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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT06405282
Other study ID # 2022-124
Secondary ID
Status Completed
Phase
First received
Last updated
Start date April 14, 2022
Est. completion date June 25, 2022

Study information

Verified date May 2024
Source Nova Southeastern University
Contact n/a
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

In the weightlessness of space and significant alterations of terrestrial 1 g (1 gravity equivalent) head-to-foot hydrostatic pressure gradients, astronauts experience a dramatic fluid redistribution of ~ 2 liters from the legs to the head and neck within the first 24-48 hours of flight, among other cardiovascular and physiologic system adaptations. After only 4 days in the weightlessness of low earth orbit (LEO), changes can be seen in baroreceptor responsiveness, causing orthostatic hypotension upon subsequent return to Earth. Fluid shifts may also result in headaches, congestion or facial puffiness that can contribute to deteriorating sleep patterns. The ability to manage, mitigate, or offset these fluid shifts is vital to maintain nominal health for short and long duration space flight and potentially improve readaptation to terrestrial gravity or other surface gravity fields, such as the moon or Mars. Fluid shifts towards the cephalic region during microgravity have been speculated to contribute towards spaceflight associated neuro-ocular syndrome (SANS). SANS is a distinct, microgravity-induced phenomenon of neuro-ophthalmic findings observed in astronauts following long-duration spaceflight including choroidal folds, optic disc edema, posterior globe flattening, refractive shift, and cerebral fluid shifts noted to be persistent at 6-month post-flight MRI scans. Thus, noninvasive approaches to studying real-time fluid shifts in weightlessness could serve as critical areas of research to further SANS study and effective countermeasure protocol development. For continuous fluid shift monitoring and management, the goal is to establish baseline assessments utilizing real-time point- of-care noninvasive imaging devices (NIID). Manual lymphatic drainage (MLD) therapy reduces lymphatic fluid in the affected limb, head, and neck to improve function and prevent progression of fluid build-up. MLD is a therapeutic massage that delivers light pressure through the skin to stimulate lymphatic vessel function. Randomized controlled trials have demonstrated statistically significant improvements in lymphatic function and pain following MLD. The main objectives of this pilot, retrospective study were to use NIID to examine temperature differential alterations, superficial venous flow patterns (head, neck, upper torso), and venous flow patterns along the lymphatic ventromedial bundles of the medial calves and thighs when in the 6-degree head down tilt (HDT) validated space analogue position and to analyze the effect of MLD therapy administered in the HDT position on lymphatic flow and temperature. HDT is the best validated space analogue currently available for evaluation of fluid redistribution in a timely manner.


Description:

Under the influence of standard developmental physiology on the Earth's surface (1 g), 70% of body fluids reside below the level of the heart. The lymphatic system has the capacity and capability to transport fluid from distal to proximal in an upward manner, against gravity and tissue pressure gradients, via lymphangion contractility, leg muscle contraction, respiratory and chest wall function, thus augmenting a "suction effect" for pumping lymphatic fluid within the subatmospheric pressure tissue distribution zones (the Guyton principle). Lymphatic drainage of the head and neck must be assisted by gravity, since these regions are above the level of the heart. In the weightlessness of space and significant alterations of terrestrial 1 g head-to-foot hydrostatic pressure gradients, astronauts experience a dramatic fluid redistribution of ~ 2 liters from the legs to the head and neck within the first 24-48 hours of flight, among other cardiovascular and physiologic system adaptations. After only 4 days in the weightlessness of LEO, changes can be seen in baroreceptor responsiveness, causing orthostatic hypotension upon subsequent return to Earth. Fluid shifts may also result in headaches, congestion, or facial puffiness that can contribute to deteriorating sleep patterns. The ability to manage, mitigate, or offset these fluid shifts is vital to maintain nominal health for short and long duration space flight and potentially improve readaptation to terrestrial gravity or other surface gravity fields, such as the moon or Mars. Fluid shifts towards the cephalic region during microgravity have been speculated to contribute towards spaceflight associated neuro-ocular syndrome (SANS). SANS is a distinct, microgravity-induced phenomenon of neuro-ophthalmic findings observed in astronauts following long-duration spaceflight including choroidal folds, optic disc edema, posterior globe flattening, refractive shift, and cerebral fluid shifts noted to be persistent at 6-month post-flight MRI scans. Thus, noninvasive approaches to studying real-time fluid shifts in weightlessness could serve as critical areas of research to further SANS study and effective countermeasure protocol development. For continuous fluid shift monitoring and management, the goal is to establish baseline assessments utilizing real-time point-of-care NIID. MLD therapy reduces lymphatic fluid in the affected limb, head, and neck to improve function and prevent progression of fluid build-up. MLD is a therapeutic massage that delivers light pressure through the skin to stimulate lymphatic vessel function. Randomized controlled trials have demonstrated statistically significant improvements in lymphatic function and pain following MLD. The main objectives of this pilot, retrospective case series were to use 4 standard-of-care NIIDs to examine temperature differential alterations, superficial venous flow patterns (head, neck, upper torso), and venous flow patterns along the lymphatic ventromedial bundles of the medial calves and thighs when in the 6-degree HDT space analogue position and to analyze the effect of MLD therapy administered in the HDT position on lymphatic flow and temperature. We hypothesize that dermal venous and lymphatic flow patterns of the head, neck, upper torso, and ventromedial bundle flow patterns shifted to cephalad (dermal interstitial fluid increase) and were reversed following MLD therapy in the 6-degree HDT position. More specifically, MLD therapy could alter lymphatic contractility flow patterns and interstitial fluid, in addition to temperature differentials, in the 6-degree HDT position. The following imaging devices were used to measure fluid redistribution and temperature in the HDT: near-infrared spectroscopy imaging device (SnapShotNIR, Kent Imaging, Calgary, Canada) to capture perfusion changes through and superficial oxygenation saturation measurements; long-wave infrared and wound imaging device (WoundVision Scout, WoundVision, Indianapolis, IN) to capture thermal images measuring physiological temperature differentiation; Lymphatic fluid scanning device (LymphScanner, Delfin Technologies, Miami, FL, USA) to measure percentage water content [tissue dielectric constant (TDC)] consistent with lymphatic flow patterns and interstitial fluid alterations related to positioning.


