A comparison of the demographic structure and growth of free-ranging and captive groups of rhesus monkeys (Macaca mulatta)

Vital statistics are employed to estimate rates of mortality, fetility and growth for a group of about 450 captive rhesus monkeys housed in six separate enclosures at the California Primate Research Center (CPRC). These rates were compared with those previously reported for a free-ranging group of rhesus monkeys. Relative to the free-ranging group, the CPRC monkeys experienced higher fertility below age 5 and lower mortality beyond age 3. These rates are associated with a potential intrinsic rate of increase of about 10%, a rate which is about 50% higher than that for the free-ranging group. Reasons for this marked difference in reproductive success of the two groups are discussed.     

人工饲养条件下死亡实验恒河猴肠道病理改变特点分析

目的观察人工饲养条件下实验恒河猴肠道病理改变,探讨实验猴肠道疾病分布规律和病理改变特点,丰富实验猴自发病变基本研究资料。方法对1998-2008年云南地区饲养的自然死亡的155只恒河猴（年龄2-20岁）的肠道进行病理检查,按年龄分为幼年组、成年组、老年组,并对观察结果进行统计学分析。结果155例恒河猴中58例检出肠道病变,有慢性肠炎、急性肠炎、黏膜充血水肿、出血、糜烂、溃疡、穿孔、寄生虫共8种主要病变,出现率最高的为急性肠炎（20．00％）。实验猴不同年龄组肠道病变类型分布基本相同,肠道病变率随年龄增长而增高,不同年龄组间统计学分析差异无显著性。结论人工饲养条件下死亡实验猴肠道病变检出率较高,急性肠炎是实验猴的主要致死原因之一,实验猴肠道病理改变随年龄增长而病变加重。对实验猴饲养和研究时,应重视肠道病变因素,尤其是急性肠炎。死亡实验猴肠道病变研究对实验猴的质量控制和相关动物实验有重要指导价值。     

Survival rate and life span of rhesus monkeys at the Yerkes regional primate research center

This paper describes the survival rates of 763 rhesus monkeys maintained at the Yerkes Regional Primate Research Center (YRPRC). The survival rates were determined by methods used to calculate survival rates of human populations. The monkeys were divided into 3 groups based on their specific life histories. Group I monkeys were wild-born and were housed singly from the time they came into captivity at about 2 years of age. Group II monkeys were born either in the wild or in captivity and were housed in social groups since their acquisition at ages 2 to 8 years. Group III monkeys were born at the YRPRC and housed in social groups. Due to these differences in life histories, direct comparisons among survival curves of the 3 groups are, at best, tenuous, as are comparisons with populations maintained at other facilities. In the present study the highest mortality rate occurred during the first month of life. The maximum life span attained in our group I was 35 years, with only 6.2% of monkeys in this group attaining an age beyond 30 years.     

Biologic data of Macaca mulatta, Macaca fascicularis, and Saimiri sciureus used for research at the Fiocruz primate center

Physiological parameters of laboratory animals used for biomedical research is crucial for following several experimental procedures. With the intent to establish baseline biologic parameters for non-human primates held in closed colonies, hematological and morphometric data of captive monkeys were determined. Data of clinically healthy rhesus macaques (Macaca mulatta), cynomolgus monkeys (Macaca fascicularis), and squirrel monkeys (Saimiri sciureus) were collected over a period of five years. Animals were separated according to sex and divided into five age groups. Hematological data were compared with those in the literature by Student's t test. Discrepancies with significance levels of 0.1, 1 or 5% were found in the hematological studies. Growth curves showed that the sexual dimorphism of rhesus monkeys appeared at an age of four years. In earlier ages, the differences between sexes could not be distinguished (p < 0.05). Sexual dimorphism in both squirrel monkeys and cynomolgus monkeys occurred at an age of about 32 months. Data presented in this paper could be useful for comparative studies using primates under similar conditions.     

Age-Related Changes of Elements in the Coronary Arteries of Monkeys in Comparison with Those of Humans

To elucidate compositional changes of the coronary artery with aging, the authors investigated age-related changes of elements in the coronary arteries of rhesus and Japanese monkeys by direct chemical analysis in comparison with the coronary arteries of Japanese and Thai. Used monkeys consisted of 38 rhesus monkeys and 23 Japanese monkeys, ranging in age from newborn to 33 years. After perfusion with a fixative, the hearts were resected from the monkeys, and the anterior interventricular branches of the left coronary artery and the right coronary arteries were resected from the hearts. After ashing of the arteries, element contents were determined by inductively coupled plasma-atomic emission spectrometry. It was found that the Ca and P contents did not increase in both the left and right coronary arteries of rhesus and Japanese monkeys at old age. The average contents of Ca and P decreased by 13% and 25% in the left coronary arteries more than 20 years of age in comparison with those below 20 years of age, whereas they decreased by 4% and 15% in the right coronary arteries more than 20 years of age in comparison with those below 20 years of age. This finding indicated that atherosclerosis scarcely occurred in both the left and right coronary arteries of rhesus and Japanese monkeys at old age. In contrast with monkeys, atherosclerosis occurred frequently in the coronary arteries of Japanese and Thai at old age.     

