Download MBBS Physical Medicine and Rehabilitation Presentations 11 Neurogenic Bladder Management After Spinal Cord Injury Lecture Notes

--- Content provided by⁠ FirstRanker.com ---

Cord Injury

Department of PMR

Overview

--- Content provided by⁠ FirstRanker.com ---

A. Introduction

B. Functional anatomy of the lower urinary tract

--- Content provided by FirstRanker.com ---

C. Bladder impairment following spinal cord injury

D. Bladder management

E. Recommendations for bladder evaluation and follow-up

--- Content provided by‌ FirstRanker.com ---

Introduction

Neurogenic bladder is a general term applied to a malfunctioning

--- Content provided by⁠ FirstRanker.com ---

urinary bladder due to neurologic dysfunction, or insult, resulting
from internal or external trauma, disease or injury.

The majority of people with spinal cord injury (SCI), even those who

--- Content provided by FirstRanker.com ---

have very incomplete impairment, have abnormalities in bladder
function which may cause upper and lower urinary tract complications.
Functional anatomy of LUT

--- Content provided by‍ FirstRanker.com ---

Bladder filling and emptying involve the bladder (detrusor muscle) and its

outlet (bladder neck, proximal urethra and striated muscles of pelvic
floor) acting reciprocally.

--- Content provided by‌ FirstRanker.com ---

During storage of urine, the bladder neck and proximal urethra are closed

to provide continence with the detrusor relaxed to allow low pressure
filling.

--- Content provided by‍ FirstRanker.com ---

During voiding initial relaxation of the pelvic floor with opening of the

bladder neck is followed by detrusor contraction until the bladder is
completely emptied.

--- Content provided by‍ FirstRanker.com ---

Innervation of the bladder

Sympathetic nerve supply

L

--- Content provided by​ FirstRanker.com ---

S

1

--- Content provided by​ FirstRanker.com ---

2

L

S3

--- Content provided by‍ FirstRanker.com ---

2

S

--- Content provided by FirstRanker.com ---

Pelvic nerve

L

4

--- Content provided by‍ FirstRanker.com ---

3

Sympathetic
chain

--- Content provided by‌ FirstRanker.com ---

Hypogastric
ganglion

Hypogastric

--- Content provided by⁠ FirstRanker.com ---

nerve

Pudendal nerve
Autonomic control of micturition

--- Content provided by FirstRanker.com ---

Type of nerve

Name of nerve Spinal

Action

--- Content provided by‍ FirstRanker.com ---

Innervation

Somatic

--- Content provided by⁠ FirstRanker.com ---

Pudendal

S2-4

Sensory and voluntary

--- Content provided by​ FirstRanker.com ---

nerves

motor to external

--- Content provided by⁠ FirstRanker.com ---

Nerve to the

sphincter PFM

levator ani

--- Content provided by‍ FirstRanker.com ---

Sympathetic

Hypogastric

--- Content provided by‍ FirstRanker.com ---

T11-L2

Detrusor relaxation

nerves

--- Content provided by​ FirstRanker.com ---

Internal sphincter

contraction

--- Content provided by‍ FirstRanker.com ---

Parasympathetic

Pelvic nerves

S2-4

--- Content provided by‍ FirstRanker.com ---

Inhibit sympathetic system

causing detrusor contraction

--- Content provided by FirstRanker.com ---

Internal sphincter

relaxation

Micturition centers

--- Content provided by​ FirstRanker.com ---

Co-ordination of micturition involves three main centers:

1. The sacral micturition center, located in the sacral spinal cord ( S3?S4
levels), which is a reflex center in which efferent parasympathetic impulses to

--- Content provided by‍ FirstRanker.com ---

the bladder cause a bladder contraction and afferent impulses provide
feedback on bladder fullness.

