Membranes

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Study Tools For Membranes

Microvilli – Mucous Membranes (Image)
Serous Membrane (Image)
Heart Wall Layers (Image)
Visceral & Parietal Pleura (Image)
Glands (Cheatsheet)
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Outline

Overview

  1. Functions
    1. Line body cavities ((OPEN & CLOSED))
    2. Cover internal organs
    3. Inner lining of heart, blood vessels and lymph vessels
  2. Types
    1. Mucous membrane – mucus secretion
    2. Serous membrane – watery secretion
  3. Composition
    1. Epithelial tissue, attached to other structure(s)

Nursing Points

General

  1. Mucus Membrane
    1. Location—line open body cavities (open to the outside of the body)
      1. Buccal cavity
      2. Nasal cavity
      3. Inner lining of:
        1. Respiratory tract
        2. Digestive tract
        3. Urinary/excretory tract
        4. Reproductive tract
    2. Composition
      1. Epithelium — any except simple squamous & stratified cuboidal
        1. May contain goblet cells to secrete mucus
        2. May have mucus glands (excretory system)
      2. Areolar CT
      3. Smooth or skeletal muscle
        1. Mostly smooth
        2. Skeletal in buccal cavity
    3. Functions
      1. Protection
      2. Secretion
      3. Absorption
    4. Continuities @ skin
      1. Lips
      2. Nostrils
      3. Urinary meatus
      4. Anus
      5. Vaginal orifice
  2. Serous Membranes
    1. Locations
      1. Line closed body cavities
      2. Covers organs
      3. Inner linings of heart, blood vessels, and lymph vessels
    2. Cavities
      1. Thoracic → above diaphragm, inside rib cage, to top of lungs
        1. Lungs
        2. Mediastinum (between lungs)
          1. Heart
          2. Major blood vessels
          3. Trachea
          4. Espophagus
      2. Pericardial Space
        1. Around heart
      3. Abdominopelvic Cavity
        1. Digestive system
        2. Excretory system
        3. Reproductive organs
    3. Types of Membranes
      1. Parietal – line cavities
      2. Visceral – surround organs
      3. Pleura → lungs
        1. Parietal pleura →  thoracic cavity
        2. Visceral pleura  → covers lungs
      4. Pericardium—heart
        1. Parietal pericardium → sac around heart
        2. Visceral pericardium → covers heart — aka “epicardium”
      5. Peritoneum
        1. Parietal Peritoneum → Lines the abdominopelvic cavity
        2. Visceral Peritoneum → surrounds the liver, stomach, small intestine, and large intestine
        3. Mesentery (extension of visceral peritoneum) → stabilizes organs
    4. Composition
      1. ONLY simple squamous epithelium
    5. Functions
      1. Protection against friction by secreting a watery fluid
        1. Between organs
        2. Between organs and cavity walls
      2. Absorption of fluid → blood
      3. Pleurae prevent lungs from collapsing
      4. Endothelium in heart and blood vessels
        1. Prevents intravascular clotting
      5. Form mesenteries for suspension of organs
    6. Retroperitoneal Structures
      1. “Behind the peritoneum”
      2. Duodenum, rectum
      3. Kidneys, ureters, urinary bladder
      4. Spleen, pancreas
      5. Ovaries, uterus, fallopian tubes

References
Betts, J.G., et al. (2017). Anatomy and physiology. Houston, TX: OpenStax, Rice University. Retrieved from https://openstax.org/details/books/anatomy-and-physiology?Book%20details

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Transcript

In this lesson we’re going to look at membranes in the body and what they do.

The overall functions of membranes are to line body cavities, cover organs, and line the heart, blood vessels, and lymph vessels. There are two types of membranes – mucus membranes, which secrete a mucus substance, and serous membranes, which secrete a watery substance. Membranes are composed of epithelial tissue that is attached to another structure like muscle or connective tissue.

So let’s first talk about mucus membranes. Mucus membranes line OPEN body cavities. What does that mean? An open body cavity is one that has a continuity or opens up to the outside of the body. So the buccal cavity is the mouth, the nasal cavity is the nose – they open to the outside, right? The respiratory tract opens to the outside as well through those same openings. We also see an opening at both ends of the digestive tract in the mouth and the anal canal. And the genitourinary system includes both the urinary or excretory system and the reproductive system. All of these body systems are lined with mucus membranes.

So what are mucus membranes made of and what do they do? Mucus membranes are composed of any type of epithelial tissue except simple squamous or stratified cuboidal. If you need a refresher on this, make sure you check out the types of epithelial tissues lesson. In terms of the mucus secreting part of this membrane, it could either be with goblet cells or with actual mucus glands. Then that epithelial tissue is connected by areolar connective tissue to smooth or skeletal muscle. Mucus membranes serve to protect, secrete mucus, and have a role in absorption, especially in the digestive tract.

