EXTENDED-RELEASE FORMULATIONS OF HUMAN CHORIONIC GONADOTROPIN (HCG)

[madman]

I. BACKGROUND

Human chorionic gonadotropin (hCG) is a hormone produced by the syncytiotrophoblast cells of the human placenta and gonads. hCG interacts with the luteinizing hormone/choriogonadotropin receptor (LHCGR) (also known as lutropin/choriogonadotropin receptor (LCGR) or luteinizing hormone receptor (LHR) found in the gonads of both genders.

The action of hCG is similar to that of pituitary luteinizing hormone (LH), in that: both hormones stimulate the production of testosterone and other steroid hormones by the Leydig cells of the testis and both hormones stimulate the production of progesterone by the corpus luteum of the ovary.

During fetal development, hCG produced by the placenta stimulates the fetal testes to produce androgens, which are important to normal male sexual development. In the adult, administration of exogenous hCG stimulates testosterone production from the Leydig cells of the testes. For men with hypogonadotrophic hypogonadism, exogenously administered hCG can stimulate the testicular Leydig cells and restore normal testosterone production. Administration of hCG may also stimulate testicular descent in boys with cryptorchidism when no anatomical impediment to descent is present.

In the female, hCG produced by the placenta stimulates the ovary and promotes the maintenance of the corpus luteum during the beginning of pregnancy. This allows the corpus luteum to secrete the hormone progesterone during the first trimester. Progesterone enriches the uterus with a thick lining of blood vessels and capillaries so that it can sustain the growing fetus.

During the normal menstrual cycle, LH participates with FSH in the development and maturation of the normal ovarian follicle, and the mid-cycle LH surge triggers ovulation. In adult females, clinical administration of exogenous hCG can substitute for an LH surge. For women undergoing in vitro fertilization, hCG is extensively used parenterally for final maturation induction. In the presence of one or more mature ovarian follicles, ovulation can be triggered by the administration of hCG. In addition, hCG is sometimes used to enhance the production of progesterone for clinical purposes during treatment for infertility.

As the most abundant biological source is women who are presently pregnant, some organizations collect urine from pregnant women to extract hCG for pharmaceutical use, in dosage forms marketed under the trade names Novarel" and Pregnyl®. Recombinant hCG is produced through Chinese hamster ovary (CHO) cells and commercially available in a dosage form marketed under the trade name Ovidrel·".

Current commercially available dosage forms of hCG are limited to intramuscular (IM) or subcutaneous (SC) injectable forms which raise serum hCG levels to therapeutic levels over a short period of time.

Frequent injections are required for several clinical applications where sustained dosing of hCG is needed. These applications include but are not limited to the treatment of hypogonadotrophic hypogonadism and stimulation of progesterone production for female fertility. There is a need in the art for extended-release dosage forms of hCG. The present invention satisfies this need.


II. SUMMARY

The present disclosure relates to the long-felt need in the art for extended-release human chorionic gonadotropin (hCG) formulations. In particular, the present disclosure is directed to hCG dosage forms having extended-release profiles. In some embodiments, the hCG dosage forms exhibit release profiles of between about 1 week and about 2 months. In other embodiments, the hCG dosage forms described herein can have extended-release profiles between about 1 week and about 6 months.

In some aspects, the extended-release hCG dosage form comprises hCG encapsulated in a microsphere. In further aspects, the microsphere is formed by a copolymer. In still further aspects, the copolymer is a block copolymer or a multi-block copolymer. In such aspects, the block copolymer may comprise or alternatively consists essentially of, polyethylene glycol (PEG) or a PEG-containing polymeric block and one or more other polymeric blocks.

hCG extended-release formulations described herein may be useful in a variety of treatments relating to hormone therapy, including but not limited to treatment for infertility and pituitary gland disorders. Thus, further aspects of the disclosure relate to methods of administering the extended-release hCG formulations described herein, as well as methods of treatment employing the extended-release hCG formulations described herein. Such methods include treatments for fertility and pituitary gland defects. Further methods disclosed herein include the treatment of breast cancer. In some embodiments, the treatment is for existing breast cancer in nulliparous women. In some embodiments, the women are about age 25 or younger.

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Applicants

• INNOCORE TECHNOLOGIES HOLDING B.V. [NL]/[NL]
• MHB LABS, INC. [US]/[US]

Inventors

• ZUIDEMA, Johan
• STEENDAM, Rob
• ARAUJO, Joana Catarina Ribeiro
• KACKER, Ravi
• MORGENTALER, Abraham

 

[madman]

API - Innocore Pharma

Which type of API do you want to formulate?

www.innocorepharma.com

API
SynBiosys is a sustained release technology using several monomers to form a biodegradable polymer matrix in which APIs can be entrapped. When brought in an aqueous environment, the polymers swell and gradually release the APIs by diffusion. Release time can be regulated from days up to several months.

