A Case Report on Kawasaki Disease

Kawasaki disease is a vascular and self-limiting disease mainly effecting small to medium sized vessel. Mostly affecting the children of less than 5 years. Most of the patients has a genetic predisposition. Genetically susceptible individuals exposed to infectious agents/ environmental trigger may develop Kawasaki disease. Clinical presentations are fever, polymorphous rashes along the trunk, strawberry tongue, swollen lymph nodes around neck. Skin of palms and soles can be swollen and red. Lips are cracked, red and dry. A 7 year old male patient was brought to emergency department with Scarlett fever, dry lips, Thickening of palmar skin, Itching. Patient was shifted to pediatrics department and was provided with adequate treatment. Keywords: Kawasaki disease, Genetically susceptible, Strawberry tongue, polymorphous rashes.

Eyes Closing and Drowsiness in Human Subjects Decrease Baseline Galvanic Skin Response and Active Palmar Sweating: Relationship Between Galvanic Skin and Palmar Perspiration Responses

We previously constructed a perspiration ratemeter for the measurement of palmar sweating in human subjects. Although galvanic skin response (GSR) has been used to evaluate emotional responses in human subjects, little is known about the relationships between the phasic and baseline components in GSR and active palmar sweating. From the aforementioned, we aimed to investigate the relationships in human subjects with handgrip exercise and eyes closing or opening. Fifteen healthy volunteers (mean age: 26.9 ± 8.7 years) participated in the present experiments. We investigated the effects of maximal handgrip exercise, eyes closing or opening, and self-awareness of drowsy on the GSR, active palmar sweating, R-R interval in electrocardiograph (ECG), and percentage of α wave in EEG. The faster phasic component in GSR completely agreed with the starting point of active palmar sweating. Handgrip exercise induced significantly faster spike in GSR, active palmar sweating, and decrease in R-R interval in ECG. Eyes closing produced significant decreases in baseline GSR and active palmar sweating in all human subjects. The percentage of α wave in electroencephalograph (EEG) also increased. In contrast, eyes opening increased significantly the baseline GSR and active palmar sweating. In the equivalent electrical model of human skin, the eyes closing–mediated time-dependent decrease in the baseline GSR completely agreed with the hypothesis that the palmar skin voltage only in the model decreased time dependently to 0.4 of the control during 6 min. The self-awareness of drowsy in mid-night working with computer produced similar decreases in baseline GSR and active palmar sweating to the responses with eyes closing in all human subjects. In conclusion, the faster spike in GSR completely agreed with the starting point of active palmar sweating. Eyes closing and opening or self-awareness of drowsy significantly produced changes in baseline GSR and active palmar sweating, which may become useful tools for evaluating clearness or drowsiness in human subjects.

Tactile innervation densities across the whole body

The skin is our largest sensory organ and innervated by afferent fibers carrying tactile information to the spinal cord and onto the brain. The density with which different classes of tactile afferents innervate the skin is not constant but varies considerably across different body regions. However, precise estimates of innervation density are only available for some body parts, such as the hands, and estimates of the total number of tactile afferent fibers are inconsistent and incomplete. Here we reconcile different estimates and provide plausible ranges and best estimates for the number of different tactile fiber types innervating different regions of the skin, using evidence from dorsal root fiber counts, microneurography, histology, and psychophysics. We estimate that the skin across the whole body of young adults is innervated by ∼230,000 tactile afferent fibers (plausible range: 200,000–270,000), with a subsequent decrement of 5–8% every decade due to aging. Fifteen percent of fibers innervate the palmar skin of both hands and 19% the region surrounding the face and lips. Slowly and fast-adapting fibers are split roughly evenly, but this breakdown varies with skin region. Innervation density correlates well with psychophysical spatial acuity across different body regions, and, additionally, on hairy skin, with hair follicle density. Innervation density is also weakly correlated with the size of the cortical somatotopic representation but cannot fully account for the magnification of the hands and the face.

