1. Urinary C-peptide of insulin as a non-invasive marker of nutritional status: some practicalities
- Author
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James P. Higham, Michael Heistermann, Antje Engelhardt, Cédric Girard-Buttoz, and Halsey, Lewis George
- Subjects
0106 biological sciences ,Male ,Pathology ,Time Factors ,Anatomy and Physiology ,medicine.medical_treatment ,Ecophysiology ,lcsh:Medicine ,Urine ,Urinary ,C-Peptide ,Insulin ,Non-Invasive ,Marker ,Nutritional ,Status ,Social and Behavioral Sciences ,01 natural sciences ,Freeze-drying ,chemistry.chemical_compound ,Behavioral Ecology ,Integrative Physiology ,Freezing ,Food science ,lcsh:Science ,Physiological Ecology ,2. Zero hunger ,Urine Specimen Collection ,Multidisciplinary ,medicine.diagnostic_test ,Ecology ,Animal Behavior ,C-peptide ,05 social sciences ,Contamination ,Biological Anthropology ,Mammalogy ,Creatinine ,Female ,Physical Anthropology ,Research Article ,Paper ,medicine.medical_specialty ,Urinalysis ,Nutritional Status ,Endocrine System ,Biology ,010603 evolutionary biology ,medicine ,Animals ,Animal Physiology ,0501 psychology and cognitive sciences ,050102 behavioral science & comparative psychology ,Terrestrial Ecology ,Evolutionary Biology ,Endocrine Physiology ,Ice ,lcsh:R ,Macaca mulatta ,QP ,Macaca fascicularis ,Freeze Drying ,chemistry ,Animal ecology ,Evolutionary Ecology ,Anthropology ,lcsh:Q ,Physiological Processes ,Energy Metabolism ,Zoology ,Biomarkers ,Filtration - Abstract
Nutritional status is a critical element of many aspects of animal ecology, but has proven difficult to measure non-invasively in studies of free-ranging animals. Urinary C-peptide of insulin (UCP), a small polypeptide cleaved in an equimolar ratio from proinsulin when the body converts it to insulin, offers great promise in this regard, and recent studies of several non-human primate species have utilized it with encouraging results. Despite this, there are a number of unresolved issues related to the collection, processing, storage and transport of samples. These include: contamination of samples on collection (most commonly by dirt or faeces), short-term storage before returning to a field station, differences in processing and long-term storage methods (blotting onto filter paper, freezing, lyophilizing), and for frozen samples, transportation while keeping samples frozen. Such issues have been investigated for urine samples in particular with respect to their effects on steroid hormone metabolites, but there has been little investigation of their effects on UCP measurement. We collected samples from captive macaques, and undertook a series of experiments where we systematically manipulated samples and tested the effects on subsequent UCP measurements. We show that contamination of urine samples by faeces led to a decrease in UCP levels by .90%, but that contamination with dirt did not have substantial effects. Short-term storage (up to 12 hours) of samples on ice did not affect UCP levels significantly, but medium-term storage (up to 78 hours) did. Freezing and lyophilization for long-term storage did not affect UCP levels, but blotting onto filter paper did. A transportation simulation showed that transporting frozen samples packed in ice and insulated should be acceptable, but only if it can be completed within a period of a few days and if freeze-thaw can be avoided. We use our data to make practical recommendations for fieldworkers. peerReviewed