TE2

Question 1

Mortality difference from skin injuries?

Answer 1

1942 -1952: the mortality rate of the age group: 15-44 years with 60% skin injury was 100%

1998 – 2003: the mortality rate of the same age group was 41%

Question 2

What was the first organ to be fabricated?

Answer 2

Skin

Question 3

Three layers of the skin?

Answer 3

Epidermis (outer)
Dermis (middle)
Hypodermis (inner)

Question 4

Erpidermis contents?

Answer 4

Stratisfied layer of cells.Thin layer that protects body from environment. Waterproof, no blood vessels. 
Cells: 
Keratinocytes
Melanocytes
Merkel cells
langerhans

Question 5

Thickness of skin?

Answer 5

Eyelids 0.5mm to hands feet 1.5mm

Question 6

What are keratinocytes?

Answer 6

Secretes keratin. Adds stiffness and waterproof barrier In epidermis.

Question 7

What are melanocytes?

Answer 7

melanin secretion which protects the skin from UV. In epidermis.

Question 8

What are Merkel cells?

Answer 8

Are mechanoreceptors. Close to endosensory neurons to signal to. In epidermis

Question 9

What are langerhan cells?

Answer 9

dendritic antigen presenting cells for immunity. In epidermis

Question 10

Dermis contents?

Answer 10

contains blood vessels. hair follices, subcutaneous, sweat glands. Fibroblasts.

Question 11

Fibroblasts secrete? Function?

Answer 11

Wound healing. Collagen, elastin, glycosaminoglycans.

Dermis.

Question 12

Hypodermis characteristics?

Answer 12

internal insulator, protects organs, stores fat for energy source. (thermal insulator and shock absorber). Network of adipose cells and collagen.

Question 13

Cell cycle in epidermis?

Answer 13

cells move up as they differentiate. The basal (deep layer) is the only place where the cells are mitotic/ proliferate,and they gradually rise ,until dead at the top layer. Skin epidermis constantly renewed.

The basal layer also makes EXCM proteins- secrete the basement membrane which separates the epidermis and dermis.

Question 14

What separates the dermis and epidermis?

Answer 14

The basal layer also makes EXCM proteins- secrete the basement membrane which separates the epidermis and dermis.

Question 15

Clinical need for skin replacement? (5)

Answer 15

Burns, chronic wounds, surgery, genetic disorders, acute trauma

Question 16

If injury only epidermis?

Answer 16

Redness and minor pain (erythmia), no scarring, no need for surgical treatment e.g. sunburn, surface scrape

Question 17

if superficial partial thickness wound?

Answer 17

epidermis and superficial dermis. Wet and weeping wound, red to pink then blisters. Very painful exposure to sensory nerve. Heals spontaneously

Question 18

if partial thickness wound?

Answer 18

Greater dermal damage, fewer skin appendages remaining.

Moist, white, red, then pink wound. Scarring is more pronounced.

Question 19

Full thickness wound?

Answer 19

complete destruction of epithelium. Dry, leathery rigid wound, no sponteous healing- needs treatment.

Question 20

Treatment of major skin injuries?

Answer 20

An early exision of a dry scab (ESCHAR) remove denatured proteins, which triggers inflammation as it creates a microbe breeding ground.
Early wound closure and skin grafts inserted over. (of varying amounts of dermis and epidermis)

Question 21

Types of skin grafts?

Answer 21

split thickness- epidermis + only part of dermis.

full thickness- epidermis and all of dermis

Question 22

What is used to remove the graft? Methods?

Answer 22

Dermatome used- gold standard is autologous. If not enough skin is taken ncan mesh the skin so it spans the gap.

Question 23

What is ‘graft take’

Answer 23

When the skin is cut off the blood supply is stopped, but when inserted into new skin area the skin needs to reconnect to the vascular beds below within 2-3 days to keep the cells alive.
revascularisation=’taking’

Question 24

How is the wound bed prepared for a skin graft?