人工饲养条件下死亡恒河猴肺脏病理改变分析

目的观察人工饲养条件下实验恒河猴肺脏病理改变,探讨实验猴呼吸系统疾病分布规律和病理改变特点,丰富实验猴自发病变基本研究资料。方法对1998～2008年云南地区饲养的自然死亡的155只恒河猴（年龄2～20岁）的肺脏进行病理检查,按年龄分为幼年组、成年组、老年组,并对观察结果进行统计学分析。结果实验猴肺脏主要病变有大叶性肺炎、支气管肺炎、间质性肺炎、肺气肿、支气管扩张症、胸膜炎、肺肉芽肿性炎等12种,出现率最高的为支气管肺炎（18.71%）和大叶性肺炎（16.74%）。恒河猴肺脏病变在不同年龄阶段均有发生,老年猴组肺脏病变发生率最高,疾病类型和发生率在不同年组中分布不相同,统计学分析显示：支气管炎病变成年组发病率明显高于幼年组;肺气肿病变老年组明显高于成年组和幼年组,（P〈0.05）。结论人工饲养条件下死亡实验猴肺脏病变检出率较高,实验猴肺脏病变在不同年龄阶段存在差异,实验猴肺脏病理改变结果丰富了实验猴的基本研究资料,对实验猴的质量控制和相关动物实验有重要价值。     

Social segregation in male,but not female yearling rhesus macaques (Macaca mulatta)

Males and females of many species sex‐segregate, ranging from complete separation of habitats to social segregation within the same space, sometimes varying across seasons and lifespan development. Mechanisms for such segregation are not well understood, though some have suggested that sex differences in preferred juvenile behaviors lead to greater behavioral compatibility within than between sexes. This within‐sex behavioral compatibility may be the source of sex‐segregation. As juvenile behavioral sex differences are well‐documented in rhesus monkeys, we examined sex‐segregation patterns of yearling rhesus monkeys engaged in three different types of behavior: rough play, parallel play, and grooming. We observed male and female rhesus yearlings from five stable long‐term age‐graded social groups of 67–183 animals. Behavioral observations were designed to collect equal numbers of rough play, grooming, and parallel play bouts. In addition, sex composition and proximity to adults was recorded for each bout. Across all behaviors, more all‐male groups and fewer mixed sex‐groups were observed than expected by chance. All‐female groups occurred at the level expected by chance. Thus, males sex‐segregated regardless of type of behavior, while females did not sex‐segregate. Female groups were observed in proximity to adults more often than expected by chance. These results suggest that behavioral compatibility may produce sex‐segregation in male yearling rhesus monkeys, possibly preparing males and females for different social roles and segregation as adults. Am. J. Primatol. 72:87–92, 2010. © 2009 Wiley‐Liss, Inc.     

Ovarian response to gonadotropin stimulation in juvenile rhesus monkeys

The objective of this study was to investigate juvenile rhesus monkeys responding to various gonadotropin regimen stimulations. Thirty-two prepubertal rhesus monkeys were randomly allocated into five groups for ovarian stimulation as follows: Groups I, II, and III were given 35, 18, and 9 IU recombinant human follicle-stimulating hormone (rhFSH), respectively, twice daily for 8 d; Group IV was given 18 IU rhFSH twice daily until the appearance of maximal increase in sex skin during the breeding season; and Group V was treated identically to Group II but during the nonbreeding season. In addition, nine menarchial monkeys (Group VI) were treated identically to Group II. Menarchial monkeys yielded two- to fivefold the numbers of MII oocytes (24.1) and almost twice the development potential of in vitro-fertilized oocytes (blastocyst rate: 50.0%) compared with those of the other groups. Moreover, prepubertal monkeys in Group V had approximately double the numbers of MII oocytes and in Groups IV and V twice the development potential compared with those of Groups I and II, whereas Group III did not respond to stimulation. The most prominent sex skin swelling was in association with peak serum estradiol concentrations, and good responses to stimulation were associated with reduced body temperatures. All stimulated monkeys had normal reproductive performance at adulthood, except those in Group I. In conclusion, gonadotropin stimulation of menarchial monkeys could be appropriate for addressing the high cost and limited availability of rhesus monkeys in studying reproductive biology in primates.     

