Your search keyword '"Hatipoglu MK"' showing total 9 results

1. Old Polymorph, New Technique: Assessing Ritonavir Crystallinity Using Low-Frequency Raman Spectroscopy.

Author

Hatipoglu MK, Zaker Y, Willett DR, Gupta N, Rodriguez JD, Patankar S, Capella P, and Yilmaz H

Subjects

Humans, X-Ray Diffraction, Solubility, Crystallization, Powders, Ritonavir chemistry, Spectrum Analysis, Raman methods

Abstract

Two decades ago, postmarket discovery of a second crystal form of ritonavir with lower solubility had major implications for drug manufacturers and patients. Since then, ritonavir has been reformulated via the hot-melt-extrusion process in an amorphous form. Here, quantitative low- and mid-frequency Raman spectroscopy methods were developed to characterize polymorphs, form I and form II, in commercial ritonavir 100 mg oral tablets as an alternate analysis approach compared to X-ray powder diffraction (XRPD). Crystallization in three lots of ritonavir products obtained from four separate manufacturers was assessed after storage under accelerated conditions at 40 °C and 75% relative humidity (RH). Results were compared with quantitative XRPD methods developed and validated according to ICH Q2 (R1) guidelines. In a four-week open-dish study, form I crystallization occurred in two of the four products and form II crystallization was detected in another ritonavir product. The limits of detection for XRPD, low-frequency Raman (LFR), and mid-frequency Raman (MFR) were determined to be 0.7, 0.8, and 0.5% for form I and 0.6, 0.6, and 1% for form II, respectively. Root-mean-squared-error of predictions were 0.6-1.0 and 0.6-2.5% for LFR- and MFR-based partial least-squares models. Further, ritonavir polymorphs could also be identified and detected directly from ritonavir tablets using transmission LFR. In summary, LFR was applied for the assessment of polymorphism in real-world samples. While providing analytical performance similar to conventional techniques, LFR reduced the single measurement time from 66 min (XRPD) to 10 s (LFR) without the need for tedious sample preparation procedures.

Published

2023

2. Vaginal Suppositories Containing SHetA2 to Treat Cervical Dysplasia: Pharmacokinetics of Daily Doses and Preliminary Safety Profile.

Author

Mahjabeen S, Hatipoglu MK, Kosanke SD, Garcia-Contreras D, Benbrook DM, and Garcia-Contreras L

Subjects

Administration, Oral, Animals, Area Under Curve, Chromans, Dose-Response Relationship, Drug, Female, Half-Life, Humans, Mice, Suppositories, Thiones, Uterine Cervical Dysplasia drug therapy

Abstract

SHetA2 is a new drug with potential to treat cervical dysplasia, but only 0.02% of the dose is absorbed into the cervix after oral administration. By contrast, 23.9% of the dose is absorbed into the cervix after vaginal administration. This study determines the pharmacokinetic and pharmacodynamic parameters after daily vaginal doses of SHetA2 in suppositories and assesses its safety. Daily dosed mice maintained therapeutic concentrations of SHetA2 in the cervix for 65 h. The steady-state area under the curve concentration versus time (AUC cervix ) after the last dose was similar to that after a single dose indicating that there was no drug accumulation in the cervix. By contrast, the maximum drug concentration (C max-cervix ) was smaller in the daily dosed group (52.19 μg/g) than after a single dose (121.84 μg/g), whereas the half-life (t 1/2-cervix ) was also shorter in the daily dosed group (9.94 h) than after a single dose (23.32 h). Notably, daily vaginal doses of SHetA2 reduced the levels of cyclin D1 (the pharmacodynamic endpoint) to a larger extent (∼45%) than after the administration of a single dose (∼26%). No adverse effects were observed in the mice for the duration of the study; thus, daily vaginal doses of SHetA2 appear to be safe., (Copyright © 2020 American Pharmacists Association®. Published by Elsevier Inc. All rights reserved.)

Published

2020

3. Cryogenic Fabrication of Dry Powders to Enhance the Solubility of a Promising Anticancer Drug, SHetA2, for Oral Administration.

Author

Ibrahim M, Hatipoglu MK, and Garcia-Contreras L

Subjects

Administration, Oral, Antineoplastic Agents administration & dosage, Biological Availability, Chromans administration & dosage, Desiccation, Freeze Drying methods, Gastric Acid metabolism, Humans, Particle Size, Powders, Solubility, Thiones administration & dosage, X-Ray Diffraction, Antineoplastic Agents chemical synthesis, Antineoplastic Agents pharmacokinetics, Chromans chemical synthesis, Chromans pharmacokinetics, Thiones chemical synthesis, Thiones pharmacokinetics

Abstract

SHetA2 is a novel anticancer drug with poor aqueous solubility. In formal toxicological studies, Kolliphor HS 15 was used as a solubilizing agent to increase the oral bioavailability of SHetA2. The purpose of this study was to formulate SHetA2 and Kolliphor HS 15 as solid powders to facilitate their filling in hard gelatin capsules for clinical trials. Two manufacturing processes, ultra-rapid freeze-drying (URFD) and spray freeze drying (SFD), were employed to fabricate solid powders of SHetA2-Kolliphor HS 15 and trehalose. The morphology, size, flowability, and compressibility of URFD-SHetA2 and SFD-SHetA2 powders were characterized. The crystallinity and apparent maximum solubility of SHetA2 in both powders were also determined. SFD-SHetA2 powders were spherical in shape, small, and with a wide size distribution while the URFD-SHetA2 powders were irregularly shaped and big but with a narrower distribution. DSC and XRD analyses indicated that SHetA2 was mostly amorphous in both powders. The flow of both powders was categorized as "good" (angle of repose < 35°). The uniformity of drug content in URFD-SHetA2 powders was more variable than that in SFD-SHetA2 powders. The solubility profile of SHetA2 in both powders SGF exhibited a transient supersaturation "spring effect" due to the drug's amorphousness followed by extended supersaturation "parachute effect" at approximately 6 μg/ml for both powders compared to 0.02 ± 0.01 μg/ml for unprocessed drug. In conclusion, both URFD and SFD formed solid SHetA2 Kolliphor powders that are possible formulation candidates to be filled in hard gelatin capsules for clinical trials.

Published

2019

4. Pharmacokinetics and Pharmacodynamics of Escalating Doses of SHetA2 After Vaginal Administration to Mice.

Author

Mahjabeen S, Hatipoglu MK, Benbrook DM, and Garcia-Contreras L

Subjects

Administration, Intravaginal, Animals, Biological Availability, Cervix Uteri drug effects, Cervix Uteri metabolism, Chromans pharmacology, Cyclin D1 analysis, Cyclin D1 metabolism, Dose-Response Relationship, Drug, Female, Mice, Suppositories, Thiones pharmacology, Uterine Cervical Dysplasia metabolism, Chromans administration & dosage, Chromans pharmacokinetics, Thiones administration & dosage, Thiones pharmacokinetics, Uterine Cervical Dysplasia drug therapy

Abstract

SHetA2 is a novel compound with strong potential to treat cervical dysplasia, but its low aqueous solubility limits its oral bioavailability. A vaginal suppository achieved SHetA2 cervix concentrations that were severalfold above the predicted therapeutic levels. Thus, we aimed at determining the minimum dose that would achieve SHetA2 therapeutic levels while reducing cyclin D1 levels, the pharmacodynamic end point. The disposition of SHetA2 after vaginal administration of escalating SHetA2 doses and the corresponding reduction in cyclin D1 levels was compared to that after the conventional oral treatment. Vaginal administration of a 15-mg/kg dose achieved an area under the cervix concentration versus time curve (AUC cervix ) that was ∼120 times larger than that after a 60 mg/kg administered orally. AUC cervix and C max-cervix did not increase proportionally with respect to the dose, with the 30-mg/kg dose resulting in higher AUC cervix and C max-cervix (1368.53 μg.mL/h and 155.38 μg/g, respectively) compared to the 15 mg/kg (334.98 μg.mL/h and 121.78 μg/g, respectively) or 60 mg/kg (1178.55 μg.mL/h and 410.38 μg/g, respectively). Likewise, the 30-mg/kg dose caused a larger reduction in cyclin D1 levels than the other doses. Thus, the 30-mg/kg dose was selected for future efficacy studies in a mouse model of cervical neoplasia., (Copyright © 2018. Published by Elsevier Inc.)

Published

2018

5. Influence of the estrus cycle of the mouse on the disposition of SHetA2 after vaginal administration.

Author

Mahjabeen S, Hatipoglu MK, Benbrook DM, Kosanke SD, Garcia-Contreras D, and Garcia-Contreras L

Subjects

Administration, Intravaginal, Animals, Area Under Curve, Chromans pharmacokinetics, Chromans pharmacology, Female, Half-Life, Mice, Solubility, Thiones pharmacokinetics, Thiones pharmacology, Time Factors, Chromans administration & dosage, Cyclin D1 metabolism, Diestrus metabolism, Estrus metabolism, Thiones administration & dosage

Abstract

SHetA2 is a novel compound with the potential to treat cervical dysplasia, but has poor water solubility. A vaginal suppository formulation was able to achieve therapeutic concentrations in the cervix of mice, but these concentrations were variable. Histological analysis indicated that mice in the same group were in different stages of their estrous cycle, which is known to induce anatomical changes in their gynecological tissues. We investigated the effects of these changes on the pharmacokinetics and pharmacodynamics of SHetA2 when administered vaginally. Mice were synchronized to be either in estrous or diestrus stage for administration of the SHetA2 suppository. Pharmacokinetic parameters were calculated from the SHetA2 concentrations vs. time data. The reduction in the expression of cyclin D1 protein in the cervix was used as pharmacodynamic endpoint. Mice dosed during diestrus had a larger AUC cervix (335 μg mL h -1 ), higher C max (121.8 ± 38.7 µg/g) and longer t 1/2-cervix (30.3 h) compared to mice dosed during estrus (120 μg mL h -1 , 44.6 ± 29.5 µg/g and 3.6 h respectively). Therapeutic concentrations of SHetA2 were maintained for 48 h in the cervix of mice dosed during diestrus and for only 12 h in the estrus group. The treatment reduced the expression of cyclin D1 protein in the cervix of mice in the estrus to a larger extent. These results indicate that the estrous cycle of mice influences significantly the disposition of SHetA2 after vaginal administration and may also influence its efficacy., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

6. Development of a dietary formulation of the SHetA2 chemoprevention drug for mice.

Author

Benbrook DM, Janakiram NB, Chandra V, Pathuri G, Madka V, Stratton NC, Masamha CP, Farnsworth CN, Garcia-Contreras L, Hatipoglu MK, Lighfoot S, and Rao CV

Subjects

Administration, Oral, Animals, Chemoprevention methods, Drug Delivery Systems methods, Emulsifying Agents chemistry, Female, Food, Formulated, Mice, Mice, Inbred C57BL, Antineoplastic Agents pharmacology, Chromans pharmacology, Thiones pharmacology

Abstract

Development of cancer chemoprevention compounds requires enhanced consideration for toxicity and route of administration because the target population is healthy. The small molecule drug, SHetA2 (NSC 726189), exhibited in vivo chemoprevention activity and lack of toxicity when administered by oral gavage. Our objective was to determine if a dietary formulation of SHetA2 could achieve effective tissue drug levels without toxicity. C57bl/6 J mice were monitored on modified American Institute of Nutrition (AIN)76A diet mixed with SHetA2 in a 3:1 ratio with Kolliphor HS15, a self-emulsifying drug delivery system (SEDDS) to deliver 37.5, 62.5, 125, 187 or 250 mg SHetA2/kg/day. Blood and tissues were evaluated after 1, 3 and 6 weeks. The 187 mg/kg/day dose was identified as optimal based on achievement of maximum blood and tissue drug levels in the effective micromolar range without evidence of toxicity. The 250 mg/kg/day group exhibited lower drug levels and the highest intestinal drug content suggesting that an upper limit of intestinal absorption had been surpassed. Only this highest dose resulted in liver and kidney function tests that were outside of the normal range, and significant reduction of cyclin D1 protein in normal cervical tissue. SHetA2 reduced cyclin D1 to greater extents in cancer compared to non-cancer cell cultures. Given this differential effect, optimal chemoprevention without toxicity would be expected to occur at doses that reduced cyclin D1 in neoplastic, but not in normal tissues. These findings support further development of SHetA2 as a chemoprevention agent and potential food additive.

Published

2018

7. Optimization of a Vaginal Suppository Formulation to Deliver SHetA2 as a Novel Treatment for Cervical Dysplasia.

Author

Mahjabeen S, Hatipoglu MK, Chandra V, Benbrook DM, and Garcia-Contreras L

Subjects

Administration, Intravaginal, Animals, Biological Availability, Chemistry, Pharmaceutical methods, Cyclin D1 metabolism, Drug Delivery Systems methods, Female, Humans, Mice, Quality of Life, Uterine Cervical Dysplasia metabolism, Chromans administration & dosage, Suppositories administration & dosage, Thiones administration & dosage, Uterine Cervical Dysplasia drug therapy

Abstract

Cervical dysplasia induced by the human papilloma virus unpredictably progresses to cervical cancer. Therapeutic options are invasive and affect the patient's quality of life. SHetA2 has demonstrated therapeutic efficacy against human and murine human papilloma virus-induced tumors, but its oral bioavailability is <1%. An optimized vaginal suppository formulation can deliver SHetA2 in sufficient doses to prevent cervical dysplasia. The quality by design approach was employed to optimize the suppository formulation consisting of cocoa butter as base with 5% Kolliphor and 40% SHetA2. The suppository had a content uniformity of 105.44 ± 0.42%, melted in <8 min, and had a complete release of SHetA2 in water. Administration of the suppository to mice-achieved cervix concentrations that were significantly higher than the SHetA2 therapeutic concentration, with the maximum concentration (C max-cervix  = 336.78 μg/g) being more than 100-fold the therapeutic SHetA2 concentration. Furthermore, the levels of cyclin D1 protein decreased 9-fold indicating a correlation of drug concentrations with the pharmacodynamic endpoint. These proof-of-concept studies suggest that the SHetA2 optimized vaginal suppository formulation may have a potential use in the prevention of cervical dysplasia, but detailed efficacy studies are required to confirm this assumption., (Copyright © 2018 American Pharmacists Association®. Published by Elsevier Inc. All rights reserved.)

