Structural and Functional Development of the Respiratory System in a Newborn Marsupial with Cutaneous Gas Exchange

Simpson, Shannon J.; Flecknoe, Sharon Jayne; Clugston, Robin D.; Greer, John J.; Hooper, Stuart B.; Frappell, Peter B.

doi:10.1086/662557

Cited by 23 publications

(50 citation statements)

References 52 publications

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“…Ventilatory and metabolic responses to inspired gases (air, hypercapnia, hypoxia) were measured in fat-tailed dunnart, Sminthopsis crassicaudata (Gould 1844), pouch young in different individuals at P0 (the day of birth) (N12, 6, 4), P5 (N7, 4, 4), P12 (N9, 6, 5) and P23 (N9, 4, 5) using a closed respirometry system as previously described (Frappell et al, 1989;Simpson et al, 2011). Briefly, an animal was masked and placed into a waterjacketed chamber maintained at a constant temperature of 36°C (pouch temperature) and 100% relative humidity, the chamber effectively separating the head and body.…”

Section: Methodsmentioning

confidence: 99%

“…When analysing V E , at least 50 consecutive breaths were analysed for tidal volume (V T ), inspiratory time (T I ), expiratory time (T E ), post-inspiratory pause (T P ; note that T P is fractional to T E because it represents the passivestatic component of T E , achieved with closed glottis), total breath time (T TOT T I +T E ), respiratory frequency (f60/T TOT ), mean inspiratory flow (V T /T I ), duty cycle (T I /T TOT ) and minute ventilation (V E V T xf). V E in P0 animals displayed marked instability with prolonged apnoea (Simpson et al, 2011); therefore, all recorded breaths were analysed in these animals. Animals in which V E was not discernible were not included in the analysis.…”

Section: Methodsmentioning

confidence: 99%

“…Where a ventilatory pattern was detected, breathing was generally accompanied by extended periods of apnoea, such that breathing may not have been observed again for the remainder of the measurement period. By P5, the continuously expressed breathing pattern was characterised by a post-inspiratory pause, together with frequent augmented breaths, or sighs [see Simpson et al (Simpson et al, 2011) for representative breathing traces]. There were some periods of instability, as indicated by the coefficients of variation for T TOT and V T being 11% and 45% respectively.…”

Section: Development Of the Breathing Pattern In Airmentioning

confidence: 99%

“…However, in some marsupials, such as the newborn fat-tailed dunnart (body mass 13mg), the skin is almost solely responsible for gas exchange, with discernible respiratory efforts generally absent on the day of birth (Mortola et al, 1999;Simpson et al, 2011). A central rhythm generator and sufficiently mature respiratory motoneurones and muscles are essential for coordinated ventilation to occur at birth (Feldman et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

“…In the fattailed dunnart, phrenic motoneurons have made contact with the diaphragm at birth, yet continuous breathing does not occur until P3 (Frappell and MacFarlane, 2006;Simpson et al, 2011). If the central pattern generator(s) of the fat-tailed dunnart fires rhythmically, as in the opossum, then there may be an insufficient inspiratory drive, preventing the emergence of normal breathing.…”

Section: Introductionmentioning

confidence: 99%

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The ventilatory response to hypoxia and hypercapnia is absent in the neonatal fat-tailed dunnart

Simpson

Fong

Cummings

et al. 2012

Journal of Experimental Biology

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SUMMARYAt birth, the newborn fat-tailed dunnart relies on cutaneous gas exchange to meet metabolic demands, with continuous lung ventilation emerging several days later. We hypothesised that the delayed expression of lung ventilation (V E ) in these animals is in part due to a low responsiveness of the respiratory control system to blood gas perturbations. To address this hypothesis, we assessed the ventilatory and metabolic response to hypoxia (10% O 2 ) and hypercapnia (5% CO 2 ) using closed-system respirometry from birth to 23days postpartum (P). Neonatal fat-tailed dunnarts displayed no significant hypoxic or hypercapnic ventilatory responses at any age. Regardless, significant hyperventilation through a suppression of metabolic rate (V O2 ) was observed at birth in response to hypercapnia and in response to hypoxia at all ages, except P12. Therefore, reliance on cutaneous gas exchange during early life may be partially attributed to reduced chemosensitivity or a lack of central integration of chemosensitive afferent information. This may be in part due to the relative immaturity of this species at birth, compared with other mammals.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Development Of the Breathing Pattern In Airmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