Recruitment information / eligibility

Status Completed
Enrollment 15
Est. completion date June 25, 2022
Est. primary completion date June 25, 2022
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 18 Years to 45 Years
Eligibility Inclusion Criteria: - Students at Nova Southeastern University - Aged 18-45 years - Body Mass Index ranging from 18.5 to 24.9 - No known lymphatic dysfunction - Written informed consent Exclusion Criteria: - On blood pressure medications - On vasodilation medications - Uses any form of nicotine

Study Design


Related Conditions & MeSH terms


Intervention

Other:
Manual Lymphatic Drainage
MLD is a gentle manual technique used to decongest swollen areas and redirect lymphatic flow to non-congested areas
Device:
Near infrared spectroscopy
Oxygen saturation measurement
Temperature
Thermal imaging
Tissue Dialectic Constant
TDC captured by lymphatic fluid scanning device

Locations

Country Name City State
United States Nova Southeastern University Fort Lauderdale Florida

Sponsors (1)

Lead Sponsor Collaborator
Nova Southeastern University

Country where clinical trial is conducted

United States, 

References & Publications (2)

Debiec-Bak A, Skrzek A , Prof, Wozniewski M , Prof, Malicka I. Using Thermography in the Diagnostics of Lymphedema: Pilot Study. Lymphat Res Biol. 2020 Jun;18(3):247-253. doi: 10.1089/lrb.2019.0002. Epub 2019 Nov 19. — View Citation

Michel CC. Starling: the formulation of his hypothesis of microvascular fluid exchange and its significance after 100 years. Exp Physiol. 1997 Jan;82(1):1-30. doi: 10.1113/expphysiol.1997.sp004000. No abstract available. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Percent change (%) in TDC level from baseline TDC is a measurement of local tissue water content. The lymphatic fluid scanner will assess TDC levels at the timepoints listed below. The outcome measure is the percent change in these levels to assess change in interstitial fluid in simulated microgravity; the unit is percentage. Baseline, post-30 minutes, post-60 minutes, post-90 minutes, post-120 minutes, post-150 minutes, post-180 minutes, post-195 minutes (post-MLD), and post-225 minutes (30-minutes-post-MLD)
Primary Percent change (%) in tissue oxygenation saturation level from baseline Tissue oxygenation saturation is an indicator of perfusion changes. NIRS will assess tissue oxygenation at the timepoints listed below. The outcome measure is the percent change in these levels to assess perfusion changes in simulated microgravity; the unit is percentage. Baseline, post-30 minutes, post-60 minutes, post-90 minutes, post-120 minutes, post-150 minutes, post-180 minutes, post-195 minutes (post-MLD), and post-225 minutes (30-minutes-post-MLD).
Primary Percent change (%) in tissue temperature gradient from baseline Tissue temperature gradient measures the change in temperature at an area of interest compared to surrounding tissues. Fluid shifts are associated with tissue temperature alterations. LWIT will assess the tissue temperature gradient at the timepoints listed below. The outcome measure is the percent change in temperature gradients to assess changes in thermal energy at an area of interest in simulated microgravity; the unit is percentage. Baseline,post-30 minutes, post-60 minutes, post-90 minutes, post-120 minutes, post-150 minutes, post-180 minutes, post-195 minutes (post-MLD), and post-225 minutes (30-minutes-post-MLD).
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