Published

2018

8. SHetA2 Dry Powder Aerosols for Tuberculosis: Formulation, Design, and Optimization Using Quality by Design.

Author

Ibrahim M, Hatipoglu MK, and Garcia-Contreras L

Subjects

Lung metabolism, Lung microbiology, Spectroscopy, Fourier Transform Infrared, X-Ray Diffraction, Aerosols chemistry, Chromans chemistry, Chromans pharmacology, Mycobacterium tuberculosis drug effects, Thiones chemistry, Thiones pharmacology

Abstract

Tuberculosis (TB) is a life threatening pulmonary infection caused by Mycobacterium tuberculosis (MTB). Current treatments are complex, lengthy, and associated with severe side effects that decrease patient compliance and increase the probability of the emergence of drug resistant strains. Thus, more effective drugs with little to no side effects are needed to diversify the armamentarium against the global TB epidemic. SHetA2, an anticancer compound with null toxicity at doses much higher than the effective dose, was recently discovered to be active against MTB. In the present study, a dry powder formulation of SHetA2 for pulmonary delivery was developed to overcome its poor aqueous solubility and to maximize its concentration in the lungs, the main site of TB infection. Using quality by design (QbD) methodology, three different formulations of SHetA2 microparticles (MPs) were designed, manufactured, and optimized, SHetA2 alone, SHetA2 PLGA, and SHetA2 mannitol MPs, to maximize the drug dose, target alveolar macrophages, and increase drug solubility, respectively. The resulting three SHetA2 MP formulations had spherical shape with particle size ranging from 1 to 3 μm and a narrow size distribution, suitable for uniform delivery to the alveolar region of the lungs. Upon dispersion with the Aerolizer dry powder inhaler (DPI), all three SHetA2 MP formulations had aerodynamic diameters smaller than 3.3 μm and fine particle fractions (FPF 4.46 ) greater than 77%. SHetA2 remained chemically stable after MP manufacture by spray drying, but the drug transformed from the crystalline to the amorphous form, which significantly enhanced the solubility of SHetA2. Using a custom-made dissolution apparatus, the FPF 4.46 of SHetA2 MP dissolved much faster and to a greater extent (21.19 ± 4.40%) than the unprocessed drug (3.51 ± 0.9%). Thus, the physicochemical characteristics, in vitro aerosol performance, and dissolution rate of the optimized SHetA2 MPs appear to be suitable to achieve therapeutic concentrations in the lungs.

Published

2018

9. Source of cytotoxicity in a colloidal silver nanoparticle suspension.

Author

Hatipoglu MK, Keleştemur S, Altunbek M, and Culha M

Subjects

Cell Death drug effects, Cell Line, Dynamic Light Scattering, Humans, Metal Nanoparticles ultrastructure, Mutagens toxicity, Reactive Oxygen Species metabolism, Spectrophotometry, Ultraviolet, Suspensions, Metal Nanoparticles toxicity, Silver toxicity

Abstract

Silver nanoparticles (AgNPs) are increasingly used in a variety of applications because of their potential antimicrobial activity and their plasmonic and conductivity properties. In this study, we investigated the source of cytotoxicity, genotoxicity, and reactive oxygen species (ROS) production on human dermal fibroblast and human lung cancer (A549) cell lines upon exposure to AgNP colloidal suspensions prepared with the simplest and most commonly used Lee–Meisel method with a variety of reaction times and the concentrations of the reducing agent. The AgNPs synthesized with shorter reaction times were more cytotoxic and genotoxic due to the presence of a few nanometer-sized AgNP seeds. The suspensions prepared with an increased citrate concentration were not cytotoxic, but they induced more ROS generation on A549 cells due to the high citrate concentration. The genotoxicity of the suspension decreased significantly at the higher citrate concentrations. The analysis of both transmission electron microscopy images from the dried droplet areas of the colloidal suspensions and toxicity data indicated that the AgNP seeds were the major source of toxicity. The completion of the nucleation step and the formation of larger AgNPs effectively decreased the toxicity.

Published

2015