Answer 24

graft needs to adhere to the wound bed- the graft needs a thin layer of CT to ‘take’ not directly to the bone. Needs no infection, bleeding or movement.

Question 25

When is there a need for skin allografts?

Answer 25

If not enough tissue available from the patient or geentic disease e.e.g use cadaveric skin for temporary prevention of fluid loss or wound contamination. Can be obtained from a non-profit skin banks.

Question 26

Advantage and disadvantages for skin allografts?

Answer 26

+ Can be obtained from a non-profit skin banks.

• Pathogen transmission
• immune rejection

Question 27

Advantages and disadvatages to skin autograft?

Answer 27

• limited availability of skin grafts
• Pain and scarring in the donor area
  -further pain for patient
  + No immune reaction, rejection etc

Question 28

Ideal qualities for skin grafts?

Answer 28

• Leave no scars
• readily available off the shelf for acute injuries
• no immune response
• cover and protect the wound
• enhance the healing
• lessen the pain

Question 29

The most simple epidermal substitute?

Answer 29

• Skin biopsy from patient
• Isolate keratinocytes with enzyme treatment,
• Expand in culture x5000.
• colonies merge into cultured eputhelial sheets.
• Added back to wound to form epidermal layer.

Question 30

varied ‘taking’ of keratinocyte skin grafts?

Answer 30

15-85% taking. If the keratinocytes differentiate too far that they don’t express integrins- wont adhere to dermis so they need the right differentiation stage.

Question 31

MySkin method?

Answer 31

Create a subconfluent population, in the hope to keep the keratinocytes in the right differentiation state. (autologous keratinocytes).
Synthetic silicone delivery membrane

Question 32

MySkin trial? Aim

Answer 32

To compare the rate of healing of diabetic neuropathic ulcers using cultured autologous keratinocytes delivered on chemically defined transfer discs (Myskin™) (active treatment) versus healing obtained with cell-free discs (placebo).

Question 33

MySkin trial? method

Answer 33

16 patients with a total of 21 ulcers resistant to conventional therapy received active or placebo treatments weekly for 6 weeks. All patients then received active treatments for a maximum of 12 treatments where required.

Question 34

MySkin trial? results

Answer 34

Of 21, 10 ulcers healed and 8 improved, with 2 failing to respond (one ulcer was lost due to autoamputation).
Only 12 eligable for analysis as completed the treatment. 5 in the placebo group and 7 in the active group. Of these, five ulcers healed completely and seven were reduced by more than 50%. Complete healing took a median of ten active applications.

Question 35

MySkin trial? conclusions

Answer 35

Conclusions: Repeated regular applications of the patient’s keratinocytes, delivered on the carrier dressing, initiated wound healing in ulcers resistant to conventional therapy, with 18 out of 21 ulcers responding. The healing observed did not appear attributable to patient recruitment or the cell-free carrier dressing but to the delivery of the cultured cells. Only kertinocytes- no other epidermal appendages.

Treatment of 80% chronic wounds but needs readding.

Question 36

How are epidermal substitutes applied?

Answer 36

sprayed on the wound

Question 37

Dermal substitues structure?

Answer 37

Acellular- facilitate wound heeling, These substitutes are colonised and vascualrised by underlaying cells.

Question 38

Integra Dermal regeneration template structure?

Answer 38

2 layers:
-The dermal layer e.g. bovine type I collagen, shark chondroitin-6-sulfate. Xenogenic. This allows ingrowth of cells from the wound bed.

• Psudoepidermal layer on top (epidermal replacement)-silicone replacement to stop heat loss and fluid loss- temporary layer.
• Collagen-chondroitin matrix

Question 39

Integra Dermal regeneration template life cycle?

Answer 39

Once the dermal substitute has ‘taken’ the silicone can be removed and replaced byb cells- epidermal substitute.
Cells infiltrate and vascularised and remodel scaffold.

Question 40

AlloDerm structure?

Answer 40

Preserved by freeze drying.

Decellurised human matrix with seeded cells in.

Question 41

Alloderm burn study aims?

