Allyson G. Hindle

Muscle Senescence in Short-Lived Wild Mammals, the Soricine Shrews Blarina brevicauda and Sorex palustris

Red-toothed (soricine) shrews are consummate predators exhibiting the highest energy turnovers and shortest life spans (ca. 18 months) of any mammal, yet virtually nothing is known regarding their physiological aging. We assessed the emerging pattern of skeletal muscle senescence (contractile/connective tissue components) in sympatric species, the semi-aquatic water shrew (WS), Sorex palustris, and the terrestrial short-tailed shrew (STS), Blarina brevicauda, to determine if muscle aging occurs in wild, short-lived mammals (H(0): shrews do not survive to an age where senescence occurs), and if so, whether these alterations are species-specific. Gracilis muscles were collected from first-year (n=17) and second-year (n=17) field-caught shrews. Consistent with typical mammalian aging, collagen content (% area) increased with age in both species (S. palustris: approximately 50%; B. brevicauda: approximately 60%). Muscle was dominated by stiffer Type I collagen, and the ratio of collagen Type I:Type III more than doubled with age. The area ratio of muscle:collagen decreased with age in both species, but was considerably lower in adult STS, suggesting species-specificity of senescence. Extracellular space was age-elevated in B. brevicauda, but was preserved in S. palustris ( approximately 50 vs. 10% elevation). Though juvenile interspecific comparisons revealed no significance, adult WS myocytes had 68% larger cross-sectional area and occurred at 28% lower fibers/area than those of adult STS. We demonstrate that age-related muscle senescence does occur in wild-caught, short-lived mammals, and we therefore reject this classic aging theory tenet. Our findings moreover illustrate that differential age adjustments in contractile/connective tissue components of muscle occur in the two species of wild-caught shrews.

Muscle aging and oxidative stress in wild-caught shrews

Red-toothed shrews (Soricidae, subfamily Soricinae) are an intriguing model system to examine the free-radical theory of aging in wild mammals, given their short (<18months) lifespan and high mass-specific metabolic rates. As muscle performance underlies both foraging ability and predator avoidance, any age-related decline should be detrimental to fitness and survival. Muscle samples of water shrews (Sorex palustris) and sympatrically distributed short-tailed shrews (Blarina brevicauda) were therefore assessed for oxidative stress markers, protective antioxidant enzymes and apoptosis. Activity levels of catalase and glutathione peroxidase increased with age in both species. Similarly, Cu,Zn-superoxide dismutase isoform content was elevated significantly in older animals of both species (increases of 60% in the water shrew, 25% in the short-tailed shrew). Only one oxidative stress marker (lipid peroxidation) was age-elevated; the others were stable or declined (4-hydroxynonenal adducts and dihydroethidium oxidation). Glutathione peroxidase activity was significantly higher in the short-tailed shrew, while catalase activity was 2x higher in water shrews. Oxidative stress indicators were on average higher in short-tailed shrews. Apoptosis occurred in <1% of myocytes examined, and did not increase with age. Within the constraints of the sample size we found evidence of protection against elevated oxidative stress in wild-caught shrews.

Health and condition in the adult Weddell seal of McMurdo Sound, Antarctica.

Weddell seals (Leptonychotes weddellii) are large-bodied, long-lived mammals that live only in the circumpolar Antarctic. As such, they represent an ideal sentinel species for the impacts of environmental change on polar species. However, longitudinal physiological studies of marine mammals are notoriously difficult due to their largely aquatic lifestyle, such that many baseline indicators of health and condition are not well defined. Fifty known-age, adult seals (9-27 years, 24 males, 26 females) in McMurdo Sound were sampled for mass, total body fat, blubber depth and a suite of blood parameters (21 variables) to assess hydration state, nutritional plane, reproductive hormones (females only), organ function and immune status. Total body mass increased with age, whereas variation in blubber depth was best described by mass and/or sex, with an overall greater blubber thickness in female seals (p<0.001). Ten blood parameters showed a significant effect of one or more model variables, most prominently between the sexes. Serum chemistry suggested that females were better nourished and displayed lower indicators of acute stress compared to males. We noted limited age-related declines that might indicate impaired organ function. Overall, seals demonstrated clinically normal values for large mammals, even at the upper end of the age continuum. Future physiological studies in this species are strongly encouraged to incorporate potential sex effects in experimental design and analysis.

Chemical immobilization of Weddell seals (Leptonychotes weddellii) by ketamine/midazolam combination.