The ventilatory response to hypoxia and hypercapnia is absent in the neonatal fat-tailed dunnart

Simpson

Fong

Cummings

et al. 2012

Journal of Experimental Biology

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Adaptations of the Marsupial Newborn: Birth as an Extreme Environment

Smith

Keyte

2019

The Anatomical Record

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At birth a mammalian neonate enters an extreme environment compared to the intrauterine environment in which it has grown. This transition may be particularly extreme in marsupials because they are born at an exceedingly altricial state, after an exceptionally short gestation. Their stage of development must be considered embryonic by almost any criteria. Yet at this very early stage of development marsupials must travel to the teat, attach and suckle, and have basic functioning of all major physiological systems. In this article, we review the adaptations of the marsupial neonate for survival at an embryonic state, showing that the neonate exhibits a mosaic of accelerations and delays of various tissues and organs as well as several special adaptations to produce the functioning newborn. We then discuss the development of the craniofacial region, the body axis and limbs in order to detail some of the major changes to development leading to this uniquely configured neonate. We show that marsupial development arises out of a variety of heterochronies (changes in relative timing of events) and heterotopies (changes in location of specific developmental events) at the genetic, cellular and organ level. We argue that these data support hypotheses that many of the specific patterns seen in marsupial development arise from the basic constraint of embryonic energetic and tissue resources. Finally ideas on the evolutionary context of the marsupial developmental strategy are briefly reviewed.

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Early postnatal lung development in the eastern quoll (Dasyurus viverrinus)

Ferner

2021

The Anatomical Record

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Early postnatal lung development (1-25 days) in the eastern quoll (Dasyurus viverrinus) was investigated to assess the morphofunctional status of one of the most immature marsupial neonates. Lung volume, surface density, surface area, and parenchymal and nonparenchymal volume proportions were determined using light microscopic morphometry. The lungs of the neonate were at the canalicular stage and consisted of two "balloon-like" airways with few septal ridges. The absolute volume of the lung was only 0.0009 cm 3 with an air space surface density of 108.83 cm −1 and a surface area of 0.082 cm 2 . The increase in lung volume in the first three postnatal days was mainly due to airspace expansion. The rapid postnatal development of the lung was indicated by an increase in the septal proportion of the parenchyma around day 4, which was reflected by an increase in the airspace surface density and surface area.By day 5, the lung entered the saccular stage of development with a reduction in septal thickness, expansion of the tubules into saccules and development of a double capillary system. The subsequent saccular period was characterized by repetitive septation steps, which increased the number of airway generations. The lungs of the newborn Dasyurus viverrinus must be considered as structurally and quantitatively insufficient to meet the respiratory requirements at birth. Hence, cutaneous gas exchange might be crucial for the first three postnatal days. The lung has to mature rapidly in the early postnatal period to support the increased metabolic requirements of the developing young.

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Structural and Functional Development of the Respiratory System in a Newborn Marsupial with Cutaneous Gas Exchange

Cited by 23 publications

References 52 publications

The ventilatory response to hypoxia and hypercapnia is absent in the neonatal fat-tailed dunnart

The ventilatory response to hypoxia and hypercapnia is absent in the neonatal fat-tailed dunnart

Adaptations of the Marsupial Newborn: Birth as an Extreme Environment

Early postnatal lung development in the eastern quoll (Dasyurus viverrinus)

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