Lower uterine artery blood flow and higher endothelin relative to nitric oxide metabolite levels are associated with reductions in birth weight at high altitude

Julian, Colleen G.; Galan, Henry L.; Wilson, Megan J.; DeSilva, Wendy; Cioffi-Ragan, Darleen; Schwartz, Joel; Moore, Lorna G.

doi:10.1152/ajpregu.00164.2008

Cited by 100 publications

(116 citation statements)

References 36 publications

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“…Hospital-based studies have documented that the risk of adverse perinatal outcomes is increased with extreme maternal Hcts (Moore et al, 2001a;Gonzales et al, 2009) (Fig.4). During pregnancy at high altitude, elevated Hct and the associated increase in blood viscosity contribute to an increased risk of stillbirth, preterm birth, and reduced birth weight, all of which appear to stem from a reduced uterine artery blood flow and, consequently, a reduced rate of O 2 delivery to the uteroplacental circulation (Moore et al, 1982;Moore et al, 2001a;Moore et al, 2001b;Zamudio et al, 1995;Wilson et al, 2007;Julian et al, 2008;Julian et al, 2009b). For this reason, acclimatized lowlanders at high altitude generally experience especially high rates of adverse pregnancy outcomes.…”

Section: Erythropoeitic Activitymentioning

confidence: 99%

Phenotypic plasticity and genetic adaptation to high-altitude hypoxia in vertebrates

Storz

Scott

Cheviron

2010

Journal of Experimental Biology

342

343

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SummaryHigh-altitude environments provide ideal testing grounds for investigations of mechanism and process in physiological adaptation. In vertebrates, much of our understanding of the acclimatization response to high-altitude hypoxia derives from studies of animal species that are native to lowland environments. Such studies can indicate whether phenotypic plasticity will generally facilitate or impede adaptation to high altitude. Here, we review general mechanisms of physiological acclimatization and genetic adaptation to high-altitude hypoxia in birds and mammals. We evaluate whether the acclimatization response to environmental hypoxia can be regarded generally as a mechanism of adaptive phenotypic plasticity, or whether it might sometimes represent a misdirected response that acts as a hindrance to genetic adaptation. In cases in which the acclimatization response to hypoxia is maladaptive, selection will favor an attenuation of the induced phenotypic change. This can result in a form of cryptic adaptive evolution in which phenotypic similarity between high-and low-altitude populations is attributable to directional selection on genetically based trait variation that offsets environmentally induced changes. The blunted erythropoietic and pulmonary vasoconstriction responses to hypoxia in Tibetan humans and numerous high-altitude birds and mammals provide possible examples of this phenomenon. When lowland animals colonize high-altitude environments, adaptive phenotypic plasticity can mitigate the costs of selection, thereby enhancing prospects for population establishment and persistence. By contrast, maladaptive plasticity has the opposite effect. Thus, insights into the acclimatization response of lowland animals to high-altitude hypoxia can provide a basis for predicting how altitudinal range limits might shift in response to climate change.

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Section: Erythropoeitic Activitymentioning

confidence: 99%

Phenotypic plasticity and genetic adaptation to high-altitude hypoxia in vertebrates

Storz

Scott

Cheviron

2010

Journal of Experimental Biology

342

343

View full text Add to dashboard Cite

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“…Xiao et al suggested that high altitude hypoxia altered uterine vessels myogenic activity via enhanced oxidative stress (34). Residence at high altitude per se was reported to induce significant elevation of several vasoconstriction relative to vasodilatation mediators (3,18). This effect is apparently more pronounced during pregnancy, with greater levels of certain vasoconstrictor, inhibition of other vasodilator mediators, compared with low-altitude pregnancy.…”

mentioning

confidence: 99%

The effect of high altitude on endothelial and vascular dysfunction markers in preeclamptic patients

So¹,

Suekit²,

Ao³

et al. 2015

Acta Physiologica Hungarica

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Placental hypoxia, a major component of the pathophysiology of preeclampsia, is associated with various maternal vascular and endothelial dysfunctions. The higher incidence of preeclampsia at high altitude remains incompletely explained. The aim of the present study was to investigate the effect of high altitude on some endothelial and vascular dysfunction markers in normal and preeclamptic pregnancies. Eighty pregnant women (Paras 2-4) were enrolled in this study, which included four groups (each n = 20): normal pregnancies at low altitude (NL), normal pregnancies at high altitude (NH), preeclamptic pregnancies at low altitude (PL), and preeclamptic pregnancies at high altitude (PH). In normal pregnancies at high altitude serum ET-1, plasma TXA 2 , and serum TNF-α levels increased significantly with a significant reduction in plasma PGI 2 (66.81 ± 7.36, 122.86 ± 13.37, 102.23 ± 13.31, 191.57 ± 19.68, respectively) compared with the NL group (48.92 ± 4.58, 89.03 ± 10.67, 69.86 ± 7.97, 238.01 ± 24.55, respectively). In preeclampsia at low altitude serum ET-1, plasma TXA 2 , and serum TNF-α levels increased significantly with a significant reduction in plasma PGI 2 (88.39 ± 9.54, 162.73 ± 15.92, 142.39 ± 15.37, 149.155 ± 15.66, respectively) compared with both NL and NH groups. High altitude significantly augmented these changes in preeclamptic patients (117.75 ± 12.96, 211.01 ± 22.69, 196.86 ± 17.64, 111.92 ± 10.74) compared with PL, NH and NL groups. In conclusion hypoxia at high altitude aggravated the disturbances in the levels of ET-1, TXA 2 , PGI 2 and TNF-α associated with preeclampsia. This may contribute to the higher risk of preeclampsia at high altitude.

