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Pediatric Surgery, Flowcharts and Clinical Algorithms
Pediatric Surgery, Flowcharts and Clinical Algorithms is an updated review of some common pediatric surgical problems. The authors of the chapters have made a full review of the selected topics including the basic science facts necessary for the proper understanding of conditions (anatomy, physiology and embryology), such as gastrointestinal disorders, abdominal wall defects, choledochal cysts, and others, with special emphasis on antenatal diagnosis and management.A flow chart (or management algorithm) is included to facilitate decision making in choice of the proper diagnostic tools or the most efficient surgical (or non-surgical) strategy.The book is intended for pediatric surgeons, pediatricians, and researchers in any of the topics included.
| ISBN-13 | 9781789239959 |
| ISBN-10 | 1789239958 |
| Publisher | BoD – Books on Demand |
| Publication Date | December 2019 |
| Pages | 170 |
| Language | en |
| Format | Hardcover |
Expert Analysis & Insights
In-depth editorial assessment across key dimensions
Visual algorithms facilitate active recall and self-assessment, ideal for independent study.
Superb for medical students and residents engaging in self-directed pediatric surgery review.
Cores pediatric surgery curriculum topics (GI disorders, abdominal wall defects) with essential basic science.
Excellent adjunct for trainees preparing for board exams on common pediatric surgical conditions.
Flowcharts offer rapid, actionable guidance for diagnostic workup and surgical strategy selection.
Perfect for OR teams and clinicians desiring an efficient, visual management guide.
Algorithms provide clear, immediate clinical pathways for diagnosis and management of common disorders.
Ideal for fellows and practicing surgeons needing quick-reference decision support in clinic or ER.
Flowcharts and clinical algorithms simplify complex pediatric surgical decision-making, enhancing stepwise learning.
Best for surgical trainees and pediatricians seeking structured, algorithm-based learning for common pediatric surgery topics.