Old,socially housed rhesus monkeys manipulate objects

Recent research has indicated that old, individually housed monkeys show little interest in novel objects. Yet unanswered is whether this effect is caused primarily by age or housing condition. The purpose of this study was to assess the role of social living in promoting responsiveness to objects. We measured the rates of object manipulation in older animals, assessed responsiveness over time to particular objects as a measure of habituation, and examined social influences on object use. Several social groups of rhesus monkeys that contained older adults were studied. These groups were housed in indoor pens or in an outdoor enclosure, and all monkeys had continuous access to a variety of objects in their home environment. In contrast to previous studies of individually housed monkeys, our group-housed monkeys showed sustained interest in objects. Old monkeys manipulated objects extensively, and this response was all the more significant, given that the objects were not novel. Monkeys housed in an outdoor enclosure showed object manipulation patterns that were not different from monkeys housed in indoor pens. However, females exhibited much higher object-related responses than males. Social facilitation played a role in the reactions of some monkeys to objects. Patterns of social facilitation as well as avoidance were present in two of the three indoor groups that were observed. Failure to manipulate objects in rhesus macaques appears to be more a function of individual housing than of old age. Factors such as environmental complexity, social needs, and early experience should be considered in order to understand why individually housed rhesus monkeys are unresponsive to objects. © 1993 Wiley-Liss, Inc.     

Delayed dispersal and elevated monoaminergic activity in free-ranging rhesus monkeys

Male rhesus monkeys typically disperse from their groups of birth when they are between 3 and 5 years of age. Some males, however, delay dispersal from their natal groups until after they are 5 years old. The current study evaluated central monoaminergic neurotransmitter activity as a potential correlate of such “delayed” dispersal among 54 randomly selected adolescent and adult male rhesus monkeys (Macaca mulatta) captured on Cayo Santiago during an annual trapping season. Specifically, cerebrospinal fluid (CSF) concentrations of 5-hydroxyindoleacetic acid (5-HIAA, a serotonin metabolite), 3-methoxy-4-hydroxyphenylglycol (MHPG, a norepinephrine metabolite), and homovanillic acid (HVA, a dopamine metabolite) were compared in monkeys 60 months of age or more that had either dispersed (n = 33) or were still in their natal groups (n = 5). The monkeys still in their natal groups had higher CSF concentrations of both 5-HIAA and HVA (but not MHPG) than did the animals that had emigrated (Ps < 0.05). Subsequent analysis indicated that only 5-HIAA independently differentiated dispersing monkeys from delayed dispensers. Of monkeys less than 60 months of age (n = 16), only two had dispersed from their natal groups; in this age class, there were no significant differences between dispersing and natal individuals in any CSF monoaminergic metabolite (all Ps = NS). Finally, there was no difference in the CSF 5-HIAA concentrations of the five delayed dispersers and those of younger animals (P = NS), suggesting a failure to experience the frequently reported adolescent decline in serotonergic activity. In contrast, the CSF 5-HIAA concentrations of the dispersing animals were lower than those of the younger animals (P < 0.05), consistent with either an agerelated decline or an effect of dispersal per se. © 1995 Wiley-Liss, Inc.     

Cellular proliferation potential during aging and caloric restriction in rhesus monkeys (Macaca mulatta)

Caloric restriction (CR) is the most successful method of extending both median and maximal lifespans in rodents and other short-lived species. It is not yet clear whether this method of life extension will be successful in longer-lived species, possibly including humans; however, trials in rhesus monkeys are underway. We have examined the cellular proliferative potential of cells from CR and AL (ad libitum fed) monkey skin cells using two different bioassays: colony size analysis (CSA) of dermal fibroblasts isolated and cloned directly from the skin and beta-galactosidase staining at pH 6.0 (BG-6.0) of epidermal cells in frozen sections of skin. Decreases in both proliferative markers occurred with age, but no differences were observed between CR and AL animals. Skin biopsies were obtained from AL and CR rhesus monkeys from two different aging colonies, one at the National Institute on Aging (NIA) and one at the University of Maryland-Baltimore (UMB). These biopsies were used as a source of tissue sections and cells for two biomarkers of aging assays. The CR monkeys had been maintained for 9–12 years on approximately 70% of the caloric intake of control AL animals. In the CSA studies, the fraction of small clones increased significantly and the fraction of large clones decreased significantly with increasing age in AL monkeys. The frequency of epidermal BG-6.0 staining cells increased with age in older (>22 years) AL monkeys, but most predominately in those of the UMB colony, which were somewhat heavier than the NIH AL controls. Old monkeys on CR tended to have fewer BG-6.0-positive cells relative to old AL-derived epidermis, but this effect was not significant. These results indicate that cellular proliferative potential declined with age in Macaca mulatta, but was not significantly altered by CR under these conditions. Although these experiments are consistent with an absence of effect of CR on monkey skin cell proliferative potential, we have found in previous experiments with mice that a longer duration of CR (as a fraction of total lifespan) was needed to demonstrate CR-related improvement in clone size in mice. Further studies on the now mid-aged monkeys will be needed as their age exceeds 20 years to conclusively rule out an effect of CR on proliferative potential of skin cells from these primates. J. Cell. Physiol. 180:123–130, 1999. © 1999 Wiley-Liss, Inc.     

