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DOI: 10.1055/a-1309-0968
Anatomy of Pelvic leak points in the context of varicose veins
Anatomie von Becken-Leckage-Punkten im Zusammenhang mit Varizen- Abstract
- Zusammenfassung
- Introduction and clinical significance
- The P Point (PP)
- The I Point (IP)
- The Clitoris Point (CP)
- Superior Gluteal Point (SGP) and Inferior Gluteal Point (IGP)
- Obturator Point (OP)
- Male I Point (MIP) and Male C Point (MCP)
- Conclusion
- References
Abstract
Pelvic venous networks (competent themselves or not) can be the origin of reflux in the superficial leg veins. They are frequently involved in recurrences after classical venous treatment options, as they are not treated in that context. Studies based on various assessments (clinical, ultrasound, venography) conclude that around 10 % of women with varicose vein have their origin in pelvic leaks points, this incidence is 4 times higher in multiparous than in nulliparous. Claude Franceschi first analyzed and described the reflux pathways for this pelvic leak points. The most frequently involved escape points or “Pelvic Leak Points” are the perineal points (PP), draining through the labial region to the leg and the inguinal points through the inguinal ring (IP). Others are the Clitoridian point (CP), gluteal points (GP) and obturatorian point (OP). Their investigation has to be performed in standing position and using Valsalva – but the most important part of the investigation is the anatomic knowledge about the different pathways.
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Zusammenfassung
Venennetze des Beckens (eigenständig oder nicht) können Ausgangspunkt für einen Reflux in die oberflächlichen Beinvenen sein. Sie sind häufig an Rezidiven nach klassischen Venenbehandlungen beteiligt, da sie in diesem Zusammenhang nicht mitbehandelt werden. Studien auf der Grundlage verschiedener Untersuchungen (Klinik, Ultraschall, Phlebografie) kommen zu dem Ergebnis, dass bei etwa 10 % der Frauen mit Varizen die Ursache in den pelvinen Leckagen liegt. Diese Inzidenz ist bei Multipara 4-mal höher als bei Nullipara. Claude Franceschi hat erstmals die Reflux-Pfade für die pelvinen Leckagen beschrieben. Die häufigsten Undichtigkeiten bzw. „pelvinen Leckagen“ sind die perinealen Punkte (PP), die über die Labienregion ins Bein abfließen, sowie die inguinalen Punkte (IP) über den Leistenring. Weitere Punkte sind der Klitoris-Punkt (CP), Glutealpunkte (GP) und der Obturator-Punkt (OP). Sie müssen im Stehen mithilfe des Valsalva-Manövers untersucht werden. Der wichtigste Teil der Untersuchung ist jedoch die anatomische Kenntnis der verschiedenen Pfade.
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Introduction and clinical significance
Anatomy of the pelvic venous system and networks has been described by Hirsch in the previous issue (6/2020 Phlebologie). These intrapelvine networks can be the origin of refluxes in the superficial venous system of the legs.
Several studies based on various assessments (clinical, ultrasound, venography) consider around 10 % of pelvic leaks in women with varicose veins where the number of multiparous are 4 times more frequent than in nulliparous [1] [2] [3] [4]. A high percentage of recurrences after stripping were related to pelvic venous reflux and evaluated as 17 % but not specifically anatomically defined and not specifically treated [5]. Claude Franceschi first described the existence of six parietal points for each side through which a pelvic reflux can be transmitted to the lower limb and be responsible for varicose veins of the lower limbs in mono- and multiparous women [6] [7] [8]. Reflux from a pelvic leak can spread either in the ipsilateral as well as contralateral lower limb thanks to the existence of avalvulated subcutaneous plexuses, involving the tributary axes or non saphenic collectors. The N2 tributary axes may represent a re-entry anatomical terminal or interposed structure. Further studies confirmed that vulvar or lower limbs varicose veins of pelvic origin exist and the echo-guided minimaly invasive parietal surgical treatment of pelvic leaks under local anaesthesia, without any need of pelvic varicose embolization prior PLP reflux ablation leaks is reliable and durable [9].
