Mannequins

1. Female newborn systemic model , moveable head and limbs
2. Realistic umbilical cord with umbilical vein and artery
3. Umbilical cord ligation and nursering, realistic touch feeling ,the enough length of umbilical cord can be used continualy
4 . Neonatal basic nursery : lactation ,sponge Washing, wearing clothes, changing diapers

The Advanced Trauma Nursing Manikin, as shown in the image, features various features designed for medical and nursing training, including trauma simulation and nursing practice.

Key Features:

Various Trauma Simulation: The manikin is equipped with modules simulating various injuries and traumatic conditions, such as facial burns (grades I, II, and III), forehead lacerations, jaw wounds, open fractures (clavicle, humerus, femur, tibia), gunshot wounds, abdominal eviscerations, and amputations.

Nursing Capabilities: It allows for practicing a wide range of nursing procedures, including washing, disinfection, hemostasis, bandaging, and securing wounds, as well as holistic care such as sponge bathing and changing clothes.

Advanced Medical Procedures: The manikin facilitates training for more complex procedures such as endotracheal intubation, tracheostomy, injections (subcutaneous, intramuscular, intravenous), thoracic, abdominal, hepatic, and lumbar puncture, as well as ostomy care and urinary catheterization.

Realistic Anatomy: Designed with accurate anatomical details, it offers a realistic learning experience for trauma assessment and airway management, including a normal and dilated eye.

Durable and Hygienic Materials: Made of high-quality PVC, it is corrosion-resistant, odorless, easy to clean, and durable, ensuring a long lifespan for intensive educational use.

Modularity and Interchangeability: Some parts, such as skin burns or genitals, can be replaced, allowing you to simulate different scenarios and adapt to training needs.

Characteristics of a Monocot Stem

The characteristics of a monocot stem, as represented by the model and described in the sources, include the following:

Epidermis: The outermost layer, covered by a thick cuticle and capable of bearing trichomes and stomata.

Hypodermis: The layer beneath the epidermis, generally composed of sclerenchyma cells.Scattered throughout the ground tissue in several concentric circles, each bundle is surrounded by a sheath of sclerenchyma cells.

Closed Crybrovascular Bundles: Unlike dicots, the vascular bundles of monocots are closed, meaning they lack fascicular or interfascicular cambium and do not allow for secondary thickness growth.

Xylem and Phloem: In each bundle, the xylem is endoarch (inward) and the phloem is outward. Xylem consists of vessels and parenchyma, while phloem includes sieve tubes, companion cells, and parenchyma.

Lack of Distinct Pith: The center of the stem is occupied by parenchyma cells, without a distinct pith as in dicots.

The human foot is a complex anatomical structure with several important features, visible in models and confirmed by anatomy.

Key Features of the Human Foot:

Complex Bony Structure: The foot is composed of 26 bones, forming a longitudinal and transverse arch that acts as a shock absorber and support for the body’s weight.

Multiple Joints: It contains approximately 30 joints, allowing for great mobility and flexibility, particularly at the ankle, which connects the foot to the leg.

Muscles, Tendons, and Ligaments: More than 100 muscles, tendons, and ligaments work together to provide movement, stability, and support for the structure of the foot, including the arch.

Three Distinct Parts: The foot is subdivided into three main parts: the hindfoot (comprising the calcaneus and talus), the midfoot (comprising the cuboid, navicular, and cuneiform bones), and the forefoot (comprising the metatarsals and phalanges of the toes).

Essential Functional Role: The foot is fundamental for balance, locomotion (walking, running), and shock absorption during physical activities.

Form Variations: The models illustrate different foot shapes, such as the normal foot, flat foot (with a low arch), and pes cavus (with an excessively high arch), each with specific biomechanical implications.

Sensory Receptors: Sensory receptors detect touch, temperature, and pain, sending signals to the brain to adjust posture and gait.

The main features of the Anatomical Model of the Human Head with Brain are as follows:

Model Type: This is an anatomical model of the human head with brain, designed for study and teaching.

Material: The model is made of PVC and/or rubberized plastic resin.

Disassembly: The model can be dissected into 10 parts, allowing for a detailed study of the various internal structures.

Size: It is life-size.

Visible Structures: It offers a dual perspective: an external view of the anatomy of the face and skull with skin, and an internal view showing the structure of the skull, face, and internal organs, including the brain and its components (sulci, gyri, hypothalamus, ventricles, cerebellum, medulla oblongata, pons, spinal cord), the eye, the bones of the skull and face, and the mouth.

Recommended Use: It is suitable for training, laboratories, classroom teaching, analytical laboratories, medical offices and clinics.