Serum dehydroepiandrosterone sulfate concentrations across the life span of laboratory-housed rhesus monkeys

Cross-sectional studies of humans have shown that dehydroepiandrosterone sulfate (DHEAS) peaks shortly after sexual maturation and declines thereafter, suggesting that the progressive reduction in DHEAS may play a role in the aging process and in the development of age-related morbidity. The present study examines changes in DHEAS concentrations across the life span of rhesus monkeys as part of the development of this primate model for studies of aging. Serum concentrations of DHEAS were measured in 792 laboratory-housed rhesus monkeys (Macaca mulatta) aged 0.5-36 years (527 females, 265 males). DHEAS concentrations in all monkeys were used to formulate an equation that describes two levels of decline of DHEAS with age. The most rapid decline occurs from infancy until approximately 5 years of age. The decline then occurs gradually with increasing age. There were no signs of an andrenarche just prior to sexual maturation, as is seen in humans or the great apes. This equation can be used to predict the expected mean serum DHEAS concentration and normal ranges of male or female rhesus monkeys at any age greater than 5 months.     

Stereotypic and self-injurious behavior in rhesus macaques: a survey and retrospective analysis of environment and early experience

Abnormal behavior in captive rhesus monkeys can range from active whole-body and self-directed stereotypies to self-injurious behavior (SIB). Although abnormal behaviors are common in singly-housed rhesus monkeys, the type and frequency of these behaviors are highly variable across individual animals, and the factors influencing them are equally varied. The purpose of this investigation was to survey abnormal behavior in a large population of rhesus macaques, to characterize the relationship between stereotypies and self-injury, and to identify potential risk factors for these aberrant behaviors. Behavioral assessments of 362 individually housed rhesus monkeys were collected at the New England Regional Primate Research Center (NERPRC) and combined with colony records. Of the 362 animals surveyed, 321 exhibited at least one abnormal behavior (mean: 2.3, range: 1-8). The most common behavior was pacing. Sex differences were apparent, with males showing more abnormal behavior than females. SIB was also associated with stereotypies. Animals with a veterinary record of self-injury exhibited a greater number of self-directed stereotypies than those that did not self-injure. Housing and protocol conditions, such as individual housing at an early age, longer time housed individually, greater number of blood draws, and nursery rearing, were shown to be risk factors for abnormal behavior. Thus, many factors may influence the development and maintenance of abnormal behavior in captive primates. Some of these factors are intrinsic to the individual (e.g., sex effects), whereas others are related to colony management practices, rearing conditions, and research protocols.     

Interleukin-1 induces sleep-like behavior and alters call structure in juvenile rhesus macaques

To date, there have been no investigations of the behavioral effects of interleukin-1 (IL-1) in nonhuman primates. In this study the locomotor behavior and vocalizations of juvenile rhesus monkeys were monitored for 45 minutes following intravenous injections of recombinant human IL-1 alpha. In addition, their reaction to a broadcasted recording of infant monkey distress calls was determined 20 minutes after the beginning of each test session. IL-1 induced sleep-like inactivity and significantly diminished the monkey's behavioral and vocal responses to the broadcasted calls. The coo calls uttered by the monkeys following IL-1 treatment also had a longer duration and lower fundamental frequency than calls during the control condition. As several studies have indicated that behavioral effects of IL-1 may be mediated by corticotropin-releasing hormone (CRH), a second group of rhesus monkeys was given injections of CRH. CRH did not alter behavior or call structure at the dose administered. These results extend previous research on the behavioral effects of IL-1 to include the nonhuman primate and provide the first evidence that cytokines can affect vocal communication in rhesus monkeys. © 1995 Wiley-Liss, Inc.     