*Protein & Antibodies
*Peptides
*SmallMolecules


Polymer technologies
InnoCore has two patented sustained release technologies that serve as a platform for obtaining advanced long-acting injectable (LAI) formulations of pharmaceutical ingredients. The SynBiosys® and InGell® polymers are biodegradable and bioresorbable in which APIs can be entrapped. The long-acting release mechanism of drugs with SynBiosys® microspheres is based upon diffusion whereas the InGell® gels erode completely via surface erosion. Optionally, PLGA could be used as a drug carrier in microspheres although with limited patent protection.

*Synbiosys
*Ingell
*PLGA


Drug carriers
InnoCore’s technologies can be applied in several administration forms. Our SynBiosys® platform is compatible with state-of-the-art depot formulation technologies, like microspheres, microrods, microparticles, nanoparticles, and in-situ forming implants or gels. The technology is also suitable for implants, fleece’s, and for spray coating of implants, like coronary stents and other vascular devices. The InGell® technology is an advanced injectable gel drug depot system, offering unparalleled retention and release of active pharmaceutical ingredients from a soft, localized drug depot. The InGell technology is available as a water-borne gel (hydrogel consisting of 75-90% of buffer) and a water-free gel (100% pure polymer, LQP).

*Microspheres
*Gell
*Implant
*Nanospheres
*Coating
*Other


Sustained release
In today's health care industry, sustained drug delivery has become key in pharmaceutical product development. Innovative sustained release technologies allow for increased performance of new and existing pharmaceutical compounds. Patients benefit from the enhanced efficacy of pharmaceutical products and from the reduction of side effects.

 

[madman]

 

[madman]

 

[madman]

A brief introduction of Innocore Pharmaceuticals, a biopharmaceutical drug delivery company specialized in the development of long-acting drug delivery products for the treatment of chronic diseases. This video was made for our nomination for the Groningen Entrepreneurial Award 2017.

 

[Nelson Vergel]

Very interesting! Dr Morgentaler mentioned this two years ago in a video but did not reply to my emails inquiring about it. He may be an investor.

 

[Johnny Test]

This could mean profound changes in so many areas of pharmaceutical development. Thank you for sharing

 

[madman]

The History of Testosterone and the Evolution of its Therapeutic Potential

ABSTRACT Introduction: Testosterone therapy has been controversial since its synthesis from the 1930s to the present day. Testosterone’s history provides depth and context for current controversies. Aim: To review the history of testosterone therapy from its initial synthesis in the 1930s to...

www.excelmale.com

*Another consideration is long-lasting treatments that are not associated with side effects such as infertility and testicular atrophy. One promising idea is a slow-release human chorionic gonadotropin formulation, currently in development, designed to boost endogenous serum T for at least 2 months

 

[madman]

The sustained-release potential of hCG PLGA microspheres

Long-acting microspheres of Human Chorionic Gonadotropin hormone: In-vitro and in-vivo evaluation (2021) Manoj A. Pawar, Lalitkumar K. Vora, Prasad Kompella, Venkata Kishan Pokuri, Pradeep R. Vavia ABSTRACT Human Chorionic Gonadotropin (hCG) hormone is used to cause ovulation, treat...

www.excelmale.com

 

[madman]

SynBiosys is an advanced biodegradable polymeric drug delivery system for the sustained release of small molecules and biologics. SynBiosys offers unsurpassed control over drug release kinetics and assures preservation of the bioactivity of sensitive therapeutic agents, thereby improving pharmacotherapeutic efficacy and reducing side effects. The platform is perfectly suited for the development of long-acting injectable dosage forms for the treatment of chronic and site-specific diseases. SynBiosys also offers excellent opportunities to upgrade current products and extend patent protection for effective life cycle management.




Unique polymer architecture

The SynBiosys polymer platform comprises poly(ether ester) multi-block copolymers composed of building blocks based on different amounts and combinations of well-known monomers such as DL-lactide, glycolide, ε-caprolactone, p-dioxanone, and polyethylene glycol (Fig. 1). A major advantage of this system is the tunability of the chemical composition, creating a diverse family of customized polymers with tightly controlled properties (e.g. glass transition temperature, swelling degree, erosion rate).


Figure1 Example of a SynBiosys multi-block co-polymer.

SynBiosys polymers can be processed into various dosage forms, thereby allowing them to be used in a wide range of applications.




Dosage forms

SynBiosys polymers allow the development of long-acting-injectable (LAI) dosage forms in the form of microsphere suspensions, hot-melt extruded solid implants, and in situ-forming implants (Fig. 2) for basically any class of drug molecule. InnoCore has the disposal of advanced and proprietary manufacturing technologies, including a membrane emulsification solvent extraction-based microencapsulation process and low-temperature hot melt (co)extrusion for implant production.


Figure 2 Examples of SynBiosys-based dosage: microspheres, extruded implants, and in situ forming implants

Unsurpassed ability to control the release kinetics

Lipophilic small molecules, peptides, and biologics have been successfully formulated into SynBiosys-based LAI dosage forms with precisely controlled release kinetics. Drug release from hydrophilic SynBiosys occurs through a combined diffusion/degradation mechanism. Via a selection and optimalization of polymer composition, depot formulations with customized release kinetics (linear, pulsed, delayed-release) and release duration varying from a week to åover a year can be developed (Fig.3).


Figure 3 SynBiosys polymers allow the development of LAI dosage forms with precisely controlled release kinetics of small molecules and biologics.

Left: Cumulative in vitro release of human chorionic gonadotropin from SynBiosys microspheres.

Right: In vivo pharmacokinetics of a SynBiosys-based hot-melt extruded levonorgestrel implant.

SynBiosys is designed to offer optimal control over the release kinetics and bioactivity of therapeutic agents, improving pharmacotherapeutic efficacy and reducing side effects.




Hydrophilic polymers preserve the integrity and activity of sensitive encapsulated compounds

One of the most critical aspects in the development of long-acting injectables for biologics is the preservation of the integrity and activity of the encapsulated compound. Due to its hydrophilic nature, SynBiosys forms a protein-friendly hydrogel-like matrix in which acidic degradation products do not accumulate. Avoiding the formation of an acidic microenvironment (as occurs in PLGA-based LAI dosage forms) is crucial to assure the stability of pH-sensitive molecules, especially biologics such as recombinant proteins and monoclonal antibodies (mAb). The ability of SynBiosys to preserve the integrity and biological activity during product manufacturing and during release from the dosage form has been demonstrated both in vitro (Fig. 4) and in vivo (Fig. 5) for various biologics


Figure 4 Hydrophilic polymers are compatible with large biologics, such as monoclonal antibodies (mAbs).

Left: Using different SynBiosys® polymers the release of mAb’s can be controlled for up to several months.

Right: Antibodies remain structurally intact and properly folded during microencapsulation and throughout long-term release from the microspheres.

Figure 5 SynBiosys is designed to protect sensitive biologics and has been shown to release biologics structurally intact and bioactive, both in vitro and in vivo. For more information see our Androsphere™ Application Note


Left: Structural integrity (measured using SEC-UPLC) and bioactivity (measured using cell-based assay) of human chorionic gonadotropin (hCG) released from hCG extended-release microspheres.

Right: In vivo PK/PD of hCG extended-release microspheres following single subcutaneous injection. The biological activity of in vivo released hCG was confirmed by increased testosterone production as a result of elevated hCG plasma levels.

SynBiosys polymers degrade gradually and completely

Under physiological conditions, SynBiosys polymers degrade via hydrolysis into non-toxic and biologically safe degradation products that are metabolized and/or excreted through the urinary pathway. After completion of drug release, polymers degrade gradually and completely, thereby avoiding polymer accumulation upon repeated administration or dose-dumping of acidic degradation products, which minimizes the chance of long-term foreign body reactions.




Safe and clinically validated platform

In addition to extensive in vitro toxicity testing and assessment of in vivo biocompatibility in many different animal models (rats, rabbits, pigs, horses, monkeys), SynBiosys has been safely used in thousands of patients. An extensive biological safety report is available. Regulatory approvals have been granted for SynBiosysbased cardiovascular drug-eluting stents (COMBO Plus Dual Therapy DES, OrbusNeich®) in Europe, Japan, and China since 2013.




Manufacturing of SynBiosys® dosage forms

InnoCore offers fully integrated pharmaceutical development services for microspheres, hot-melt extruded implants, and in situ forming implants. Development is performed in InnoCore’s research facilities in Groningen, the Netherlands, with cleanrooms for small-scale manufacturing of drug products suitable for pre-clinical evaluation and GMP-certified analytical labs for quality control. Through a network of qualified CMOs, InnoCore also offers GMP manufacturing of clinical supplies of SynBiosys-based dosage forms. polymers are manufactured under a supply agreement at kilogram scale under GMP.

 

[Nelson Vergel]

Finally, we see data. Dr Morgentaler mentioned this three years ago

 

[madman]

It gets even better!

Again you heard it here first only at Nelson's Excelmale!

