TY  - THES
A1  - Haider, Malik Salman
T1  - Structure Property Relationship and Therapeutic Potential of Poly(2-oxazoline)s and Poly(2-oxazines)s based Amphiphiles
T1  - Untersuchung der Struktur-Eigenschafts-Beziehung und des Therapeutischen Potenzials von Poly(2-oxazolinen) und Poly(2-oxazinen)-basierten Amphiphilen
N2  - In the past decade, poly(2-oxazoline)s (POx) and very recently poly(2-oxazine)s (POzi) based amphiphiles have shown great potential for medical applications. Therefore, the major aim of this thesis was to further explore the pharmaceutical and biomedical applications of POx/POzi based ABA triblock and AB diblock copolymers, respectively with the special emphasis on structure property relationship (SPR). ABA triblock copolymers (with shorter side chain length in the hydrophobic block) have shown high solubilizing capacity for hydrophobic drugs. The issue of poor aqueous solubility was initially addressed by developing a (micellar) formulation library of 21 highly diverse, hydrophobic drugs with POx/POzi based ABA triblock copolymers. Theoretically, the extent of compatibility between polymers and drug was determined by calculating solubility parameters (SPs). The SPs were thoroughly investigated to check their applicability in present systems. The selected formulations were further characterized by various physico-chemical techniques. For the biomedical applications, a novel thermoresposive diblock copolymer was synthesized which has shown promising properties to be used as hydrogel bioink or can potentially be used as fugitive support material. The most important aspect i.e. SPR, was studied with respect to hydrophilic block in either tri- or di-block copolymers. In triblock copolymer, the hydrophilic block played an important role for ultra high drug loading, while in case of diblock, it has improved the printability of the hydrogels. Apart from the basic research, the therapeutic applications of two formulations i.e. mitotane (commercially available as tablet dosage form for adrenocortical carcinoma) and BT-44 (lead compound for nerve regeneration) were studied in more detail.
N2  - In den letzten zehn Jahren haben auf Poly(2-oxazolinen) (POx) und in jüngster Zeit auf Poly(2-oxazinen) (POzi) basierende Amphiphile ein großes Potenzial für medizinische Anwendungen gezeigt. Daher war das Hauptziel dieser Arbeit die weitere Erforschung der pharmazeutischen und biomedizinischen Anwendungen von POx/POzi-basierten ABA-Triblock- und AB-Diblock-Copolymeren, jeweils mit besonderem Schwerpunkt auf Struktur-Eigenschafts-Beziehungen (SPR). ABA-Triblockcopolymere (mit kürzerer Seitenkettenlänge im hydrophoben Block) haben eine hohe Solubilisierungskapazität für hydrophobe Arzneimittel gezeigt. Das Problem der schlechten Wasserlöslichkeit wurde zunächst durch die Entwicklung einer (mizellaren) Formulierungsbibliothek von 21 sehr unterschiedlichen, hydrophoben Arzneimitteln mit ABA-Triblockcopolymeren auf POx/POzi-Basis angegangen. Theoretisch wurde das Ausmaß der Kompatibilität zwischen Polymeren und Arzneistoff durch Berechnung von Löslichkeitsparametern (SPs) bestimmt. Die SPs wurden gründlich untersucht, um ihre Anwendbarkeit in gegenwärtigen Systemen zu überprüfen. Die ausgewählten Formulierungen wurden weiter durch verschiedene physikalisch-chemische Techniken charakterisiert. Für biomedizinische Anwendungen wurde ein neuartiges thermoresponsives Diblockcopolymer synthetisiert, das vielversprechende Eigenschaften für die Verwendung als Hydrogel-Biotinte gezeigt hat oder möglicherweise als flüchtiges Trägermaterial verwendet werden kann. Der wichtigste Aspekt, d. h. SPR, wurde im Hinblick auf den hydrophilen Block in entweder Tri- oder Di-Block-Copolymeren untersucht. Beim Triblock-Copolymer spielte der hydrophile Block eine wichtige Rolle für die ultrahohe Wirkstoffbeladung, während er beim Diblock die Bedruckbarkeit der Hydrogele verbessert hat. Neben der Grundlagenforschung wurden die therapeutischen Anwendungen von zwei Formulierungen, nämlich Mitotan (kommerziell erhältlich als Tablettenform für das Nebennierenrindenkarzinom) und BT-44 (Leitsubstanz für die Nervenregeneration) genauer untersucht.
