Telomere length analysis from minimally‐invasively collected samples: Methods development and meta‐analysis of the validity of different sampling techniques

Rej, Peter H; Bondy, Madison H.; Lin, Jue; Prather, Aric A.; Kohrt, Brandon A.; Worthman, Carol M.; Eisenberg, Dan T. A.

doi:10.1002/ajhb.23410

Cited by 15 publications

(7 citation statements)

References 88 publications

(119 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Some researchers have described evidence of stress‐related acceleration in processes associated with aging at the chromosomal and epigenetic level. For example, methods are now available for reliable extraction from DBS of DNA suitable for measuring telomere length (Rej et al, 2021 ). Telomeres shorten with age, leading to elevated risk of poor health, but there also is evidence that they shorten more rapidly in light of chronic stress; for example, among African American adults in Florida experiencing greater racial discrimination (Rej et al, 2020 ).…”

Section: Future Directions and Conclusionmentioning

confidence: 99%

“…Exploring all possible methods and their contingencies is far beyond the scope of any single article, although excellent resources are available (e.g., Brewis et al, 2021 ; Ice & James, 2007 ). Some promising new methods are included here only by brief reference, such as the conserved transcriptional response to adversity (Cole, 2019 ; Snodgrass et al, 2018 ), telomere length (Rej et al, 2021 ; Rej et al, 2020 ), and epigenetic aging (Gettler et al, 2020 ; Palma‐Gudiel et al, 2020 ). Our focus will be on a subset of methods that are (1) currently accessible to the broadest possible range of human biologists working in a variety of field contexts; (2) minimally invasive; and (3) sufficiently well‐established to provide for a discussion of strengths, weaknesses, and ecological contingencies when working across diverse human populations.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Applying minimally invasive biomarkers of chronic stress across complex ecological contexts

DeCaro

Helfrecht

2022

American J Hum Biol

View full text Add to dashboard Cite

Chronic stress is both theoretically and methodologically challenging to operationalize through biomarkers. Yet minimally invasive, field-friendly biomarkers of chronic stress are valuable in research linking biology and culture, seeking to understand differential patterns of human development across ecological contexts, and exploring the evolution of human sociality. For human biologists, a central question in measurement and interpretation of biomarkers is how stress-responsive physiological systems are regulated across diverse human ecologies. This article aims to describe a conditional toolkit for human biologists interested in the study of chronic stress, highlighting a mix of longstanding and novel biomarkers, with special focus on hair/fingernail cortisol, latent herpesvirus antibodies, allostatic load indices, and serial/ambulatory data collection approaches. Future trends in chronic stress biomarker research, including epigenetic approaches, are briefly considered. This overview considers: (1) challenges in separating a distinctly psychosocial dimension of chronic stress from adversity more broadly; (2) essential characteristics of human ecology that shape interpretation; (3) retrospective vs. longitudinal sampling; (4) the role of age, developmental effects, and local biologies; (5) different timescales of chronicity; and (6) the role of culture.

show abstract

Section: Future Directions and Conclusionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Applying minimally invasive biomarkers of chronic stress across complex ecological contexts

DeCaro

Helfrecht

2022

American J Hum Biol

View full text Add to dashboard Cite

show abstract

“…This can pose a major logistical problem for observational studies of population health and aging inequity, which require diverse samples that include the most marginalized members of society [21]. Increasingly, investigators examining TL in large, population-based studies have turned to measurement of telomere length in DNA derived from saliva or buccal swabs [22][23][24][25][26] and some researchers have begun to include telomere data drawn from finger-prick dried blood spots (DBS) [27][28][29]. These approaches are seen as minimally invasive, scalable, and less expensive alternatives to venous blood that could be used widely in social epidemiologic and population health studies, including in hard-to-reach populations.…”