Answer 41

As a dermal replacement around joints to prevent contractile and scar tissue formation here

Question 42

Alloderm burn study methods?

Answer 42

Patients received AlloDerm graft selectively on joint areas. 31 patients returned to measuring range of motion of joints, the quality of grafted skin condition criteria of skin elasticity, scar thickness, trans-epidermal water loss, melanin and erythema level was measured in a total of 11 patients among them.

Question 43

Alloderm burn study results?

Answer 43

43.6%) showed no limitations, (21.8%) showed limitations below 10%,(29.1%) showed limitations between 10 and 19% and (5.5%) showed limitations over 20%.
Scar tissue thickness reduced from mean 2.5mm to 1.8mm after alloDerm treatment areas. Erythema and water loss (halved) was also reduced.

Question 44

Steps for putting on dermal and epidermal composite skin substitues?

Answer 44

First apply the dermal substitute into the wound bed and wait for cells and vascularature to infiltrate then place the epidermal substitute on (cells- keratinocytes).

Question 45

What are composite skin substitutes?

Answer 45

A composite skin substitute (graftskin) for surgical wounds that include both epidermis and dermis-synthetic human skin equivalent.
Most are based on allogenate skin cells (e.g. keratinocyes) put into a dermal skin scaffold.
Provide off the shelf products.
Can have temporary bioactive dressings.

Question 46

composite dermalsubstitute skin example?

Answer 46

OrCel

Question 47

OrCel structure?

Answer 47

Composite skin substitute consisting of cultured allogenic fibroblasts and keratinocytes obtailed from neonatal foreskin.
Fibroblasts are seeded into a bovine type 1 collagen sponge and keratinocytes are placed on top.
Cytokines and growth factors from the product promote host cell migration and wound healing. This is important as these are allogenic cells so will be recognised by the immune system, so need to be replaced as a long term solution.
But no appendages, melanocytes, mechanosensitive cells.

Question 48

Issue with wound heeling of the skin?

Answer 48

Contractile skin layed down which is stiff with little elasticity making movement very difficult

Question 49

Use of AlloDerm?

Answer 49

Full-thickness skin burns, alloplastic breast reconstruction, abdominal wall reconstruction, rhinoplasty, building gums before dental work.

Question 50

Limitations of current skin replacement strategies?

Answer 50

• Average wait time 3-12 weeks after biopsy is taken. (isolate and expand keratinocytes, assemble scaffold etc) Not off the shelf.
• currently composite skin substitutes only use keratinocytes and fibroblasts no appendages, or melanocytes etc.
• ‘clincial success but economic failure’

Question 51

LOREAL and TE?

Answer 51

Have a spin factory where they test products on left over tissue from plastic surgery, now turned to 3D printing skin.

Question 52

EB skin briefly describe what happened?

Answer 52

Dying syrian refugee boy with genetic skin condition Epidermolysis bullosa EB had over 70% of his skin severely injured was admitted to a spanish hospital in 2015. His skin was regenerated using a one off compassionate transgenic stem cell treatment.

Question 53

What is EB? Causes..?

Answer 53

Epidermolysis bullosa is a gentic disorder which affects 1/50,000 births. It causes spontaneous skin blistering due to a faulty protein that impedes the epidermis attatching to the basement membrane.

Painful, life threatening, sepsis risk and skin cancer

Question 54

How do the epithelial cells attatch to the basment membrane and dermis?

Answer 54

EC: intermediate filaments binds to plectrin and adhesion molecules. These bind to integrin which spans across the EC to the BM.
BM: integrin binds to laminin, which connects to anchoring fibrils, and then to the dermis below the BM.

Question 55

Keratinocytes make?

Answer 55

-integrins- binds epithelial cells to Basement membrane (and to laminin and then fibrils below to dermis)

Question 56

Mutation in syrian refugee boy?

Answer 56

Had epidermolysis bullosa. Laminin 332 mutation in the splice site within intron 14 of LAMB3.

