maintrac^®

THERAPY-RELEVANT CHARACTERISTICS

With maintrac^®, therapy-relevant characteristics of circulating tumor cells can be analyzed to provide indications of possible response or non-response to a planned therapy.

Clinical significance:

1. Indication for therapy selection: The effectiveness of certain therapies depends on whether the tumor cells exhibit specific surface or genetic markers. Targeted therapy is only meaningful if these characteristics are detected.
2. Aggressiveness and resistance: The analysis of tumor cell characteristics provides information about tumor aggressiveness as well as the potential response to targeted therapies.

Dynamics of tumor cells:

Both the surface characteristics and genetic properties of tumor cells can change during the course of the disease. These changes can affect the effectiveness of therapies and make regular reevaluation of the tumor cells advisable.

List of cell characteristics:

1. Hormone receptors: ER, PR, AR
2. Growth factor receptors: Her2/neu amplification, EGFR, EGFR amplification, VEGFR2, c-Kit, IGFR
3. Prostate-associated markers: PSA, PSMA
4. Proliferation marker: Ki67
5. Immunomodulatory molecules: PD-L1, B3-H7
6. Other markers: Apoptosis detection, Mel A / Melan A, PLAP

Application:

1. When a tissue biopsy to determine tumor characteristics is not possible.
2. In case of recurrence or progression during targeted therapy.
3. When the origin of a tumor is unknown (CUP syndrome).

This procedure provides a valuable basis for personalized therapy planning and enables optimized adjustment of the treatment strategy to the individual circumstances of the patient.

stemtrac^®

TUMORSPHERES

Tumors release cells into both the surrounding tissue and the bloodstream. These are referred to as circulating epithelial tumor cells (CETCs/CTCs). Among them are so-called circulating cancer stem cells, which can be identified using the stemtrac^® method.

In vitro, these cancer stem cells can grow into so-called tumor spheres over a period of up to 21 days. A tumor sphere is a spherical cell structure that arises from the division of a cancer stem cell. These structures are clinically relevant as they indicate the cancer stem cells' ability for self-renewal and tumor formation¹.

The identification and analysis of cancer stem cells provide valuable insights into tumor biology and resistance mechanisms and can contribute to the development of individualized therapy approaches.

Clinical Relevance

The number of stemtrac^® tumor spheres correlates with tumor aggressiveness and the risk of metastasis formation:

1. Higher tumor sphere count in metastatic patients: Patients with metastases show significantly more tumor spheres than non-metastatic patients.
2. Biomarker for metastases: The number of tumor spheres can serve as a biomarker for the presence of existing metastases.
3. No tumor sphere growth in healthy individuals: No tumor sphere growth has been observed in individuals without diagnosed cancer.

These findings make tumor sphere analysis an important tool in assessing tumor aggressiveness and metastasis risk.

Use of stemtrac^®

The number of stemtrac^® tumor spheres can be used in combination with maintrac^® to monitor the activity of the remaining tumor burden:

1. After completion of therapy: To assess the aggressiveness and metastasis risk of the remaining tumor cells.
2. In complete remission: If the number of circulating epithelial tumor cells (CETCs/CTCs) increases.
3. In disease progression: If CETCs/CTCs are low or undetectable (loss of EpCAM expression, i.e., dedifferentiation of tumor cells).

In summary, tumor sphere analysis with stemtrac^® provides valuable insights into tumor aggressiveness, metastasis risk, and disease dynamics. This enables precise and personalized therapy monitoring.