disease Study and the
Danish Diet, Cancer and Health cohort.
93 total of 53,113 subjects (50-65 yr) from the
Danish Diet, Cancer, and Health cohort reported physical
94 urring before 2007 and 3,101 noncases in the
Danish Diet, Cancer, and Health Study, we examined assoc
95 se-cohort study nested within the DCH study (
Danish Diet, Cancer, and Health), 3642 participants (47%
96 ng candidate gene, AADAC, identified in this
Danish discovery sample was further investigated in coho
97 nvironmentally optimal use of biomass in the
Danish energy system in 2025.
98 The VitmaD study included 201 healthy
Danish families who were given vitamin D(3)-fortified br
99 lifestyle factors among participants of the
Danish Health Examination Survey (DANHES).
100 Danish Health Insurance Foundation; the Research Council
101 y-matched cohort study, we linked nationwide
Danish health registries to identify all patients with a
102 a population-based, case-control study using
Danish health registries.
103 The
Danish Heart Foundation and the Christian Larsen and Jud
104 Capital Region of Copenhagen,
Danish Heart Foundation, Danish Lung Foundation, Velux F
105 Utilizing the
Danish Historic Birth Cohort and Danish Psychiatric Cent
106 going nationwide population-based study: the
Danish HIV Cohort Study.
107 mpact of TasP, between 1996 and 2013, on the
Danish HIV epidemic in men who have sex with men (MSM),
108 previous analysis based on the data from the
Danish Horizon study, however, showed that four widely u
109 em on BJ-tuberculosis, hospital records, the
Danish Hospital and Civil Registration System.
110 nson's disease (PD) patients identified from
Danish hospital registries and diagnosed 1996-2009 and 1
111 were born during 1989-1999 and admitted to a
Danish hospital with a fracture of the forearm, wrist, s
112 lation-based medical registries covering all
Danish hospitals to identify a cohort of all patients wi
113 National Registry of Patients, covering all
Danish hospitals, was used to identify 10 973 patients w
114 ndomized trial conducted from 2012-2015 at 3
Danish hospitals.
115 ing MUP expression in urine samples from the
Danish hybrid zone border (contact) and from allopatric
116 We included all
Danish individuals >18 years of age with a first-time in
117 The study linked all
Danish individuals aged >/=18 years in nationwide regist
118 All
Danish individuals aged >/=18 years with a hospital (inp
119 In a study population of 35 368
Danish individuals, 5964 patients aged 18 years or older
120 Psychiatric Genomics Consortium (PGC) or the
Danish iPSYCH project.
121 Hence, the lower
Danish life expectancy is caused by these cohorts and is
122 Individual data were drawn from
Danish longitudinal registers.
123 The data were collected from
Danish longitudinal registers.
124 gion of Copenhagen, Danish Heart Foundation,
Danish Lung Foundation, Velux Foundation, AstraZeneca.
125 Methods A total of 1,621 patients from the
Danish Lymphoma Registry who were newly diagnosed with D
126 he Danish Civil Registration Service and the
Danish Medical Birth Register using a unique 10-digit id
127 medical history data were obtained from the
Danish Medical Birth Registry.
128 Using
Danish medical databases, we conducted a nationwide coho
129 Using
Danish medical registries, we conducted a nationwide coh
130 Using
Danish medical registries, we conducted a nationwide pop
131 Onderzoek-Vlaanderen, Parents Organization,
Danish Medical Research Council, Academy of Finland, Deu
132 We used the official national
Danish Melanoma Group database to describe all eligible,
133 cross-sectional data on 1,210 healthy young
Danish men, we investigated whether sedentary lifestyle
134 The study included 5,269
Danish middle-aged or older twins who provided data on t
135 Danish (
n = 525) and Swedish (n = 696) patients with DLB
136 n-level data from the Swedish (n=68 606) and
Danish (
n=95 403) twin registries.
137 ated by gestational diabetes mellitus in the
Danish National Birth Cohort (1996-2002).
138 ohort comprised 77,330 women included in the
Danish National Birth Cohort (1996-2002).
139 hildren and mothers who were enrolled in the
Danish National Birth Cohort during 1996-2002 were inclu
140 ng 83,389 mother-child pairs enrolled in the
Danish National Birth Cohort during 1996-2002, we identi
141 314 children born to mothers enrolled in the
Danish National Birth Cohort during 1996-2002.