• the laminin couldn’t interact with integrins, so the epithelial cells would come apart from the BM, causing skin blistering

Question 57

Why syrian refugee Epidermolysis bullosa boy couldn’t have autologous skin cells used?

Answer 57

70% of skin was denuded.
Other areas blistered
Few areas were normal for taking autologous skin cells (keratinocytes)
All cells had the mutation in anyway.

Question 58

What gave the scientists the idea of treatment for syrian refugee EB? Why no developments since?

Answer 58

Epidermolysis bullosa- saw a publication 2006 nature- italian scientists had treated a small area of EB using stem cells, but was only a small area not whole body!

No developments as new stricter legistlation came in abut GMP (good manufacting practice)

Question 59

Options that had to be considered for methods of skin replacement in syrian refugee boy?

Answer 59

Epidermolysis Bullosa.
Repair or replace mutated gene? (replace skin cells)
Ex vivo( cell taken from patient and then put back) or in vivo (derive body)? Invivo
Vectors: viral or non viral? Viral

Question 60

Method of skin replacement in syrian refugee boy? (making of cells)

Answer 60

1. Ex vivo- took biopsy, cultured (and then added back.)
   Keratinocytes cultured in feeder layers expanded.
2. Retroviral vector expressing full length of LAMB3 cDNA Placed under viral promoter made. This didn’t correct the gene but just added correct version.
3. Viral vector transfection with added correct gene into keratinocyes.
4. pre-graft culture had NGS analysis- to see where the gene had inseted in genome (check not into oncogene/tumour supressor etc cancer problem, but if vital gene the cells will just die off

Question 61

Method of skin replacement in syrian refugee boy? (making of tissues)

Answer 61

5. expand biopsy taken into epithelial sheets with transgenic keratinocytes.
6. Cultured for 7 days in fibrin coated flasks (as opposed to cultured plastic which also tested)
7. Transplanted onto patients skin in skin grafts.
8. Follow ups

Question 62

follow ups for skin replacement in syrian refugee boy?

Answer 62

Immunofluorescent probes to test for tLAMB3.
Early none seen but after 4 months was present in those transduced epidermal cells.

Microscope of skin- no blisters seen. Immunoflurosecence for Laminin 332 after 4 months- .

Normal skin functionality and elasticity- not the same colour (no melanocytes)

Cancer checks (has GM cells- risk)

Question 63

EB syrian boy study- what next?

Answer 63

Not just using keratinocytes and fibroblasts, but add melanocytes, appendages (mechanoreceptors, hairs, sensory neurons) and immune cells.

Create both layers. Hard to create both epidermis(ectoderm) and dermis(mesoderm) from stem cells as different germ layers, v different signals for diferentiation needed.

Question 64

Bioengineering a 3D skin from iPS cells aim?

Answer 64

Aim: Induced pluripotent stem cells can be used to mimic the developmental patterning of skin and create the appendages.

Question 65

Bioengineering a 3D skin from iPS cells method?

Answer 65

1. From the iPS cells, let them randomly differentiate into embryonic bodies.
2. aggregate and implant these embyronic bodies under collagen in mice (CDB method: clustering depdent EB transplantation)
3. See what develops under the bodies cues.

Question 66

Bioengineering a 3D skin from iPS cells results?

Answer 66

• Hair grew: Colour of the donor not host. (wnt3b helped development of hair)
• Also had additional skin structures like subcutaneous glans with epithelial connctions, fat, dermis, errector pilli muscles and nerve fibres.
• Disadvantage- not very controlled, random differentiation.

Question 67

Other uses of Skin substitutes besides for wounds?

Answer 67

• cosmetic testing (not on animals)
• drug screening
• cosmetic surgery

Question 68

Skin substitutes for disease study?

Answer 68

Psoriasis- can see chronic inflammatory skin disease causing red plaques on skin.
Keratinocyte hyperproliferation, immune cell infiltration and increased angiogenesis to skin.
See if any drugs can reduce this.
Or add differnt cytokines and see what causes the disease in vitro- then inhibit these etc.