R.P Gildersleeve

Hematological response of japanese quail to acute hemorrhagic stress

Hematological and serum biochemical changes in response to hemorrhagic stress were determined in both sexes of juvenile and adult Coturnix coturnix japonica over 3 day period following a mechanical hemorrhage of 30% of the calculated total blood volume. There was an initial shift posthemorrhage towards greater numbers of more mature erythrocytes and fewer circulating reticulocytes. Reticulocytosis was indicated 48-72 hr posthemorrhage. Glucose and lactic acid dehydrogenase levels increased after hemorrhage. Serum beta-glucuronidase was elevated only in adults. Japanese quail seemed to recover from hemorrhage more rapidly than had been reported for chickens, other birds and mammals.

The posthatch physiology of the turkey poult—III. Yolk depletion and serum metabolites

Abstract 1. 1. Serum glucose, serum lipid, feed consumption and yolk weights of developing turkey poults were measured daily and associated with early poult mortality. 2. 2. The first peak in poult mortality at 4–5 days followed nadirs in feed consumption, yolk weights and serum lipids. 3. 3. The second peak in mortality at days 8–10 followed a decrease in serum glucose levels. 4. 4. These observations suggest that neonatal mortality is associated with metabolic changes which exacerbate morbidity in weaker poults.

Hematological response of hemorrhaged Japanese quail after blood volume replacement with saline

1. Hematological responses to hemorrhage by phlebotomy with and without replacement of blood volume with saline were measured in juvenile and adult male Coturnix coturnix japonica. 2. Recovery of total peripheral erythrocyte numbers and total peripheral leukocyte numbers occurred within 72 hr postphlebotomy in both treatment groups. 3. Saline replacement of blood volume following hemorrhage increased the total numbers and differential percentages of circulating reticulocytes at 72 hr postphlebotomy above the reticulocyte values of phlebotomized quail receiving no saline in both adult and juvenile Japanese quail.

Blood volume recovery in hemorrhaged Japanese quail.

1. Blood volume and plasma biochemical changes and feed and water consumption in response to a hemorrhage by phlebotomy of 30% of the calculated total blood volume with and without replacement of blood volume with physiological saline were determined in juvenile male Coturnix coturnix japonica. 2. Plasma protein and osmolality decreased rapidly posthemorrhage and did not recover by 72 hr posthemorrhage. 3. Plasma glucose, Na+ and K+ increased within 1 hr postphlebotomy. Plasma Na+ returned to nonphlebotomized levels within 6 hr postphlebotomy. 4. Saline replacement of blood volume resulted in hypervolemia within 3-5 min postphlebotomy. 5. Phlebotomized quail receiving no saline recovered blood volume to 0 hr (nonphlebotomized) levels within 1 hr postphlebotomy.

Effects of nonionizing radiation on birds

1. With the ability to fly comes a greater probability of direct irradiation by nonionizing radiation. The effect of nonionizing radiation on birds is, therefore, of environmental significance. 2. Most biological effects of exposure to nonionizing radiation in avian species are a result of radiation-induced temperature increases. 3. The incubating avian egg provides a model to study nonthermal effects of microwave exposure since ambient incubation temperature can be adjusted to compensate for absorbed thermal energy. 4. Some studies have shown that exposure to nonthermal levels of nonionizing radiation affect a birds ability to recover from acute physiological stressors. 5. Although earlier research indicated that modulated radiofrequency radiation increased calcium-ion efflux in chick forebrain tissue, criticism of experimental techniques and contradictory results between related studies have made final conclusions elusive. 6. Birds have been shown to be able to reliably detect magnetic fields in both the field and laboratory. Some researchers have reported malformations in chicken embryos exposed to a sinusoidal bipolar oscillating magnetic field.