• Ideal for studying and teaching cardiac anatomy.
• These models are made of high-quality PVC for safe use.
• They accurately reproduce the morphological structures of the heart, including veins and valve details.
• Some models are multi-part, often held together by magnets, allowing for the study of internal structures such as chambers and valves.
• These models are mounted on a stable base and can be removed for closer examination.
• They are available in various sizes, including life-size and enlarged models.

This type of model is commonly used for educational purposes, particularly in medical schools or for patient education

Features of this model:

• It represents the basic anatomical structure of the liver, including the four lobes (right, left, quadrate and caudate).
• It highlights the complex vascular network of the liver, with the portal vessels, hepatic arteries and hepatic veins, often shown in different colours for easy identification.The gallbladder and the intrahepatic and extrahepatic bile ducts are also visible.
• The model is usually mounted on a stand for greater stability during demonstrations.

Anatomical Model of the Female Pelvis – Key Features

This detailed anatomical model accurately represents the structure and function of the female human pelvis, designed for both educational and clinical applications.

Bone Composition:

• Includes paired iliac (coxal) bones, sacrum, and coccyx

• Features L1 and L2 lumbar vertebrae to demonstrate spinal articulation

• Provides complete representation of pelvic skeletal anatomy

Structural Characteristics:

• Distinctive funnel-shaped architecture divided into:

  • Greater pelvis (false pelvis): Upper, flared portion

  • Lesser pelvis (true pelvis): Lower, narrower cavity

• Anatomically accurate female morphology:

  • Wider, more circular pelvic inlet

  • Broader subpubic angle

  • Shorter, more everted sacrum

• Designed to reflect obstetric adaptations for childbirth

Functional Attributes:

• Supports weight transfer between trunk and lower limbs

• Provides attachment points for major muscle groups

• Protects reproductive organs and lower abdominal viscera

• Facilitates bipedal locomotion and spinal stability

Educational & Clinical Applications:

• Essential teaching tool for:

  • Medical and nursing education

  • Physical therapy programs

  • Midwifery training

• Valuable clinical reference for:

  • Obstetric and gynecological practice

  • Orthopedic assessments

  • Surgical planning

• Enables detailed study of:

  • Pelvic dimensions and variations

  • Biomechanical relationships

  • Pathological conditions

This detailed anatomical model provides a comprehensive study of the human nervous and respiratory systems. Mounted on a sturdy board for easy display, it is an exceptional educational tool for students and professionals alike, offering a clear, three-dimensional understanding of complex anatomical structures.

Key Features & Benefits

• Dual-System Demonstration: Uniquely combines a schematic view of the central and peripheral nervous systems with a detailed model of the respiratory system.

• Hands-On Learning: Features multiple removable parts for interactive study of internal structures like the heart and larynx.

• Exceptional Detail: Accurately depicts intricate anatomical features, including the bronchial tree, lung lobes, vocal cords, and major blood vessels.

• Durable Construction: Built from high-quality materials and mounted on a rigid board for stability and longevity in classroom or office settings.

Designed for the study and understanding of human anatomy.

This detailed educational model is often used in medical institutions to train students and residents, and can also be used to educate patients.

Here are some of its features and removable parts:

Open head: Allows visualization of the brain (often in several parts), skull, and facial muscles.

Internal organs: Detailed representation of the respiratory, digestive, urinary, nervous, and circulatory systems, with organs such as the heart, lungs, stomach, liver, intestines, kidneys, pancreas, and spleen.

Removable parts: Many models include removable organs (e.g., brain, lungs, heart, stomach, intestines) for in-depth exploration of each system individually or as a whole.

Anatomical details: Some models feature additional details such as muscle layers, spine, nerves, vessels, and bone structures.

This expertly crafted relief model provides a clear, schematic overview of the human central and peripheral nervous systems. Mounted on a sturdy board for display and study, it is an essential educational tool for students and professionals.

Specifications

• Model Dimensions: 80 cm L x 33 cm W x 6 cm H (31.5″ x 13″ x 2.4″)

• Weight: 3.1 kg (6.83 lbs)

• Display: Mounted on a rigid, stable board.

The anatomical model of the shoulder joint has several notable features:

Realistic Representation: This is a detailed model of the human shoulder joint, including the scapula, clavicle, and humerus, as well as representations of the ligaments and joint capsules (indicated by the red-orange color).

Flexibility: The model’s joints are flexible, allowing for the simulation of various shoulder movements such as abduction, adduction, forward and backward tilt, and rotation.

Durable Material: The model is made of high-quality PVC, making it resistant to damage and deformation, ensuring its durability for educational use.

Display Stand: It is mounted on a stable base, facilitating its presentation and study.

Educational tool: Designed for teaching anatomy, it provides a visual and tactile aid for understanding the structure and function of the shoulder joint.