OBJECTIVE To provide reliable, effective immobilization for Weddell seals under extreme field conditions using an injectable ketamine/midazolam combination. STUDY DESIGN Observational study. ANIMALS Thirty adult Weddell seals (12 male, 18 female) in Erebus Bay, Antarctica, body mass (mean ± SD) 412 ± 47 kg, aged 9-27 years. METHODS Seals were immobilized with a target dose of 2 mg kg-1 ketamine hydrochloride and 0.1 mg kg-1 midazolam hydrochloride (IM), based on visually estimated body mass. When required, maintenance doses were administered at a target of 0.5 mg kg-1 ketamine hydrochloride and 0.025 mg kg-1 midazolam hydrochloride (IV). RESULTS Complete immobilization was achieved in 33 of 40 injections (14 of which were repeat events on the same individual). Time to immobilization averaged 12 ± 4 minutes, with a duration of initial immobility of 38 ± 19 minutes. Total immobilization time varied by handling protocol, including condition assessment and muscle biopsy (Protocol 1, 60 ± 13 minutes), condition assessment and instrument attachment (Protocol 2, 154 ± 13 minutes), and condition assessment, muscle biopsy and instrument retrieval (Protocol 3, 48 ± 8 minutes). Overall, a total immobilization time of 114 ± 60 minutes was accomplished with 4 ± 4 maintenance doses, and an average recovery time of 36 ± 17 minutes. Most effects of the anesthetic combination were unrelated to mass, age, sex or total body fat. However, leaner seals had longer duration of initial immobility (% and kg total body fat) and recovery times (kg fat). Apnea events were uncommon and treated effectively with doxapram. No animals died. CONCLUSIONS AND CLINICAL RELEVANCE Reliable and effective field immobilization of Weddell seals was accomplished with a low dose of ketamine hydrochloride and midazolam hydrochloride, utilizing IM injection initially and IV maintenance methods.OBJECTIVE To provide reliable, effective immobilization for Weddell seals under extreme field conditions using an injectable ketamine/midazolam combination. STUDY DESIGN Observational study. ANIMALS Thirty adult Weddell seals (12 male, 18 female) in Erebus Bay, Antarctica, body mass (mean +/- SD) 412 +/- 47 kg, aged 9-27 years. METHODS Seals were immobilized with a target dose of 2 mg kg(-1) ketamine hydrochloride and 0.1 mg kg(-1) midazolam hydrochloride (IM), based on visually estimated body mass. When required, maintenance doses were administered at a target of 0.5 mg kg(-1) ketamine hydrochloride and 0.025 mg kg(-1) midazolam hydrochloride (IV). RESULTS Complete immobilization was achieved in 33 of 40 injections (14 of which were repeat events on the same individual). Time to immobilization averaged 12 +/- 4 minutes, with a duration of initial immobility of 38 +/- 19 minutes. Total immobilization time varied by handling protocol, including condition assessment and muscle biopsy (Protocol 1, 60 +/- 13 minutes), condition assessment and instrument attachment (Protocol 2, 154 +/- 13 minutes), and condition assessment, muscle biopsy and instrument retrieval (Protocol 3, 48 +/- 8 minutes). Overall, a total immobilization time of 114 +/- 60 minutes was accomplished with 4 +/- 4 maintenance doses, and an average recovery time of 36 +/- 17 minutes. Most effects of the anesthetic combination were unrelated to mass, age, sex or total body fat. However, leaner seals had longer duration of initial immobility (% and kg total body fat) and recovery times (kg fat). Apnea events were uncommon and treated effectively with doxapram. No animals died. CONCLUSIONS AND CLINICAL RELEVANCE Reliable and effective field immobilization of Weddell seals was accomplished with a low dose of ketamine hydrochloride and midazolam hydrochloride, utilizing IM injection initially and IV maintenance methods.

Environment and feeding change the ability of heart rate to predict metabolism in resting Steller sea lions ( Eumetopias jubatus )

The ability to use heart rate (fh) to predict oxygen consumption rates (

Skin microbial flora and effectiveness of aseptic technique for deep muscle biopsies in Weddell seals (Leptonychotes weddellii) in McMurdo Sound, Antarctica.

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Dive response differs between shallow- and deep-diving Steller sea lions (Eumetopias jubatus)

) in Steller sea lions and other pinnipeds has been investigated in fasting animals. However, it is unknown whether established fh: