F5: Factor V deficiency (AR)

Actionability Adult Summary Report

Gene: F5 (HGNC:3542)
Mode(s) of Inheritance:Autosomal Recessive
Literature Search: 11/10/2017
Curation Status: Released - Under Revision (1.3.2)
Release History

Secondary Findings in Adult Subjects. Non-diagnostic, excludes newborn screening & prenatal testing/screening.

Actionability Assertions

Gene Condition (MONDO ID) OMIM ID Final Assertion
F5 congenital factor V deficiency (0009210) 227400 Assertion Pending

Actionability Assertion Rationale

  • This topic was initially scored prior to development of the process for making actionability assertions. The Actionability Working Group decided to defer making an assertion until after the topic could be reviewed through the update process.

Actionability Scores

Outcome / Intervention Pair Severity Likelihood Effectiveness Nature of Intervention Total Score
Severe or prolonged hemorrhage / Development and implementation of comprehensive management plan based on activity levels 2 3N 3B 2 10NB
View scoring key
Domain of Actionability Scoring Metric State of the Knowledgebase
Severity: What is the nature of the threat to health to an individual? 3 = Sudden death as a reasonably possible outcome
2 = Reasonable possibility of death or major morbidity
1 = Modest morbidity
0 = Minimal or no morbidity 		N/A
Likelihood: What is the chance that the outcome will occur? 3 = >40% chance
2 = 5%-39% chance
1 = 1%-4% chance
0 = <1% chance 		A = Substantial evidence or evidence from a high tier (tier 1)
B = Moderate evidence or evidence from a moderate tier (tier 2)
C = Minimal evidence or evidence from a lower tier (tier 3 or 4)
D = Poor evidence or evidence not provided in the report
N = Evidence based on expert contributions (tier 5)
Effectiveness: What is the effectiveness of a specific intervention in preventing or diminishing the risk of harm? 3 = Highly effective
2 = Moderately effective
1 = Minimally effective
0 = Controversial or unknown effectiveness
IN = Ineffective/No interventiona 		A = Substantial evidence or evidence from a high tier (tier 1)
B = Moderate evidence or evidence from a moderate tier (tier 2)
C = Minimal evidence or evidence from a lower tier (tier 3 or 4)
D = Poor evidence or evidence not provided in the report
N = Evidence based on expert contributions (tier 5)
Nature of intervention: How risky, medically burdensome, or intensive is the intervention? 3 = Low risk, or medically acceptable and low intensity
2 = Moderate risk, moderately acceptable or intensive
1 = Greater risk, less acceptable and substantial intensity
0 = High risk, poorly acceptable or intensive 		N/A
a Do not score the remaining categories

Prevalence of the Genetic Condition

Factor V (FV) deficiency is a rare inherited bleeding disorder with a prevalence estimate of severe deficiency (homozygous or compound heterozygous) of 1 in 1,000,000. Approximately 200 patients with FV deficiency have been described in the literature.
View Citations

Lee CA, et al. (2006) PMID: 16834731, Mumford AD, et al. (2014) PMID: 25100430, Congenital factor V deficiency. Orphanet encyclopedia, ORPHA: 326., Huang JN, et al. (2008) PMID: 19141156, (2017) PMID: 28447403

Clinical Features (Signs / symptoms)

Congenital FV deficiency is caused by alterations in the F5 gene resulting in reduced production of plasma coagulation FV; activated FV serves as an essential protein in the coagulation pathway. Common clinical signs include epistaxis, bruising, mucosal bleeding, and soft tissue bleeding. Excessive and prolonged bleeding during or following surgery, delivery or trauma are frequent. Women often present with menorrhagia. Less common are symptoms of joint, muscle, genitourinary, gastrointestinal, and intracranial bleeding.
View Citations

Mumford AD, et al. (2014) PMID: 25100430, Congenital factor V deficiency. Orphanet encyclopedia, ORPHA: 326., Online Medelian Inheritance in Man. (2016) OMIM: 227400

Natural History (Important subgroups & survival / recovery)

