Sandiren Naiken scite author profile

The cynomolgus monkey is widely used in reproductive research. However, the effects on their reproductive parameters of infant and maternal factors such as birth order, sex of infants, twin births, maternal age and lactation status have not been fully examined. The aim of this retrospective study was to determine how such infant and maternal factors impact on infant birth weight, birth viability, neonatal loss and retained placenta in cynomolgus monkeys. The study was based on birth data from a cohort of 789 females over an eight-year period. Consistent with reports made in other macaque species, female offspring had lower birth weight compared with males. Birth weights of firstborn infants were lower compared with birth weights of higher birth order infants. Results from the logistic regression analysis showed that the risk of non-viable births was increased by advancing maternal age and retained placenta. As in other non-human primates, maternal age had predictive value for non-viable births in cynomolgus monkeys. The risk of neonatal loss decreased with advancing maternal age but was not affected by birth order. Firstborn offspring did not have an increased risk for neonatal loss, possibly from the practice of retaining mothers in their natal groups, which improved maternal skills in primiparous females. However, infant low birth weight and non-lactating females increased the risk of neonatal loss, and the delivery of low birth weight infants was associated with retained placenta. The results from this study can be useful for scientists conducting reproductive studies and for colony managers in maximizing fertility and infant survival of cynomolgus monkeys.

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Reference intervals for biochemical and haematological analytes of juvenile captive‐bred long‐tailed macaques (Macaca fascicularis) from Mauritius with examination of the effects of individual characteristics using principal component analysis

Naiken

Griffiths

Hurdial

et al. 2016

J of Medical Primatology

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Selective breeding of primates for use in research: consequences and challenges

Stanley-Griffiths¹,

Narainapoulle²,

Naiken³

et al. 2010

Anim. welf.

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Primates are bred in captivity for a number of purposes, from zoo-based captive breeding programmes for conservation to breeding for biomedical research. In each case, breeding animals that are fit for purpose, either as viable candidates for reintroduction or as valid research models, has presented challenges and resulted in steep learning curves. The breeding of animals for biomedical research has become increasingly focused on the production of animals that are less stressed by captive (specifically laboratory) environments. This is because elevated, particularly chronic, stress responses can result in altered physiological, neurological and behavioural states that have the potential to compromise the validity of scientific results. Selective breeding in captivity to, for example, maximise production, select for docile temperament or specific genotypes for biomedical research, is likely to be counter to natural selective pressures for evolutionary fitness. Given that many natural selective pressures active in the wild are absent in captivity, this paper reviews the selective breeding of primates (especially Old World monkeys) in captivity, its potential negative effects, and options that exist for ameliorating these negative effects.

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Sandiren Naiken

Laboratory macaques: When to wean?

Factors influencing reproduction in captive‐bred cynomolgus monkeys (Macaca fascicularis) from Mauritius

Reference intervals for biochemical and haematological analytes of juvenile captive‐bred long‐tailed macaques (Macaca fascicularis) from Mauritius with examination of the effects of individual characteristics using principal component analysis

Selective breeding of primates for use in research: consequences and challenges

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