Apgar score or birthweight in Chihuahua dogs born by elective Caesarean section : which is the best predictor of the survival at 24 h after birth?

In the dog, the correct management of parturition and the prompt neonatal evaluation and assistance can reduce the perinatal mortality rates that are particularly high in toy breeds. Newborn evaluation and factors addressing prognosis are pivotal to guarantee the correct neonatal assistance. Assessment of the Apgar score with viability classification and birthweight are recognized as predictors for neonatal survival in dogs, but breed-specific data are needed for a more feasible application in the dog species, in which wide differences among breeds are known. The present study aimed therefore to: (a) assess the role of Apgar score and birthweight as predictors for the survival of Chihuahua newborn puppies in the first 24 h of life; (b) to assess a cut-off of the Apgar score and birthweight values that can predict the survival of Chihuahua newborn puppies in the first 24 h after birth; (c) to assess the possible effect played by maternal parity, newborn gender and litter-size on Apgar score in Chihuahua newborn puppies, in order to provide breed-specific data for a better neonatal assistance..Data obtained from 176 normal developed Chihuahua puppies born by elective Caesarean section, showed that 62%, 28% and 10% of puppies were classified in the Apgar score classes 7\u201310, 4\u20136 and 0\u20133, respectively, with survival at 24 h after birth of 97%, 96%, 39%, in the three Apgar classes of viability, respectively. Apgar score was a better predictor for survival at 24 h after birth than birthweight (AUC 0.93, P < 0.0001; AUC 0.69, P < 0.01, respectively). Litter-size of 7 puppies/litter plays a negative effect on Apgar score. Apgar score is a better predictor of survival at 24 h than birthweight, and the best cut-off of Apgar score for survival at 24 h after birth is 4, with 96% sensitivity and 77% specificity. The different proportion of \u201cnormal viable\u201d and \u201cless viable\u201d neonates in comparison to other studies highlights that Chihuahua puppies born by elective Caesarean section should be carefully evaluated at birth to provide correct assistance

Comparison between Cloprostenol-induced and Spontaneous Oestrus Fertility in Dairy Cows

A short calving to conception interval is of main importance to achieve high economic efficiency in dairy cow industry. In order to reduce this interval, several hormonal treatments have been put on the market, in which cloprostenol, a synthetic analogue of prostaglandin F2 (PGF2). The aim of this study was to compare fertility of cloprostenol-induced oestrus to that of spontaneous oestrus in dairy cows. In a group of 525 cows, 280 (treated group) were administered 0.5 mg cloprostenol i.m. after transrectal corpus luteum (CL) detection, and inseminated at detected oestrus during the following week. The other 245 cows (control group) were inseminated during spontaneous oestrus. Whey progesterone concentrations were checked at treatment and at insemination in order to remove from the study cows whose P4 levels indicate a non-functional CL, or a lack of luteolysis respectively. Moreover, cows that were not inseminated due to genital problems were also excluded from this study. Conception (59% vs 54.5%) and calving rates (93.7% vs 93%) were not significantly different between the two groups

Comparative study on Insulin-Like Growth Factor I (IGF-I) plasma concentrations in new-born horse foals, donkey foals and calves

During the postnatal period, the most important growth regulator is represented by the insulin-like growth factor-I (IGF-I). Horses, donkeys, and cattle are monotocous species with considerable gestational lengths. The birth of a live, viable new born at the end of a healthy pregnancy, and the survival of the single newborn, represent essential prerequisites for a successful reproductive success. Therefore, the full knowledge about neonatal biology of these species is mandatory. The aim of this study was to investigate the IGF-I plasma profiles in the neonates of these three species during the first 14 days of life. Six horse foals, 6 donkey foals and 6 calves, healthy and mature, were enrolled, and blood samples collected at 30 minutes, 3, 12, 24 hours, and 3, 7, 10, 14 days after birth. IGF-I plasma concentrations were analysed by RIA. Horse foals showed higher (p<0.05) IGF-I plasma concentrations at 10 and 14 days of age in comparison to the values observed at 24 hours of age, while higher (p<0.05) IGF-I plasma concentrations were detected at 14 days of age in comparison to all the previous sampling times Donkey foals showed a significantly higher (p<0.05) value at 10 days compared to the first 24 hours. Calves showed the highest value at 30 minutes, followed by a significant (p<0.05) decrease at 3 hours and a further significant (p<0.05) decrease at 7 days of age. Comparing the profiles of the three species, no differences between horse and donkey foals were observed, while calves showed significant (p<0.05) lower levels compared to donkeys at 7,10 and 14 days and to horse foals at 14 days. This study confirm the important role of IGF-I n the early postnatal life in these three species, but also underlines the need of additional species-specific studies for a better understanding of the possible different role played by IGF-I in the different species neonatal physiology

Novel contributions in canine craniometry : anatomic and radiographic measurements in newborn puppies

The largest differences in intraspecific head shape among the Carnivora order are to be found in dogs. Based on their skull morphotypes, dog breeds are currently classified as dolichocephalic, mesaticephalic and brachycephalic. Due to the fact that some breeds have not been yet defined, this classification is incomplete; moreover, multi-breed studies on the skull morphology of puppies have never been performed. The aim of this work was to verify (i) whether differences in the skull conformation of purebred puppies are already present within the first week of age; (ii) whether radiographic and anatomic measures could be considered interchangeable, and (iii) to possibly classify puppies from non-categorized breeds thanks to their radiographic cranial measurements using neural nets. One hundred and thirty-seven dead puppies aged 0-7 days were examined considering their anatomic and radiographic measures. All linear measures and anatomic indices significantly differed among brachycephalic and non-brachycephalic puppies. Radiographic indices, with the exception of CI, identified the three skull morphotypes (p<0.05, for all comparisons). Radiographic and anatomic measures proved to be non-interchangeable in newborn puppies. Finally, nineteen puppies belonging to 5 non-categorized breeds could be classified thanks to neural nets in the three skull morphotypes with different probability (P between 0,66 and 0,95)