2. The pontine center in the brainstem, which is responsible for
coordinating relaxation of the external sphincter with bladder contractions

--- Content provided by‍ FirstRanker.com ---

3. The cerebral cortex, which exerts the final control by directing
micturition centers to initiate or delay voiding, depending on the social
situation.
The micturition reflex

--- Content provided by FirstRanker.com ---

Excitation of stretch

Pelvic nerves

--- Content provided by‍ FirstRanker.com ---

Relayed to

receptors when

parasympathetic

--- Content provided by⁠ FirstRanker.com ---

~300ml of urine.

System

--- Content provided by FirstRanker.com ---

Pelvic nerves

Bladder outlet

micturition

--- Content provided by FirstRanker.com ---

pulled open,

Contraction of

--- Content provided by‌ FirstRanker.com ---

increase in

bladder

Pudendal

--- Content provided by‍ FirstRanker.com ---

pressure

impulses

--- Content provided by‌ FirstRanker.com ---

nerve

inhibited

Definitions and terminology

--- Content provided by FirstRanker.com ---

Intermittent catheterisation: as drainage or aspiration of the bladder or a
urinary reservoir with subsequent removal of the catheter either performed by
the person or an attendant.

--- Content provided by‍ FirstRanker.com ---

Bladder reflex triggering: maneuvers performed in order to elicit reflex
detrusor contraction by exteroceptive stimuli Like.. suprapubic tapping, thigh
scratching and anal/rectal manipulation.

Bladder expression: manoeuvres aimed at increasing intravesical pressure in

--- Content provided by‌ FirstRanker.com ---

order to facilitate bladder emptying Like.. abdominal straining, Valsalva's
manoeuvre and Crede manoeuvre.
Definitions and terminology

Urodynamic studies: Normally take place in the laboratory and usually

--- Content provided by​ FirstRanker.com ---

involve artificial bladder filling and measurements of various bladder

parameters such as intra-vesical pressure.

--- Content provided by FirstRanker.com ---

Detrusor overactivity: Is a urodynamic observation characterized by

involuntary detrusor contractions during the filling phase which may be

spontaneous or provoked.

--- Content provided by​ FirstRanker.com ---

Detrusor underactivity: Is defined as a contraction of reduced strength

and/or duration, resulting in prolonged bladder emptying and/or a failure to

--- Content provided by‍ FirstRanker.com ---

achieve complete bladder emptying within a normal time span.

Definitions and terminology

Bladder compliance: Describes the relationship between change in

--- Content provided by‌ FirstRanker.com ---

bladder volume and change in detrusor pressure.

Detrusor sphincter dyssynergia: Is defined as a detrusor contraction

--- Content provided by⁠ FirstRanker.com ---

concurrent with an involuntary contraction of the urethral and/or peri
-urethral striated muscle. Occasionally, flow may be prevented
altogether.

Indwelling catheterisation: An indwelling catheter remains in the

--- Content provided by​ FirstRanker.com ---

bladder, urinary reservoir or urinary conduit for a period of time
longer than one emptying.

--- Content provided by‍ FirstRanker.com ---

Bladder impairment following

spinal cord injury

SCI disrupts descending motor

--- Content provided by​ FirstRanker.com ---

and ascending sensory pathways,

preventing normal control of micturition

--- Content provided by​ FirstRanker.com ---

Types of Neurogenic Bladder Impairment

Suprasacral (Infrapontine) Bladder

An upper motor neuron lesion results in:

--- Content provided by​ FirstRanker.com ---

? detrusor hyperreflexia (overactivity).

? detrusor-external sphincter dyssynergia (DESD), inappropriate co-contraction

--- Content provided by⁠ FirstRanker.com ---

of the external urethral sphincter (EUS) with voiding detrusor contraction.

Mixed Neurogenic Bladder (Type A)

A lesion in the conus medullaris with damage to detrusor (parasympathetic) nucleus

--- Content provided by​ FirstRanker.com ---

causes:

? detrusor hyporeflexia (underactivity) with external sphincter hyperreflexia.

? characteristically large volume with overflow incontinence.

--- Content provided by FirstRanker.com ---

Types of Neurogenic Bladder Impairment

Mixed Neurogenic Bladder (Type B)

--- Content provided by FirstRanker.com ---

A lesion in the conus medullaris involving pudendal (somatic) nucleus

causes:

? Detrusor hyperreflexia with external sphincter hypotonia.

