Martha A. Hass scite author profile

We tested the hypothesis that food deprivation alters body temperature (T(b)) responses to bacterial LPS by enhancing inflammatory signaling that decreases T(b) (cryogenic signaling) rather than by suppressing inflammatory signaling that increases T(b) (febrigenic signaling). Free-feeding or food-deprived (24 h) rats received LPS at doses (500 and 2,500 microg/kg iv) that are high enough to activate both febrigenic and cryogenic signaling. At these doses, LPS caused fever in rats at an ambient temperature of 30 degrees C, but produced hypothermia at an ambient temperature of 22 degrees C. Whereas food deprivation had little effect on LPS fever, it enhanced LPS hypothermia, an effect that was particularly pronounced in rats injected with the higher LPS dose. Enhancement of hypothermia was not due to thermogenic incapacity, since food-deprived rats were fully capable of raising T(b) in response to the thermogenic drug CL316,243 (1 mg/kg iv). Neither was enhancement of hypothermia associated with altered plasma levels of cytokines (TNF-alpha, IL-1beta, and IL-6) or with reduced levels of an anti-inflammatory hormone (corticosterone). The levels of PGD(2) and PGE(2) during LPS hypothermia were augmented by food deprivation, although the ratio between them remained unchanged. Food deprivation, however, selectively enhanced the responsiveness of rats to the cryogenic action of PGD(2) (100 ng icv) without altering the responsiveness to febrigenic PGE(2) (100 ng icv). These findings support our hypothesis and indicate that cryogenic signaling via PGD(2) underlies enhancement of LPS hypothermia by food deprivation.

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Cutaneous delivery of α-tocopherol and lipoic acid using microemulsions: influence of composition and charge

Cichewicz

Pacleb

Connors

et al. 2013

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Objectives To assess whether the composition and charge of microemulsions affect their ability to simultaneously deliver α-tocopherol and lipoic acid into viable skin layers. Methods α-tocopherol and lipoic acid were added (1.1 and 0.5% w/w, respectively) to decylglucoside-based microemulsions containing mono-dicaprylin. Microemulsions containing surfactant:oil:water (w/w/w) at 60:30:10 (ME-O) and 46:23:31 (ME-W), as well as a cationic form of ME-W containing 1% phytosphingosine (ME-Wphy) were characterized, and their ability to disrupt the skin barrier and deliver the antioxidants in vitro in the skin was evaluated. Antioxidant activity in ME-Wphy-treated skin was assessed using the thiobarbituric acid-reactive substances (TBARS) assay. Key findings internal phase diameters of microemulsions ranged between 47.0–53.2 nm; phytosphingosine addition and pH adjustment to 5.0 increased zeta potential from −4.3 to +29.1 mV. ME-O displayed w/o structure, whereas ME-W and ME-Wphy were consistent with o/w. Microemulsions affected skin electrical resistance and transepidermal water loss, but did not affect lipoic acid penetration. α-Tocopherol delivery increased following the order ME-O

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Obstructive Bladder Dysfunction: Morphological, Biochemical and Molecular Changes

Levin

Chichester

Hass

et al. 2002

European Urology Supplements

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Topical Delivery of Lycopene using Microemulsions: Enhanced Skin Penetration and Tissue Antioxidant Activity

Lopes

VanDeWall

et al. 2010

Journal of Pharmaceutical Sciences

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Decylglucoside-based microemulsions for cutaneous localization of lycopene and ascorbic acid

Pepe

Phelps

Lewis

et al. 2012

International Journal of Pharmaceutics

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Martha A. Hass

Food deprivation alters thermoregulatory responses to lipopolysaccharide by enhancing cryogenic inflammatory signaling via prostaglandin D₂

Cutaneous delivery of α-tocopherol and lipoic acid using microemulsions: influence of composition and charge

Obstructive Bladder Dysfunction: Morphological, Biochemical and Molecular Changes

Topical Delivery of Lycopene using Microemulsions: Enhanced Skin Penetration and Tissue Antioxidant Activity

Decylglucoside-based microemulsions for cutaneous localization of lycopene and ascorbic acid

Contact Info

Product

Resources

About

Martha A. Hass

Food deprivation alters thermoregulatory responses to lipopolysaccharide by enhancing cryogenic inflammatory signaling via prostaglandin D2

Cutaneous delivery of α-tocopherol and lipoic acid using microemulsions: influence of composition and charge

Obstructive Bladder Dysfunction: Morphological, Biochemical and Molecular Changes

Topical Delivery of Lycopene using Microemulsions: Enhanced Skin Penetration and Tissue Antioxidant Activity

Decylglucoside-based microemulsions for cutaneous localization of lycopene and ascorbic acid

Contact Info

Product

Resources

About

Food deprivation alters thermoregulatory responses to lipopolysaccharide by enhancing cryogenic inflammatory signaling via prostaglandin D₂