Malin Rohdin

Posture primarily affects lung tissue distribution with minor effect on blood flow and ventilation

We used quantitative single photon emission computed tomography to estimate the proportion of the observed redistribution of blood flow and ventilation that is due to lung tissue shift with a change in posture. Seven healthy volunteers were studied awake, breathing spontaneously. Regional blood flow and ventilation were marked using radiotracers that remain fixed in the lung after administration. The radiotracers were administered in prone or supine at separate occasions, at both occasions followed by imaging in both postures. Images showed greater blood flow and ventilation to regions dependent at the time of imaging, regardless of posture at radiotracer administration. The results suggest that a shift in lung parenchyma has a major influence on the imaged distributions. We conclude that a change from the supine to the prone posture primarily causes a change in the vertical distribution of lung tissue. The effect on the vertical distribution of blood flow and ventilation within the lung parenchyma is much less.

Regional lung blood flow and ventilation in upright humans studied with quantitative SPECT

We used quantitative Single Photon Emission Computed Tomography (SPECT) to study the effect of the upright posture on regional lung blood flow and ventilation. Nine (upright) plus seven (prone and supine) healthy volunteers were studied awake, breathing spontaneously. Regional blood flow and ventilation were marked in sitting upright, supine and prone postures using (113m)In-labeled macroaggregates and inhaled Technegas ((99m)Tc); both remain fixed in the lung after administration. All images were obtained while supine. In comparison with horizontal postures, both blood flow and ventilation were greater in caudal regions when upright. The redistribution was greater for blood flow than for ventilation, resulting in decreasing ventilation-to-perfusion ratios down the lung when upright. We conclude that gravity redistributes regional blood flow and ventilation in the upright posture, while the influence is much less in the supine and prone postures.

Protective effect of prone posture against hypergravity-induced arterial hypoxaemia in humans

Patients with acute respiratory distress syndrome have increased lung tissue weight and therefore an increased hydrostatic pressure gradient down the lung. Also, they have a better arterial oxygenation in prone (face down) than in supine (face up) posture. We hypothesized that this effect of the direction of gravity also existed in healthy humans, when increased hydrostatic gradients were induced by hypergravity. Ten healthy subjects were studied in a human centrifuge while exposed to 1 or 5 G in anterio‐posterior (supine) or posterio‐anterior (prone) direction. We measured blood gases using remote‐controlled sampling and gas exchange by mass spectrometry. Hypergravity led to marked impairments of arterial oxygenation in both postures and more so in supine posture. At 5 G, the arterial oxygen saturation was 84.6 ± 1.2 % (mean ±s.e.m.) in supine and 89.7 ± 1.4 % in prone posture (P < 0.001 for supine vs. prone). Ventilation and alveolar PO2 were increased at 5 G and did not differ between postures. The alveolar‐to‐arterial PO2 difference increased at 5 G to 8.0 ± 0.2 kPa and 6.6 ± 0.3 kPa in supine and prone postures (P= 0.003). Arterial oxygenation was less impaired in prone during hypergravity due to a better‐preserved alveolo‐arterial oxygen transport. We speculate that mammals have developed a cardiopulmonary structure that favours function with the gravitational vector in the posterio‐anterior direction.

Bronchopulmonary dysplasia: clinical grading in relation to ventilation/perfusion mismatch measured by single photon emission computed tomography.

Bronchopulmonary dysplasia (BPD) is a significant cause of morbidity in the preterm population. Clinical severity grading based on the need for supplemental oxygen and/or need for positive airway pressure at 36 weeks postmenstrual age does not yield reproducible predictive values for later pulmonary morbidity. Single photon emission computed tomography (SPECT) was used to measure the distribution of lung ventilation (V) and perfusion (Q) in 30 BPD preterm infants at a median age of 37 weeks postmenstrual age. The V and Q were traced with 5 MBq Technegas and Technetium‐labeled albumin macro aggregates, respectively, and the V/Q match–mismatch was used to quantify the extent of lung function impairment. The latter was then compared with the clinical severity grading at 36 weeks, and time spent on mechanical ventilation, continuous positive airway pressure (CPAP) and supplemental oxygen. Of those with mild and moderate BPD 3/9 and 3/11 patients, respectively, showed significant V/Q mismatches. By contrast, 4/10 patients with severe BPD showed a satisfactory V/Q matching distribution. An unsatisfactory V/Q match was not correlated with time spent on supplemental oxygen or CPAP, but was significantly negatively correlated with time spent on mechanical ventilation. SPECT provides unique additional information about regional lung function. The results suggest that the current clinical severity grading can be improved and/or complemented with SPECT. Pediatr Pulmonol. 2013; 48:1206–1213.

