Marko Dubicanac scite author profile

Background. Opacities of the lens are typical age-related phenomena which have a high influence on photoreception and consequently circadian rhythm. In mouse lemurs, a small bodied non-human primate, a high incidence (more than 50% when >seven years) of cataracts has been previously described during aging. Previous studies showed that photoperiodically induced accelerated annual rhythms alter some of mouse lemurs' life history traits. Whether a modification of photoperiod also affects the onset of age dependent lens opacities has not been investigated so far. The aim of this study was therefore to characterise the type of opacity and the mouse lemurs' age at its onset in two colonies with different photoperiodic regimen. Methods. Two of the largest mouse lemur colonies in Europe were investigated: Colony 1 having a natural annual photoperiodic regime and Colony 2 with an induced accelerated annual cycle. A slit-lamp was used to determine opacities in the lens. Furthermore, a subset of all animals which showed no opacities in the lens nucleus in the first examination but developed first changes in the following examination were further examined to estimate the age at onset of opacities. In total, 387 animals were examined and 57 represented the subset for age at onset estimation. Results . The first and most commonly observable opacity in the lens was nuclear sclerosis. Mouse lemurs from Colony 1 showed a delayed onset of nuclear sclerosis compared to mouse lemurs from Colony 2 (4.35 ± 1.50 years vs. 2.75 ± 0.99 years). For colony 1, the chronological age was equivalent to the number of seasonal cycles experienced by the mouse lemurs. For colony 2, in which seasonal cycles were accelerated by a factor of 1.5, mouse lemurs had experienced 4.13 ± 1.50 seasonal cycles in 2.75 ± 0.99 chronological years. Discussion. Our study showed clear differences in age at the onset of nuclear sclerosis formation between lemurs kept under different photoperiodic regimes. Instead of measuring the chronological age, the number of seasonal cycles (N = four) experienced by a mouse lemur can be used to estimate the risk of beginning nuclear sclerosis formation. Ophthalmological examinations should be taken into account when animals older than 5-6 seasonal cycles are used for experiments in which unrestricted visual ability has to be ensured. This study is the first to assess and demonstrate the influence of annual photoperiod regime on the incidence of lens opacities in a non-human primate.

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Clinical Development of Sphingosine as Anti-Bacterial Drug: Inhalation of Sphingosine in Mini Pigs has no Adverse Side Effects

Carstens

Schumacher

Keitsch

et al. 2019

Cell Physiol Biochem

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Photoperiodic regime influences onset of lens opacities in a non-human primate

Dubicanac

Strueve

Mestre‐Francés

et al. 2017

Preprint

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Background. Opacities of the lens are typical age related phenomena which have high influence on photoreception and consequently circadian rhythm. In mouse lemurs, a small bodied non-human primate, a high incidence (more than 50% when > 7 years) of cataract has been previously described during aging. Previous studies showed that photoperiodical induced accelerated annual rhythms alter some of mouse lemurs' life history traits.Whether a modification of photoperiod also affects the onset of age dependent lens opacities has not been investigated so far. The aim of this study was therefore to characterize the type of opacity and the mouse lemurs' age at its onset in two colonies with different photoperiodic regimen. Methods. Two of the largest mouse lemur colonies in Europe have been investigated; Colony 1 with a natural annual photoperiodic regime and Colony 2 with an induced accelerated annual cycle. A Slit-lamp was used to determine opacities in the lens and a subset of all animals which showed no opacities in the lens nucleus in the first examination but developed first changes in the following examination were further used to estimate the age at onset of opacities. In total 387 animals were examined and 57 represent the subset for age at onset estimation. Results. The first and most common observable opacity in the lens was nuclear sclerosis. Mouse lemurs from Colony 1 showed a delayed onset of nuclear sclerosis compared to mouse lemurs of Colony 2 (4.35 ± 1.50 years vs. 2.75 ± 0.99 years). For colony 1, the chronological age was equivalent to the number of seasonal cycles experienced by the mouse lemurs. For colony 2, in which seasonal cycles are accelerated by factor 1.5, mouse lemurs had experienced 4.13 ± 1.50 seasonal cycles in 2.75 ± 0.99 chronological years. Discussion.Our study showed clear differences in the age at the onset of nuclear sclerosis formation can be used as an estimation for risk of beginning NS formation. Ophthalmological investigations should be taken into account when animals older than 5 -6 seasonal cycles are used for experiments in which unrestricted visual ability has to be ensured. This study is the first to assess and demonstrate the influence of annual photoperiod regime on the incidence of lens opacities in a non-human primate. Photoperiodic regime influences onset of lens opacities in a non-human primate

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Spontaneous listeriosis in grey mouse lemurs (Microcebus murinus), but not in Goodman’s mouse lemurs (Microcebus lehilahytsara) of the same colony

Hülskötter¹,

Schmidtke²,

Dubicanac³

et al. 2017

Veterinary Microbiology

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Marko Dubicanac

Intraocular pressure in the smallest primate aging model: the gray mouse lemur

Photoperiodic regime influences onset of lens opacities in a non-human primate

Clinical Development of Sphingosine as Anti-Bacterial Drug: Inhalation of Sphingosine in Mini Pigs has no Adverse Side Effects

Photoperiodic regime influences onset of lens opacities in a non-human primate

Spontaneous listeriosis in grey mouse lemurs (Microcebus murinus), but not in Goodman’s mouse lemurs (Microcebus lehilahytsara) of the same colony

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