Familial Ovarian Cancer - PowerPoint PPT Presentation

1 / 41
About This Presentation
Title:

Familial Ovarian Cancer

Description:

Familial Ovarian Cancer Diane Stirling Ovarian cancer in the UK 5th highest incidence of ovarian cancer. 4th most common cancer in women Risk of developing ovarian ... – PowerPoint PPT presentation

Number of Views:132
Avg rating:3.0/5.0
Slides: 42
Provided by: DianeSt9
Category:

less

Transcript and Presenter's Notes

Title: Familial Ovarian Cancer


1
Familial Ovarian Cancer
  • Diane Stirling

2
Ovarian cancer in the UK
  • 5th highest incidence of ovarian cancer.
  • 4th most common cancer in women
  • Risk of developing ovarian cancer
  • up to age 64 - 0.9
  • up to age 74 - 1.5
  • 5000 women are diagnosed each year 4000 deaths
    (East of Scotland has approximately 180 cases per
    year)
  • 12.1 increase in prevalence from 1989-1998

3
Five year survival rates
  • Europe 33
  • United Kingdom 25
  • Scotland 27.8
  • Borders 29
  • Lothian 27.8
  • Fife 20.3
  • Accounts Commission for Scotland Fighting the
    silent killer 1998.

4
The Silent Killer
  • Vague or non-specific symptoms
  • abdominal discomfort
  • swelling (tumour mass or ascites)
  • menstrual irregularities
  • gastro-intestinal symptoms

5
Pathology
  • 90 epithelial origin
  • Borderline tumours ( low malignant potential
    tumours)
  • Non epithelial ovarian cancers include
  • germ cell tumours
  • sex cord tumours

6
Staging (FIGO 1986)
  • Stage 1 - LIMITED TO OVARIES
  • 1A - One ovary, capsule intact
  • 1B - Two ovaries, capsule intact
  • 1C - One or both ovaries with ruptured
    capsule/surface tumour or positive cytology
  • Stage 2 PELVIC EXTENSION
  • 2A Uterus or tubes
  • 2B Other tissues
  • 2C Ruptures tumour, surface tumour, positive
    cytology
  • Stage 3 ABDOMINAL OR NODAL METASTASIS
  • 3A Microscopic seeding of abdo - peritoneal
    surfaces
  • 3B Abdo - peritoneal implants 2cms or less, -ve
    nodes
  • 3C Adbo - peritoneal implants 2cm or more and or
    ve nodes
  • Stage 4 DISTANT METASTASIS (includes pleural
    effusion with ve cytology,parenchymal
    liver metastasis )

7
Staging and Treatment
  • Establishing the stage of the disease accurately
    requires extensive surgical exploration
  • Treatment - surgical removal of as much tumour as
    possible followed by adjuvant chemotherapy
  • Stage 1 disease - surgery alone

8
Prognosis
  • 5 year survival rate in UK - 30
  • Improved prognosis reported in Stage 1 disease
    with a 5 year survival rate varying between 72 -
    81
  • ? Scope for outcomes to be improved by increasing
    the number of early detected cancers
  • Improved prognosis if surgery carried out by a
    specialist in gynaecological cancers

9
Risk Factors
  • Family history is the strongest known risk factor
  • Population risk 1
  • One relative with ovarian cancer 3
  • Two relatives with ovarian cancer 15
  • Three or more relatives between 30-40

10
Protective Factors
  • Use of OCP (over 5 years) reduces risk of ovarian
    cancer by up to 50
  • Pregnancy
  • Breast feeding
  • Hypothesis
  • The suppression of ovulation confers protection
    from ovarian cancer
  • trauma and healing of ovarian epithelium
    predisposes malignant change
  • high levels of circulating gonadotrophins induces
    malignant change

11
Hereditary ovarian cancer
  • 5-10 of ovarian cancer is thought to be
    hereditary
  • At least 3 distinct clinical patterns
  • Breast / ovarian - BRCA 1 and BRCA 2
  • Colon / rectum / endometrial / stomach / ovarian
    (HNPCC spectrum) - Mismatch Repair Genes
  • Ovarian specific

12
Ovarian Specific
  • May not be a clinical entity but may be one end
    of a spectrum of involvement of ovarian cancer in
    the other clinical syndromes
  • Also the possibility that other more common
    predisposing genes of weaker effect exist which
    rarely give rise to multiple case families