--- Content provided by‌ FirstRanker.com ---

? Small volume, high frequency, incontinence.

Infrasacral Bladder
A Lower Motor Neurone lesion from conus medullaris and/or cauda equina

--- Content provided by⁠ FirstRanker.com ---

damage results in:

? Areflexia of detrusor with atonia of pelvic floor muscles.

--- Content provided by FirstRanker.com ---

? May have isolated increase in bladder neck/internal sphincter

resistance (intact T11-L2 sympathetics).

? Non-contractile bladder with leakage from overflow.

--- Content provided by​ FirstRanker.com ---

Madersbacher functional classification

system
Functional Classification

--- Content provided by FirstRanker.com ---

Failure to store

Because of bladder

--- Content provided by‌ FirstRanker.com ---

Because of outlet

Failure to empty

Because of bladder

--- Content provided by‌ FirstRanker.com ---

Because of outlet

Bladder Management

--- Content provided by​ FirstRanker.com ---

Goals:

Protecting upper urinary tracts from sustained high filling and voiding

pressures (i.e. >40cm water)

--- Content provided by‌ FirstRanker.com ---

Achieving regular bladder emptying, avoiding stasis and bladder

overdistension and minimising post-voiding residual volumes.

--- Content provided by‌ FirstRanker.com ---

Preventing and treating complications such as urinary tract infections

(UTIs), stones, strictures and autonomic dysreflexia

Maintaining continence and avoiding frequency and urgency

--- Content provided by‍ FirstRanker.com ---

Choosing a technique which is compatible with person's lifestyle
Management methods

Any type of neurogenic bladder management can be divided into four

--- Content provided by‌ FirstRanker.com ---

parts:

Behavioral

--- Content provided by FirstRanker.com ---

Pharmacological

Surgical

Supportive

--- Content provided by FirstRanker.com ---

Behavioral

Timed voiding: Pts are told to void before they reach their full

--- Content provided by⁠ FirstRanker.com ---

capacity.

Individuals with cognitive deficits are helped by timed voiding.

Bladder training: Progressively increasing the time between voiding by

--- Content provided by⁠ FirstRanker.com ---

10 to 15 minutes every 2 to 5 days.

Helpful in persons recovering from head injury/ stroke
Pharmacological

--- Content provided by​ FirstRanker.com ---

Main goal is to block the AcH receptors on the bladder wall there by reducing

the uninhibited contractions.

--- Content provided by‍ FirstRanker.com ---

ORAL AGENTS

Anticholinergic drugs such as Propantheline, Oxybutynin, Tolteridone,

Tropsium etc can be used orally

--- Content provided by​ FirstRanker.com ---

Oxybutynin has some local smooth ms. relaxing and local anesthetic effect

Tolterodine (comp. antagonist) & Tropsium (selective antagonist) have fewer

--- Content provided by FirstRanker.com ---

anticholinergic adverse effects

TCAs- They have additional effect on the internal sphincter by preventing

NER reuptake- Caution AD

--- Content provided by​ FirstRanker.com ---

Darifenacin- Muscarinic receptor antagonist

Contd.

--- Content provided by FirstRanker.com ---

INTRAVESICAL DRUGS

Lidocaine- Short duration of action

Oxybutynin- Effective for 4-6 hours, still lobour intensive.

--- Content provided by FirstRanker.com ---

Capsiacin- C-fibre neurotoxin. Effect can last upto several months

A/E- suprapubic pain, haematuria, urgency, AD can last upto 2 wks

--- Content provided by​ FirstRanker.com ---

Resiniferatoxin- 1000 times more potent than Capsiacin longer acting.

Minimal side effects due to rapid onset of action.
Surgical

--- Content provided by FirstRanker.com ---

Bladder augmentation- to create a large bladder capacity with low

intravesical pressure. Distal ileum is commonly used

INDICATIONS

--- Content provided by FirstRanker.com ---

1.