Postnatal change in lipid composition and nerve conduction of peripheral nerves of young rhesus monkeys.

Body weight, motor and sensory nerve conduction velocities of fore and hind limbs, and lipid composition were measured sequentially in peripheral nerves of 15 rhesus monkeys. Initially measurements were made with monkeys six to eight months of age. There were significant increases in body weight, motor, and sensory nerve conduction and myelin marker lipids over a five months period, but no change was observed in free fatty acids, triglycerides, and esterified cholesterol. These results indicate that myelination continues at least for 11 to 13 months of postnatal age in rhesus monkeys.     

Alveoli increase in number but not size from birth to adulthood in rhesus monkeys

Postnatal developmental stages of lung parenchyma in rhesus monkeys is about one-third that of humans. Alveoli in humans are reported to be formed up to 8 yr of age. We used design-based stereological methods to estimate the number of alveoli (N(alv)) in male and female rhesus monkeys over the first 7 yr of life. Twenty-six rhesus monkeys (13 males ranging in age from 4 to 1,920 days and lung volumes from 41.7 to 602 cm(3), 13 females ranging in age from 22 to 2,675 days and lung volumes from 43.5 to 380 cm(3)) were necropsied and lungs fixed, isotropically oriented, fractionated, sampled, embedded, and sectioned for alveolar counting. Parenchymal, alveolar, alveolar duct core air, and interalveolar septal tissue volumes increased rapidly during the first 2 yr with slowed growth from 2 to 7 yr. The rate of change was greater in males than females. N(alv) also showed consistent growth throughout the study, with increases in N(alv) best predicted by increases in lung volume. However, mean alveolar volume showed little relationship with age, lung volume, or body weight but was larger in females and showed a greater size distribution than in males. Alveoli increase in number but not volume throughout postnatal development in rhesus monkeys.     

人工哺育期腹泻婴猴奇异变形杆菌的分离与鉴定

目的对一株人工哺育期引发恒河猴婴猴腹泻的奇异变形杆菌进行了鉴定,为实验猕猴疾病检测、鉴别诊断提供参考依据。方法通过培养特性、菌落形态、染色、生化试验和血清学诊断鉴别等检查,对分离菌株进行初步鉴定,同时,对分离菌株进行致病性试验及药敏试验。结果通过表型生物学特性鉴定,并结合血清学诊断鉴别方法,确证该分离菌株为奇异变形杆菌,应用药敏试验筛选出了高度敏感的抗菌药,控制了该病的继续发生,致病性试验证明,该分离菌株对小白鼠有高致病性。结论分离到的奇异变形杆菌是导致本次婴猴腹泻死亡的病原菌,该菌为条件致病菌,对实验猕猴和研究人员均有潜在的危害,尽管该菌不是国家标准要求排除的病原菌,但该菌引发的传染病将对动物实验造成严重影响,故应引起高度重视。     

Measures of body size and growth in rhesus and squirrel monkeys subjected to long-term dietary restriction

Although many studies have reported the robust effects of dietary restriction (DR) in retarding numerous aging processes in rodents, little is known about the outcomes of reducing caloric intake of a nutritious diet on aging in primates. Most primate studies have concerned the effects of malnutrition. We hypothesized that DR influences aging processes in primate species as it does in rodents. In the present study, 24 male rhesus (Macaca mulatta) monkeys (ages 0.6–5 years) and 25 male squirrel (Saimiri sp.) monkeys (ages 0.3–10 years) were provided diets formulated differently for each species but both fortified with vitamins and minerals (40% above recommended levels) as controls (approximating ad libitum levels) or experimentals (about 30% below the level of diet provided controls of comparable age and body weight). The results reported here concern the hypothesis that DR imposed during various developmental stages in these two primate species would affect morphometric parameters obtained at different occasions during the first 5 years of the study. Groups of older monkeys (rhesus: 18–25 years, n = 3; squirrel: 10–15 years, n = 4) were also included as controls for comparative purposes. Among groups of rhesus monkeys begun on DR prior to 6 years of age, growth in body weight and crown-rump length was reduced about 10–20% beginning after 1 year on the diet, with estimated food intake being reduced about 30–35% over this period. Measures of skin-fold thickness and various body circumference measures were also reduced in experimental groups of rhesus monkeys. In contrast, the DR regimen involving a different diet produced little impact on comparable measures in squirrel monkeys, with the estimated food intake being reduced only about 20–25% over this period. However evidence of divergence in some morphometric parameters in squirrel monkeys was beginning to emerge in young groups (<5 years(after 3 yers on the diet. © 1995 Wiley-Liss, Inc.