So now let’s talk about serous membranes. Serous membranes serve to line CLOSED body cavities. So by deduction we can figure out that closed body cavities are ones that DON’T open to the outside, right? This includes our thoracic cavity, which goes from the top of the diaphragm to the top of the lungs and all the way around. And our abdominopelvic cavity which goes from the bottom of the diaphragm to the top of the bladder and all the way around. We also have a sac around our heart called the pericardial sac, which is a serous membrane. We also see our internal organs covered by serous membranes and the inner linings of our heart, blood vessels, and lymph vessels are lined with them as well. So let’s look more specifically at a couple of types of serous membranes you need to know about.

The first is pleura or pleural membranes, which are associated with the lungs. What you’ll see which each of these is you have two types – parietal membranes and visceral membranes. Parietal means the cavity or space. So the parietal pleura lines the entire thoracic cavity. It’s connect to the inside of our ribs and intercostal muscles. Then, visceral means the organ – so the visceral pleura covers the lungs themselves. When you check out the breathing movements lesson in the respiratory module of this course, you’ll also see that there’s a fluid in here between these membranes that helps keep them stuck together – that’s called the pleural fluid and it’s the watery substance secreted by these membranes.

Next is peritoneum – the peritoneum is associated with the abdominopelvic cavity. So, again, parietal means cavity – so the parietal peritoneum surrounds the abdominopelvic cavity. That goes from the bottom of the diaphragm down to the top of the bladder. And visceral means organ – so the visceral peritoneum covers the organs in these cavities. Now, you’ll notice that the bladder is actually below this membrane. Well there is actually something called a retroperitoneal structure. Retro means “behind” – so what we actually see here is that the entire genitourinary system – so the kidneys, ureters, bladder, and all reproductive organs – are OUTSIDE of this parietal peritoneum membrane. So we call them retroperitoneal.

Last is the pericardium, which is associated with the heart. Think peri means around, cardium means heart – so around the heart! Parietal pericardium is actual the sac around the heart, also called the pericardial sac. Then the visceral pericardium surrounds the heart itself – and just like in the pleural space, there’s fluid in between here as well called the pericardial fluid – that helps to cushion and protect the heart from friction while it’s beating. Now when it comes to the heart and blood vessels, we also have endocardium inside the heart and endothelium inside the blood vessels that are serous membranes.

So serous membranes are SUPER thin, guys – they are only made of simple squamous epithelium. Remember from those lessons that this is a single layer of thin, flat cells. These serous membranes serve as protection against friction because of the watery substance they secrete – it’s like a slip and slide. They also help to suspend organs in place and can help with fluid balance because they can filter and absorb fluid. We also see the pleural membranes helping to keep the lungs expanded and the endothelium inside the blood vessels helps to prevent blood from clotting. So these membranes are a HUGE part of keeping all of our organs working right every day – and we don’t even know it!
So make sure you know that membranes serve to line and cover our cavities and organs. There are two main types – mucus and serous. And remember that serous membranes are either visceral or parietal depending on whether they cover an organ or line a cavity.

That’s it for our lesson on membranes. Make sure you check out all the resources attached to this lesson. Now, go out and be your best self today. And, as always, happy nursing!