Nonexpanded mesenchymal stem cells for regenerative medicine: yield in stromal vascular fraction from adipose tissues

The adipose-derived stromal vascular fraction (SVF) represents a rich source of mesenchymal cells, potentially able to differentiate into adipocytes, chondrocytes, osteoblasts, myocytes, cardiomyocytes, hepatocytes, and neuronal, epithelial, and endothelial cells. These cells are ideal candidates for use in regenerative medicine, tissue engineering, including gene therapy, and cell replacement cancer therapies. In this work, we aimed to the optimization of the adipose SVF-based therapy, and the effect of the collection site, surgical procedure, and tissue processing techniques on SVF yield was evaluated in terms of cell recovery and live cells, taking into account the effect of gender, age, and body mass index. Adipose tissue samples were recovered from 125 informed subjects (37 males and 88 females; mean age: 51.31 years; range: 15-87 years), and digested in different condition with collagenase. A multivariate linear model put in evidence that in males the best collection site in terms of yield is located in the abdomen, whereas in females the biopsy region do not influence cell recovery; the collection technique, the age, and the body mass index of donor seem not to influence the cell yield. The tissue-processing procedures strongly modify the yield and the vitality of cells: a collagenase concentration of 0.2% and a digestion time of 1h could be chosen as the best operating conditions

An Apgar scoring system for routine assessment of newborn puppy viability and short-term survival prognosis

The Apgar scoring system is an easy and reliable method for evaluating both human and animal neonates. However, its use is not widespread in veterinary medicine. The current study assessed a modified Apgar scoring system for routine evaluation of newborn puppies. Heart rate, respiratory effort, reflex irritability, motility, and mucus color have been evaluated in the score. Specifically, we used 5 min after birth Apgar score to assess newborn viability and short-term survival prognosis, as well as related characteristics, in 193 puppies from 42 litters, 65 born by spontaneous delivery, 66 by assisted delivery, and 62 by cesarean section. The percentage of puppies that were dead 2 h after birth was higher in the 4 to 6 Apgar score group versus that in the 7 to 10 score group (P < 0.01) and in the 0 to 3 score group versus that in the 7 to 10 score group (P < 0.0001). Delivery method did not affect survival. There was a marked reduction in the number of puppies searching for the mammary gland in the 0 to 3 and 4 to 6 Apgar score groups compared with that in the 7 to 10 score group (P < 0.0001); there was a difference between the 0 to 3 and the 4 to 6 score groups as well (P < 0.05). Suckling/swallowing reflexes were present in fewer puppies in the 0 to 3 and 4 to 6 score groups compared with that in the 7 to 10 group (P < 0.0001), with no significant differences between the 0 to 3 and the 4 to 6 score groups

Hair cortisol, dheydroepiandrosterone and progesterone concentrations in crossbred beef cows from calving to 100 days postpartum

Dehydroepiandrosterone (DHEA) and cortisol (C) are hormones secreted by the adrenal cortex after stress stimulation, and they are related to resilience and allostatic load. Hair steroids measurement has recently received increasing attention for measurement of chronic stress in dairy cows, as it offers the advantages of being noninvasive, fast, and able to indicate steroids levels over long periods [1]. Around the time of calving, cows experience a suite of stressful events, including regrouping, diet changes, parturition, and the onset of lactation; during the transition period, it has been demonstrated that primiparous cows behave differently and are more likely to experience negative health outcomes compared to multiparous cows [2]. The objects of this study were to evaluate C, DHEA and progesterone (P4) hair concentrations in crossbred beef cows from calving to 100 days post partum (pp), and to assess possible differences related with parity (primiparous vs multiparous cows). Six primiparous and five multiparous pregnant beef cows from a tethered stall were enrolled. Hair samples of the 11 cows were collected during the autumn/winter season by shaving at calving (T0) and every 20 days for five times (T1-T5), only on the re-growth area. Hair C, DHEA and P4 were analyzed by RIA [1]. No differences were detected in the hair re-growth among animals. Statistical analysis showed higher C concentrations in primiparous cows at calving (T0) and at 20 days pp (T1) compared to all the subsequent samples (p<0.05). C levels at T0 and T1 in primiparous cows (6.7\ub13.37 pg/mL and 7.9\ub13.16 pg/mL, respectively) were higher than in multiparous cows (4.2\ub13.76 pg/mL and 4.1\ub12.36 pg/mL, respectively) (p<0.05). No other differences were detected within each group or between the two groups of cows regarding C, DHEA and P4 concentrations. These results suggest that C hair concentrations in cows are affected by parity. The higher C levels registered at calving and at 20 days pp in primiparous cows indicate a greater stress level before and around parturition compared to multiparous cows. Considering that the animals enrolled in this study did not undergone major changes of management or diet, this difference is probably related with the fact that calving was experienced for the first time by the pregnant heifers. Cortisol levels did not change from sample T2 (40 days pp) to the end of the study, suggesting the capacity of the heifers to recover from calving stress. Similarly, pluriparous cows did not show any relevant increase in C levels around calving, possibly because of their resilience. DHEA and P4 hair concentrations were not affected by parity neither by time; both these hormones are secreted also by the placenta in the pregnant cow [3], so the concentrations observed in their hair also derives from a placental synthesis. The present study suggests that hair C can be useful for measurement of the allostatic load in cows, and that primiparous cows undergo a higher stress level around calving compared to multiparous cows