Inability to tolerate/ unwillingness for drugs

--- Content provided by‍ FirstRanker.com ---

2.

Detrusor hyperreflexia or low compliance

3.

--- Content provided by‍ FirstRanker.com ---

Recurrent UTIs or AD

4.

--- Content provided by⁠ FirstRanker.com ---

Upper tract damage

Supportive

1.

--- Content provided by‌ FirstRanker.com ---

Diapers

2.

--- Content provided by​ FirstRanker.com ---

External condom catheter

3.

Indwelling catheters

--- Content provided by‍ FirstRanker.com ---

Diapers- one of the easiest methods mainly for back up. They have

many disadvantages like.. Expenses, potential skin breakdowns

--- Content provided by⁠ FirstRanker.com ---

External Condom Catheters

Men with detrusor hyperreflexia

--- Content provided by FirstRanker.com ---

Normal bladder function with incontinence secondary to

mobility or cognitive factors.

Major drawbacks:

--- Content provided by⁠ FirstRanker.com ---

leg bag, penile skin breakdown,

condom catheter falling off

--- Content provided by FirstRanker.com ---

slight increase in bladder infections.

Intermittent Catheterisation

During the first few weeks after injury, over

--- Content provided by⁠ FirstRanker.com ---

distension of the bladder should be avoided by
continuous drainage (usually 7-10 days after injury).

After this period, regular intermittent

--- Content provided by​ FirstRanker.com ---

catheterization.

Long term in both male and female patients with

--- Content provided by​ FirstRanker.com ---

paraplegia or males with tetraplegia and sufficient
hand function, clean intermittent self catheterization
(CISC) is the preferred method.
Clean intermittent self catheterization

--- Content provided by​ FirstRanker.com ---

Perform every 4-6 hours

Prerequisites: well-controlled detrusor activity, include good bladder

capacity, adequate bladder outlet resistance, absence of urethral

--- Content provided by‍ FirstRanker.com ---

sensitivity to pain with catheterization and patient motivation.

Contraindications: abnormal urethral anatomy such as stricture, false

passages, and bladder neck obstruction, poor cognition, little

--- Content provided by​ FirstRanker.com ---

motivation, unwillingness to adhere to the catheterisation time
schedule.

CISC has the lowest complication rate.

--- Content provided by‍ FirstRanker.com ---

Reflex Voiding and Bladder Expression

Techniques

In males with tetraplegia and insufficient hand dexterity to perform

--- Content provided by⁠ FirstRanker.com ---

CIS, drainage by reflex voiding with triggering maneuvers and use of an
external urinary collection device is possible.

Valsalva or Crede (pressing over the bladder) are discouraged as they

--- Content provided by⁠ FirstRanker.com ---

may produce high intra-vesical pressure, increasing the risk for long-
term complications.

However, this technique is generally no longer recommended.

--- Content provided by​ FirstRanker.com ---

Indwelling Catheterisation

In long-term use a suprapubic catheter is generally

--- Content provided by⁠ FirstRanker.com ---

preferred to avoid creation of fistulous tracts, damage
to the sphincter muscles, dilation of the urethra, penile
tip erosion and splitting of the penis, called traumatic
hypospadias.

--- Content provided by​ FirstRanker.com ---

Female patients with tetraplegia generally use either a

suprapubic or an indwelling urethral catheter, suitable
in some women with paraplegia also.

--- Content provided by FirstRanker.com ---

Males with tetraplegia suprapubic catheters are being

recommended.

--- Content provided by⁠ FirstRanker.com ---

Evaluation and Follow-up

There is no clear consensus on the appropriate urological follow-up of

individuals after spinal cord injury.

--- Content provided by⁠ FirstRanker.com ---

Upper tract evaluations include tests that evaluate function such as

renal scans, ultrasound, CT scan and intravenous pyelogram (IVP).

--- Content provided by⁠ FirstRanker.com ---

Lower tract evaluations include urodynamics to determine bladder

and sphincter function, cystograms to evaluate for vesicoureteral
reflux and cystoscopy to evaluate bladder anatomy.