James H Nichols

Overview

Explore the profile of James H Nichols including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 72

Citations 665

Followers 0

Related Specialties

Biochemistry

Endocrinology

Pathology

Top 10 Co-Authors

David C Klonoff

Guido Freckmann

Jane Jeffrie Seley

Joesph R Wiencek

Konstantinos Makris

Rolf Hinzmann

Stefan Pleus

Robbert J Slingerland

Timothy S Bailey

Jennifer M Colby

Published In

J Appl Lab Med

J Diabetes Sci Technol

Clin Chem

Diabetes Technol Ther

Clin Chim Acta

Affiliations

Soon will be listed here.

Recent Articles

Integrating Patient-Generated Health Data from Mobile Devices into Electronic Health Records: Best Practice Recommendations by the IFCC Committee on Mobile Health and Bioengineering in Laboratory Medicine (C-MHBLM)

Nichols J, Assad R, Becker J, Dabla P, Gammie A, Gouget B, et al.

EJIFCC . 2025 Jan; 35(4):324-328. PMID: 39810897

Background: An increasing number of wearable medical devices are being used for personal monitoring and professional health care purposes. These mobile health devices collect a variety of biometric and health...

The Need for Standardization of Continuous Glucose Monitoring Performance Evaluation: An Opinion by the International Federation of Clinical Chemistry and Laboratory Medicine Working Group on Continuous Glucose Monitoring

Pleus S, Eichenlaub M, Eriksson Boija E, Fokkert M, Hinzmann R, Jendle J, et al.

J Diabetes Sci Technol . 2024 Nov; :19322968241296097. PMID: 39540398

Metrics derived from continuous glucose monitoring (CGM) systems are often discordant between systems. A major cause is that CGM systems are not standardized; they use various algorithms and calibration methods,...

The Diabetes Technology Society Error Grid and Trend Accuracy Matrix for Glucose Monitors

Klonoff D, Freckmann G, Pleus S, Kovatchev B, Kerr D, Tse C, et al.

J Diabetes Sci Technol . 2024 Oct; 18(6):1346-1361. PMID: 39369312

Introduction: An error grid compares measured versus reference glucose concentrations to assign clinical risk values to observed errors. Widely used error grids for blood glucose monitors (BGMs) have limited value...

Novel In-Line Hemolysis Detection on a Blood Gas Analyzer and Impact on Whole Blood Potassium Results

Balasubramanian S, McDowell E, Laryea E, Blankenstein G, Pamidi P, Winkler A, et al.

Clin Chem . 2024 Sep; 70(12):1485-1493. PMID: 39293997

Background: Preanalytical error due to hemolyzed blood samples is a common challenge in laboratory and point-of-care (POC) settings. Whole blood potassium (K+) measurements routinely measured on blood gas analyzers are...

Point-of-care testing: state-of-the art and perspectives

Plebani M, Nichols J, Luppa P, Greene D, Sciacovelli L, Shaw J, et al.

Clin Chem Lab Med . 2024 Jun; 63(1):35-51. PMID: 38880779

Point-of-care testing (POCT) is becoming an increasingly popular way to perform laboratory tests closer to the patient. This option has several recognized advantages, such as accessibility, portability, speed, convenience, ease...

Evaluation of a Rapid Drug Test Device for Urine Fentanyl Compared to Mass Spectrometry and 2 Urine Fentanyl Assays

Laryea E, Nichols J

J Appl Lab Med . 2024 Jun; 9(5):1020-1024. PMID: 38869381

Background: A new Rapid Drug Test Device (RDTD) is available for analysis of urine fentanyl. With the rise in fentanyl abuse in the United States, we evaluated the analytical performance...

Validation and verification framework and data integration of biosensors and diagnostic devices: a position statement of the IFCC Committee on Mobile Health and Bioengineering in Laboratory Medicine (C-MBHLM) and the IFCC Scientific Division

Gruson D, Cobbaert C, Dabla P, Stankovic S, Homsak E, Kotani K, et al.

Clin Chem Lab Med . 2024 Feb; 62(10):1904-1917. PMID: 38379410

Advances in technology have transformed healthcare and laboratory medicine. Biosensors have emerged as a promising technology in healthcare, providing a way to monitor human physiological parameters in a continuous, real-time,...

Comparator Data Characteristics and Testing Procedures for the Clinical Performance Evaluation of Continuous Glucose Monitoring Systems

Eichenlaub M, Pleus S, Rothenbuhler M, Bailey T, Bally L, Brazg R, et al.

Diabetes Technol Ther . 2024 Jan; 26(4):263-275. PMID: 38194227

Comparing the performance of different continuous glucose monitoring (CGM) systems is challenging due to the lack of comprehensive guidelines for clinical study design. In particular, the absence of concise requirements...

Implementing Individualized quality control plans and managing risk at the point-of-care for molecular diagnostics

Laryea E, Nichols J

Expert Rev Mol Diagn . 2023 Oct; 24(11):971-977. PMID: 37897396

Introduction: Faster turnaround times can lead to rapid patient treatment. Implementing a point-of-care (POC) molecular COVID-19 test requires careful planning. In the POC setting, there are numerous operators and regular...

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Reliability of Handheld Blood Glucose Monitors in Neonates: Trustworthy Arterial Readings but Capillary Results Warrant Caution for Hypoglycemia

Brooks D, Slaughter J, Nichols J, Gregory J

J Diabetes Sci Technol . 2023 Oct; :19322968231207861. PMID: 37864354

Background: Accurate glucose monitoring is vitally important in neonatal intensive care units (NICUs) and clinicians use blood glucose monitors (BGM), such as the Inform II, for bedside glucose monitoring. Studies...