142 We linked 75,001 women enrolled in the
Danish National Birth Cohort from 1996 to 2002, who had
143 nancy and 6 months postpartum as part of the
Danish National Birth Cohort study 1996-2002.
144 es mellitus and 626 controls enrolled in the
Danish National Birth Cohort were used for the analysis.
145 Of children from the
Danish National Birth Cohort, 52,950 were included.
146 In the
Danish National Birth Cohort, information on parental an
147 ed 918 mother-singleton child dyads from the
Danish National Birth Cohort.
148 ith data from 96842 children enrolled in the
Danish National Birth Cohort.
149 tios (HRs) of incident T2D registered in the
Danish National Diabetes Registry, according to recreati
150 Danish national health registries have undergone a chang
151 The
Danish National Health Service Register provided informa
152 ased cohort of 118,410 participants from the
Danish National Health Survey 2010 for up to 4 years.
153 nwide population-based cohort study from the
Danish National Hospital Register including 3302 patient
154 ta for study outcomes were obtained from the
Danish National Hospital Registry and the Danish Nationa
155 ases and 301 childhood autism cases from the
Danish National Hospital Registry and the Danish Psychia
156 We used the
Danish National Pathology Registry to identify archived
157 Diabetes was ascertained from the
Danish National Patient Register and Danish National Pre
158 here were 3,650 incident cases of ALS in the
Danish National Patient Register from 1982 to 2009.
159 om the Danish Civil Registration System, the
Danish National Patient Register, and the Danish Nationa
160 g the Western Denmark Heart Registry and the
Danish National Patient Register, we evaluated 4,303 DES
161 des 320-359 and ICD-10 codes G00-G99) in the
Danish National Patient Register.
162 umulative population, 7.1 million) using the
Danish National Patient Registry and the Danish Civil Re
163 ntification numbers were cross-linked to the
Danish National Patient Registry identifying all first-t
164 data with prospective registrations from the
Danish National Patient Registry supplemented with a ret
165 0, and December 31, 2013, used data from the
Danish National Patient Registry that were cross-checked
166 and 4,712 of these men were followed in the
Danish National Patient Registry until first hospitaliza
167 The
Danish National Prescription Registry provided data on p
168 y prescription of an antidepressant from the
Danish National Prescription Registry.
169 he Danish National Patient Register, and the
Danish National Prescription Registry.
170 rom the Danish National Patient Register and
Danish National Prescription Registry.
171 cipal alcohol rehabilitation centers and the
Danish national public health portal.
172 Data were extracted from comprehensive
Danish national registers containing information from bo
173 ion-based cohort study based on longitudinal
Danish national registers with data from the period 1995
174 METHODS AND Linking information from several
Danish national registers, we constructed a cohort of 45
175 Using linkage of
Danish national registers, we constructed a cohort of 67
176 Using
Danish national registers, we followed a cohort of 710 1
177 ducted a population-based cohort study using
Danish national registers.
178 r high) and cancer events were identified in
Danish national registers.
179 ed cohort included 1.7 million children from
Danish national registries in the 35-year period 1977-20
180 t severe mental illness by linking data from
Danish national registries.
181 s population-based cohort study, we obtained
Danish national registry data for all adult patients (>/
182 he Danish National Hospital Registry and the
Danish National Registry of Causes of Death and were car
183 The
Danish National Registry of Patients, covering all Danis
184 Research, German Social Accident Insurance,
Danish National Research Centre for the Working Environm
185 ational Health and Medical Research Council,
Danish National Research Foundation, European AIDS Treat
186 s of academic performance from the 2010-2013
Danish National Tests.
187 oronary artery disease were identified using
Danish nationwide administrative registries.
188 ing, and Participants: This study examined a
Danish nationwide cohort of 5190 men with GCC who entere
189 e further investigated this association in a
Danish nationwide cohort.
190 This is a
Danish nationwide population-based study of 2 cohorts.