Congenital FV deficiency can manifest at any age, with the most severe forms manifesting in early life. Prognosis is good with early diagnosis and treatment. There is limited correlation between FV activity and severity of bleeding. Patients who come to medical attention are typically symptomatic homozygotes or compound heterozygotes with FV activity levels less than 5%. No clear ethnic predisposition is apparent. Data from registries indicate patients are more likely to have skin and mucocutaneous bleeding rather than hemarthroses. Women are at risk of bleeding complications during menstruation and childbirth. Menorrhagia is the most common bleeding symptom in women and may be the first or only presenting symptom. Heterozygotes often have approximately half-normal levels of coagulation factors and are usually asymptomatic, though there may be an increase in bleeding symptoms in carriers.
View Citations

Lee CA, et al. (2006) PMID: 16834731, Mumford AD, et al. (2014) PMID: 25100430, Congenital factor V deficiency. Orphanet encyclopedia, ORPHA: 326., Huang JN, et al. (2008) PMID: 19141156, (2017) PMID: 28447403

Description of sources of evidence:

Tier 1: Evidence from a systematic review or a meta-analysis or clinical practice guideline clearly based on a systematic review.
Tier 2: Evidence from clinical practice guidelines or broad-based expert consensus with non-systematic evidence review.
Tier 3: Evidence from another source with non-systematic review of evidence with primary literature cited.
Tier 4: Evidence from another source with non-systematic review of evidence with no citations to primary data sources.
Tier 5: Evidence from a non-systematically identified source.

Mode of Inheritance

Autosomal Recessive

So-called “severe” FV deficiency is inherited in an autosomal recessive (AR) manner. Compound heterozygous cases have been described, as well as some apparently heterozygous (AD) cases with “mild” FV deficiency and significant bleeding history.

View Citations

Huang JN, et al. (2008) PMID: 19141156, Acharya SS, et al. (2004) PMID: 14995986, Delev D, et al. (2009) PMID: 19486170

Penetrance (Includes any high-risk racial or ethnic subgroups)

>= 40 %
Three cohort studies of patients with FV deficiency have been reported from Iran, Korea, and Germany. The Iranian and Korean cohort were defined based on clinical Factor V levels, while the German cohort included genotype information.
Tier Not provided
In the Iranian cohort (n=35, plasma levels 0-10%), 57% of patients had epistaxis and oral mucosa bleeding, 50% of the women had menorrhagia, 43% had postprocedural or postpartum bleeding, 29% had muscle hematomas, and 26% had hemarthroses. Gastrointestinal, genitourinary, and CNS bleeding episodes were each present in 6% of the patients.
Tier 5 View Citations

Huang JN, et al. (2008) PMID: 19141156

A North American cohort of 18 presumed homozygotes/compound heterozygotes (defined as FV<20%) with severe FV deficiency all had bleeding symptoms. Bleeding events were predominated by bleeding in skin and mucus membranes (44%), joints and muscles (23%), genitourinary (19%), and gastrointestinal tract (6%). Intracranial hemorrhage represented 8% of bleeding events. In the same North American cohort, 19 patients with a heterozygous FV deficiency (defined as FV≥20%) were also examined, and 50% were reported to be symptomatic with spontaneous bleeding events. Of those, bleeding events were predominated by skin and mucus membranes (62%), followed by musculoskeletal (19%) and genitourinary (19%).
Tier 5 View Citations

Huang JN, et al. (2008) PMID: 19141156

In the German cohort 9 patients with homozygous F5 pathogenic variants, 3 patients with compound heterozygous pathogenic variants and 1 patient with a pseudo-homozygous pathogenic variant in addition to Factor V Leiden were reported with bleeding phenotype data available. Of those patients who were homozygous or compound heterozygous (n = 12) for F5 pathogenic variants, 67% reported bleeding symptoms, with the remainder having no bleeding phenotype at the time of study. Bleeding symptoms included hematoma (50% of patients), bleedings following invasive procedures (42%), epistaxis (25%), menorrhagia (20% of females, although patient age was not reported), and severe bleedings (8%). The patient with a pseudo-homozygous genotype had no bleeding phenotype.
Tier 5 View Citations

Delev D, et al. (2009) PMID: 19486170

In the German cohort, 12 heterozygous patients were also reported with phenotype data available. Of these patients, 75% experienced at least one bleeding symptom, with 50% experiencing bleeding following invasive procedures, 25% experiencing hematoma, 17% experiencing epistaxis, 17% of females experiencing hypermenorrhea (although patient age was not reported), and 8% experiencing hematuria.
Tier 5 View Citations