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“…They found a lowered birth weight at a high altitude than at a moderate altitude, but they reported no significant differences in the Doppler indices of the umbilical and mid-cerebral arteries. Julian et al (13) found no differences at any time in the umbilical or mid-cerebral arteries Doppler flow parameters at low altitude than high altitude. Indeed, the fetus of pregnant sheep acclimatized to long-term hypoxia had similar increases in the cerebral blood flow and cerebral tissue oxygenation to the fetus at a low altitude (26).…”

Section: Discussionmentioning

confidence: 91%

“…Kumtepe et al (8) demonstrated a greater incidence of eclampsia among women living at high altitudes (>1500 m). There are studies in the literature comparing the effect of altitude on maternal and fetal Doppler flow parameters; however, these studies have conflicting results (9)(10)(11)(12)(13)(14)(15). For instance, Galan et al (14) reported no uteroplacental or fetal vascular Doppler velocimetry differences between moderate highlanders and lowlanders, whereas Krampl et al (11) reported a lower impedance of uterine artery blood flow in women living at a high altitude than at the sea level.…”

Section: Introductionmentioning

confidence: 99%

Effects of altitude changes on Doppler flow parameters for uterine, umbilical, and mid-cerebral arteries in term pregnancy: A pilot study

Aksoy

Batmaz

Dane

et al. 2015

J Turkish German Gynecol Assoc

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Objective:We hypothesized that maternal and fetal circulations may be affected by moderately high altitudes. Therefore, we compared the differences in maternal and fetal Doppler flow parameters in women with term pregnancy living at a moderately high altitude (1890 m in Erzurum) with those of women living at the sea level (31 m in İstanbul). Material and Methods:Eighty women (n=40, for each group) with full-term and singleton pregnancies underwent Doppler waveform analysis, and the pulsatility and resistance index values for the uterine, umbilical, and mid-cerebral arteries were recorded. Also, sex, birth, and placental weights during delivery were obtained from the medical records.Results: Similar mean placental weight values were found at the sea level compared with the moderately high altitude (p>0.05). The mean birth weight values were found to be lower at the moderately high altitude than those at the sea level (p<0.05). The pulsatility and resistance index values for the umbilical and mid-cerebral arteries were found to be similar between the groups (p>0.05). However, the pulsatility and resistance index values for both the right and left uterine arteries were higher at the sea level than those at moderately high altitude (p<0.05, for all). Conclusion:Moderately high altitude does not affect fetal vascular Doppler parameters. However, it appears to increase the uterine artery blood flow bilaterally, and these alterations in the bilateral uterine artery blood flow may be associated with a physiological adaptation to high altitude. (J Turk Ger Gynecol Assoc 2015; 16: 237-40) Keywords: Doppler, ultrasound, fetus, altitude, pregnancy Received: 02 July, 2014 Accepted: 30 for the control were enrolled in this study. Initially, the last menstrual period was questioned, and ultrasonographic evaluation was performed to confirm the gestational age and to detect fetal abnormalities. Patients with a body mass index ≥30 kg/m 2 , multiple pregnancies, complicated pregnancies (e.g., preeclampsia, fetal malformation, gestational diabetes mellitus, and placenta praevia), smoking, chronic illnesses (e.g., hypertension, diabetes mellitus), and no certain menstrual history were excluded from the study. Moreover, women were excluded if they were not of the ethnic Turkish background and if they did not permanently reside at the altitude. To minimize the inter-operator variability, all ultrasonographic scans were performed by the same operators at each altitude between 10.00 and 12.00 PM, and three consecutive measurements were calculated in the absence of fetal movements or breathing movements. Ultrasound devices had simultaneous real-time, color-mode, and Doppler-mode capability, and all measurements were performed using the equipment pulse Doppler 5 MHz trans-abdominal probe (Mindray, Schenzen, China and Voluson 730 Pro, GE Healthcare Technologies, Milwaukee, Wisconsin, USA). In all cases, the uterine artery (UA) on each side was visualized at the point just distal to the crossover with the iliac artery. The umbilica...

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Lower uterine artery blood flow and higher endothelin relative to nitric oxide metabolite levels are associated with reductions in birth weight at high altitude

Cited by 100 publications

References 36 publications

Phenotypic plasticity and genetic adaptation to high-altitude hypoxia in vertebrates

Phenotypic plasticity and genetic adaptation to high-altitude hypoxia in vertebrates

The effect of high altitude on endothelial and vascular dysfunction markers in preeclamptic patients

Effects of altitude changes on Doppler flow parameters for uterine, umbilical, and mid-cerebral arteries in term pregnancy: A pilot study

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