Wounds & Injuries CNS 2024 PDF

Summary

This document is a set of lecture notes from a year 2 pathology course at RCSI, on the topic of wounds and injuries, including CNS POTS information. The lecture contains details on various types of injuries: blunt force, sharp force, gunshot, and vehicular impact.

Full Transcript

Tu e s d ay, 2 6 th
No vem ber 2024

Wounds & Injuries and CNS POTS

Dr Yvonne McCartney
Year 2
26th November 2024
Pathology
Wounds & Injuries

RCSI 2024

Dr Yvonne McCartney
State Pathologist
 1. Describe the different types of injuries / tissue damage
and why they should be distinguished.

2. Describe the factors to be assessed regarding the type of
Learning weapon involved in sharp force trauma.

Outcomes 3. Describe the main features of gunshot wound injuries.

4. Describe vehicular impact injuries and the factors that
can influence these injuries.
Graphic Images

GRAPHIC
IMAGES
 DEFINITION
Wounds &
Injuries Disruption of the normal
structure of tissues caused
by the application of force
 Importance of Accurate Documentation

Forensic vs non-forensic autopsy

Weapon / implement used
E.g. Blunt or sharp object

Pattern of the injuries can help determine:
Circumstances of injury
Accident / suicide / homicide

Accuracy in medicolegal reporting
 Describing Injuries

Wound type
Bruise, abrasion or laceration etc.

Wound dimensions
Length, width, depth etc.

Photograph with a scale (e.g. tape measure)

Stab wounds
Measurements to be taken of the wound as it appears first
Then with wound edges drawn together
 Describing Injuries

Position of the wound in relation to fixed
anatomical landmarks
e.g. midline, clavicle, ear lobe

The height of the wound from the heel (ground
level)
Pedestrian RTAs
1.53 m
Stab wounds
 1. Blunt force trauma
Types of Injuries 2. Sharp force trauma
3. Mixed injuries

Knights Forensic Pathology, 4th edition
Blunt Force Trauma

Bruises Abrasions Lacerations
Sharp Force Injuries

Stab wounds Incised wounds
Blunt Force Trauma
Bruises
 Bruises

Blunt trauma / injury to the body surface without damage to the epidermis

Blood leaks out (extravasation) into surrounding tissues from damaged
capillaries, venules and arterioles

→Surface bruises (intradermal)
→Subcutaneous
→Visceral (contusions)
 Bruises

Bruises may 'appear' after some days
Blood tracking along tissue planes

'Shifting' of bruises after time – gravity
From face or scalp to neck in head injury
patients

Extent of bruising is dependent on:
Location of injury: e.g. eyes, palms
Individual traits: thinness of skin,
coagulation
 Localisation

Number

Medical Distribution
Evaluation of
Bruises Size, shape

Pattern – grip/ finger marks

Colour
Tramline Bruise

Two parallel linear bruises separated by a paler, undamaged section of skin

When the skin is struck with a rod-shaped object

→ Blood squeezed from vessels at point of impact
→ They are empty so don’t leak blood
→ Edges of the wound stretched, and blood vessels torn, causing blood to leak into the
surrounding tissue
Tramline Bruise

Knights Forensic Pathology, 4th edition
Abrasions
 Abrasions – Grazes/Scratches

Known as a ‘scratch’ or ‘graze’

Either direct impact (crush) or glancing impact across the skin surface resulting in a loss of
the epidermal layer only

Usually after an object has struck the skin (e.g. a kick), or an injured person has fallen onto
a rough surface, such as road

Broader surface = 'graze' or 'brush abrasion’
E.g. motorcyclist thrown from vehicle and skids along the road surface
Often covers a relatively large area of skin, and is called a 'friction burn’
 Forensic Significance of Abrasions

Abrasions can retain much of the surface characteristics of the object that caused the wound
E.g. car bumper grill

Direction of force can often be determined, from the torn epidermis
Strands drawn towards the end of injury, and are 'heaped up’

Edges of wound may be ragged and directed towards the end of the wound

Dirt, gravel, debris and fibres may be attached or ingrained

Knights Forensic Pathology, 4th edition
Lacerations
 Lacerations
Knights Forensic Pathology, 4th edition

Known as gashes, cuts or tears
Blunt force trauma causing a split / tear in the skin and underlying tissue
BLEED PROFUSELY

Usually where there is bony support
Forehead, scalp and face, knees etc
Less common in softer body areas (buttocks)