Delev D, et al. (2009) PMID: 19486170

Expressivity

Patients with identical pathogenic variants or activity levels, including related patients with identical genotypes and equally low (<1%) FV activities, can vary greatly in their bleeding symptoms.
Tier 5 View Citations

Huang JN, et al. (2008) PMID: 19141156

Description of sources of evidence:

Tier 1: Evidence from a systematic review or a meta-analysis or clinical practice guideline clearly based on a systematic review.
Tier 2: Evidence from clinical practice guidelines or broad-based expert consensus with non-systematic evidence review.
Tier 3: Evidence from another source with non-systematic review of evidence with primary literature cited.
Tier 4: Evidence from another source with non-systematic review of evidence with no citations to primary data sources.
Tier 5: Evidence from a non-systematically identified source.

Patient Management

In common with other heritable bleeding disorders, the treatment and prevention of bleeding in rare coagulation disorders requires general measures, such as selecting invasive procedures with minimum bleeding risk and ensuring adequate communication of treatment plans developed by hemophilia centers with appropriate expertise.
Tier 2 View Citations

Mumford AD, et al. (2014) PMID: 25100430

There is currently no FV concentrate. For mild bleeding or minor surgery, consider tranexamic acid. For severe bleeding or major surgery, consider FV replacement with solvent detergent fresh frozen plasma (SD-FFP) and additional platelet transfusion. In an open label study of 41 treatment episodes in FV deficiency, SD-FFP increased FV activity and was effective for the treatment of spontaneous or traumatic bleeds and the prevention of surgical bleeds. Off-label recombinant factor VIIa (rFVIIa) was effective in cases with allergy to FFP or to avoid volume overload.
Tier 2 View Citations

Mumford AD, et al. (2014) PMID: 25100430

Case reports were found for 3 pediatric cases of severe homozygous FV deficiency, totaling 13 surgeries in all that were successfully managed with prophylaxis (FFP, rFVIIa, tranexamic acid) and continued supplementation after surgery with FFP and platelets.
Tier 5 View Citations

Mathias M, et al. (2013) PMID: 23173600

Dental management in patients with inherited bleeding disorders should involve a liaison between a hemophilia center, hospital dentist, and general dental practice regarding the nature of the disorder, treatment plans, and risk of transfusion-transmitted infection. Treatment planning for procedures is essential for a good outcome.
Tier 2 View Citations

Anderson JA, et al. (2013) PMID: 24264665

Pregnancy in women with inherited bleeding disorders may require a multidisciplinary approach. Women with severe bleeding disorders should deliver in a hospital or where there is access to consultants in obstetrics, anesthesiology, and hematology.
Tier 2 View Citations

Demers C, et al. (2005) PMID: 16100628

FV deficiency is associated with post-partum hemorrhage (PPH). Cases have been described with patients with FV activity >0.1 IU/ml and severe bleeding; therefore, clinical history should be considered in addition to laboratory levels. Patients should be advised about the possibility of early and late PPH and instructed to report excessive postpartum bleeding immediately. In a case report of 3 pregnancies in 2 homozygous patients, prophylactic and continued treatment with FFP resulted in an uncomplicated Caesarean section in one patient. In the second patient, the condition was discovered due to excessive bleeding at delivery, successfully treated with whole blood and FFP postpartum. The authors also reviewed 18 successful pregnancies reported in the literature, 11 of which were accompanied by heavy bleeding requiring FFP or whole blood transfusion. The other 7 deliveries were uncomplicated due to successful prophylaxis.
Tier 2 View Citations

Mumford AD, et al. (2014) PMID: 25100430, (2017) PMID: 28447403, Demers C, et al. (2005) PMID: 16100628

Treatment of menorrhagia in women with inherited bleeding disorders should be individualized and managed with a multidisciplinary approach including a hematologist and gynecologist. In a survey by the Centers for Disease Control and Prevention, 95% (71 of 75) of women receiving care in hemophilia treatment centers reported a strong positive opinion and satisfaction.
Tier 2 View Citations