KW  - structure property relationship
KW  - Poly(2-oxazoline)s and Poly(2-oxazine)s
KW  - Importance of hydrophilic block in amphiphiles
KW  - micelles
KW  - drug delivery system
KW  - high drug loading
KW  - hydrogels
KW  - ring opening polymerization
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-289036
ER  - 
TY  - JOUR
A1  - Haider, Malik Salman
A1  - Ahmad, Taufiq
A1  - Yang, Mengshi
A1  - Hu, Chen
A1  - Hahn, Lukas
A1  - Stahlhut, Philipp
A1  - Groll, Jürgen
A1  - Luxenhofer, Robert
T1  - Tuning the thermogelation and rheology of poly(2-oxazoline)/poly(2-oxazine)s based thermosensitive hydrogels for 3D bioprinting
JF  - Gels
N2  - As one kind of “smart” material, thermogelling polymers find applications in biofabrication, drug delivery and regenerative medicine. In this work, we report a thermosensitive poly(2-oxazoline)/poly(2-oxazine) based diblock copolymer comprising thermosensitive/moderately hydrophobic poly(2-N-propyl-2-oxazine) (pPrOzi) and thermosensitive/moderately hydrophilic poly(2-ethyl-2-oxazoline) (pEtOx). Hydrogels were only formed when block length exceeded certain length (≈100 repeat units). The tube inversion and rheological tests showed that the material has then a reversible sol-gel transition above 25 wt.% concentration. Rheological tests further revealed a gel strength around 3 kPa, high shear thinning property and rapid shear recovery after stress, which are highly desirable properties for extrusion based three-dimensional (3D) (bio) printing. Attributed to the rheology profile, well resolved printability and high stackability (with added laponite) was also possible. (Cryo) scanning electron microscopy exhibited a highly porous, interconnected, 3D network. The sol-state at lower temperatures (in ice bath) facilitated the homogeneous distribution of (fluorescently labelled) human adipose derived stem cells (hADSCs) in the hydrogel matrix. Post-printing live/dead assays revealed that the hADSCs encapsulated within the hydrogel remained viable (≈97%). This thermoreversible and (bio) printable hydrogel demonstrated promising properties for use in tissue engineering applications.
KW  - poly(2-ethyl-2-oxazoline)
KW  - shear thinning
KW  - shape fidelity
KW  - cyto-compatibility
KW  - bio-printability
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-241781
SN  - 2310-2861
VL  - 7
IS  - 3
ER  - 
TY  - JOUR
A1  - Haider, Malik Salman
A1  - Ahmad, Taufiq
A1  - Groll, Jürgen
A1  - Scherf-Clavel, Oliver
A1  - Kroiss, Matthias
A1  - Luxenhofer, Robert
T1  - The Challenging Pharmacokinetics of Mitotane: An Old Drug in Need of New Packaging
JF  - European Journal of Drug Metabolism and Pharmacokinetics
N2  - Adrenocortical carcinoma (ACC) is a malignant tumor originating from the adrenal gland cortex with a heterogeneous but overall dismal prognosis in advanced stages. For more than 50 years, mitotane has remained a cornerstone for the treatment of ACC as adjuvant and palliative therapy. It has a very poor aqueous solubility of 0.1 mg/l and high partition coefficient in octanol/water (log P) value of 6. The commercially available dosage form is 500 mg tablets (Lysodren®). Even at doses up to 6 g/day (12 tablets in divided doses) for several months, > 50% patients do not achieve therapeutic plasma concentration > 14 mg/l due to poor water solubility, large volume of distribution and inter/intra-individual variability in bioavailability. This article aims to give a concise update of the clinical challenges associated with the administration of high-dose mitotane oral therapy which encompass the issues of poor bioavailability, difficult-to-predict pharmacokinetics and associated adverse events. Moreover, we present recent efforts to improve mitotane formulations. Their success has been limited, and we therefore propose an injectable mitotane formulation instead of oral administration, which could bypass many of the main issues associated with high-dose oral mitotane therapy. A parenteral administration of mitotane could not only help to alleviate the adverse effects but also circumvent the variable oral absorption, give better control over therapeutic plasma mitotane concentration and potentially shorten the time to achieve therapeutic drug plasma concentrations considerably.
Mitotane as tablet form is currently the standard treatment for adrenocortical carcinoma. It has been used for 5 decades but suffers from highly variable responses in patients, subsequent adverse effects and overall lower response rate. This can be fundamentally linked to the exceedingly poor water solubility of mitotane itself. In terms of enhancing water solubility, a few research groups have attempted to develop better formulations of mitotane to overcome the issues associated with tablet dosage form. However, the success rate was limited, and these formulations did not make it into the clinics. In this article, we have comprehensively reviewed the properties of these formulations and discuss the reasons for their limited utility. Furthermore, we discuss a recently developed mitotane nanoformulation that led us to propose a novel approach to mitotane therapy, where intravenous delivery supplements the standard oral administration. With this article, we combine the current state of knowledge as a single piece of information about the various problems associated with the use of mitotane tablets, and herein we postulate the development of a new injectable mitotane formulation, which can potentially circumvent the major problems associated to mitotane's poor water solubility.
KW  - Mitotane
KW  - cancer
KW  - adrenal gland
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-270476
SN  - 2107-0180
VL  - 46
IS  - 5
ER  -