The pelvic venous system is a complex network of venous vessels and venous plexuses of different embryological origin with the characteristic of draining and interconnecting different anatomic areas: pelvic viscera, front and back parietal structures, the lower limbs and particularly the inguino-crural and perineal regions, but also the back area of the thigh and through it the popliteal fossae. There are different vessels typology:
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avalvulated main venous trunks (iliac common vein, external iliac vein, hypogastric vein)
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inconstantly valvulated visceral veins (ovaric veins) or rarely valvulated visceral veins (uterine veins)
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generally valvulated parietal collectors (obturator vein, internal pudendal vein, superior and inferior gluteal veins, round ligament vein)
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avalvulated venous plexuses connecting vertically and horizontally every pelvic viscera and the pelvic wall
This vascular network represents the functional pelvic venous unit. A distinctive characteristic of the pelvic venous system is the absence of propulsion pumps. The venous flow takes place according to the pressure gradient existing with the right heart and according to the residual pressure. We are now aware that well-defined parietal anatomic points of interconnection between the pelvic and parietal vessels exist, and represent point of significant surgical interest [10] [11] [12] [13] [14]. During pregnancy a valvular damage may occur in parietal as well as visceral collectors because of the increase in pelvic vein peripheral resistances and consequently of venous transmural pressure. Due to the valve damage a venous reflux can be transmitted to the lower limb passing through well-identified parietal points: the pelvic escape points. The impact of pelvic escape point on varicose vein is significant [8] [9] [15] [16]. Misunderstood pelvic escape points may cause a relapse of varicose veins especially chaotic in case of high ligation with ablation of the GSV [9] [17]. For this reason all the haemodynamic diagnostic assessments for vulvar or lower limbs varicose veins must include the investigation with systolic Valsalva to exclude a reflux of pelvic origin with the patient in standing position. The Valsalva manoeuvre is mandatory to detect a reflux of pelvic origin. The examination is performed with the patient in standing position, changing the position to check the perineal leak points. A linear probe (7.5–12 MHz) is used first, but a convex or micro convex probe (5–8 MHz) may be necessary in overweight patients The PRF has always been adjusted between 0.75 and 1 Khz, capable of detecting even low speed reflux from 0.05 to 0.10 m/s. The convex probe (5–8 MHz) is necessary to evaluate the abdominal and pelvic vessel, without any need of trans-vaginal or trans-rectal probes. A perfect knowledge of the vascular pelvic and parietal and perineal venous and topographic anatomy is mandatory.
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The P Point (PP)
The P point is the most frequent pelvic leak point (PLP), representing 60 % of all the PLP treated in women [9] [17]. The subcutaneous plexuses of the perineal region converge into the posterior labial vein which passes through the superficial perineal fascia hole, located postero-laterally to the labia majora about 1 cm respect the origin of the frenulum of labia minora; the posterior labial veins drains into the vulvar plexus. The vulvar plexus drains into the perineal vein that crosses the perineal muscle to reach the internal pudendal vein into the Alcock’s canal to reach the hypogastric vein. Thin nervous fibers may lie close to posterior labial vein. The diameter of the posterior labial vein ranges from 1.8 to 3 mm in my experience. An intermediate labial vein may also exist 1 cm anteriorly and may represent the Intermediate Perineal Point (IPP) (see [Fig. 1]).
In case of valvular incompetence, the reflux follows the same pathway in the opposite direction, from the deep to the surface and dilation of perineal superficial veins may occur (see [Fig. 2]).
Furthermore, reflux can also extend to the ipsilateral or contralateral saphenous network (great or small saphenous vein) through superficial perineal plexuses and other incompetent venous paths.
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The I Point (IP)
The inguinal or “I” Point represents 36 % of all the PLP treated [9] [17]. The IP is the superficial ring of the inguinal canal crossed by the mons veneris veins, draining the superficial perineal and inguinocrural areas. Through the inguinal ring the superficial veins connect to the uterine round ligament vein, and pelvic plexuses to the hypogastric veins. In case of valvular incompetence reflux from the pelvic venous plexuses passing through the round ligament venous plexus can feed ipsilateral and also contralateral vulvar or perineal varicose veins, but also lower limbs varicose veins thanks to branches of the superficial perineal venous network. Moreover, reflux in the round ligament vein may itself be fed by any incontinent ipsilateral and contralateral upstream genital, visceral, iliac or ovarian vein and by the inferior vena cava (See [Fig. 3], [4], [5], [6], [7]).
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The Clitoris Point (CP)
The CP is the anastomotic plexus between the vulvar vein and the superficial dorsal clitoris vein through which the external pudendal vein and dorsal clitoris vein connect to the internal pudendal vein. Veins from the clitoris area also pass through a hole of the superficial subcutaneous fascia to reach the inguinocrural area. Reflux can feed ipsilateral or contralateral perineal and anterior labial veins and or the lateral pudendal external vein to reach the GSV. Minimally-invasive surgery as for Ip and PP is possible, but in this case the disconnection should be performed only at the subcutaneous fascia, to avoid nervous injuries if the ligation is performed deeper, this, on the other side, will allow a higher rate of possible recurrences (see [Fig. 1], [8], [9]).
