A Review on Urinary Incontinence after Surgery for Benign Prostatic Hyperplasia

Background: Benign prostatic hyperplasia (BPH) is characterized by the abnormal proliferation of cells, leading to structural changes. It is one of the most common diseases in ageing men. Its clinical presentations are dominated by lower urinary tract symptoms (LUTS). The therapeutic methods can be grouped into two options: the medical option and the surgical option in which prostate enucleation is found. In recent years many studies have reported the onset of urinary incontinence (UI) after prostate enucleation. The management of UI occurring after prostate enucleation is embarrassing for both the practitioner and the patient, and generates additional costs. Pur-pose: Cite the causes of UI after prostate enucleation for BPH, as well as ways to prevent the onset of UI after this surgery, specifically by the study of the vesicosphincteric system aimed at improving the technique of enucleation; our review will also deal with the therapeutic means of UI. Method: We re-trieved studies from Science Direct, Wiley and Pubmed. Results: There are multiple etiologies of UI after prostate enucleation including urethral sphincter insufficiency (USI) and bladder dysfunction (BD). The management of UI after surgery could be conservative, surgical, or use new technologies. Urodynamic assessment before prostate enucleation for BPH is relevant. Conclusion: UI is a common post-operative complication of prostate enucleation. The study of the vesicosphincteric system leads us to believe that prostate enucleation for BPH, partially sparing the mucosa and the external urethral sphincter could decrease the incidence of UI after surgery.


Introduction
Prostate adenoma or benign prostatic hyperplasia (BPH) is a new formation developed at the expense of prostate gland. Pathologically, BPH is characterized by the abnormal proliferation of cells (hyperplasia), leading to structural changes which can consist of stromal tissue, fibroblasts, smooth muscle cells and fibromuscular stroma or glandular tissue [1] [2]. The prevalence of BPH increases with age and it is one of the most common diseases in ageing men [3] [4]. Studies have observed histological prevalence of 9%, 50% and 80% in the 4 th , 6 th and 9 th decades of life, respectively [5]. Racial and ethnic variations are not evident in the incidence of BPH and symptoms severity [6]. It has been observed that lifestyle can modify the natural history of BPH [7] [8].
Its clinical presentations are dominated by lower urinary tract symptoms (LUTS) [9] [10] which can be classified in voiding symptoms (obstructive) and storage symptoms (irritative). International Prostate Symptoms Score (IPSS) and Quality of Life (QoL) index show objectively the severity of LUTS and the most bothersome symptoms. There are various therapeutic methods which can be grouped into two options: the medical option and the surgical option [11] [12], whereby, each option has several unique approaches. Over the past decades, surgical management, especially endoscopic, has continued to develop [13] [14] admitting effective surgical techniques which facilitate patient's short hospital stay and enhance rapid healing. It is important to note that the surgical treatment has well codified indications; surgical treatments are warranted when symptoms have not responded to conservative management, drug therapy, or when complications of BPH are diagnosed. The concerned complications are: obstructive renal insufficiency, recurrent acute retention despite medical treatment, acute retention of urine with failure of weaning of bladder drainage, recurrent macroscopic hematuria, recurrent urinary tract infections, bladder lithiasis or urinary incontinence by overflow.
However, in recent years many studies have reported complications related to surgical treatment, including urinary incontinence (UI) [15] [16]; several data reported that temporary UI occurs in more than 20% of patients after prostatic enucleation [17] [18]. UI is defined by the International Continence Society as a complaint of involuntary loss of urine [19]. Clinically, there are three main types of urinary incontinence: stress urinary incontinence (SUI), urinary incontinence due to urgency and mixed urinary incontinence [19].
UI is a common post-operative complication of prostate enucleation [17]  Anatomical and physiological study of the urethral sphincter reveals that the smooth muscle tissue located under the mucous membrane and near the external sphincter participates in urine control. We assume that the mucosa near the external sphincter has the effect of filling the gap left by the contraction of the sphincter. Based on the above two considerations, we believe that the mucosa near the external urethral sphincter plays an important role in urinary control; thus, we assume that prostatic enucleation for BPH, partially sparing the mucosa and the external urethral sphincter could decrease the incidence of post-surgical UI. The reduction of urinary incontinence after surgery for BPH would undoubtedly be a source of satisfaction for the surgeon, the patient and an economic gain for society with regard to the diagnosis and management of this urinary incontinence.