Tactile innervation densities across the whole body

The skin is our largest sensory organ and innervated by afferent fibers carrying tactile information to the spinal cord and onto the brain. The density with which different classes of tactile afferents innervate the skin is not constant but varies considerably across different body regions. However, precise estimates of innervation density are only available for some body parts, such as the hands, and estimates of the total number of tactile afferent fibers are inconsistent and incomplete. Here we reconcile different estimates and provide plausible ranges and best estimates for the number of different tactile fiber types innervating different regions of the skin, using evidence from dorsal root fiber counts, microneurography, histology, and psychophysics. We estimate that the skin across the whole body is innervated by approximately 230,000 tactile afferent fibers (plausible range: 200,000-270,000). 15% innervate the palmar skin of both hands and 19% the region surrounding the face and lips. Around 60% of all tactile fibers are slowly-adapting, while the rest are fastadapting. Innervation density correlates well with psychophysical spatial acuity across different body regions, and additionally, on hairy skin, with hair follicle density. Innervation density is also weakly correlated with the size of the cortical somatotopic representation, but cannot fully account for the magnification of the hands and the face.

Morphophysiological characteristics of skin microcirculation types in patients with Dupuytren’s contracture

Aim– to investigate the patterns of cutaneous microcirculation and their relationship with structural vascular changes in palmar hypoderm in patients with Dupuytren’s disease.Material and methods. In 26 patients with Dupuytren’s contracture aged between 45 and 70 years, the microcirculation of palmar skin was assessed before the planned surgical treatment using ultrasound pulsed Doppler (Minimax-Doppler K, SP Minimax, St. Petersburg, Russia) with a high-frequency sensor of 20 MHz and laser Doppler flowmetry (BLF21, Transonic Systems Inc., USA). The local 3-minute arterial ischemic test was performed in all patients by putting the occlusion cuff on the forearm. Histological analysis of intra-operative tissue specimens was done using light microscopy (Carl Zeiss Primo Star microscope with 3.1 MP UCMOS video camera) MicroCapture Ver 6.6 program was used for data acquisition.Results. The normocirculatory type of hemodynamics (1) was found in 17 % of observations; hyperemic (2) – in 19 %, congestive-spastic (3) – in 42 %, and congestive-static (4) – in 21 %. Histologically type 1 was characterized with initial signs of constrictive arterial remodeling and capillary occlusion, 2 – with marked hyperemia of the microcirculatory bed and diapedesis of blood cells, inflammatory perivascular infiltrates, 3 – with significant narrowing and deformations of lumens in small arteries and hyalinosis of arterioles, 4 – with pronounced polymorphism of capillary loops, significant changes in arteries and veins.Discussion. Hyperemic type of microcirculation reflects high activity of autoimmune inflammation. Congestic-spastic type indicates a significant decrease in the reactivity of precapillary microvessels. Congestic-stasic type is accompanied by the most pronounced constrictive vascular remodeling and denervation of the vascular bed.Conclusion. Dupuytren’s contracture is characterized with predominance of pathological types of microcirculation in palmar skin, which must be taken into account in individualized protocols of additive therapy.

Unilateral Palmar Callus and Irritant Hand Eczema – Underreported Signs of Dependency on Crutches

Leg amputees who can’t use prostheses and patients with arthritis are often dependent on crutches. Their chronic use can exert significant friction forces. The palmar skin will respond by forming a hyperkeratotic callus. We report for the first time unilateral palmar callus formation caused by friction from using crutches. Another possible adverse effect is the triggering of irritant contact dermatitis by the handholes of crutches. We report two cases with hand dermatitis due to the chronic dependence on crutches and discuss treatment options.

Acute Effects of Tai Chi Training on Cognitive and Cardiovascular Responses in Late Middle-Aged Adults: A Pilot Study

This study explored the immediate effects of Tai Chi (TC) training on attention and meditation, perceived stress level, heart rate, oxygen saturation level in blood, and palmar skin temperature in late middle-aged adults. Twenty TC practitioners and 20 nonpractitioners volunteered to join the study. After baseline measurements were taken, the TC group performed TC for 10 minutes while their cognitive states and cardiovascular responses were concurrently monitored. The control group rested for the same duration in a standing position. Both groups were then reassessed. The participants’ attention and meditation levels were measured using electroencephalography; stress levels were measured using Perceived Stress Scale; heart rate and blood oxygenation were measured using an oximeter; and palmar skin temperature was measured using an infrared thermometer. Attention level tended to increase during TC and dropped immediately thereafter (p<0.001). Perceived stress level decreased from baseline to posttest in exclusively the TC group (p=0.005). Heart rate increased during TC (p<0.001) and decreased thereafter (p=0.001). No significant group, time, or group-by-time interaction effects were found in the meditation level, palmar skin temperature, and blood oxygenation outcomes. While a 10-minute TC training could temporarily improve attention and decrease perceived stress levels, it could not improve meditation, palmar skin temperature, or blood oxygenation among late middle-aged adults.