Image April Schrank-Hacker Ed.D., MSOD, CG(ASCP)CM April Schrank‐Hacker, Ed.D., Life Science Marketing Leader at Leica Biosystems, is a clinical laboratory specialist in Cytogenetics having over 30 years of experience in technology, research, innovation, and laboratory management. April earned her BS in Clinical Laboratory Sciences with a specialization in Cytogenetics from Thomas Jefferson University and is certified in cytogenetics through ASCP with the designation CG(ASCP) CM. Her Master’s degree was earned from the University of Pennsylvania in Organizational Dynamics (MSOD) with dual certifications in Organizational Development and Change Studies and Organizational Leadership. April earned her Doctoral degree in Organizational Leadership, where she was a Distinguished Research Fellowship scholar for her work on building high-performing leadership and teams in domains of chaos and complexity. She has co‐authored over 30 peer-reviewed publications and posters. Published Pieces by April Schrank-Hacker An Introduction to Immunohistochemistry (IHC)ArtikelLearn more about Immunohistochemistry (IHC) and future applications in translational research. An Introduction to Immunohistochemistry (IHC)ArtikelLearn more about Immunohistochemistry (IHC) and future applications in translational research. Was ist grün?Leitartikel (Knowledge Pathway) Die Praxis der Nachhaltigkeit im histologischen Labor lässt sich in vier Paradigmen beschreiben: Minimierung der Belastung der Erde, Aufrechterhaltung des Wohlbefindens ihrer Bewohner, Senkung von Kosten- und Arbeitsaufwand für die Abfallentsorgung im Labor und Implementierung neuer, verbesserter Prozesse in unsere tägliche Arbeit. From Cytogenetics to Cytogenomics - Top 5 Reasons to Automate FFPE Tissue FISH ProcessingCase StudiesCytogenetics has played a pivotal role in clinical and cancer diagnostics for over 60 years. The use of genomic technologies speeds targeted genetic analysis - but can high throughput automation in the cytogenetics laboratory broaden traditional approaches? From Cytogenetics to Cytogenomics - Top 5 Reasons to Automate FFPE Tissue FISH ProcessingCase StudiesCytogenetics has played a pivotal role in clinical and cancer diagnostics for over 60 years. The use of genomic technologies speeds targeted genetic analysis - but can high throughput automation in the cytogenetics laboratory broaden traditional approaches? The Importance of Cytogenomics in the Diagnostic PathwayEditorial (Knowledge Pathway) Cytogenomics is the study of genetics that studies chromosomes and their relation to diseases. Through a combined analysis of chromosomes and molecular tests, clinicians can better understand and treat disease states. Introduction to Lean Principles in the Cytogenomics LaboratoryInterviews and Q&A (Knowledge Pathway) By using continuous quality improvement, we can build consistency through standardization that can reduce errors and provide reproducible results. Many laboratories have questions about Lean practices and different ways it can be impactful to cytogenomics. Cytogenetics: A Blueprint for Building Quality, Interconnected and Efficient Laboratory ProcessWebinars (Knowledge Pathway) April Schrank-Hacker will offer a holistic look at the Cytogenetics laboratory workflow to increase confidence and accuracy in the final diagnosis. She will discuss new perspectives on creating optimized, safe and reliable workflows that your lab could...