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Superior Gluteal Point (SGP) and Inferior Gluteal Point (IGP)
The superior and inferior gluteal veins drain into the hypogastric vein. The inferior gluteal vein drains the venous plexus of the sciatic nerve and enters into the pelvis passing below the piriform muscle (IGP), while the superior gluteal vein passes above it (SGP). The venous plexus of the sciatic nerve can be detected posteriorly in the thigh around the hyperechoic image of the sciatic nerve. A minimally invasive surgical approach doesn’t exist, and sclerotherapy is the first choice (see [Fig. 1], [10]).
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Obturator Point (OP)
Is the confluence of the anterior muscular circumflex vein into the confluence between the saphenous arch and the femoral vein. The anterior muscular circumflex vein represents the anterior origin of the Obturator vein, that passing through the obturator channel reaches the hypogastric vein. The anterior muscular circumflex vein passes between the pectineus muscle and fascia and reaches the SFJ immediately below or above the terminal valve from medially. It represents a female but also a male escape point. This escape point can be associated both with the incompetence or competence of the terminal valve. This escape point can be disconnected during a saphenous femoral disconnection or, in case of competent terminal valve, passing through the pectineus fascia. A perfect preoperative skin mark is mandatory ([Fig. 1], [11]).
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Male I Point (MIP) and Male C Point (MCP)
Pelvic leak points have been described in (multi-)parous women. Nevertheless in male patients it is possible to find any pelvic escape points ([Fig. 12], [13]).
The veins of the pampiniform plexus communicate with the superficial veins of the region through a venous collector that cross the hole of the subcutaneous fascia near the pubis in the inguinal region to reach directly the saphenous arch or with the intermediate of the superficial epigastric veins. Two different venous paths but a venous collector that cross the subcutaneous fascia hole (MIP), clearly detectable with a B-mode evaluation, and easy to reach with a surgical dissection. As for the female I point there is a wide possibility of transmitting the reflux from one side to the other thanks to the superficial and deep dorsal veins and plexus surrounding the urethra and penis, and also scrotal veins. In the penis there is a superficial and a deep venous network. The subcutaneous penile venous path drains mainly the skin and the subcutaneous tissue, and the flow normally runs into the subcutaneous dorsal veins of the penis. The dorsal vein of the penis drains into the subcutaneous plexus of the inferior part of the abdomen. This plexus drains into the saphenous arch. There is a wide communication between veins of both sides. The subcutaneous penile venous path drains also into the scrotal veins. Thanks to the veins crossing through the scrotal septum a communication between the paths of the two scrotal veins of both sides is possible. A reverse flow can be easily transmited from one side to the other. The deep venous path of the penis drains into the deep dorsal vein of the penis and through it into the pudendal vein (which normally is valvulated). There is a wide communication between the superficial and deep venous path. A venous collector passing through a subcutaneous fascia hole reaches the dorsal plexus of the penis. A reverse flow can be detected in this collector and transmitted to the lower limb. The MCP it’s easy to reach with a minimally invasive surgical approach under local anaesthesia. A refined preoperative skin mark is mandatory.
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Conclusion
Pelvic venous networks (competent themselves or not) can be the origin of reflux in the superficial leg veins. Their investigation has to be performed in standing position and using Valsalva – but the most important part of the investigation is the anatomic knowledge about the different pathways. The most frequently involved escape points or “Pelvic Leak Points” are the perineal points (PP), draining through the labial region to the leg and the inguinal points through the inguinal ring (IP).
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Conflict of Interest
The authors declare that they have no conflict of interest.
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References
- 1 Jiang P, Van Rij AM, Christie RA. et al. Non-saphenofemoral Venous Reflux in the Groin in Patients with Varicose Veins. Eur J Vasc Endovasc Surg 2001; 21: 550-557