191 A
Danish nationwide register study including all individua
192 We studied patients enrolled in a
Danish nationwide register who underwent initial noninva
193 s registry-based cohort study used data from
Danish nationwide registers on all women who gave birth
194 Among atrial fibrillation (AF) patients,
Danish nationwide registries (2011-2015) were used to ex
195 Linkage of 3
Danish nationwide registries in the period between 1997
196 Danish nationwide registries were used to investigate te
197 omorbidity, and outcomes were collected from
Danish nationwide registries.
198 In this
Danish nationwide study to investigate the association b
199 This
Danish nationwide, population-based, nested case-control
200 l dried blood spot samples obtained from the
Danish Neonatal Screening Biobank and genotyped using th
201 entified individuals were retrieved from the
Danish Neonatal Screening Biobank.
202 Data from the
Danish Nephrology Registry and Scandiatransplant were me
203 ipate, could not read or write in English or
Danish,
or had a cognitive disability that would preclud
204 (
Danish Organization on Randomized Trials With Clinical O
205 Based on the model and
Danish out-of-hospital cardiac arrest statistics, an add
206 Danish Breast Cancer Group database and the
Danish Pathology Register.
207 were followed up for hospitalizations in the
Danish Patient Register through December 2010.
208 trauma diagnosis was also obtained from the
Danish Patient Register.
209 xacerbations and pneumonia from the National
Danish Patient Registry and vital status from the Nation
210 tions for ACS (n = 97,793) identified in the
Danish Patient Registry during 2001-2009 and a reference
211 Follow-up for
Danish patients was similar but included routine imaging
212 ndividual-level SES and clinical data on all
Danish patients with AML (2000 to 2014).
213 We followed all
Danish patients with an initial hospital contact with al
214 ression in diagnostic skin biopsies from 154
Danish patients with early-stage MF.
215 We included 74,129
Danish patients with psoriasis who were 18 years or olde
216 This national cohort study included
Danish people born between Jan 1, 1977, and Dec 31, 1997
217 1 087 672
Danish people were included in this study.
218 als were included in the study if they had a
Danish personal identification number, were aged 16 year
219 l information on all prescriptions filled in
Danish pharmacies.
220 SI and SSTI isolates were closely related to
Danish pig isolates.
221 lationship among LA-MRSA CC398 isolates from
Danish pigs and cases of BSI and SSTI.
222 ause mortality in both Italian (HR 2.36) and
Danish population (HR 3.04).
223 ectronic healthcare data covering the entire
Danish population and general practices in the UK Clinic
224 PSYCH2012 sample is nested within the entire
Danish population born between 1981 and 2005, including
225 Nationwide cohort study of the
Danish population from individual-level linkage of admin
226 It is estimated that 3.6% and 13.6% of the
Danish population have undiagnosed type 2 diabetes melli
227 ed cohort study with linked information from
Danish population registers, the authors identified wome
228 A nationwide cohort study of the
Danish population was conducted using individual-level l
229 (iPSYCH) consortium has established a large
Danish population-based Case-Cohort sample (iPSYCH2012)
230 Danish population-based registers and Neonatal Biobanks
231 METHODS AND Through linkage of
Danish population-based registers, we included all resid
232 e conducted a nested case-control study on a
Danish population-based sample born after 1981 comprisin
233 and sex-matched control individuals from the
Danish population.
234 from young men recruited out of the general
Danish population.
235 calendar year, was selected from the general
Danish population.
236 and above, randomly selected in the general
Danish population.
237 ples are closely related to modern Dutch and
Danish populations, while the Iron Age samples share anc
238 s from the National Patient Register and the
Danish Prescription Register.
239 use from 1995 to 2012 were obtained from the
Danish Prescription Registry.
240 ilizing the Danish Historic Birth Cohort and
Danish Psychiatric Central Register, we identified all a
241 Cases were identified using the
Danish Psychiatric Central Register.
242 he Danish National Hospital Registry and the
Danish Psychiatric Central Registry.