Anatomy of the Vesico-Sphincteric System in Men
The bladder: The bladder is a hollow muscular organ whose function is to collect urine produced by the kidneys and stored at low pressure between urination.
It is a stretchy and elastic organ.
External configuration: in adults, when it is empty, it is flattened and located entirely in the pelvic cavity applied to the posterior surface of the pubic symphysis and to the antero superior part of the pelvic floor [20] [21]. When it is distended, it is ovoid in shape and protudes in the abdomen. In men, it is in front of the seminal vesicles and rectum, and above the prostate ( Figure 1).
Capacity: in adults, the maximum anatomical capicity is 2 to 3 liters. The physiological capacity is approximately 150 ml for the first need to urinate and 300 ml for the normal need.
Means of fixity and bladder compartment: the bladder is well maintained, with the exception of its upper surface by: • Bladder fascia: it covers the infero-lateral surfaces and the fundus of the bladder; • Umbilico-vesical ligament; • Other ligaments: the median umbilical ligament, pubo-prostatic ligament in men, the lateral bladder ligaments, the sacrogenital ligaments; • The pelvic diaphragm and perineum: they are the most important means of fixity; in men, the puboperinealis muscle and the perineum effectively support the prostate, which support the bladder.
Internal structure of the bladder: The bladder contains 3 orifices: 2 ureteral orifices approximately 2 cm apart from each other, and connected by the interureteric fold; 1 urethral orifice, forming with the 2 ureteral orifices, the bladder trigone.    174 Open Journal of Urology The sphincter system: There are two well identified urinary sphincter systems: a proximal internal urethral sphincter assimilited to the vesical sphincter and the distal urethral sphincter assimilated to the external urethral sphincter [25]. The internal sphincter is made up of two layers: a longitudinal layer which intervenes during urination by opening cervix and shortening the urethra. It starts at the bladder neck and prolongs the smooth muscle of the trigone to join the verumontanum; a thicker circular layer at the level of the bladder neck in men, to form the preprostatic sphincter. Classically, these fibers behave like an authentic sphincter, that is to say an independent structure having its own innervation, capable of contracting and relaxing to ensure closure or opening of the cervix and the urethra [26].
The external sphincter consists of two parts: peri-urethral sphincter which is a part of the pelvic floor and is separated from the wall of the urethra by a plane of connective tissue: this is called the "external sphincter" classically described in books, located below the tip of the prostate; the para-urethral sphincter made up of the entire striated musculature from the bladder neck to the middle fascia of the perineum and is intimately associated with the urethral musculature and forms a sleeve externally lining the smooth sphincter [27].
Vasculature of the vesico-sphincteric system: The vesical vasculature is provided by branches of the internal iliac artery (  The global venous return takes place in the venous plexus of santorini, and from there, in the internal pudental veins [28] [29].
Lymphatic drainage passes through the para-vesical nodes, then the internal iliac nodes and those of the promontory.
Innervation of the vesico-sphincteric system: The innervation of the vesico-sphincteric system is complex [30].
The coexistence within the lower urinary tract of a smooth musculature and a striated musculature requires a double innervation: vegetative and somatic.

