Chilblains, also known as perniosis, is a non-freezing cold injury causing painful inflammatory skin lesions. Chilblains typically affect the dorsal feet or hands, causing inflammatory skin lesions that are often painful, and their pathogenesis remains only partly understood. To improve diagnosis and management, it is vital to focus entirely on chilblains and consider the patient-related and environmental factors that characterize this disorder. Because of this, it's critical to investigate the thermoregulatory function, of individuals with idiopathic chilblains while they are exposed to various environmental conditions (cold and neutral environments).
The participants will visit the laboratory three times. The environmental scenarios were randomly allocated for each participant. The three different environments will be as follows: 1. Thermoneutral environment 22-24°C and 40-50% relative humidity for 15 minutes. 2. Thermoneutral environment of 22-24°C and 40-50% relative humidity, the temperature within the chamber was decreased by 4 degrees every 20 minutes. 3. Thermoneutral environment of 22-24°C and 40-50% relative humidity, the temperature within the chamber was decreased by 4 degrees every 20 minutes. After 80 minutes (the chamber's temperature will be 10°C and 40-50% relative humidity), the investigators increased the chamber temperature to 22-24 °C and 40-55% relative humidity, and the participants remained in the same sitting position for 20 minutes. All participants had antinuclear antibodies blood testing for a suspected autoimmune disease such as lupus, rheumatoid arthritis, or scleroderma. Participants were provided blood (C-reactive protein and serum Cortisol) before, immediately after, and 24 hours after each trial and urine samples before and following the trials. Anthropometric data \[self-reported age, self-reported body stature, and body mass (DXA, Lunar, GE Healthcare Boston, Massachusetts, U.S.)\] will be collected at the beginning of the first visit. Investigators recorded the medical history of all the participants. During the study, continuous heart rate and heart rate variability (Polar Team2. Polar Electro Oy, Kempele, Finland), core temperature (telemetric capsules BodyCap, Caen, France), mean skin temperature (wireless thermistors iButtons type DS1921H, Maxim/Dallas Semiconductor Corp., USA), finger temperature, skin blood flow (laser Doppler flow-meter PeriFlux System 5010, Stockholm, Sweden), and tissue oxygenation changes (Near-Infrared Spectroscopy, PortaLite mini, Artinis Medical Systems, Zetten, Netherlands) will be collected. Skin temperature data collected from seven sites (forehead, arm, thigh, hand, foot, tibialis anterior, navel) and will be expressed as mean skin temperature according to the formula of Hardy/Bubois (Tsk = \[0.7 (forehead) + 0.14 (arm) + 0.05 (hand) + 0.07 (foot) + 0.13 (tibialis anterior) + 0.19 (thigh) + 0.35 (navel)\]. Hydration status was assessed using a handheld refractometer (ATAGO Ltd, Tokyo, Japan) and determined as either euhydrated (USG \< 1.020) or dehydrated (USG ≥ 1.020) according to the current guidelines. Questionnaires (thermal sensation scale: -3 = cold; +3 = hot) assessed participants' thermal comfort/sensation and pain.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
16
Investigation of vasomotion of people with and without idiopathic chilblains
FAME Lab, Department of Exercise Science, University of Thessaly Tríkala, Thessaly, Greece, 42100
Trikala, Greece
Heart rate
Heart rate were continuously monitored using a Polar Team system (Polar® Team 2, Polar Electro Oy, Kempele, Finland
Time frame: 1 hour and 35 minutes (trial without rewarming), 1 hour and 55 minutes (trial with rewarming)
Heart rate variability
Heart rate variability were continuously monitored using a Polar Team system (Polar® Team 2, Polar Electro Oy, Kempele, Finland
Time frame: 1 hour and 35 minutes (trial without rewarming), 1 hour and 55 minutes (trial with rewarming)
Skin blood flow
Skin blood flow was measured throughout the entire protocol with a laser Doppler flowmeter ((PeriFlux System 5010, function unit; Perimed, Stockholm, Sweden, PeriFlux 4000, Perimed, Stockholm, Sweden) at right and left index finger and right and left index toe.
Time frame: 1 hour and 35 minutes (trial without rewarming), 1 hour and 55 minutes (trial with rewarming)
Skin temperature
Skin temperature (forehead, arm, thigh, hand, foot, tibialis anterior, navel) was continuously monitored using iButton sensors type DS1921 H, Maxim/Dallas Semiconductor Corp., USA.
Time frame: 1 hour and 35 minutes (trial without rewarming), 1 hour and 55 minutes (trial with rewarming)
Finger temperature
Finger temperature were monitored throughout the trial using a data logger interfacing with a computer to allow for their continuous monitoring by the investigators.
Time frame: 1 hour and 35 minutes (trial without rewarming), 1 hour and 55 minutes (trial with rewarming)
Hemoglobin oxygen saturation in a localized tissue (foot)
Hemoglobin oxygen saturation in a localized tissue were monitored throughout the trial at 10Hz and data duration 919.2s using (Near-Infrared Spectroscopy, PortaLite mini, Artinis Medical Systems, Zetten, Netherlands).
Time frame: 1 hour and 35 minutes (trial without rewarming), 1 hour and 55 minutes (trial with rewarming)
Body core temperature
Core body temperature was assessed using telemetric capsules (e-Celsius, BodyCap, Caen, France) which were ingested by the participants 2 hours before of each trial.
Time frame: 1 hour and 35 minutes (trial without rewarming), 1 hour and 55 minutes (trial with rewarming)
Thermal comfort
Thermal comfort was assessed via the thermal comfort scale (1 = comfortable; 5 = extremely uncomfortable).
Time frame: Change from baseline thermal comfort at 20th, 40th, 60th, and 80th minute (for trial without warming - 1 hour and 35 minutes), and at 20th, 40th, 60th, 80th, and 100th minute (for trial with warming - 1 hour and 55 minutes)
Thermal sensation
Thermal sensation was assessed via the thermal sensation scale (-3 = cold; +3 = hot)
Time frame: Change from baseline thermal sensation at 20th, 40th, 60th, and 80th minute (for trial without warming - 1 hour and 35 minutes), and at 20th, 40th, 60th, 80th, and 100th minute (for trial with warming - 1 hour and 55 minutes)
Blood samples
Participants were provided blood samples (C-reactive protein and Cortisol).
Time frame: Participants were given blood samples at baseline, at 1 hour and 35 minutes (trial without rewarming)/1 hour and 55 minutes (trial with rewarming), and 24 hours after each trial.
Urine sample
Participants were provided urine samples (urine specific gravity)
Time frame: Participants were given urine samples at baseline, at 1 hour and 35 minutes (trial without rewarming)/1 hour and 55 minutes (trial with rewarming), and 24 hours after each trial.
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