AndroSphere | Europa om de hoek

In dit valorisatieproject zal het Groningse consortium, dat bestaat uit InnoCore Pharmaceuticals en PolyVation, een innovatief nieuw geneesmiddel, AndroSphere™, verder ontwikkelen en in een ‘First-in-Man’ fase 1 klinische studie evalueren. AndroSphere™ is een langwerkend injecteerbaar medicijn...

www.europaomdehoek.nl

Androsphere™​

Duration: from December 1, 2021, to August 31, 2023

Grant Recipient: InnoCore Technologies BV



In this valorization project, the Groningen consortium, which consists of InnoCore Pharmaceuticals and PolyVation, will further develop and evaluate an innovative new drug, AndroSphere™, in a 'First-in-Man' phase 1 clinical trial. AndroSphere™ is a long-acting injectable drug designed specifically for the treatment of hypogonadotropic hypogonadism (HH), a condition that leads to insufficient testosterone production in men. Low testosterone causes symptoms that limit their daily lives, such as severe fatigue, depression, anemia, and sexual dysfunction.

For men with HH, only testosterone-based therapies are currently used. An important side effect of testosterone treatment is the suppression of the body's own testosterone. This means, among other things, that the fertility of men undergoing testosterone therapy decreases sharply and the testicles become smaller (testicular atrophy). Because of this side effect, many men with HH go untreated. Treatment with human chorionic gonadotropin (hCG) does not have this side effect and has even been approved for the treatment of HH. Unfortunately, hCG in its current dosage form has not proven suitable for long-term treatments, because it has to be administered by injection several times a week and is therefore experienced as too burdensome and unpleasant by the patient.

Using InnoCore's long-acting injectable microsphere technology based on biodegradable SynBiosys polymers, which will be produced by PolyVation, AndroSphere™ is able to release hCG in a sustained and controlled manner, requiring only a single injection per month. In addition, the encapsulation of the protein in the biodegradable polymeric microspheres increases the stability of hCG, making the therapy suitable for home use and self-administration reducing the need for a single injection per month.

The AndroSphere™ project distinguishes itself by contributing to the training and development of (new) employees, and the maintenance and creation of new employment in the Northern Netherlands in the short and (medium) long term. In addition, AndroSphere™ will have a positive impact on the health of people with HH, contributing to increased physical activity, improvement in mood and fewer depressive symptoms, and continued participation in the labor process. All this contributes to an improvement in inclusiveness and thus economic and social sustainability.

 

[madman]

*In this valorization project, the Groningen consortium, which consists of InnoCore Pharmaceuticals and PolyVation, will further develop and evaluate an innovative new drug, AndroSphere™, in a 'First-in-Man' phase 1 clinical trial. AndroSphere™ is a long-acting injectable drug designed specifically for the treatment of hypogonadotropic hypogonadism (HH), a condition that leads to insufficient testosterone production in men. Low testosterone causes symptoms that limit their daily lives, such as severe fatigue, depression, anemia, and sexual dysfunction

*Using InnoCore's long-acting injectable microsphere technology based on biodegradable SynBiosys polymers, which will be produced by PolyVation, AndroSphere™ is able to release hCG in a sustained and controlled manner, requiring only a single injection per month. In addition, the encapsulation of the protein in the biodegradable polymeric microspheres increases the stability of hCG, making the therapy suitable for home use and self-administration reducing the need for a single injection per month

 

[madman]

About us | PolyVation

www.polyvation.com

PolyVation provides polymer development, custom synthesis, scale-up, and GMP manufacturing services for customers developing and commercializing advanced biomedical and pharmaceutical product applications.

We develop polymer materials that comply with the properties required for your biomedical or pharmaceutical product application. We are fully equipped for commercial (custom) manufacturing of specialty polymers and (functional) monomers. Our manufacturing operations are performed according to EU and FDA GMP (Good Manufacturing Practices) industry guidelines. On top of that are we ISO 13485 certified (ISO 13485:2016).

The PolyVation team consists of highly qualified scientists and technicians with ample experience in polymer development, analysis, synthesis, manufacturing, and quality.

We have a true entrepreneurial spirit. That is reflected in the way we work with our customers. And that is why we actively develop new material technologies that may form the basis for your future products.

Good collaboration with our customers is of the utmost importance for success. We aim to build long-lasting partnerships based on trust, respect, and mutual benefit. We run our projects in a very transparent and structured manner with clearly defined deliverables and timelines. This allows us to keep track of the project and, if necessary, to make timely adjustments.

We developed a partnership business structure that allows you full control of the polymer manufacturing relationship with PolyVation.

We have longstanding experience in the polymer field. PolyVation was founded in 1996 as a spin-off of the Polymer Laboratories of the University of Groningen and the related University Medical Center in The Netherlands. The company's offices, laboratories, and manufacturing facilities are all located in Groningen, The Netherlands (Campus Groningen). PolyVation is a privately held company and currently employs 85 people in total, that is including the drug delivery business ventures InnoCore and InGell.

 

[Nelson Vergel]

Wow. So exciting. Phase 1, so it will take time to get approved.

I wonder what the consequences will be of having sustained (non-circadian) LH output.