Novel alterations in the epigenetic signature of MeCP2-targeted promoters in lymphocytes of Rett syndrome patients.

Rett syndrome (RTT) is a neurodevelopmental disorder with neurological symptoms, such as motor disorders and mental retardation. In most cases, RTT is caused by mutations in the DNA binding protein MeCP2. In mice, MeCP2 gene deletion has been reported to result in genome-wide increased histone acetylation. Transcriptional regulation of neurotrophic factor BDNF and transcription factor DLX5, essential for proper neurogenesis, is further altered in MeCP2-deleted animals. We therefore investigated the chromatin environment of MeCP2 target genes BDNF and DLX5 in lymphocytes from RTT patients and human controls, and analyzed the density of histones H3, H2B and H1, as well as the levels of methylation and acetylation on selected lysines of histone H3. Notably, we found a general increase in the density of histone H3 in RTT patients’ lymphocytes compared with controls, and decreased levels of trimethylation of lysine 4 on histone H3 (H3K4me3), a modification associated with transcriptional activation. The levels of acetylation of lysine 9 (H3K9ac) and 27 (H3K27ac) did not show any statistically significant changes when normalized to the decreased histone H3 levels; nevertheless, an average decrease in acetylation was noted. Our results reveal an unexpected alteration of the chromatin state of established MeCP2 target genes in lymphocytes of human subjects with RTT.

A technique for lung ventilation–perfusion Spect in neonates and infants

BackgroundSingle photon emission tomography (SPECT) of the lung is a well-established non-invasive technique for quantitative assessment of regional lung ventilation and perfusion distribution in children and in adults. However, its application in neonates as well as infants has been scarce because of several practical limitations, such as the trade off between image quality and restricted effective radiation doses and the lack of suitable inhalations agents and administration techniques. MethodsIn this paper, a new technique for quantitative regional lung SPECT based on a passive Technegas administration procedure is described and clinically applied. The first clinical findings in neonates are reported. ResultsThis technique overcomes some of the limitations of commercial ventilation systems by making patient compliance unnecessary, avoiding difficult breathing manoeuvres and by minimizing both facemask dead space and inspiratory–expiratory resistance. ConclusionThis technique satisfies requirements for routine applications in neonates, infants and even older patients and has a potential use also for mechanically ventilated patients. It has the potential to allow a more precise functionally oriented diagnosis, which is of importance for treatment and follow-up in patients with severe lung diseases.

Central command and metaboreflex cardiovascular responses to sustained handgrip during microgravity

Four subjects were studied before and during a 16-day space flight. The test included 2min of rest, 2min of sustained handgrip (SHG), and 2min of post-exercise circulatory occlusion (PECO). Heart rate (HR) and mean arterial pressure (MAP) responses to central command and mechanoreceptor stimulation were determined from the difference between SHG and PECO. Responses to metaboreceptor stimulation were determined from the difference between PECO and rest. Late in-flight (days 12-14) the central command/mechanoreceptor component of the HR response was reduced by 5bpm (P=0.01) from its pre-flight value of 15 (+/-3)bpm (mean (+/-SEM)). At the same time the metaboreflex responses of HR and MAP were unchanged. The attenuated HR response to central command was likely of baroreflex origin. Together with a parallel study of PECO after dynamic leg exercise, our data indicate that central processing of metaboreflex inputs is unchanged in microgravity whereas metaboreflex inputs from weight-bearing muscles are enhanced.