Lee CA, et al. (2006) PMID: 16834731, Mumford AD, et al. (2014) PMID: 25100430, Demers C, et al. (2005) PMID: 16100628, Singh S, et al. (2013) PMID: 23756279

A case report of 4 homozygote women treated with oral contraception reported decrease in menorrhagia without complications. One woman treated for twenty years showed progressive reduction of menstrual cycle, decreased transfusional needs, and a steady increase of hematocrit.
Tier 5 View Citations

Girolami A, et al. (2005) PMID: 15660985

Circumstances to Avoid

Aspirin and other NSAIDs are contraindicated in patients with inherited bleeding disorders because they can increase bleeding risk and prolong bleeding times.
Tier 2 View Citations

Anderson JA, et al. (2013) PMID: 24264665, Demers C, et al. (2005) PMID: 16100628, Singh S, et al. (2013) PMID: 23756279, Scottish Intercollegiate Guidelines Network (SIGN),. (2013) URL: www.sign.ac.uk.

Patients with untreated inherited bleeding disorders should not be offered prophylaxis (mechanical or pharmaceutical) for venous thrombotic embolism (VTE), unless the risk of VTE outweighs the risk of bleeding.
Tier 2 View Citations

National Clinical Guideline Centre for Acute and Chronic Conditions,. (2015) URL: www.nice.org.uk., Scottish Intercollegiate Guidelines Network (SIGN),. (2014) URL: www.sign.ac.uk.

Tranexamic acid is contraindicated for renal tract bleeding and in cases with high thrombotic risk.
Tier 2 View Citations

Mumford AD, et al. (2014) PMID: 25100430

Description of sources of evidence:

Tier 1: Evidence from a systematic review or a meta-analysis or clinical practice guideline clearly based on a systematic review.
Tier 2: Evidence from clinical practice guidelines or broad-based expert consensus with non-systematic evidence review.
Tier 3: Evidence from another source with non-systematic review of evidence with primary literature cited.
Tier 4: Evidence from another source with non-systematic review of evidence with no citations to primary data sources.
Tier 5: Evidence from a non-systematically identified source.

Nature of Intervention

The interventions included in this report include treatments with potential risk and side effects. FFP, platelets, and other blood products carry risk of infection transmission. FFP carries risk of volume overload. Tranexamic acid carries risk of thrombosis.
Context: Adult
View Citations

Mumford AD, et al. (2014) PMID: 25100430

Chance to Escape Clinical Detection

Congenital FV deficiency can manifest at any age, with intracranial hemorrhage possible as a first event, indicating a chance to escape clinical detection prior to diagnosis.
Context: Adult
Tier 5 View Citations

Mumford AD, et al. (2014) PMID: 25100430, Huang JN, et al. (2008) PMID: 19141156

Description of sources of evidence:

Tier 1: Evidence from a systematic review or a meta-analysis or clinical practice guideline clearly based on a systematic review.
Tier 2: Evidence from clinical practice guidelines or broad-based expert consensus with non-systematic evidence review.
Tier 3: Evidence from another source with non-systematic review of evidence with primary literature cited.
Tier 4: Evidence from another source with non-systematic review of evidence with no citations to primary data sources.
Tier 5: Evidence from a non-systematically identified source.
Gene Condition Associations
OMIM Identifier Primary MONDO Identifier Additional MONDO Identifiers
F5 227400 0009210

References List

(2017) Management of Inherited Bleeding Disorders in Pregnancy: Green-top Guideline No. 71 (joint with UKHCDO). BJOG : an international journal of obstetrics and gynaecology. 124(8):e193-e263.

Acharya SS, Coughlin A, Dimichele DM. (2004) Rare Bleeding Disorder Registry: deficiencies of factors II, V, VII, X, XIII, fibrinogen and dysfibrinogenemias. Journal of thrombosis and haemostasis : JTH. 2(2):248-56.

Anderson JA, Brewer A, Creagh D, Hook S, Mainwaring J, McKernan A, Yee TT, Yeung CA. (2013) Guidance on the dental management of patients with haemophilia and congenital bleeding disorders. British dental journal. 215(10):497-504.