243 The
Danish Psychiatric Central Research Register (DPCRR) pro
244 des 290-315 and ICD-10 codes F00-F99) in the
Danish Psychiatric Central Research Register and for dia
245 The
Danish Psychiatric Central Research Register ascertained
246 Utilizing population data from the
Danish Psychiatric Central Research Register from 1995 t
247 certained by psychiatrist diagnosis from the
Danish Psychiatric Central Research Register or by presc
248 people treated for moderate to severe MDD in
Danish psychiatric hospitals do not receive additional M
249 registers, the Danish Twin Register and the
Danish Psychiatric Research Register, we identified a sa
250 We followed the study population through
Danish public registries from the age of 15 years up to
251 Using test data for all children attending
Danish public schools between school years 2009/10 and 2
252 This
Danish register-based study using nationwide data reveal
253 was conducted using data from the nationwide
Danish registers from January 1, 1996, to December 31, 2
254 tland, Denmark, and was linked with National
Danish registers on prescription drugs and hospital diag
255 sons age 50 to 64 years who were followed in
Danish registers until June 2013.
256 tionwide population-based cohort study using
Danish registers was conducted of all patients in Denmar
257 Using data from
Danish registers, we conducted a nationwide prospective
258 etween rosacea and dementia, including AD in
Danish registers.
259 In this issue, a study of
Danish registries by Bruckner et al. correlates monthly
260 de observational cohort study used data from
Danish registries to determine the inverse probability o
261 Clinically driven event detection based on
Danish registries was used.
262 population-based cohort study using national
Danish registries, in the period 1980-2008, our aim was
263 METHODS AND Linking data from
Danish registries, we conducted a nationwide, population
264 Using data from
Danish registries, we followed 21,152 patients diagnosed
265 By individual-level linkage of nationwide
Danish registries, we identified 21 455 patients of work
266 Methods Using
Danish registries, we identified adults diagnosed with a
267 Material and Methods From nationwide
Danish registries, we identified all patients with incid
268 Data were collected from 3 nationwide
Danish registries.
269 matched general population cohort by linking
Danish registries.
270 = 455250 women) used individual-level linked
Danish registry data for mothers who gave birth to an in
271 tion-based nested case-control study of 3650
Danish residents diagnosed as having ALS between January
272 Exactly 48599 of these
Danish residents were discharged from an inpatient psych
273 rediction model, which performed well in the
Danish (
ROC-AUC, 0.739) and Scottish (ROC-AUC, 0.740) co
274 In the
Danish sample, genetic effects account for the majority
275 ollowed by testing of associated variants in
Danish samples.
276 ordic Diet (OPUS) School Meal Study with 765
Danish schoolchildren 8-11 y old.Associations between se
277 sults indicate that (236)U concentrations in
Danish seawater are distributed within a relatively narr
278 (236)U/(238)U atomic ratios in
Danish seawater are more than 4 times higher than the es
279 g plants are dominating sources of (236)U in
Danish seawater.
280 In a population-based cohort of 388,422
Danish singleton boys born alive (1997-2008), we studied
281 We included all 924 422 liveborn
Danish singletons, 1997 to 2011.
282 ide cohort, we included all 924 422 liveborn
Danish singletons, 1997 to 2011.
283 Three medieval to early modern
Danish skeletal samples are used to estimate the effect
284 weight <1000 g, known immunodeficiency or no
Danish-
speaking parent.
285 s than 1000 g, known immunodeficiency, or no
Danish-
speaking parent.
286 The
DANISH study (Danish Study to Assess the Efficacy of ICD
287 Results from the
DANISH Study (Danish Study to Assess the Efficacy of ICD
288 (
DANish Study of Optimal Acute Treatment of Patients With
289 tion was deferred, the DANAMI-3-DEFER (Third
DANish Study of Optimal Acute Treatment of Patients With
290 The DANISH study (
Danish Study to Assess the Efficacy of ICDs [Implantable
291 Results from the DANISH Study (
Danish Study to Assess the Efficacy of ICDs in Patients
292 All 1116 patients from the
DANISH study were included in this prespecified subgroup
293 cohort of 5190 men with GCC who entered the
Danish Testicular Cancer database between January 1, 198
294 Combining two nationwide registers, the
Danish Twin Register and the Danish Psychiatric Research
295 , population-based twin study included 34781
Danish twins, 20 to 71 years of age.
296 pulations using a population-based cohort of
Danish twins.
297 tre, double-blind, randomised trial in seven
Danish university clinics, we recruited children and ado
298 from Austria compared to British, French and
Danish varieties.
299 When we assumed that
Danish women born 1915-1945 had the same survival probab
300 Among
Danish women, underweight and obesity were associated wi