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12 Points to Answering Pharmacology Questions
5 Things You Never Knew About The NCLEX – Live Tutoring Archive
9 Easy Steps to Passing Every Nursing School Test | With Jon Haws, BSN, RN, Founder of NURSING.com
Anatomy of an NCLEX Question
Bloom’s Taxonomy
Caring Practices for Progressive Care Certified Nurse (PCCN)
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Drawing Pictures
Essential NCLEX Meds by Class
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Legal Considerations
License Maintenance
NCLEX Question Traps! – Live Tutoring Archive
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NRSNG Live | 5 Things You Never Knew About NCLEX Questions
NRSNG Live | How I Went From Nursing School Dropout to Passing NCLEX in 75 and Teaching 18 Million Nurses
NRSNG Live | How to Pass Any Nursing School Test
NRSNG Live | My Super Secret Note Taking Method
Nursing Care and Pathophysiology for Influenza (Flu)
Nursing Care and Pathophysiology of Myocardial Infarction (MI)
Nursing Care Plan (NCP) for Abdominal Pain
Nursing Care Plan (NCP) for Anxiety
Nursing Care Plan (NCP) for Influenza
Nursing Care Plan (NCP) for Pneumonia
Oncology nurse
Pain Management for the Older Adult – Live Tutoring Archive
Pharmacology Course Introduction
Purpose of Nursing Care Plans
Questions To Ask Before Applying To A Nursing Program
SATA like a BOSS – Live Tutoring Archive
Stroke for Progressive Care Certified Nurse (PCCN)
Study Tips for Success
Test Taking Course Introduction
Tenet 1 Filet Mignon
The Nursing Process Pro Tips for Test Taking – Live Tutoring Archive
Therapeutic Drug Levels (Digoxin, Lithium, Theophylline, Phenytoin)
What are the NCLEX Categories? – Live Tutoring Archive
Wounds (Infectious, Surgical, Trauma) for Progressive Care Certified Nurse (PCCN)
What is the NCLEX?
Transition To Practice
Time Management
Fetal Circulation
Nursing Care Plan (NCP) for Alcohol Withdrawal Syndrome / Delirium Tremens
Nursing Care Plan (NCP) for Neural Tube Defect, Spina Bifida
Nursing Care Plan (NCP) for Cleft Lip / Cleft Palate
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Nursing Care Plan (NCP) for Newborns
Nursing Care Plan (NCP) for Parkinson’s Disease
Nursing Care Plan (NCP) for Systemic Lupus Erythematosus (SLE)
Nursing Care Plan (NCP) for Osteoarthritis (OA), Degenerative Joint Disease
Nursing Care Plan (NCP) for Omphalocele
Sensation & Perception
Nursing Care Plan for Macular Degeneration
02.09 12 Lead EKG- Leads 1, 2, 3, aVL, and aVF for CCRN Review
07.02 Neuro Anatomy for CCRN Review
10.01 Arterial Blood Gas (ABG) Interpretation for CCRN Review
ABG Course (Arterial Blood Gas) Introduction
Adrenal Gland
Alkalosis and Acidosis Nursing Mnemonic (Kick Up, Drop Down)
Autonomic Nervous System (ANS)
Arterial Pressure Monitoring
Arterial Blood Gases Nursing Mnemonic (ROME)
Anticholinergics – Side Effects Nursing Mnemonic (4 Can’ts)
Blood Grouping
Beta 1 and Beta 2 Nursing Mnemonic (1 Heart, 2 Lungs)
Atropine (Atropen) Nursing Considerations
Blood Pressure (BP) Control
Blood Plasma
Breathing Movements
Bone Structure
Calcium and Magnesium Imbalance for Certified Emergency Nursing (CEN)
Cardiac (Heart) Physiology
Calculating Heart Rate
Causes of Poor Gas Exchange Nursing Mnemonic (All People Can Value Lungs)
Cholinergic Crisis – Signs and Symptoms Nursing Mnemonic (SLUDGE)
Connective Tissues
Cranial Nerves
Development of Bones
Digestion & Absorption
Digestive System Anatomy
EKG (ECG) Course Introduction
EKG (ECG) Waveforms
EKG Basics – Live Tutoring Archive
Electrical Activity in the Heart
Electroencephalography (EEG)
Electrolyte Imbalances for Progressive Care Certified Nurse (PCCN)
Electrolytes – Location in Body Nursing Mnemonic (PISO)
Electrolytes Involved in Cardiac (Heart) Conduction
Esophagus
Female Reproductive Anatomy (Anatomy and Physiology)
Fluid & Electrolytes Course Introduction
Epithelial (Skin) Tissues
Fluid Volume Deficit
Formation & Excretion of Urine
Gastrointestinal (GI) Course Introduction
Glands
Health Assessment Course Introduction
Hyperkalemia – Causes Nursing Mnemonic (MACHINE)
Hygiene
Hypernatremia – Causes Nursing Mnemonic (MODEL)
Hyperkalemia – Signs and Symptoms Nursing Mnemonic (Murder)
Hyperkalemia – Management Nursing Mnemonic (AIRED)
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Intro to Circulatory System
Inserting a Foley (Urinary Catheter) – Male
Joints
Large Intestine
Liver & Gallbladder
Membrane Potentials
Membranes
Muscle Physiology
Order of Lab Draws
Oxygen Delivery Module Intro
Normal Sinus Rhythm
Nursing Care Plan (NCP) for Bronchoscopy (Procedure)
Nursing Care Plan (NCP) for Fluid Volume Deficit
Pancreas
Parasympathomimetics (Cholinergics) Nursing Considerations
Pituitary Gland
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Fluid Volume Deficit
Renin Angiotensin Aldosterone System
Sodium and Potassium Imbalance for Certified Emergency Nursing (CEN)
Urinary System Anatomy (Anatomy and Physiology)