The skin and intestine are active organs of the immune system that are constantly exposed to the outside environment. They support diverse microbiota, both commensal and pathogenic, which encompass bacteria, viruses, fungi, and parasites. The skin and intestine must maintain homeostasis with the diversity of commensal organisms present on epithelial surfaces. Here we review the current literature pertaining to epithelial barrier formation, microbial composition, and the complex regulatory mechanisms governing the interaction between the innate immune system and microbiota in the skin and intestine. We also compare and contrast the skin and intestine-two different organ systems responsible creating a protective barrier against the external environment, each of which has unique mechanisms for interaction with commensal populations and host repair.
[Purpose] The purpose of this study was to confirm the effect of robot-assisted gait
training on the balance and gait ability of stroke patients who were dependent ambulators.
[Subjects and Methods] Twenty stroke patients participated in this study. The participants
were allocated to either group 1, which received robot-assisted gait training for 4 weeks
followed by conventional physical therapy for 4 weeks, or group 2, which received the same
treatments in the reverse order. Robot-assisted gait training was conducted for 30 min, 3
times a week for 4 weeks. The Berg Balance Scale, Modified Functional Reach Test,
Functional Ambulation Category, Modified Ashworth Scale, Fugl-Meyer Assessment, Motricity
Index, and Modified Barthel Index were assessed before and after treatment. To confirm the
characteristics of patients who showed a significant increase in Berg Balance Scale after
robot-assisted gait training as compared with physical therapy, subgroup analysis was
conducted. [Results] Only lateral reaching and the Functional Ambulation Category were
significantly increased following robot-assisted gait training. Subscale analyses
identified 3 patient subgroups that responded well to robot-assisted gait training: a
subgroup with hemiplegia, a subgroup in which the guidance force needed to be decreased to
needed to be decreased to ≤45%, and a subgroup in which weight bearing was decreased to
≤21%. [Conclusion] The present study showed that robot-assisted gait training is not only
effective in improving balance and gait performance but also improves trunk balance and
motor skills required by high-severity stroke patients to perform activities daily living.
Moreover, subscale analyses identified subgroups that responded well to robot-assisted
gait training.
The increasing temperature in Arctic tundra deepens the active layer, which is the upper layer of permafrost soil that experiences repeated thawing and freezing. The increasing of soil temperature and the deepening of active layer seem to affect soil microbial communities. Therefore, information on soil microbial communities at various soil depths is essential to understand their potential responses to climate change in the active layer soil. We investigated the community structure of soil bacteria in the active layer from moist acidic tundra in Council, Alaska. We also interpreted their relationship with some relevant soil physicochemical characteristics along soil depth with a fine scale (5 cm depth interval). The bacterial community structure was found to change along soil depth. The relative abundances of Acidobacteria, Gammaproteobacteria, Planctomycetes, and candidate phylum WPS-2 rapidly decreased with soil depth, while those of Bacteroidetes, Chloroflexi, Gemmatimonadetes, and candidate AD3 rapidly increased. A structural shift was also found in the soil bacterial communities around 20 cm depth, where two organic (upper Oi and lower Oa) horizons are subdivided. The quality and the decomposition degree of organic matter might have influenced the bacterial community structure. Besides the organic matter quality, the vertical distribution of bacterial communities was also found to be related to soil pH and total phosphorus content. This study showed the vertical change of bacterial community in the active layer with a fine scale resolution and the possible influence of the quality of soil organic matter on shaping bacterial community structure.
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