Motor vehicles contact - shearing of the skin from underlying support = Degloving injury
 Ragged edges

Crushing and bruising of the margins
Characteristics
of Lacerations
Hairs driven into the tissues

Tissue strands crossing depth of wound
(nerves, fibrous brands, vessels)
 Lacerations
Knights Forensic Pathology, 4th edition

Note: Scalp lacerations may resemble incised wounds when caused by a regular shaped object
Sharp Force Trauma
Sharp Force Injuries

Stab wounds Incised wounds
Stab Wounds
Stab Wounds

Knights Forensic Pathology, 4th edition
Stab Wounds

Depth of injury >> length.
Penetrate more deeply than slash / incised wounds - contact with vital organs in
the chest and abdomen

Caused most obviously by knives

Also bayonets, swords, scissors and blunter instruments such as screwdrivers
Stab Wounds

External surface / skin injuries are usually slit-like

When object is removed - skin contracts
Wound slightly shorter than the blade width

The centre of wound – widens / gapes

The size and shape also depend on:
Configuration and movement of the object
Direction of thrust
Movement of the individuals

Knights Forensic Pathology, 4th edition
 Clean cut edges

One or both ends pointed

Non-pointed end may be squared off or split
Fish tail or boat-shaped defect

Often gape (related to skin elasticity and Langer’s lines)
Characteristics
Cross section of weapon may be illustrated when edges of wounds opposed
of Stab Wounds
Underlying bone may be scored by blade

Abrasions may be present

Frequently shows notching or a change in direction (caused by relative movement of
the knife and body)
Incised Wounds
 Incised Wounds

Due to sharp instruments

Length > depth

Wound margins uninjured

Deep tissues cleanly cut
e.g. surgeon’s incised wound

Also known as Slash wounds
 If the wound involves major blood vessels, it
can be life threatening, but in general, they
Incised Wounds are not as serious as stab wounds
 Other Injuries

1. Weals (reddening, swelling, normal tissue response)

2. Glass injuries (cutting or tearing)

3. Axe or Chop injuries (combined blunt and sharp force)

4. Thermal injuries

5. Firearm injuries

6. Defence injuries (forearms, hands, thighs)
 7. Fabricated Wounds or Fictitious Wounds

Caused by person him or herself, or by someone else with
consent
Other Injuries
Reasons:
False accusation of assault or rape
To mimic defence injury
To aggravate a simple injury
 8. Tentative Self-Inflicted Injuries

Suicide attempts
Short, shallow wounds, usually on wrists or neck
Often multiple, superficial and parallel wounds, surrounding a major/deeper wound
Usually sharp injuries

Other Injuries 9. Self-Inflicted Injuries

Deliberate direct damage to body without conscious intent to commit suicide
Females > males
Mental Disorders - haphazardly inflicted on arms or body
In general injuries are:
Multiple, superficial and parallel
Accessible site; depends on handedness
Clothing not damaged
Age of Injuries
Age of Injuries

Colour changes in bruises - purple to yellow

Scab formation in abrasions

Scabbing and scarring of laceration

Histological examination of tissues

Immunohistochemistry
Age of Bruises

Bruises change colour - degradation of haemoglobin

Timescale not fixed - rough estimation

Colour change - dark blue or purple to blue, brown, green and yellow
In a fit & healthy person spectrum could take from 72 hours to 1 week
Age of Bruises

The more extensive / deep seated the bruise the longer it will take to disappear

Yellow bruise – likely to be least 18 hours old

Markedly different coloured bruises suggest that they have been caused at different
times, and may indicate signs of chronic abuse, such as of an infant etc.
 Death from Injuries

Haemorrhage
Externally into environment Damage to vital
Shock Infection
Internally: chest, abdomen, structure
retroperitoneum, muscle

Pulmonary
Acute tubular necrosis Fat embolism
thromboembolism
Fat Embolism Syndrome

Pelvic and long bone fractures
12 to 72 hours after major Extensive soft tissue trauma
traumatic injury Burns

Intravascular embolisation of fat in systemic and pulmonary vasculature
from bone marrow or adipose tissue

Enter circulation via ruptured vascular sinusoids or venules (7 - 10 um
diameter)
 Clinical diagnosis of exclusion
Respiratory, neurological, cutaneous & haematologic
manifestations
Petechial rash, anaemia and thrombocytopenia