13
BRCA1 (17q 21) gene carriers
  • Ovarian Cancer Risk
  • by Age 40 0.6
  • 50 22
  • 60 30
  • 70 63
  • (Easton et al 1995)

14
BRCA 2 (13q 12-13) gene carrier
  • Ovarian Cancer Risk
  • By Age 40 0.0
  • 50 0.4
  • 60 7.4
  • 70 27
  • (Ford et al 1998)

15
HNPCC
  • Ovarian cancer risk
  • 9
  • for HNPCC gene carriers
  • (Vasen et al 1995)

16
Genotype/ Phenotype Correlation
  • Mutations in terminus end of BRCA1 are associated
    with greater risk of ovarian cancer
  • BRCA2 mutations clustered in a region in EXON 11
    are more likely to cause ovarian cancer
  • (Gayther et al 1997)

17
Age at onset of hereditary ovarian cancer
  • More likely to be older that breast cancer onset
    in families
  • Where there is a family history present the
    average age at diagnosis is 52.4yrs
  • Compared to the general population average age at
    onset is 59yrs
  • (Lynch et al 1991)

18
Genetic Couselling - Aims
  • To identify individuals at increased risk of
    hereditary cancer
  • To offer interventions and screening to
    individuals fulfilling moderate and high risk
    criteria
  • To offer genetic testing to individuals
    fulfilling high risk criteria
  • To offer support and information

19
Scottish Cancer Genetics Sub -Group Guidelines
  • Published March 2001
  • Uses family history to assess individuals risk of
    ovarian cancer
  • Assessed as
  • High, Medium or Low Risk
  • Moderate Risk - 3/4 times population risk

20
High Risk Criteria
  • An individual in a family with BRCA1, BCRA2,
    hMLH1, hMSH2 or other predisposing gene
  • An untested 1st Degree relative of a gene carrier
  • 1st degree relative with breast and ovarian
    cancer
  • At least one case of ovarian cancer in each
    category

21
Moderate Risk Criteria
  • 2 or more 1st or 2nd degree relatives with
    ovarian cancer (OvCa)
  • 2 or more 1st or 2nd degree relatives with OvCa
    at any age or BrCa under 50yrs
  • 1 OvCa and 2 BrCa diagnosed less than 60yrs on
    same side of the family in 1st or 2nd degree
    relatives or 2nd degree via a male
  • 2 1st or 2nd degree relatives with CRC and an
    endometrial Ca and one with OvCa
  • 1 affected relative with OvCa and HNPCC family
    history
  • At least one case of ovarian cancer in each
    category

22
Low Risk Criteria
  • Anyone not fulfilling moderate or high risk
    criteria
  • information on mode of inheritance
  • risk
  • offer reassurance
  • advice regarding healthy lifestyle
  • option of a consultation with Community
    Gynaecologist (further reassurance or current
    symptoms)

23
Moderate risk counselling
  • Information on risk, mode of inheritance, genes,
    penetrance, other family members risks
  • Screening - ovarian (breast)
  • Provide information on risk modifiers
  • Healthy lifestyle
  • Prophylactic surgery
  • Offer storage of DNA from affected relative

24
High Risk Counselling
  • Same as moderate plus
  • Offer genetic testing of an affected individual
    with the potential to offer presymptomatic
    testing to consultand and wider family
  • Discussion of prophylactic mastectomy

25
Ovarian Screening
  • Offered To Individuals Fulfilling Moderate And
    High Risk Criteria
  • Research based programme (Edinburgh data entry
    to UKCCCR trial)
  • From age 35 or five years under youngest age of
    onset
  • Screening stops at age 65
  • Annual trans-vaginal ultrasound of ovaries
  • Annual CA125 serum tumour marker
  • In combination sensitivity 62-82, specificity
    63-92

26
Ovarian Cancer Screening
  • No screening modalities have been proven to be
    effective to date
  • Varies cohort studies evaluating effectiveness
  • 3 RCT in progress (all postmenopausal women)
  • St Bartholomhews Hospital - CA125 and u/s if
    raised
  • European randomised trial of ovarian cancer
    screening (multicentre) - Trans vaginal u/s
  • USA PLCO trial - Transvaginal u/s CA125

27
Aim of Screening
  • To reduce mortality and morbidity from ovarian
    cancer by detecting it at an earlier stage when
    treatment may be more effective

28
Screening for Ovarian Cancer
  • Advantages
  • may detect early ovarian cancer
  • Disadvantages
  • false positive results (0.4 - 5 )
  • recall rate 19.2 (Karlan et al 1993)
  • unnecessary investigations
  • unproven