- 2 Barros FS, Perez JMG, Zandonade E. et al. Evaluation of pelvic varicose veins using color Doppler ultrasound: comparison of results obtained with ultrasound of the lower limbs, transvaginal ultrasound, and phlebography. J Vasc Bras 2010; 9: 15-23
- 3 García-Gimeno M, Rodríguez-Camarero S, Tagarro-Villalba S. et al. Duplex mapping of 2036 primary varicose veins. J Vasc Surg 2009; 49: 681-689
- 4 Labropoulos N, Tiongson J, Pryor P. et al. Nonsaphenous superficial vein reflux. J Vasc Surg 2001; 34: 872-877
- 5 Perrin N, Labropoulos N, Leon L. Presentation of the patient with recurrent varices after surgery (REVAS). J Vasc Surg 2006; 43: 327-334
- 6 Franceschi C, Bahnini A. Points de fuite pelviens viscéraux et varices des membres inférieurs. Phlébologie 2004; 57: 37-42
- 7 Franceschi C, Bahnini A. Treatment of lower extremity venous insufficiency due to pelvic leak points in women. Ann Vasc Surg 2005; 19: 284-288
- 8 Franceschi C. Anatomie fonctionnelle et diagnostic des points de fuite bulboclitoridiens chez la femme (point C). J Mal Vasc 2008; 33: 42
- 9 Delfrate R, Bricchi M, Franceschi C. Minimally-invasive procedure for pelvic leak points in women. Veins and Lymphatics 2019; 8 (01) 7789
- 10 Hüffer A. Lehrbuch der topographischen anatomie. Berlin, Heidelberg, New York: Springer-Verlag; 1969
- 11 Sala L, Bruni C. Trattato di anatomia umana. Milano: Ed. Vallardi F; 1932: 4
- 12 Fusari R, Bruni AC. Trattato di anatomia umana topografica. Torino: Ed. UTET; 1936
- 13 Pernkopf E. Atlas of Topographical and Applied Human Anatomy. Platzer, Werner (editor); 1964: 2
- 14 Chiarugi G, Bucciante L. Istituzioni di Anatomia dell’uomo. 2. Francesco Vallardi ed. XI edition; 1975: 17
- 15 Jiang P, Van Rij AM, Christie RA. et al. Non-saphenofemoral Venous Reflux in the Groin in Patients with Varicose Veins. Eur J Vasc Endovasc Surg 2001; 21: 550-557
- 16 García-Gimeno M, Rodríguez-Camarero S, Tagarro-Villalba S. et al. Duplex mapping of 2036 primary varicose veins. J Vasc Surg 2009; 49: 681-689
- 17 Zamboni P, Mendoza E, Gianesini S. Saphenous vein-sparing strategies in Chronic Venous Diseases. Springer; 2018. ISBN: 978-3-319-70638-2 8
Correspondence
Publikationsverlauf
Artikel online veröffentlicht:
18. Januar 2021
© 2021. Thieme. All rights reserved.
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References
- 1 Jiang P, Van Rij AM, Christie RA. et al. Non-saphenofemoral Venous Reflux in the Groin in Patients with Varicose Veins. Eur J Vasc Endovasc Surg 2001; 21: 550-557
- 2 Barros FS, Perez JMG, Zandonade E. et al. Evaluation of pelvic varicose veins using color Doppler ultrasound: comparison of results obtained with ultrasound of the lower limbs, transvaginal ultrasound, and phlebography. J Vasc Bras 2010; 9: 15-23
- 3 García-Gimeno M, Rodríguez-Camarero S, Tagarro-Villalba S. et al. Duplex mapping of 2036 primary varicose veins. J Vasc Surg 2009; 49: 681-689
- 4 Labropoulos N, Tiongson J, Pryor P. et al. Nonsaphenous superficial vein reflux. J Vasc Surg 2001; 34: 872-877
- 5 Perrin N, Labropoulos N, Leon L. Presentation of the patient with recurrent varices after surgery (REVAS). J Vasc Surg 2006; 43: 327-334
- 6 Franceschi C, Bahnini A. Points de fuite pelviens viscéraux et varices des membres inférieurs. Phlébologie 2004; 57: 37-42
- 7 Franceschi C, Bahnini A. Treatment of lower extremity venous insufficiency due to pelvic leak points in women. Ann Vasc Surg 2005; 19: 284-288
- 8 Franceschi C. Anatomie fonctionnelle et diagnostic des points de fuite bulboclitoridiens chez la femme (point C). J Mal Vasc 2008; 33: 42
- 9 Delfrate R, Bricchi M, Franceschi C. Minimally-invasive procedure for pelvic leak points in women. Veins and Lymphatics 2019; 8 (01) 7789
- 10 Hüffer A. Lehrbuch der topographischen anatomie. Berlin, Heidelberg, New York: Springer-Verlag; 1969
- 11 Sala L, Bruni C. Trattato di anatomia umana. Milano: Ed. Vallardi F; 1932: 4
- 12 Fusari R, Bruni AC. Trattato di anatomia umana topografica. Torino: Ed. UTET; 1936
- 13 Pernkopf E. Atlas of Topographical and Applied Human Anatomy. Platzer, Werner (editor); 1964: 2
- 14 Chiarugi G, Bucciante L. Istituzioni di Anatomia dell’uomo. 2. Francesco Vallardi ed. XI edition; 1975: 17
- 15 Jiang P, Van Rij AM, Christie RA. et al. Non-saphenofemoral Venous Reflux in the Groin in Patients with Varicose Veins. Eur J Vasc Endovasc Surg 2001; 21: 550-557
- 16 García-Gimeno M, Rodríguez-Camarero S, Tagarro-Villalba S. et al. Duplex mapping of 2036 primary varicose veins. J Vasc Surg 2009; 49: 681-689
- 17 Zamboni P, Mendoza E, Gianesini S. Saphenous vein-sparing strategies in Chronic Venous Diseases. Springer; 2018. ISBN: 978-3-319-70638-2 8