Fat Embolism FES incidence 1 - 3.5% (10% mortality)
Syndrome
Autopsy:
FE in lung, brain, retina and kidney
> 90% have recent traumatic injury
 Oil Red O stain - fat globules (red-
orange) within the pulmonary arterioles
The capillary loops of this glomerulus Petechial hemorrhages in white
contain fat globules in a patient matter. Cerebral oedema and
with fat embolism syndrome. herniation may follow.
GUNSHOT INJURIES
 Gunshot Injuries Science

TYPE OF WEAPON DISTANCE DIRECTION
Types Of
Weapon

Rifled Smooth Bore
 Shotguns

Single or double barrelled

Repeating, semi-automatic

Average barrel length = 18 to 36 inches

Sawn off < 25 cm / 10 inches

Knights Forensic Pathology, 4th edition
Knights Forensic Pathology, 4th edition
Knights Forensic Pathology, 4th edition
 CONTACT

Hole about diameter of barrel
Shotgun
Stellate laceration at bony sites e.g. skull
Injuries
Contact barrel(s) imprint around wound

Scorching of wound margins

Pink colour of skin around wound due to CO

Soot, powder, shot and wad in wound
Shotgun
Injuries

Knights Forensic Pathology, 4th edition
 Shotgun Injuries

As the distance between the shotgun and skin increases, the following occur:

Loss of contact abrasion mark
The appearance and then disappearance of soot around the margin of the wound

The emergence and disappearance of powder tattoo around the wound

The entrance wound becomes larger and scalloped at first, but then disappears

Appearance of pellet wounds and wad
Shotgun Injuries

Knights Forensic Pathology, 4th edition
 Rifling - parallel grooves and
lands on inside of barrel (4 to 7)

Left or right twist
Rifled
Weapons Gyroscopic steadiness

Leaves marks on surface of
bullet
The appearances of the
most common handgun
and rifle rounds are
shown here

In general, it is difficult to
tell from the wound
exactly what round was
used
 Rifle Weapon Injuries

Features of rifled entry wound:

Neat entry hole

Less than diameter of the bullet

Soiling of edges by bullet grease

Collar of abrasion

Edges inverted

+/- Secondary projectiles

Depending on – range, clothing
 Contact

Typical entry wound

Rifle Blackened, seared margin
Imprint barrel muzzle abrasion

Weapon All projectiles in wound (bullet + secondary)

Injuries Contact to head

Stellate shaped entry wound due to gases
spreading under skin lifting it from the skull

Possible back spatter into weapon
 Distance

At distance the entry wound will have:

Neat hole with a rim of abrasion
Rifle Weapon No soot, powder tattoo or pink
Injuries discolouration

The entry may look irregular if intermediate target or
projectile loses spin
 Shotgun
Only at close range e.g.
head
Shotgun pellets stopped by
bone

Rifled
Exit less likely if head wound
May be irregular with
Exit Wounds everted edges
Usually larger than entry
No bullet grease

Multiple exits if projectile
fragments or bone fragments
expelled through skin
 Tissue damage due to energy from
projectile

Energy depends on size and velocity of
projectile
Internal
Injuries Shotgun pellets slowed by tissues &
stopped by bone

Bullets from low velocity weapons
stopped by bone
 Internal Injuries

In high velocity projectile:

Crushing and laceration of tissues in path of missile

Shock waves damage solid tissues and vessels

Temporary cavitation, stretches tissues, fractures bones, disrupts vessels and creates vacuum
 Haemorrhage

Damage to vital structure

Shock

Death from Infection

Injuries
Pulmonary thromboembolism

Acute tubular necrosis

Fat embolism
Road Traffic Collisions
 1. Describe the causes of motor vehicle collisions

2. Describe the types of injuries sustained to the driver of the
vehicle

3. Describe the types of injuries sustained to other occupants of
the vehicle
Learning
4. Describe injuries sustained from seatbelts and airbags
Outcomes
5. Describe pedestrian injuries

6. Understand the importance of the post mortem examination
and collection of trace evidence in road traffic collisions

7. Describe the types of injuries sustained in motorcycle accidents
 Causes of Motor Vehicle Collisions

Natural Vehicle
Intoxication Human failings Environmental
disease disrepair
Alcohol Speed Sudden death Rain, ice, fog Defective tires,
Drugs of abuse Reckless driving while driving breaks, steering
Prescription Falling asleep
drugs Distracted
 Drink Driving

Legal limits for blood alcohol concentration (Ireland):
Experienced drivers: 50 mg / 100 ml
Novice / professional drivers: 20 mg / 100 ml

Legal limits for blood alcohol concentration (UK):
80 mg / 100 ml
Alcohol is a factor in over 1/3 of fatal
road traffic collisions in Ireland
Drug Driving

Legal limits for blood concentration of illegal drugs (Ireland):
Cannabis (THC): 1 ng/ml

Cannabis (THC-COOH): 5 ng/ml

Cocaine: 10 ng/ml

Benzoylecgonine (Cocaine): 50 ng/ml

6-Acetylmorphine (Heroin): 5 ng/ml
 The Dynamics of Vehicular Injury

Acceleration / deceleration:
Tissue injury is caused by a change in the rate of movement

Change of force:
The amount of G-force that a human body can tolerate
depends on duration and direction in which the force acts
Damage depends on force per unit area

Direction of impact:
60 – 80% of vehicular crashes are frontal (deceleration)
6% are rear impact (acceleration)
Sideswipes
crashtest.org
Roll-over
 Depends on:

Position of
Pattern of Type of vehicle occupant in the
vehicle
Injury to
Vehicle
Occupants
Seat belts &
Speed
airbags
The Driver
 Driver Injuries

Front Impact, Unrestrained Driver:
Legs strike fascia of car

Abdomen or lower chest contacts the lower edge
of the steering wheel

Head moves forward with flexion of cervical and
thoracic spines

Head strikes windscreen / upper windscreen rim /
side pillar

Windscreen may break from impact with head

Whole body may be ejected from vehicle

Knights Forensic Pathology, 4th edition
 Driver Injuries

Head & Neck:
Glass injuries – eye damage
Skull fracture
Scalp laceration
Hyperflexion of cervical spine – fracture / dislocation

Trunk:
Bruising
Rib and sternum fractures from impact with steering wheel

Lower Limbs:
Abrasions and lacerations
Fractures of legs, feet, hip, pelvis

Upper Limbs:
Abrasions and lacerations
Fractures from gripping steering wheel
 Driver – Internal Injuries

C-spine fractures
Intracranial haemorrhage
Atlanto-occipital dislocation
Diffuse axonal injury

Ruptured aorta
Heart contusions / lacerations
Complete avulsion of the heart
Lung contusions / lacerations

Liver lacerations / haematoma
Contusion of mesentery and omentum
Ruptured liver
Splenic lacerations
Ruptured spleen
Other Occupants of the Vehicle
Injuries to Other Occupants of Vehicle

Front Seat Passenger Rear Seat Passenger

No steering wheel injuries Projected forwards into back of the
Increased head injuries front seats
Projected over front seats and
through windscreen

Roll-Over Accidents
All occupants have multiple injuries
Increased risk of ejection from car
The Effect of Seatbelts
 Seatbelt Laws in Ireland

Driver has the responsibility to ensure all passengers under 17 years are suitably restrained

All adults must wear a seat belt

Exemptions: medical certificate, driving instructor / examiner, An Garda Síochána / Defence Forces

3 – 12 years (> 36 kg) must have appropriate seating

0 – 3 years (< 36 kg) must use child restraint system (suitable for height & weight)
Seatbelt Laws
in Ireland
Seatbelt Laws
in Ireland
 Seatbelts

The use of seatbelts reduces the risk of fatal injury by 40 – 50% for drivers & front-seat
occupants and by 25 – 75% for rear-seat occupants.

Increased unit are over which force is applied

Extend deceleration time

Prevent ejection

Prevent head injuries

Knights Forensic Pathology, 4th edition
 Seatbelt Injuries

Bruising
Abdomen, chest wall

Internal Injuries
Rib and sternal fractures
Spinal fractures *
Rupture of small intestine / large intestine / mesentery *
Rupture of bladder (esp. If full)
Rupture of aorta *

* increased risk with single lap strap
Airbags
 Airbags

Front and side airbags in most modern domestic cars

Contains sodium azide (solid and highly toxic explosive propellent)
Can reach speeds of over 300 km / hr seat.ie
Deflation is rapid to allow escape from the car

Inflated bag is designed to:
Interpose itself between occupant and structures of the car
Cushion the impact
Prevent forceful contact and hyperflexion

irishmirror.ie
 Chemical burns

Facial bruising

Eye injuries

Arm and hand fractures
Airbags -
Spinal fractures
Injuries
Head injuries

Illegal to use a rearward-facing child car seat in a passenger seat
with an active airbag
Can cause serious injury and death to the child
Pedestrians
 Pedestrian Injuries