Section: Introductionmentioning

confidence: 99%

Coming up short: Comparing venous blood, dried blood spots & saliva samples for measuring telomere length in health equity research

et al. 2021

View full text Add to dashboard Cite

Background Telomere length (TL) in peripheral blood mononuclear cells (PBMC) from fresh venous blood is increasingly used to estimate molecular impacts of accumulated social adversity on population health. Sometimes, TL extracted from saliva or dried blood spots (DBS) are substituted as less invasive and more scalable specimen collection methods; yet, are they interchangeable with fresh blood? Studies find TL is correlated across tissues, but have not addressed the critical question for social epidemiological applications: Do different specimen types show the same association between TL and social constructs? Methods We integrate expertise in social epidemiology, molecular biology, and the statistical impact of measurement error on parameter estimates. Recruiting a diverse sample of 132 Metro-Detroit women, we measure TL for each woman from fresh blood PBMC, DBS, and saliva. Using regression methods, we estimate associations between social characteristics and TL, comparing estimates across specimen types for each woman. Results Associations between TL and social characteristics vary by specimen type collected from the same woman, sometimes qualitatively altering estimates of the magnitude or direction of a theorized relationship. Being Black is associated with shorter TL in PBMC, but longer TL in saliva or DBS. Education is positively associated with TL in fresh blood, but negatively associated with TL using DBS. Conclusion Findings raise concerns about the use of TL measures derived from different tissues in social epidemiological research. Investigators need to consider the possibility that associations between social variables and TL may be systematically related to specimen type, rather than be valid indicators of socially-patterned biopsychosocial processes.

show abstract

“…Furthermore, the impact of infectious processes on the false-positive rates of many cancer biomarker diagnostics can be investigated by measuring these biomarkers in minimally invasively collected sample types. Validated venous blood biomarkers can also potentially be adapted for use in minimally invasively collected sample types like DBS, which has been extensively used with immune, hormonal, and other biomarkers of physiology and health (Eick et al, 2016(Eick et al, , 2017(Eick et al, , 2019(Eick et al, , 2020McDade et al, 2007McDade et al, , 2012McDade & Shell-Duncan, 2002;Rej et al, 2021). However, more basic research is needed to develop cancer biomarkers that can be measured in minimally invasively collected sample types and to ascertain which technological platform can be used for optimal quantitation and cost-effectiveness.…”

Section: Biomarker Developmentmentioning

confidence: 99%

“…Medical research has thoroughly examined many molecules that are suitable for the detection of cancer at a population level, despite presently being of limited use in clinical settings due to more stringent requirements for sensitivity and specificity. Uniting oncology with human biology, which is a leader in the development of minimally invasive techniques for population-based studies (Eick et al, 2016(Eick et al, , 2017(Eick et al, , 2019(Eick et al, , 2020Gildner, 2021;McDade, 2014;McDade et al, 2007McDade et al, , 2020Rej et al, 2021;Valeggia, 2007), provides an opportunity to apply well-researched methods to a field that has recognized the need for greater biomarker sampling and less invasive techniques.…”

Section: Introductionmentioning

confidence: 99%

Current and future applications of biomarkers in samples collected through minimally invasive methods for cancer medicine and population‐based research

DeLouize

Eick

Karam

et al. 2021

American J Hum Biol

View full text Add to dashboard Cite

Despite advances in cancer medicine and research, invasive and potentially risky procedures such as biopsies, venous blood tests, imaging, colonoscopy, and pap smear tests are still primarily used for screening, staging, and assessing response to therapy. The development and interdisciplinary use of biomarkers from urine, feces, saliva, scent, and capillary blood collected with minimally invasive methods represents a potential opportunity for integration with biomarker analysis for cancers, both in clinical practice (e.g., in screening, treatment, and disease monitoring, and improved quality of life for patients) and population-based research (e.g., in epidemiology/public health, studies of social and environmental determinants, and evolutionary medicine). In this article, we review the scientific rationale, benefits, challenges, and potential opportunities for measuring cancer-related biomarkers in samples collected through minimally invasive methods.

show abstract

Telomere length analysis from minimally‐invasively collected samples: Methods development and meta‐analysis of the validity of different sampling techniques

Cited by 15 publications

References 88 publications

Applying minimally invasive biomarkers of chronic stress across complex ecological contexts

Applying minimally invasive biomarkers of chronic stress across complex ecological contexts

Coming up short: Comparing venous blood, dried blood spots & saliva samples for measuring telomere length in health equity research

Current and future applications of biomarkers in samples collected through minimally invasive methods for cancer medicine and population‐based research

Contact Info

Product

Resources

About