Thalassemia Intermedia - Cooley`s Anemia Foundation
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Transcript Thalassemia Intermedia - Cooley`s Anemia Foundation
Fertility in Thalassemia
Sylvia Titi Singer, MD
Thalassemia Center
UCSF Benioff Children’s Hospitals
Oakland, CA
June 2014
Why is it more relevant?
Prime goal:
– Seeking better quality of life
Employment, marriage, family
Want to have advance information,
planning
– Currently: infrequent open
discussion of the topic
– Insufficient information
Difficult to plan
increased anxiety, disappointment
Affecting relationships, self image, QOL
Thalassemia Fertility Issues
Iron-induced hypogonadism: A most common
endocrinopathy in thalassemia: 23-55%
Even with presumed adequate chelationhypogonadism and infertility are common
– LIC of at 3-9 mg/gr does not seem to eliminate
reproductive problems
– Iron induced oxidative stress- probably a significant
cause of infertility in thalassemia
Still, consistent chelation since young age maintains hormonal secretion and fertility
Topics to discuss
Causes of infertility
Measures to predict fertility status
Fertility preservation and
treatment/intervention options
Planning pregnancy
Causes of infertility
The Reproductive System and
Hypogonadism
Hypogonadism: Diminished
activity of the gonads
Testes or ovaries
Reduced sex hormone
synthesis: Testosterone
estrogen and impaired
gamete (eggs or sperm)
production
Depending on the degree of
severity, may result in
infertility
Pituitary-Gonadal Axis and Iron
Iron
?
Iron
Pituitary gland very
sensitive to iron
deposition/injury
Iron causes pituitary cell
damage: reduced hormone
synthesis, including LH/FSH
Low or absent stimulation
of gonads: Low Estrogen or
testosterone
Additional direct effect of
iron/oxidative injury on
ovaries and testes?
Pituitary MRI Imaging
Normal
Signal intensity reduction,
Using GRE T2*-weighted
pituitary-to-fat signal
intensity ratio
Iron overload
• Pituitary iron deposition: mostly not reversible
• True Pituitary volume loss
Women
Low LH/FSH low estrogen:
• Primary/Secondary
amenorrhea (no menses) or
irregular menstrual cycle
• Common need for hormonal
treatment for ovulation
induction and pregnancy
Secondary effects of low
estrogen
• low bone density
• Fatigue, mood swings
Measurements of reproductive
potential
Fertility Measures Women
methods for Ovarian Reserve Testing (ORT)
Trans-vaginal Ultrasound: size and number of follicles
(developing eggs) in the ovaries, named AFC = Antral
Follicle Count.
• Affected by LH/FSH -low if pituitary iron
• Helps assessing chance of response to ovulation
induction.
AMH a hormone secreted by the ovaries (blood test)
•A low level of AMH suggests that the ovary may be
depleted of eggs
•Not LH/FSH dependent , therefore, a good prediction of
ovarian follicle pool for thalassemia women
Ultrasound for Follicle Count (AFC)
AFC>12-15
Good potential
50
Normal
A FC
40
Thal
30
20
10
0
25
30
35
A g e (y e a rs )
40
Low4 5
Follicles are low but present
in the majority of thalassemia
women
Represents low FSH/LH
stimulation, but more accurate
AMH (anti Mullerian Hormone)
A good indication of ovarian reserve in thalassemia
AMH pM
150
Thal
normal
100
50
0
25
30
35
40
45
Age (years)
Conclusion:
Most women have preserved ovarian function
Premature decline in function in women >33-35 years
Prevention
and Intervention Options
Interventions/Treatments
Inquire early about
– Referral to reproductive endocrinologist
– Follow hormone levels and ovarian
reserve to predict fertility status:
LH/FSH, estrogen, AMH levels, AFC
– Egg freezing options
– Information on process/cost
Thalassemia team to incorporate in
comprehensive care plan
Pregnancy and Thalassemia
A practical option with intensive care and ovulation
induction therapy
Over 450 pregnancies reported (Major and
Intermedia)
50-75% pregnancies occurred in females with
amenorrhea, required hormonal treatment for
ovulation induction.
