Roan Pijnacker
Overview
Explore the profile of Roan Pijnacker including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
40
Citations
341
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Gonzalez Villeta L, Gonzalez-Villeta L, Chaname Pinedo L, Chamane Pinedo L, Chamane-Pinedo L, Cook A, et al.
J Infect
. 2025 Jan;
90(2):106410.
PMID: 39824293
Objectives: This study aimed to improve the understanding of seasonal incidence pattern observed in salmonellosis by identifying the most influential weather factors, characterising the nature of this association, and assessing...
2.
Deng H, Chaname Pinedo L, Meijs A, Sanders P, Veldman K, Brouwer M, et al.
Epidemiol Infect
. 2024 Nov;
152:e148.
PMID: 39601656
Reducing antimicrobial use (AMU) in livestock may be one of the keys to limit the emergence of antimicrobial resistance (AMR) in bacterial populations, including zoonotic pathogens. This study assessed the...
3.
Lazarakou A, Mughini-Gras L, Pijnacker R
Foodborne Pathog Dis
. 2024 Nov;
PMID: 39588900
During the COVID-19 pandemic, nonpharmaceutical public health interventions (NPIs) were implemented worldwide to control the spread of severe acute respiratory syndrome coronavirus 2. However, the incidence of other pathogens, including...
4.
Pijnacker R, Mughini-Gras L, Verhoef L, van den Beld M, Franz E, Friesema I
Epidemiol Infect
. 2024 Oct;
152:e130.
PMID: 39434376
The COVID-19 pandemic impacted the transmission of many pathogens. The aim was to determine the effect of non-pharmaceutical interventions on the incidence of diseases transmitted via food. Weekly incidence rates...
5.
Teunis G, Lanzl M, Veldman K, Pijnacker R, Landman F, Bos J, et al.
J Glob Antimicrob Resist
. 2024 Oct;
39:196-198.
PMID: 39419441
No abstract available.
6.
Boverhoff D, Kool J, Pijnacker R, Ducarmon Q, Zeller G, Shetty S, et al.
Cell Rep
. 2024 Sep;
43(9):114729.
PMID: 39264809
Defining what constitutes a healthy microbiome throughout our lives remains an ongoing challenge. Understanding to what extent host and environmental factors can influence it has been the primary motivation for...
7.
Odendaal M, de Steenhuijsen Piters W, Franz E, Chu M, Groot J, van Logchem E, et al.
Cell
. 2024 Aug;
187(17):4571-4585.e15.
PMID: 39094567
Our understanding of the normal variation in the upper respiratory tract (URT) microbiota across the human lifespan and how these relate to host, environment, and health is limited. We studied...
8.
Meijs A, Chaname-Pinedo L, Deng H, Veldman K, Brouwer M, van den Beld M, et al.
J Antimicrob Chemother
. 2024 Aug;
79(10):2622-2632.
PMID: 39092984
Background: In the last decade, veterinary antimicrobial usage (AMU) and antimicrobial resistance (AMR) among indicator bacteria in livestock have decreased substantially in the Netherlands. The extent to which this decrease...
9.
Mulder A, Mughini-Gras L, van de Kassteele J, Blanken S, Pijnacker R, Franz E
Zoonoses Public Health
. 2024 Jul;
71(8):876-899.
PMID: 39048120
Aims: Most human infections with non-typhoid Salmonella (NTS) or Campylobacter are zoonotic in nature and acquired though consumption of contaminated food of mainly animal origin. However, individuals may also acquire...
10.
Chaname Pinedo L, Meijs A, Deng H, De Greeff S, van Duijkeren E, Dierikx C, et al.
One Health
. 2024 Jul;
19:100844.
PMID: 39021559
Background: Antimicrobial use (AMU) in livestock contributes to antimicrobial resistance (AMR) among zoonotic pathogens, such as non-typhoid (NTS). Since 2009, the Netherlands has made substantial efforts to reduce AMU in...