Monica C. Chuong scite author profile

Monica C. Chuong

5Publications

91Citation Statements Received

52Citation Statements Given

How they've been cited

120

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Affiliations

MCPHS University, Boston University, Henry Ford Hospital

Publications

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Hydrocortisone Diffusion Through Synthetic Membrane, Mouse Skin, and Epiderm™ Cultured Skin

Christensen

Chuong

Le³

et al. 2011

Archives of Drug Info

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ObjectivesThe penetration of hydrocortisone (HC) from six topical over-the-counter products along with one prescription cream through cultured normal human-derived epidermal keratinocytes (Epiderm™), mouse skin and synthetic nylon membrane was performed as well as the effect hydrating the skin by pre-washing was explored using the Upright Franz Cell.Method and ResultsPermeation of HC through EpiDerm™, mouse skin and synthetic membrane was highest with the topical HC gel formulation with prewash treatment of the membranes among seven products evaluated, 198 ± 32 µg/cm2, 746.32 ± 12.43 µg/cm2, and 1882 ± 395.18 µg/cm2, respectively. Pre-washing to hydrate the skin enhanced HC penetration through EpiDerm™ and mouse skin. The 24-hour HC released from topical gel with prewash treatment was 198.495 ± 32 µg/cm2 and 746.32 ± 12.43 µg/cm2 while without prewash, the 24-h HC released from topical gel was 67.2 ± 7.41 µg/cm2 and 653.43 ± 85.62 µg/cm2 though EpiDerm™ and mouse skin, respectively. HC penetration through synthetic membrane was ten times greater than through mouse skin and EpiDerm™. Generally, the shape, pattern, and rank order of HC diffusion from each commercial product was similar through each membrane.

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Stability of vitamin B complex in multivitamin and multimineral supplement tablets after space flight

Chuong

Prasad

LeDuc

et al. 2011

Journal of Pharmaceutical and Biomedical Analysis

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Effect of Beverages on the In Vitro Disintegration of Immediate-Release Pain Medications

Chuong¹,

Taglieri²,

Crosby³

et al. 2010

Dissolution Technol.

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This study compared the disintegration times of three immediate-release pain-relief tablets, ibuprofen (200 mg), tramadol HCl (50 mg), and hydrocodone bitartrate-acetaminophen (5 mg/500 mg), in different beverages (milk, calcium-fortified orange juice, commercial iced coffee, and regular Coca-Cola) with those in water using the USP disintegration apparatus. A hybrid medium prepared by blending 640 mL fat-free or 2% milk at 5.0 ± 1.0 °C with 160 mL of 0.1 N hydrochloric acid (HCl) at 39.0 ± 0.5 °C was proposed to better mimic human gastric content after tablet ingestion. The hybrid preparation was then used as the medium in USP dissolution Apparatus 2 to test these pain medications. The results show that the delay of the hydrocodone bitartrate-acetaminophen tablet disintegration in the hybrid media was less extensive than in straight milk (16.46 ± 0.65 min, n = 3 versus 31.94 ± 2.26 min, n = 6 when fat-free milk was used). Significant foam formed in both straight and hybrid fat-free milk. There was less foaming when the same tests were conducted in the USP dissolution apparatus. The ascending and descending motion of a USP disintegration apparatus may facilitate ambient air contact with fat-free milk, resulting in foam formation. If also true in vivo, it reflects a potential problem of hindered drug absorption.

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New Dissolution Method for Mesalamine Tablets and Capsules

Chuong

Christensen²,

Ayres³

2008

Dissolution Technol.

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Dissolution methods are different for extended-release mesalamine capsules (pH 7.5 only) and delayed-release tablets (pH 1.4, 6.0, and 7.2). Mesalamine is used for the treatment of ulcerative colitis. The USP methods have several drawbacks in that they do not mimic gastrointestinal tract environments; tablets are removed from vessels to change dissolution medium; and neither method has been adopted to compare different formulations. This study proposed a method that reflects gastrointestinal transit time and pH, is easy to conduct, and may be used to test new delayed-or extended-release formulations and compare various dosage forms.

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Characterization and Comparison of Lidocaine-Tetracaine and Lidocaine-Camphor Eutectic Mixtures Based on Their Crystallization and Hydrogen-Bonding Abilities

et al. 2014

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Abstract. Eutectic mixtures formed between active pharmaceutical ingredients and/or excipients provide vast scope for pharmaceutical applications. This study aimed at the exploration of the crystallization abilities of two eutectic mixtures (EM) i.e., lidocaine-tetracaine and lidocaine-camphor (1:1 w/w). Thermogravimetric analysis (TGA) for degradation behavior whereas modulated temperature differential scanning calorimetry (MTDSC) set in first heating, cooling, and second heating cycles, was used to qualitatively analyze the complex exothermic and endothermic thermal transitions. Raman microspectroscopy characterized vibrational information specific to chemical bonds. Prepared EMs were left at room temperature for 24 h to visually examine their crystallization potentials. The degradation of lidocaine, tetracaine, camphor, lidocaine-tetracaine EM, and lidocaine-camphor EM began at 196.56, 163.82, 76.86, 146.01, and 42.72°C, respectively, which indicated that eutectic mixtures are less thermostable compared to their individual components. The MTDSC showed crystallization peaks for lidocaine, tetracaine, and camphor at 31.86, 29.36, and 174.02°C, respectively (n=3). When studying the eutectic mixture, no crystallization peak was observed in the lidocaine-tetracaine EM, but a lidocaine-camphor EM crystallization peak was present at 18.81°C. Crystallization occurred in lidocaine-camphor EM after being kept at room temperature for 24 h, but not in lidocaine-tetracaine EM. Certain peak shifts were observed in Raman spectra which indicated possible interactions of eutectic mixture components, when a eutectic mixture was formed. We found that if the components forming a eutectic mixture have crystallization peaks close to each other and have sufficient hydrogen-bonding capability, then their eutectic mixture is least likely to crystallize out (as seen in lidocaine-tetracaine EM) or vice versa (lidocainecamphor EM).

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Monica C. Chuong

Hydrocortisone Diffusion Through Synthetic Membrane, Mouse Skin, and Epiderm™ Cultured Skin

Stability of vitamin B complex in multivitamin and multimineral supplement tablets after space flight

Effect of Beverages on the In Vitro Disintegration of Immediate-Release Pain Medications

New Dissolution Method for Mesalamine Tablets and Capsules

Characterization and Comparison of Lidocaine-Tetracaine and Lidocaine-Camphor Eutectic Mixtures Based on Their Crystallization and Hydrogen-Bonding Abilities

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