Physiology of Continence and Male Micturition
The bladder must be able both to hold urine without weakness and to expel urine effortlessly.
The vesico-sphincteric function is subjected to a neurological control developed at 2 levels: automatic control, reflex, which regulates the alternation of filling and urination; brain control, voluntary, which makes it possible to order or refuse voiding reflex [31].
The filling phase: When filling, the bladder spreads out loosely in the small pelvis, its base becoming horizontal, and its neck remaining closed even during heavy coughing efforts. Continence is ensured by a simple gradient largely positive urethrovesical pressure.
Holding forces consist of 2 components: • Urethral pressure: the maximum value is around 60 to 80 cm of water, increases during bladder filling, and collapses during urination [32]; • Urethral resistance, which is greater in men than women which is explained by the greater urethral length on the one hand, and by the presence of denser peri-urethral tissues such as the prostate on the second hand.
The filling phase is under the control of the sympathetic system, resulting in the relaxation of the detrusor (alpha receptors) and especially tonic contraction of the smooth muscle fibers of the cervix and urethra (beta receptors).
Urinary continence at rest: The bladder pressure for filling remains low, not exceeding 15 cm of water for a volume of 300 ml. This ability to store a large volume at low pressure is called 'compliance', thus helping to protect the upper urinary tract, and is explained by the elastic properties of the bladder [32].
Stress urinary continence: Some efforts, such as coughing, laughing, walking, or switching to orthostatism, raise the abdominal and intravesical pressure up to 100 cm of water and more, which may overwhelm the restraining forces described above. However, there is a synchronous increase in urethral pressure to ensure continence. This phenomenon is explained by a somatic reflex called continence ("guarding reflex") resulting in the contraction of the perineo-sphincteric musculature [32].
The voiding phase: During urination, the bladder contracts concentrically.
Its base turns into a funnel and its cervix opens with the urethra, allowing urine to pass. Bladder pressure rises between 30 and 60 cm of water, when urethral pressure collapses [32].
The voiding reflex: It corresponds to the intervention of the parasympathetic system, with 2 main effects: • Powerfull and organized contraction, qualified as 'phasic', of all the detrusor smooth muscle cells; • Collapse of the sphincter tone by reflex inhibition of the antagonistic system, sympathetic and somatic. This reflex coordination of the parasympathetic activation, coupled with the inhibition of the sympathetic and the somatic is organized at 2 levels: at the medullary centers and in the peripheral ganglion plexuses for sympathetic/parasympathetic coordination, at the brainstem centers for parasympathetic/somatic coordination.
Brain control of the voiding reflex: The need to urinate arises from stimulation of the detrusor tension receptors, carrying informations to the parietal cortex via the extralemniscal route.
Brain control is used to trigger or inhibit the voiding reflex organized in the centers of braintem, thanks to the connexion linking them to the cortical and subcortical centers. This is how reflex urination can be triggered [31].
These anatomical and physiological studies of the vesico-sphincteric system suggest that prostatic enucleation for BPH, partially sparing the urethral mucosa at the level of external sphincter, could reduce the incidence of UI occuring after surgery.

The Different Types of UI
There are five types of UI: stress UI (SUI), UI due to urgency, mixed UI (MUI), overflow and functional urinary incontinence [33].
In our review, we will talk about the three main types of UI: SUI, UI due to urgency and MUI.
SUI: Efforts such as coughing, giggling, walking can increase intra-abdominal pressure and lead to urinary incontinence. This form of incontinence is characterized by weakness of the muscles of the perineum and the urinary sphincter [34]. Open Journal of Urology urinate, even impossible to control, defined by the term "urgency" [34].
MUI: It associates SUI with urinary urge incontinence.

Pathophysiology
The onset of LUTS after BPH enucleation is heterogeneous and has multiple ori-