Most report term delivery of normal babies
Higher rate of:
– Premature labor
– Low birth weight (~8%)
– No increase in birth defects
Pre-pregnancy recommendations
Pregnancy
– Increased cardiac effort
– Increased iron load
– Risk of cardiac failure
Liver iron: If > 15 mg/gdw delay conception
T2* MRI: If<10 ms delay
Resting and stress echo
Hep C positive: counseling on transmission risk
Chelation issues
Most don’t chelate 1st trimester
Need to chelate! Avoid late pregnancy cardiac issues
Pregnancy Course:
summary of recent reports
90% result in successful delivery
- High incidence of twins
7% had a spontaneous miscarriage
65-75% required hormone induced ovulation
60-70% were delivered by Cesarean section
~25-30% born premature (30-36 wks)
Mean Hb kept at 11.2 g/dL
Ferritin increased 1460 to 2690
Pregnancy Course:
recent reports-Cont.
Mean age for pregnancy 24 to 29.5 years old
Overall cardiac function remained stable: EF 63 61%
Limited information on pre/post T2*
90% of those with high glucose pre pregnancy
developed gestational diabetes, 7% developed glucose
intolerance
No reports of thrombotic cases while pregnant
Splenectomized women received Aspirin during
pregnancy
Men
Low pituitary LH/FSH:
– Low testosterone
– Low sperm count (Oligospermia)
Higher sperm DNA damage
Secondary effects of low
testosterone:
–
–
–
–
Fatigue
Low bone density
Less muscle mass
Delay/low secondary sexual
characteristics
– Low Libido (sexual drive)
Thalassemia Male Fertility
Less is known compare to women
Only a few reports of TM males fathering children
(more on pregnant TM women)
Spermatogenesis more sensitive to iron damage than
ovarian follicle pool
Generally, Male infertility: significant effect of
oxidative damage affects sperm integrity
Iron-induced oxidative injury likely a
significant role in thalassemia sperm
production
Iron load and sperm analysis
Age
Sperm
count
(mill/m
l)
motility
Pituitary
Iron
(R2)
LIC
(mg/
gdw)
LIC
Past
range
Ferritin
(ug/L)
26
178
75
13.5 (nl)
6
5.4-8.2
634(6701100)
26
0
0
17 (high)
23
11-24
4290
(3000-4900)
28*
11
37
-
8.2
7-14
1965
(1524-4000)
nl
>20
>50
Age
dependent
2-7
(?)
*Has a child
<150
Methods to assess/ increase Male Fertility
Conventional sperm test (count, motility, volume )
Sperm DNA fragmentation test -correlates with
fertility
Stimulate own testosterone and therefore more
sperm production.
– HCG: Human chorionic gonadotropine– mimics LH
(can add FSH)
– Clomid (Clomiphene): Also stimulates endogenous
testosterone and sperm synthesis
Recommended ~6 months prior to plan for a child
Treatments for Male Infertility
Significant Advances in methodology
to overcome male infertility:
Sperm Freezing (cryopreservation)
up to 12-15 years
ICSI-Intra Cytoplasmatic Sperm
Injection to overcome low sperm
count
Injection of a single sperm directly
into egg
ICSI
What can Men do to Preserve Fertility
and Know your options?
Maintain low iron levels from early childhood
Keep normal levels of vitamins C and E, Zinc
(protective !)
Supplement with anti-oxidants !
Assess fertility potential:
– Sperm analysis including DNA integrity
– When to change from testosterone to HCG or Clomid
– Special infertility treatments
– sperm freezing
– ICSI
Take home message
Women: Lower follicle than nl count but still present
Need more aggressive early screening and intervention
Younger age better chances for a successful response to
hormonal stimulation (don’t wait for late 30s…)
Men: Spermatogenesis very sensitive to oxidative stress
Consider early sperm freezing
HCG treatment
Both:
•
Keep normal levels of Vitamins C and E, Zinc
Supplement with anti-oxidants
Hematologist: Discuss fertility issues/ preservation
Referral to specialist
•
Reproductive Endocrinology, and Urology
UCSF Medical Center
Marcelle Cedars, MD
James Smith, MD
Deborah Trevithick PNP
Pediatric Clinical Reasearch Center (PCRC)
and thalassemia clinical team at CHRCO
Olivia vega, Nancy Sweeters, Annie Higa
Elliott Vichinsky, MD, Dru Foote, PNP
Ash Lal, MD
Cooley’s Anemia Foundation
Patients and families