29
CA125
  • Cancer antigen
  • elevated levels have been reported in 61-96 of
    all clinically diagnosed epithelial ovarian
    cancers
  • elevated levels also reported in
  • endometrial and pancreatic cancer
  • benign gynaecological conditions (endometriosis,
    fibroids and PID
  • levels of CA125 in healthy women vary with
    menopausal status

30
Familial Ovarian Cancer Screening Clinic
  • Gynaecological data
  • Genetic Information
  • Prophylactic oophorectomy
  • Discussion of advantages disadvantages of
    screening
  • First screen
  • Arrangements for further screening
  • POSTAL SCREENING option of FOCSC appointment as
    needed

31
Psychological Status
  • Women attending FOCSC (Canada)
  • Increased anxiety and depression levels
  • 31 clinically depressed
  • 16 anxious (SSAQ)
  • Almost all the women perceived the programme to
    be valuable
  • (Robinson et al 1996)

32
Diagnostic Surgery
  • most women who are found not to have cancer are
    found to have benign ovarian or gynaecological
    condition
  • potential benefits in this situation are unknown
  • risks are difficult to quantify but may be about
    0.5 - 1 including
  • death
  • bowel or bladder damage
  • infection or excessive bleeding

33
Pernet et al 1992
  • Qualatative study
  • 10/15 women who had surgical intervention
    following false positive results
  • Women were neither distressed or angry by their
    experience
  • Comfort from the belief that surgery rendered
    them invulnerable to ovarian cancer

34
Wardle et al 1994
  • Same cohort as Pernet et al, more cautious
    results
  • More serious adverse response to the combined
    trauma of a false ve result and surgery.
  • RECOMMENDATIONS provision of a counselling
    service attached to screening service.

35
Prophylactic Oophorectomy
  • First documentation was in the 1975.
  • Reduces but does not remove risk of ovarian
    cancer (peritoneal)
  • Optimum age is 45
  • Women have to consider risks of surgery, HRT,
    increase in osteoporosis and cardiac disease

36
Rozario et al 1997 (America)
  • Women with ovarian cancer diagnosis and recorded
    incidence of previous gynaecological surgery or
    abdominal surgery
  • 270/404 cases had previously undergone abdominal
    surgery
  • Depending on age of patient prophylactic
    oophorectomy results in a 4 - 10.9 reduction in
    the incidence of ovarian cancer
  • In order to prevent ovarian cancer in one woman,
    200 to 500 healthy women would have oophorectomies

37
Sruewing et al 1995
  • Women with a family history of OvCa
  • Incidence of peritoneal (ovarian) cancer
    following prophylactic oophorectomy compared to
    incidence of ovarian cancer in women who have not
    opted for oophorectomy
  • 13 fold excess of ovarian cancer in
    oophorectomy group compared to 24 fold increase
    in non-oophorectomy group ( in relation to pop
    risk)
  • Preliminary data suggests oophorectomy gives a
    protective effect against both ovarian and breast
    cancer

38
Laparotomy vs Laparoscopy
  • Benefit of laparotomy is the opportunity to carry
    out a thorough inspection of pelvic and abdominal
    cavities for early disease
  • If previous abdominal or pelvic surgery
    laparoscopy may not be an option
  • Benefits of laparoscopy - shorter recovery
    period, less major surgery

39
Use of HRT following PO
  • In premenopausal women HRT recommended to reduce
    mortality from cardiovascular disease and
    osteoporosis
  • Combined therapy with oestrogen and progesteron
    carries a higher BrCa risk than unopposed
    oestrogen BUT unoppossed oestrogen carries a
    substantial risk of endometrial cancer
  • Therefore best option may be PO combined with
    hysterectomy and followed with low dose oestrogen

40
Use of HRT following PO cont
  • In older women (post menopausal)
  • laparoscopic oophorectomy without HRT may be best
    option
  • Most gynaecologists are reluctant to carry out
    oophorectomy below age 35

41
Summary
  • 5-10 of all ovarian cancers are genetic
  • Known genes
  • BRCA1 and BRCA 2 linked with breast cancer
  • MMR genes linked with HNPCC spectrum
  • Up to 63 lifetime risk of ovarian cancer by age
    70
  • Options for individuals at increase risk include
    screening, prophylactic surgery and or gene
    testing
Write a Comment
User Comments (0)
About PowerShow.com