Leukocyte numbers during the humoral and cell-mediated immune response of Japanese quail after microwave irradiation in ovo

1. Coturnix coturnix japonica eggs were exposed to 2.45-GHz continuous wave microwave radiation at an incident power density of 5 mW/cm2 (SAR = 4 mW/g) during the first 12 days of embryogeny. After hatching, leukocyte differential changes were measured in response to an injection with Alectoris graeca chukar red blood cells (CRBC) and in response to a phytohemagglutinin (PHA) injection in irradiated and nonirradiated (sham) quail of both sexes. 2. Microwave irradiation did not affect anti-CRBC hemagglutinin titers, PHA-evoked dermal swelling or leukocyte numbers and percentages. 3. In both the irradiated and sham irradiated males, lymphocyte percentages decreased while heterophil percentages increased after CRBC or PHA injection. 4. In ovo irradiation with microwaves did not alter the time course of either a humoral immune response or a cell-mediated immune response in Japanese quail.

Response of Japanese quail to hemorrhagic stress after exposure to microwave radiation during embryogeny.

Coturnix coturnix japonica eggs were exposed to 2.45 GHz continuous wave microwave radiation at an incident power density of 5 mW/cm2 (SAR = 4 mW/g) during the first 12 days of embryogeny. After hatching, hematologic changes in response to an acute hemorrhage were measured in exposed and nonexposed (control) juveniles and adults of both sexes. Reticulocyte numbers and percentages were depressed below control numbers at 24 hr postphlebotomy in exposed adult females. Lymphocyte numbers were depressed below control levels at 24 hr postphlebotomy in exposed juvenile and adult males. At 72 hr heterophil numbers were depressed in exposed juvenile and adult males. These data suggest that microwave irradiation during embryogeny affects the ability of Japanese quail to recover from an acute and voluminous hemorrhage and that these radiation effects are small.

Hematology of Japanese quail selected for high or low serum corticosterone responses to complex stressors

Blood was collected from random-bred male Coturnix coturnix japonica and from quail selected genetically for high or low serum corticosterone responses to complex stressors after chronic exposure to short daily photoperiods and after exposure to long photoperiods. When compared to the low response quail, high response quail exhibited increased mean cellular hemoglobin values, reticulocyte numbers and heterophil percentages, and decreased monocyte and eosinophil numbers after exposure to long photoperiods. The data indicate that these corticosterone response lines can be partitioned by their hematological responses to photoperiodic manipulation.

Leukocyte numbers in hemorrhaged Japanese quail after microwave irradiation in ovo

1. Coturnix coturnix japonica eggs were exposed to 2.45-GHz continuous wave microwave radiation at an incident power density of 5 mW/cm2 (and a specific rate of 4 mW/g) during the first 12 days of embryogeny. After hatching, hematological changes in response to an acute hemorrhage were measured in exposed and nonexposed (control) juveniles of both sexes. 2. Exposure did not affect erythroid cell numbers either before or after hemorrhage. 3. Exposure affected the recovery of lymphocyte and heterophil numbers after hemorrhage, but the effect was sex-limited. 4. These data indicate that microwave irradiation during embryogeny in ovo affects the ability of Japanese quail to recover from an acute and voluminous hemorrhage and that these radiation effects are sex-limited and consistent with a previous report.

Plasma corticosterone in hemorrhaged Japanese quail after microwave irradiation in ovo

1. Sexually immature male and female Japanese quail were divided within each sex into three treatment groups: hemorrhaged by jugular puncture; immobilized for 2 min, but not hemorrhaged (shams); and neither immobilized nor hemorrhaged (controls). 2. Hemorrhage resulted in increased plasma corticosterone levels in both sexes. Corticosterone levels in shams were higher than in controls. 3. In another experiment, Japanese quail eggs were irradiated during incubation with 2.45 GHz CW microwave radiation. Nonirradiated eggs were incubated under identical conditions without irradiation. After hatching, juvenile males and females were hemorrhaged. 4. After hemorrhage, irradiated males had higher plasma corticosterone levels than nonirradiated males. No effect of irradiation on females was found. 5. The results of these two experiments indicate that male quail respond to blood loss with increased adrenocortical activity and that this response is modified in male quail after irradiation with microwaves during embryogeny.