Company: SHPH
Filing Date: 2025-01-24
Form Type: 424B3
Source: 0001493152-25-003508
Chunk: 71

Company: Shuttle Pharmaceuticals Holdings, Inc.
Filing Date: 2025-01-24
Form: 424B3
Chunk 71
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IPdR) as a radiation sensitizing agent during radiotherapy in patients with newly diagnosed IDH-wildtype glioblastoma with unmethylated MGMT promoter. Receipt of the letter allows us to commence the Phase II study of Ropidoxuridine (IPdR). We have applied for and received FDA approval of Orphan designation for Ropidoxuridine and RT for treating brain cancer (glioblastoma). The Phase II clinical trial was also approved by the Institutional Review Board “IRB” on June 21, 2024. The Phase II clinical trial is now being conducted at six cancer centers in the U.S., each of which are actively enrolling patients. To date, 10 patients have enrolled in total. We believe our management team’s expertise in radiation therapy, combined modality cancer treatment and immuno-oncology will help drive the development and, if approved, the commercialization of these potentially curative therapies for patients with aggressive cancers.

Radiation Oncology has gone through transformative technological innovation over the last decade to better define tumors, allow improved shaping of radiation delivery and support dose escalation with shorter, more intensive courses of treatment. Furthermore, achieving higher dose distributions within tumor volumes has reached a practical plateau, since cancers are frequently integrated with or surrounded by more sensitive normal tissues and further dose escalation increases risks of tissue necrosis. To increase cancer cures at maximally tolerated radiation doses, pharmacological and biological modifications of cells are needed to sensitize cancers, protect normal tissues, and stimulate the immune system to react against antigens produced by irradiated, damaged cancer cells. Drugs that show sensitizing properties, or the ability to make cancer cells more sensitive to radiation, offer a solution to this problem. Currently, such drugs are chemotherapy agents used off-label, and many have inherent toxicities since they were designed for direct cancer treatments and not for sensitization. However, the clinical value of using radiation sensitizing drugs in combination with RT has been accepted in a variety of cancer types, including gynecological, gastro-intestinal, pulmonary and other malignancies. Hence, there is a critical need for new drugs that preferentially sensitize cancer cells to radiation therapy and that stimulate the innate immune response against irradiated cancer cells. Furthermore, to advance precision medicine in radiation oncology, there is a need for imaging and molecular diagnostic tests for determining the extent of cancer spread in the body and for predicting clinical responses to therapy.

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