Diagnosis
Clinical diagnosis: • Anamnesis: it focuses on the age of the patient, the medical and surgical history. A voiding calendar: the frequency (with schedule) and the volume of urination as well as the volume of drinks are carefully recorded in parallel with the frequency and importance of incontinence episodes as well as the quantity of pads used give both patient and physician a clear and objective table of incontinence.
• Voiding calendar: also useful to monitor the effect of the treatment instituted. It must be established over at least three consecutive days.
• Symptoms ( Table 1) and quality of life scores ( Table 2): they make it possible to assess the severity of incontinence, as well as its impact on the patient's daily life. Subsequently, will be used to evaluate the effectiveness of the choosen treatment.   Paraclinical diagnosis: • Biology: uroanalysis gives informations of possible micro-haematuria, glucosuria or leukocyturia, bacterial culture, PSA dosage. • Imaging: by transabdominal ultrasound, the post-voiding residue can be assessed; CT and MRI are special in this indication.
• Endoscopy: performing a urethrocystoscopy is necessary to verify the absence of urethral stenosis, urethral bridle, or bladder abnormality that may explain the lack of bladder compliance. Finally, urethrocystoscopy allow us to assess urethral fibrosis, a bladder neck sclerosis and urethral tenderness.

Etiologies
There are multiple etiologies of UI after surgery for BPH, including: urethral sphincter insufficiency (USI) and/or bladder dysfunction (BD). BD can be a decreased compliance (DC) or detrusor overactivity (DO) [38] [39]. Some data have reported that more than 60% of UI were due to BD, probably as a result of a chronic obstruction caused by BPH [40].
Older patients have greater rates of BD and patients older than 70 years of age may be considered a high risk group [38] [39].

Management
Conservative management • Behavioral, lifestyle modification (weight loss if necessary, decrease in consumption of caffeine and tobacco, regular physical activity, changes in fluid intake) or reevaluation can be used as the first line of treatment.
• Re-education: there are many physiotherapy techniques (pelvic floor muscle training, electrostimulation) and it is recommended to combine several in order to obtain maximum efficiency.
• Drugs: the choice of the drug introduced must be adapted to the physiopathological mechanism involved in the patient's UI. In case of stress incontinence, we can use duloxetine; in case of overactive bladder, we can use oxybutinin, trospium hydrochlorid, flavoxate, tolterodine and solifenacin.
If obstruction is suspected, it would be prudent to determine whether urethral or meatal stricture or bladder neck contracture, as these parts may require endoscopic resection or incision, dilation or complex re-construction.

Surgical management
• Peri or intra-urethral injections: the goal of intra injections of fillers is to create resistance to the flow of urine by increasing urethral coaptation. Several products were used: bovine collagen, silicone, carbon ziconium, hyaluronic acid, autologous fat, macroplastic, polydimethylsiloxane and non-silicone polyvinylpyrrolidone [41].
• Peri-urethral balloons: this is a system of two silicone balloons implanted on either side of the urethra by the perineal route, connected by a tube to an injection port or chamber allowing to fill or empty the balloon. They aim to compress the urethra in the region of the deficient striated external sphincter.
• The artificial sphincter: this is the standard treatment for UI for sphincter insufficiency. Its implantation technique has been standardized but remains complex and not without risk [41].
Sub-urethral strips: Sub-urethral strips appear as protheses at lower risk than artificial sphincter and at lower cost. The principle is to increase, by compression and therefore decrease in the diameter of the residual urethra, the number of sphincter cells available to ensure continence [42]. Based on the above two considerations, we believe that the mucosa near the external urethral sphincter plays an important role in urinary control; thus, we assume that prostatic enucleation for BPH, partially sparing the mucosa and the external urethral sphincter could decrease the incidence of post-surgical urinary incontinence. This new surgical approach could help to reduce the incidence of UI occurring after prostate surgery.
This new approach is the subject of much scientific interests in many hospital centers in China, notably at the First Affiliated Hospital of Gannan Medical University where the prostate enucleation technique is well mastered. The technique of prostate enucleation is not yet widespread in many countries of sub-saharan Africa and should be the subject of interests over the next decade.

Conclusion
Urinary incontinence is a common post-operative complication of prostate enucleation; its diagnosis is simple. Risk factors are known: advanced age, commorbidities such as diabetes, a large size of the prostate gland, a long operating time, as well as significant blood loss during the operation. Despite the publication of many methods to avoid the occurrence of UI after prostatic enucleation, the prevalence remains high. After a study of the vesico-sphincteric system, we