Congenital factor V deficiency. Orphanet encyclopedia, http://www.orpha.net/consor/cgi-bin/OC_Exp.php?lng=en&Expert=326

Delev D, Pavlova A, Heinz S, Seifried E, Oldenburg J. (2009) Factor 5 mutation profile in German patients with homozygous and heterozygous factor V deficiency. Haemophilia : the official journal of the World Federation of Hemophilia. 15(5):1143-53.

Demers C, Derzko C, David M, Douglas J. (2005) Gynaecological and obstetric management of women with inherited bleeding disorders. Journal of obstetrics and gynaecology Canada : JOGC = Journal d'obstetrique et gynecologie du Canada : JOGC. 27(7):707-32.

FACTOR V DEFICIENCY. Online Medelian Inheritance in Man, OMIM®. Johns Hopkins University, Baltimore, MD. MIM: 227400, (2016) World Wide Web URL: http://omim.org/

Girolami A, Scandellari R, Lombardi AM, Girolami B, Bortoletto E, Zanon E. (2005) Pregnancy and oral contraceptives in factor V deficiency: a study of 22 patients (five homozygotes and 17 heterozygotes) and review of the literature. Haemophilia : the official journal of the World Federation of Hemophilia. 11(1):26-30.

Huang JN, Koerper MA. (2008) Factor V deficiency: a concise review. Haemophilia : the official journal of the World Federation of Hemophilia. 14(6):1164-9.

Lee CA, Chi C, Pavord SR, Bolton-Maggs PH, Pollard D, Hinchcliffe-Wood A, Kadir RA. (2006) The obstetric and gynaecological management of women with inherited bleeding disorders--review with guidelines produced by a taskforce of UK Haemophilia Centre Doctors' Organization. Haemophilia : the official journal of the World Federation of Hemophilia. 12(4):301-36.

Mathias M, Tunstall O, Khair K, Liesner R. (2013) Management of surgical procedures in children with severe FV deficiency: experience of 13 surgeries. Haemophilia : the official journal of the World Federation of Hemophilia. 19(2):256-8.

Mumford AD, Ackroyd S, Alikhan R, Bowles L, Chowdary P, Grainger J, Mainwaring J, Mathias M, O'Connell N. (2014) Guideline for the diagnosis and management of the rare coagulation disorders: a United Kingdom Haemophilia Centre Doctors' Organization guideline on behalf of the British Committee for Standards in Haematology. British journal of haematology. 167(3):304-26.

National Clinical Guideline Centre for Acute and Chronic Conditions,. Venous thromboembolism in adults admitted to hospital: reducing the risk. Clinical Guideline; No. 92 (2015) Accessed: 2017-11-10. URL: https://www.nice.org.uk/guidance/cg92

Scottish Intercollegiate Guidelines Network (SIGN),. Antithrombotics: indications and management. A national clinical guideline. SIGN publication; no. 129 (2013) Accessed: 2017-11-10. URL: http://www.sign.ac.uk/assets/sign129.pdf

Scottish Intercollegiate Guidelines Network (SIGN),. Prevention and management of venous thromboembolism. SIGN publication; no. 122 (2014) Accessed: 2017-11-10. URL: http://www.sign.ac.uk/assets/sign122.pdf

Singh S, Best C, Dunn S, Leyland N, Wolfman WL. (2013) Abnormal uterine bleeding in pre-menopausal women. Journal of obstetrics and gynaecology Canada : JOGC = Journal d'obstetrique et gynecologie du Canada : JOGC. 35(5):473-475.

Early Rule-Out Summary

This topic did not pass the early rule out stage due to insufficient evidence for actionability. However, the Actionability Working Group discussed and granted an exception to move this topic forward for a full evidence curation and summary report.

Findings of Early Rule-Out Assessment

  1. Is there a qualifying resource, such as a practice guideline or systematic review, for the genetic condition?
  2. Does the practice guideline or systematic review indicate that the result is actionable in one or more of the following ways?

    3. a. Patient Management

    b. Surveillance or Screening

    c. Circumstances to Avoid

  3. Is it actionable in an undiagnosed adult with the condition?
  4. Is this condition an important health problem?
  5. Is there at least on known pathogenic variant with at least moderate penetrance (≥40%) or moderate relative risk (≥2) in any population?