Most common road traffic collision fatalities

Injuries:
Primary - contact with vehicle
Secondary - further contact with vehicle
Tertiary - contact with the ground

Knights Forensic Pathology, 4th edition
 Injury pattern depends on:

Speed of the vehicle
Pedestrian
Braking
Injuries
Type of vehicle

Size / age of victim (adult / child)
 Pedestrian Injuries

Speed of Vehicle
High speed
Picked up and knocked forward or over the car
Increased severity of injuries
Lower speeds
Onto bonnet and then off to the side of the car

Braking
Lowers bumper height

Knights Forensic Pathology, 4th edition
 Pedestrian Injuries

Type of Vehicle & Bumper Height
Impact above centre of gravity
Knocked down +/- run over by the car
Impact below centre of gravity
Picked up and either thrown forwards or onto bonnet

Children
Tend to be knocked forwards as the impact is higher up on their body
Projected further by the impact
Increased risk of being run over by the vehicle
 Pedestrian Injuries

Patterned injuries
Bumper, headlights
Tyres

Bumper fractures
Lower leg (tibia / fibula) – closed / compound
Standing – both legs fractured at same height
Walking / running – fractures at different levels
Side impact – single leg fractures (ipsilateral)
 Injuries to Upright Pedestrians

Legs
Most common trauma is to the legs (85% of pedestrian casualties have lower limb injuries)
Abrasions & lacerations to upper shin / knees
Tibia / fibula fractures

Head injuries
Second most frequently injured region
Most common cause of death
Impact with windscreen, pillars, roof, ground
Scalp lacerations
Skull fractures

Chest, abdominal, pelvic and limb injuries
Usually concentrated on one side (opposite side to point of primary impact)
Often widespread with no particular pattern
Pedestrian Injuries – Trace Evidence

Documented and photographed in situ

Retained (NB – chain of evidence)

On Victim
Paint, glass, car parts
Marks on clothing (tyres)

On Vehicle:
Blood, tissue, clothing fragments
The Body Found on the Road
The Body Found on the Road

Hit-and-run?

Number of times run-over?

Number of cars involved?

Post Mortem Examination:
Identification of the body
Identifying patterned injuries
Collection of trace evidence
Natural disease
Toxicology
 The Body Found on the Road

Run Over Injuries
Body crushed between road and vehicle

Degloving / flaying injuries to skin and muscle

Flail chest (bilateral rib fractures)

Spinal fracture

Heart and lungs crushed or lacerated

Bilateral pelvic fractures

Injuries to lover, spleen, intestines, mesentery
Motorcycle Deaths
 Motorcycle Deaths

Higher rate of injury and death amongst motorcyclists compared with car drivers
34-fold increased risk of death per vehicle mile travelled

Head & neck injuries:
Common and often severe
Skull fractures (basal skull facture – hinge fracture; ring fractures)
Cervical spine fractures
Cortical contusion and laceration

Limb injuries:
Lacerations, friction burns, factures (often compound)

Trunk injuries:
Rib fractures, spinal fractures
Visceral damage
motogp.com
 Motorcycle Deaths

Brush abrasions:
From friction / skidding along the road
Can cover large areas of the body surface

Traumatic asphyxia or crush injury:
Heavy bike falls on top of the victim

Tailgating accident:
Motorcyclist drives into the back of a truck, bikes goes under the truck and
motorcyclists head impacts the tailboard of the truck
Severe head and neck injuries
Decapitation

Passengers of motorcycle:
Fall backwards
Posterior scalp lacerations, skull factures and brain contusions
 Things to Remember

All road traffic collisions in Ireland are routine Coroner’s PMs
Hit and run cases are forensic “State” cases

Document and measure patterned injuries and bumper injuries
from anatomical landmarks

The overall pattern of injury is helpful in establishing what
happened
In conjunction with forensic crash investigation
Summary
 Wounds & Injuries

Importance of accurate documentation of wounds & injuries
Importance of recognizing the different types of injuries and to
understand how they may have occurred
Recognise the difference in sharp force injuries (stab versus
incised wound) and blunt force trauma

Gunshot Injuries

Summary Recognise the different characteristics of entry versus exit wounds
Understand the characteristics of close / distance range injuries

Road Traffic Accidents

Understand the types of injuries that may occur to the driver and
other occupants of the vehicle
Understand the types of injuries that may occur to pedestrians
and to motorcyclists
 Questions?

[email protected]